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authorRegina König2022-09-07 23:24:55 +0200
committerRegina König2022-09-07 23:24:55 +0200
commit09e1b4fb40878ef29b8ca36b93172fcd89c70883 (patch)
treef731cd63f8a6511d1b1bbad6ed4eb01111e77995
parenthiuhi (diff)
parentRename dir and experiment with cmdline options (diff)
downloadmemtest86-master.tar.gz
memtest86-master.tar.xz
memtest86-master.zip
Merge branch 'master' of git.openslx.org:openslx-ng/memtest86HEADmaster
-rw-r--r--GNU_efi_HelloWorld/.gitignore3
-rw-r--r--GNU_efi_HelloWorld/Makefile49
-rw-r--r--GNU_efi_HelloWorld/Makefile_save36
-rw-r--r--GNU_efi_HelloWorld/example_Makefile96
-rw-r--r--GNU_efi_HelloWorld/gdb_procedure24
-rw-r--r--GNU_efi_HelloWorld/hello.c37
-rwxr-xr-xGNU_efi_HelloWorld/hello.debugbin0 -> 123240 bytes
-rwxr-xr-xGNU_efi_HelloWorld/hello.efibin0 -> 46888 bytes
-rwxr-xr-xGNU_efi_HelloWorld/peinfobin0 -> 27600 bytes
-rw-r--r--bash_experiments/README15
-rwxr-xr-xbash_experiments/cmd_options.sh44
-rwxr-xr-xbash_experiments/gdb_python.py4
-rw-r--r--bash_experiments/just_gdb4
-rwxr-xr-xcreate_debug.sh22
-rw-r--r--documentation/DEBUG statement10
-rw-r--r--documentation/Debugging in Qemu41
-rw-r--r--documentation/GDB commands139
-rw-r--r--documentation/GNU-efi299
-rw-r--r--documentation/QEMU Monitor Commands39
-rw-r--r--documentation/debug statement1
-rw-r--r--documentation/debugcon11
-rw-r--r--documentation/gdb commands19
-rw-r--r--documentation/gdb with efi application0
-rw-r--r--documentation/memtest86_build_process/24_08_22_memtest_build_process244
-rw-r--r--documentation/todo12
-rw-r--r--memtest86+_old/FAQ310
-rw-r--r--memtest86+_old/Makefile88
-rw-r--r--memtest86+_old/README925
-rw-r--r--memtest86+_old/README.background156
-rw-r--r--memtest86+_old/README.build-process39
-rw-r--r--memtest86+_old/bootsect.S383
-rw-r--r--memtest86+_old/build-number.txt1
-rw-r--r--memtest86+_old/build.number1
-rw-r--r--memtest86+_old/build_number.h9
-rw-r--r--memtest86+_old/buildnumber.mak10
-rw-r--r--memtest86+_old/changelog25
-rw-r--r--memtest86+_old/config.c531
-rw-r--r--memtest86+_old/config.h52
-rw-r--r--memtest86+_old/controller.c4155
-rw-r--r--memtest86+_old/controller.h23
-rw-r--r--memtest86+_old/cpuid.c87
-rw-r--r--memtest86+_old/cpuid.h205
-rw-r--r--memtest86+_old/defs.h26
-rw-r--r--memtest86+_old/dmi.c438
-rw-r--r--memtest86+_old/dmi.h7
-rw-r--r--memtest86+_old/elf.h590
-rw-r--r--memtest86+_old/error.c629
-rw-r--r--memtest86+_old/extra.c981
-rw-r--r--memtest86+_old/extra.h27
-rw-r--r--memtest86+_old/head.S847
-rw-r--r--memtest86+_old/init.c1296
-rw-r--r--memtest86+_old/io.h133
-rw-r--r--memtest86+_old/jedec_id.h985
-rw-r--r--memtest86+_old/lib.c1199
-rw-r--r--memtest86+_old/linuxbios.c165
-rw-r--r--memtest86+_old/linuxbios_tables.h89
-rw-r--r--memtest86+_old/main.c1299
-rw-r--r--memtest86+_old/major_version1
-rwxr-xr-xmemtest86+_old/make_buildnum.sh20
-rwxr-xr-xmemtest86+_old/makedos.sh10
-rwxr-xr-xmemtest86+_old/makeiso.sh45
-rw-r--r--memtest86+_old/memsize.c346
-rw-r--r--memtest86+_old/memtest.bin.lds15
-rw-r--r--memtest86+_old/memtest.lds11
-rw-r--r--memtest86+_old/memtest_shared.lds53
-rw-r--r--memtest86+_old/msr.h145
-rw-r--r--memtest86+_old/mt86+_loaderbin784 -> 0 bytes
-rw-r--r--memtest86+_old/mt86+_loader.asm231
-rw-r--r--memtest86+_old/patn.c144
-rw-r--r--memtest86+_old/pci.c177
-rw-r--r--memtest86+_old/pci.h96
-rwxr-xr-xmemtest86+_old/precomp.binbin153868 -> 0 bytes
-rw-r--r--memtest86+_old/random.c38
-rw-r--r--memtest86+_old/reloc.c268
-rw-r--r--memtest86+_old/screen_buffer.c127
-rw-r--r--memtest86+_old/screen_buffer.h20
-rw-r--r--memtest86+_old/self_test.c209
-rw-r--r--memtest86+_old/serial.h162
-rw-r--r--memtest86+_old/setup.S154
-rw-r--r--memtest86+_old/smp.c692
-rw-r--r--memtest86+_old/smp.h366
-rw-r--r--memtest86+_old/spd.c541
-rw-r--r--memtest86+_old/spd.h17
-rw-r--r--memtest86+_old/stddef.h8
-rw-r--r--memtest86+_old/stdin.h52
-rw-r--r--memtest86+_old/stdint.h60
-rw-r--r--memtest86+_old/test.c1549
-rw-r--r--memtest86+_old/test.h346
-rw-r--r--memtest86+_old/version.number1
-rw-r--r--memtest86+_old/vmem.c159
-rw-r--r--test_code/.gitignore3
-rw-r--r--test_code/HelloWorld.c104
-rw-r--r--test_code/Makefile8
-rw-r--r--test_code/OVMF.fdbin4194304 -> 4194304 bytes
-rw-r--r--test_code/OVMF_CODE.fdbin3653632 -> 3653632 bytes
-rw-r--r--test_code/OVMF_VARS.fdbin540672 -> 0 bytes
-rwxr-xr-xtest_code/analyse_hello.sh13
-rwxr-xr-xtest_code/copy_files.sh5
-rw-r--r--test_code/debug.log1417
-rw-r--r--test_code/gdbscripts/gdb_relocation_tests12
-rw-r--r--test_code/gdbscripts/gdbscript (renamed from test_code/gdbscript)204
-rw-r--r--test_code/gdbscripts/memtest_gdbscript10
-rwxr-xr-xtest_code/test.sh13
103 files changed, 1382 insertions, 23330 deletions
diff --git a/GNU_efi_HelloWorld/.gitignore b/GNU_efi_HelloWorld/.gitignore
new file mode 100644
index 0000000..0bf07f1
--- /dev/null
+++ b/GNU_efi_HelloWorld/.gitignore
@@ -0,0 +1,3 @@
+gnu-efi
+*.o
+*.so
diff --git a/GNU_efi_HelloWorld/Makefile b/GNU_efi_HelloWorld/Makefile
new file mode 100644
index 0000000..63deda2
--- /dev/null
+++ b/GNU_efi_HelloWorld/Makefile
@@ -0,0 +1,49 @@
+ARCH = $(shell uname -m | sed s,i[3456789]86,ia32,)
+
+OBJS = hello.o
+TARGET = hello.efi
+TARGET_DEBUG = hello.debug
+
+EFIINC = /usr/include/efi
+EFFINCS = -I$(EFIINC) -I$(EFIINC)/$(ARCH) -I$(EFIINC)/protocol
+EFILIB = /usr/lib
+EFI_CRT_OBJS = $(EFILIB)/crt0-efi-$(ARCH).o
+EFI_LDS = $(EFILIB)/elf_$(ARCH)_efi.lds
+
+CFLAGS = $(EFFINCS) -fno-stack-protector -fpic \
+ -fshort-wchar -mno-red-zone -Wall
+CFLAGS += -ggdb3 -O0 -DEFI_DEBUG=1
+# -DDEBUG
+
+
+ifeq ($(ARCH),x86_64)
+ CFLAGS += -DEFI_FUNCTION_WRAPPER
+endif
+
+LDFLAGS = -nostdlib -znocombreloc -T $(EFI_LDS) -shared \
+ -Bsymbolic -L $(EFILIB) $(EFI_CRT_OBJS)
+
+SECTIONS = .text .sdata .data .dynamic .dynsym .rel .rela .reloc
+
+DEBUG_SECTIONS = .debug_info .debug_abbrev .debug_aranges \
+ .debug_line .debug_str
+
+all: clear $(TARGET) $(TARGET_DEBUG)
+ cp hello.efi ../test_code/hda-contents/
+
+hello.so: $(OBJS)
+ ld $(LDFLAGS) $(OBJS) -o $@ -lefi -lgnuefi
+
+%.efi: %.so
+ objcopy $(foreach sec,$(SECTIONS),-j $(sec)) \
+ --target=efi-app-$(ARCH) $^ $@
+
+%.debug: %.so
+ objcopy $(foreach sec,$(SECTIONS) $(DEBUG_SECTIONS),-j $(sec)) \
+ --target=efi-app-$(ARCH) $^ $@
+
+clear:
+ rm -f *.efi
+ rm -f *.debug
+ rm -f *.o
+ rm -f *.so
diff --git a/GNU_efi_HelloWorld/Makefile_save b/GNU_efi_HelloWorld/Makefile_save
new file mode 100644
index 0000000..6ae963d
--- /dev/null
+++ b/GNU_efi_HelloWorld/Makefile_save
@@ -0,0 +1,36 @@
+ARCH = $(shell uname -m | sed s,i[3456789]86,ia32,)
+
+OBJS = hello.o
+TARGET = hello.efi
+
+EFIINC = /usr/include/efi
+EFFINCS = -I$(EFIINC) -I$(EFIINC)/$(ARCH) -I$(EFIINC)/protocol
+EFILIB = /usr/lib
+EFI_CRT_OBJS = $(EFILIB)/crt0-efi-$(ARCH).o
+EFI_LDS = $(EFILIB)/elf_$(ARCH)_efi.lds
+
+CFLAGS = $(EFFINCS) -fno-stack-protector -fpic \
+ -fshort-wchar -mno-red-zone -Wall
+
+ifeq ($(ARCH),x86_64)
+ CFLAGS += -DEFI_FUNCTION_WRAPPER
+endif
+
+LDFLAGS = -nostdlib -znocombreloc -T $(EFI_LDS) -shared \
+ -Bsymbolic -L $(EFILIB) $(EFI_CRT_OBJS)
+
+all: $(TARGET)
+ cp hello.efi ../test_code/hda-contents/
+
+hello.so: $(OBJS)
+ ld $(LDFLAGS) $(OBJS) -o $@ -lefi -lgnuefi
+
+%.efi: %.so
+ objcopy -j .text -j .sdata -j .data -j .dynamic \
+ -j .dynsym -j .rel -j .rela -j .reloc \
+ --target=efi-app-$(ARCH) $^ $@
+
+clear:
+ rm *.efi
+ rm *.o
+ rm *.so
diff --git a/GNU_efi_HelloWorld/example_Makefile b/GNU_efi_HelloWorld/example_Makefile
new file mode 100644
index 0000000..f62df60
--- /dev/null
+++ b/GNU_efi_HelloWorld/example_Makefile
@@ -0,0 +1,96 @@
+# /phoenix/kernel/boot/Makefile
+#
+# This file is a part of Phoenix operating system.
+# Copyright (c) 2011-2012, Artyom Lebedev <artyom.lebedev@gmail.com>
+# All rights reserved.
+# See COPYING file for copyright details.
+
+include $(PHOENIX_ROOT)/make/makevar.mak
+
+LOADER_BINARY = phoenix.efi
+
+COMPILE_DIR = build
+OBJ_DIR = $(COMPILE_DIR)/$(PHOENIX_TARGET)
+
+SUBDIRS = gnuefi lib lib/runtime lib/x86_64 loader \
+ $(PHOENIX_ROOT)/lib/common $(PHOENIX_ROOT)/lib/elf
+
+EFI_IMAGE = $(OBJ_DIR)/$(LOADER_BINARY)
+EFI_DEBUG_IMAGE = $(OBJ_DIR)/debug.$(LOADER_BINARY)
+ELF_IMAGE = $(OBJ_DIR)/elf_image.so
+
+SRCS = $(foreach dir,$(SUBDIRS),$(wildcard $(dir)/*.S $(dir)/*.c $(dir)/*.cpp))
+
+$(foreach dir,$(SUBDIRS),$(eval vpath %.S $(dir)) $(eval vpath %.c $(dir)) $(eval vpath %.cpp $(dir)))
+
+OBJS = $(foreach src,$(SRCS), \
+ $(OBJ_DIR)/$(patsubst %.cpp,%.o,$(patsubst %.c,%.o,$(patsubst %.S,%.o,$(notdir $(src))))))
+DEPS = $(OBJS:.o=.d)
+
+CFLAGS = $(GLOBAL_C_FLAGS) $(C_STANDARD) -Wno-pointer-sign
+
+CPP_FLAGS = $(GLOBAL_CXX_FLAGS) $(CXX_STANDARD) $(CXX_RESTRICTIONS) \
+ -fno-exceptions -fno-rtti
+
+COMMON_FLAGS = $(GLOBAL_FLAGS) -fpic -Wall -Werror -fshort-wchar \
+ -fno-strict-aliasing -fno-merge-constants -DEFI_FUNCTION_WRAPPER \
+ -mno-red-zone -DCONFIG_x86_64 -DBOOT_LOADER -DEFI_APP \
+ -DKERNEL_ADDRESS=$(KERNEL_ADDRESS)
+
+SECTIONS = .text .sdata .data .dynamic .dynsym .rel .rela .reloc
+DEBUG_SECTIONS = .debug_info .debug_abbrev .debug_loc .debug_aranges \
+ .debug_line .debug_macinfo .debug_str
+
+ifeq ($(PHOENIX_TARGET),RELEASE)
+COMMON_FLAGS += -O2
+else ifeq ($(PHOENIX_TARGET),DEBUG)
+COMMON_FLAGS += -ggdb3 -O0 -DDEBUG -DEFI_DEBUG=1
+else
+$(error Target not supported: $(PHOENIX_TARGET))
+endif
+
+INCLUDE_DIRS = inc inc/protocol inc/x86_64 lib \
+ $(PHOENIX_ROOT)/kernel/sys $(PHOENIX_ROOT)/kernel/sys/arch/$(PHOENIX_ARCH) \
+ $(PHOENIX_ROOT)/include $(PHOENIX_ROOT)/lib/elf
+
+IFLAGS = $(foreach incdir,$(INCLUDE_DIRS),-I$(incdir))
+
+LD_SCRIPT = gnuefi/elf_x86_64_efi.lds
+
+LDFLAGS = -nostdlib -T $(LD_SCRIPT) -shared -Bsymbolic --unresolved-symbols=report-all
+
+.PHONY: all clean
+
+all: $(EFI_IMAGE) $(EFI_DEBUG_IMAGE)
+
+# include dependencies if exist
+-include $(DEPS)
+
+$(EFI_IMAGE): $(ELF_IMAGE)
+ $(OBJCOPY) $(foreach sec,$(SECTIONS),-j $(sec)) --target=efi-app-x86_64 $< $@
+
+$(EFI_DEBUG_IMAGE): $(ELF_IMAGE)
+ $(OBJCOPY) $(foreach sec,$(SECTIONS) $(DEBUG_SECTIONS),-j $(sec)) --target=efi-app-x86_64 $< $@
+
+$(ELF_IMAGE): $(OBJ_DIR) $(OBJS)
+ $(LD) $(LDFLAGS) $(OBJS) -o $@
+
+$(OBJ_DIR)/%.o: %.S
+ $(CC) -DCONFIG_x86_64 -c -o $@ $<
+
+$(OBJ_DIR)/%.o: %.c
+ $(CC) $(IFLAGS) $(COMMON_FLAGS) $(CFLAGS) -c -o $@ $<
+ $(CC) -MM -MT '$@' $(IFLAGS) $(COMMON_FLAGS) $(CFLAGS) -c -o $(@:.o=.d) $<
+
+$(OBJ_DIR)/%.o: %.cpp
+ $(CC) $(IFLAGS) $(COMMON_FLAGS) $(CPP_FLAGS) -c -o $@ $<
+ $(CC) -MM -MT '$@' $(IFLAGS) $(COMMON_FLAGS) $(CPP_FLAGS) -c -o $(@:.o=.d) $<
+
+$(COMPILE_DIR):
+ if [ ! -d $@ ]; then mkdir $@; fi
+
+$(OBJ_DIR): $(COMPILE_DIR)
+ if [ ! -d $@ ]; then mkdir $@; fi
+
+clean:
+ $(RM) -rf $(COMPILE_DIR)
diff --git a/GNU_efi_HelloWorld/gdb_procedure b/GNU_efi_HelloWorld/gdb_procedure
new file mode 100644
index 0000000..2ee853f
--- /dev/null
+++ b/GNU_efi_HelloWorld/gdb_procedure
@@ -0,0 +1,24 @@
+../test_code: ./test.sh --- and run hello.efi
+../test_code: cat debug.log | grep hello -A 5
+ Loading driver at 0x0000657B000 EntryPoint=0x0000657E000
+
+(gdb) file hda_contents/hello.efi
+(gbb) info files
+ ...
+ Entry point: 0x3000
+ 0x0000000000003000 - 0x0000000000008980 is .text
+ ...
+ 0x000000000000a000 - 0x000000000000bd00 is .data
+ ....
+(gdb) file // unload file
+(gdb) add-symbol-file ../GNU_efi_HelloWorld/hello.debug 0x657E000 -s .data 0x6585000
+
+(gdb) b efi_main
+(gdb) b *0x657e260
+(gdb) info b
+
+(gdb) target remote localhost:1234
+(gdb) c
+
+(gdb) layout asm
+(gdb) layout src
diff --git a/GNU_efi_HelloWorld/hello.c b/GNU_efi_HelloWorld/hello.c
new file mode 100644
index 0000000..f135c21
--- /dev/null
+++ b/GNU_efi_HelloWorld/hello.c
@@ -0,0 +1,37 @@
+#include <efi.h>
+#include <efilib.h>
+
+EFI_STATUS
+EFIAPI
+efi_main (EFI_HANDLE ImageHandle, EFI_SYSTEM_TABLE *SystemTable) {
+
+ EFI_LOADED_IMAGE *loaded_image = NULL;
+ EFI_STATUS status;
+
+ InitializeLib(ImageHandle, SystemTable);
+ Print(L"Hello, world!\n");
+
+ status = uefi_call_wrapper(SystemTable->BootServices->HandleProtocol,
+ 3,
+ ImageHandle,
+ &LoadedImageProtocol,
+ (void **)&loaded_image);
+
+ if (EFI_ERROR(status)) {
+ Print(L"handleprotocol: %r\n", status);
+ }
+
+ Print(L"Image base: 0x%lx\n", loaded_image->ImageBase);
+ Print(L"UefiMain: 0x%1x\n", (unsigned long)efi_main);
+
+ DEBUG((D_ERROR, (CHAR8*)"DEBUG_TEST DEBUG_TEST\r\n"));
+
+ DEBUG((D_ERROR, (CHAR8*)"My Entry Point: 0x%08x\r\n",(CHAR16*)efi_main));
+
+/* volatile int wait = 1;
+ while(wait) {
+ __asm__ __volatile__("pause");
+ }
+*/
+ return EFI_SUCCESS;
+}
diff --git a/GNU_efi_HelloWorld/hello.debug b/GNU_efi_HelloWorld/hello.debug
new file mode 100755
index 0000000..eb4117a
--- /dev/null
+++ b/GNU_efi_HelloWorld/hello.debug
Binary files differ
diff --git a/GNU_efi_HelloWorld/hello.efi b/GNU_efi_HelloWorld/hello.efi
new file mode 100755
index 0000000..90ef0e9
--- /dev/null
+++ b/GNU_efi_HelloWorld/hello.efi
Binary files differ
diff --git a/GNU_efi_HelloWorld/peinfo b/GNU_efi_HelloWorld/peinfo
new file mode 100755
index 0000000..4645ea4
--- /dev/null
+++ b/GNU_efi_HelloWorld/peinfo
Binary files differ
diff --git a/bash_experiments/README b/bash_experiments/README
new file mode 100644
index 0000000..995bf9f
--- /dev/null
+++ b/bash_experiments/README
@@ -0,0 +1,15 @@
+Load gdb script from commandline:
+
+gdb --command script.py
+
+
+Automatially load gdb_python-script:
+.gdbinit
+
+source /path/to/hello.py
+source /path/to/foobar.py
+etc, etc
+
+THE solution:
+gnome-terminal -- "gdb -x gdb_python.py" && gnome-terminal -- "qemu-system-x86_64"
+
diff --git a/bash_experiments/cmd_options.sh b/bash_experiments/cmd_options.sh
new file mode 100755
index 0000000..e1b5656
--- /dev/null
+++ b/bash_experiments/cmd_options.sh
@@ -0,0 +1,44 @@
+#!/bin/bash
+
+echo $0
+echo $1
+
+Help() {
+ echo "Add description of the script functions here."
+ echo
+ echo "Syntax: scriptTemplate [-g|h|v|V]"
+ echo "options:"
+ echo "g Print the GPL license notification."
+ echo "h Print this Help."
+ echo "v Verbose mode."
+ echo "V Print software version and exit."
+ echo
+}
+
+Name=World
+
+#
+# The while-done structure defines a loop that executes once for each option
+# in the getopts - option structure. The ":h" string - which requires the quotes
+# - lists the possible input options that will be evaluated by the case - esac
+# structure. Each option listed must have a corresponding stanza in the case statement.
+# exit;; exits from the program without executing any more code even if some
+# exists. The option processing loop is also terminated, so no additional
+# options would be checked
+while getopts ":hn:" option; do
+
+ case $option in
+ h) # display Help
+ Help
+ exit;;
+ n) # Enter a name
+ Name=$OPTARG;;
+ \?) # invalid option
+ echo "Error: Invalid option"
+ echo $option
+ exit;;
+ esac
+
+done
+
+echo "Hello $Name"
diff --git a/bash_experiments/gdb_python.py b/bash_experiments/gdb_python.py
new file mode 100755
index 0000000..e5f5f7e
--- /dev/null
+++ b/bash_experiments/gdb_python.py
@@ -0,0 +1,4 @@
+#!/usr/bin/python
+
+print("khlkjh")
+#gdb.execute("quit")
diff --git a/bash_experiments/just_gdb b/bash_experiments/just_gdb
new file mode 100644
index 0000000..ad2f8e5
--- /dev/null
+++ b/bash_experiments/just_gdb
@@ -0,0 +1,4 @@
+add-symbol-file ~/Memtest/git/memtest86plus_debug/build64/memtest.debug 0x201000
+b main
+info b
+quit
diff --git a/create_debug.sh b/create_debug.sh
new file mode 100755
index 0000000..a807d2c
--- /dev/null
+++ b/create_debug.sh
@@ -0,0 +1,22 @@
+#! /bin/sh
+
+objdump -h memtest_shared
+objdump -h boot/header.o
+objdump -h boot/setup.o
+
+BSS_SIZE=$(size -B -d memtest_shared | grep memtest_shared | tr -s ' ' | cut -d' ' -f3)
+echo $BSS_SIZE
+echo "bss_size: $BSS_SIZE"
+
+#ld --defsym=_bss_size=$(size -B -d memtest_shared | grep memtest_shared | tr -s ' ' | cut -d ' ' -f3) \
+# -shared \
+# --print-memory-usage \
+# --print-output-format \
+# -Bsymbolic \
+# -M \
+# -nostdlib \
+# -T linker_modified.lds \
+# -o memtest_modified.efi \
+# boot/setup.o boot/startup.o boot/efisetup.o app/*.o lib/*.o system/*.o tests/*.o
+
+ld -N --defsym=_bss_size=$BSS_SIZE -T linker_modified.lds boot/header.o boot/setup.o -b elf64-x86-64 memtest_shared -o memtest_modified.efi
diff --git a/documentation/DEBUG statement b/documentation/DEBUG statement
new file mode 100644
index 0000000..eb110ff
--- /dev/null
+++ b/documentation/DEBUG statement
@@ -0,0 +1,10 @@
+
+Library to include:
+#include "Library/DebugLib.h"
+
+DEBUG (("%a: %d\n", _FUNCTION_, _LINE_));
+
+example:
+
+DEBUG((EFI_D_INFO, "My Entry Point: 0x%08x\r\n",(CHAR16*)UefiMain));
+
diff --git a/documentation/Debugging in Qemu b/documentation/Debugging in Qemu
new file mode 100644
index 0000000..6d43b3e
--- /dev/null
+++ b/documentation/Debugging in Qemu
@@ -0,0 +1,41 @@
+#########################################
+# #
+# Ways to debug in Qemu #
+# #
+#########################################
+
+DEBUGCON
+###############
+
+-debugcon file:debug.log -global isa-debugcon.iobase=0x402
+
+SERIAL
+###############
+
+-serial stdio
+ redirects the virtual serial port to the host's terminal i/o
+
+TRACE
+###############
+
+-D ./qemu_log.txt
+-d guest_errors, nochain, exec, in_asm, out_asm, op, op_opt, op_ind, int, cpu, mmu, pcall, cpu_reset, unimp, page
+
+--trace "memory_region*"
+
+MONITOR
+###############
+
+-monitor stdio
+
+or
+
+Ctrl + Alt + 2 (Exit with Ctrl + Alt + 1)
+
+GDB - GNU DEBUGGER
+#####################
+
+-s -S (when starting qemu)
+
+(gdb) target remote localhost:1234
+(gdb) c
diff --git a/documentation/GDB commands b/documentation/GDB commands
new file mode 100644
index 0000000..8411f19
--- /dev/null
+++ b/documentation/GDB commands
@@ -0,0 +1,139 @@
+###################################################################
+###################### #############################
+### GDB COMMANDS ###
+###################### #############################
+###################################################################
+
+QEMU CONFIGURATION
+
+ qemu must be started with "-s" option
+ (shorthand for "-gdb tcp::1234")
+
+#
+# GDB PART
+#
+
+SYMBOL FILES
+ add-symbol-file /path/to/Hello.debug 0x... -s .data 0x...
+
+
+CONNECTION
+ - source gdbscript
+ (if a gdbscript is created, which contains
+ add-symbol-file commandos)
+
+ - target remote localhost:1234
+
+DISCONNECTION
+ - detach
+ break connection with target, target resumes execution
+ GDB Target
+ (RSP Client) (RSP Server)
+ D
+ O------------------------------>O
+ O RSP exchange
+ O<------------------------------O
+ OK
+ -disconnect
+ Simply break connection. Target stays at the point where execution terminated previously
+ Reconnection(target remote): resume debugging at the point where the previous connection was broken
+
+BREAKPOINTS
+
+ - b CoreHandleProtocol || or OutputString
+ - break *0x65fe447 || set breakpoint at address
+ - delete 2 || delete breakpoint no 2
+ - break sampleApp.c:nn=LineNumber
+
+
+INFORMATION
+
+ - info
+ address SYM || Get address for symbol SYM
+ symbol ADDR || Show symbol at specified address
+
+ all-registers || all registers & their contents
+
+ breakpoints
+
+ files || get Entry point + sections
+ files || Names of targets & files being debugged
+
+ functions || all function names in Program
+ functions UefiMain || show where this function occurs
+
+ line
+
+ types [regex] || list all types or with regex
+
+ args || Argument variables of current stack frame
+ locals || local variables of current stack frame
+ variables || all gloabl & static variables
+
+
+CONTROL FLOW
+
+ - c || continue
+ - next || move only one step forward
+ - bt || print back_trace of all stack frames
+ - stop || stop program until it reaches a different source line
+
+FILES (perhaps not applicable when debugging with QEMU)
+
+ - file MemtestEfi.efi || load file ...no debugging symbols found...done
+ - file || unload files
+
+LIST
+
+ - list || list specified function or line
+
+gdb --tui
+ - layout asm
+ - layout reg
+ - layout src
+
+ - tui enable
+ - tui disable
+
+ - next
+
+ - ctrl+x o || change active window
+
+ - ctrl+x 1 || use TUI layout with one window
+ - ctrl+x 2 || use TUI layout with two windows
+
+ - PgUp || scroll the active window one page up
+ - PgDn || scroll the active window one page down
+
+ - Up || scroll the active window one line up
+ - Down || scroll the active window one lin down
+ - Right
+ - Left
+
+ - C+L || refresh the screen
+
+VARIABLES
+ info locals
+ info variables
+ info args
+
+ || Set is the same as print except that the expression's value is not printed
+ || and is not put in the value history.
+ || if your program has a variable width, you get an error if you try to set
+ || a new value with just ‘set width=13’, because GDB has the command set width
+ || To avoid to set silently general variables to invalid values, ALWAYS use
+ || set var x=4
+ print x=4
+ set x=4 or set variable x=4
+ whatis x -> type = double
+
+DISSASEMBLE BINARIES
+ gdb -batch -ex 'file /bin/ls' -ex 'disassemble main'
+ Also, -ex 'set disassembly-flavor intel' before other -exs will result in Intel assembly syntax
+
+ gcc -O0 -ggdb3 -std=c99 -Wall -Wextra -pedantic -o main.out main.c
+ gdb -batch -ex "disassemble/rs myfunc" main.out
+
+
+
+
diff --git a/documentation/GNU-efi b/documentation/GNU-efi
new file mode 100644
index 0000000..40cd91f
--- /dev/null
+++ b/documentation/GNU-efi
@@ -0,0 +1,299 @@
+##################################################################################
+## ##
+## BUILDING HELLOWORLD.EFI WIH GNU-EFI ##
+## ##
+##################################################################################
+
+#################################################################################
+# SUMMARY #
+#################################################################################
+
+Minimal working example:
+
+ hello.c
+---------------------------------------------------------------------------------
+#include <efi.h>
+#include <efilib.h>
+
+EFI_STATUS
+EFIAPI
+efi_main (EFI_HANDLE ImageHandle, EFI_SYSTEM_TABLE *SystemTable) {
+
+ InitializeLib(ImageHandle, SystemTable);
+ Print(L"Hello, world!\n");
+
+ return EFI_SUCCESS;
+}
+
+
+Makefile
+--------------------------------------------------------------------------------
+ARCH = $(shell uname -m | sed s,i[3456789]86,ia32,)
+
+OBJS = hello.o
+TARGET = hello.efi
+
+EFIINC = /usr/include/efi
+EFFINCS = -I$(EFIINC) -I$(EFIINC)/$(ARCH) -I$(EFIINC)/protocol
+EFILIB = /usr/lib
+EFI_CRT_OBJS = $(EFILIB)/crt0-efi-$(ARCH).o
+EFI_LDS = $(EFILIB)/elf_$(ARCH)_efi.lds
+
+CFLAGS = $(EFFINCS) -fno-stack-protector -fpic \
+ -fshort-wchar -mno-red-zone -Wall
+
+ifeq ($(ARCH),x86_64)
+ CFLAGS += -DEFI_FUNCTION_WRAPPER
+endif
+
+LDFLAGS = -nostdlib -znocombreloc -T $(EFI_LDS) -shared \
+ -Bsymbolic -L $(EFILIB) $(EFI_CRT_OBJS)
+
+all: $(TARGET)
+
+hello.so: $(OBJS)
+ ld $(LDFLAGS) $(OBJS) -o $@ -lefi -lgnuefi
+
+%.efi: %.so
+ objcopy -j .text -j .sdata -j .data -j .dynamic \
+ -j .dynsym -j .rel -j .rela -j .reloc \
+ --target=efi-app-$(ARCH) $^ $@
+
+-----
+Now expanded version in git
+
+Get ImageBase:
+ Run ./test.sh and then hello.efi...this prints ImageBase
+
+Get Offsets:
+ GDB
+ file hello.efi
+ -> get text and data offset
+ file
+ add-symbol-file hello.efi (ImageBase+text-off) -s .data (ImageBase+data-off)
+
+
+#################################################################################
+# https://wiki.osdev.org/GNU-EFI #
+#################################################################################
+
+GNU-EFI is a very lightweight developing environment to create UEFI applications.
+It is a set of libraries and headers for compiling UEFI applications with a
+system's native GCC.
+
+You can use host native compiler, then convert resulting ELF into UEFI-compatible
+PE.
+ OR
+Use GCC Cross-Compiler generating PE directly.
+
+*********************************************************************************
+* $ git clone https://git.code.sf.net/p/gnu-efi/code gnu-efi *
+* $ cd gnu-efi *
+* $ make *
+*********************************************************************************
+
+This should create
+* crt0-efi-x86_64.o:
+ A CRT0 (C runtime initialization code) that will call the
+ "efi_main" function
+
+* libgnuefi.a:
+ A library containing a single function (_relocate)
+ that is used by the CRT0
+
+* (optional) libefi.a:
+ A library containing convenience functions like CRC computation, string
+ length calculation, and easy text printing
+
+HEADERS can be used from:
+* /usr/include/efi (updated to the latest)
+* from EDK2 package
+* Or from gnu-efi/inc
+
+LINKER SCRIPT:
+* gnu-efi/gnuefi/elf_x86_64_efi.lds
+ OR
+* /usr/lib/elf_x86_64_efi.lds
+
+COMPILATION:
+$ gcc
+ -Ignu-efi-dir/inc || set this to the efi headers directory
+
+ -fpic || UEFI PE executable must be relocatable
+
+ -ffreestanding || there's no hosted gcc environment,
+ we don't have libc
+ -fno-stack-protector =
+ -fno-stack-check || stack must be strictly used,
+ || no additional canaries or
+ || pre-allocated local variable
+ || space allowed
+ -mno-red-zone =
+
+ -fshort-wchar || It is very important that UEFI
+ || uses 16bit characters
+ || (wide-characters or wchar_t,
+ || defined as CHAR16 in efi headers
+
+ -maccumulate-outgoing-args || function calls must include the
+ || number of argumnets passed to the
+ || functions
+
+ -c main.c -o main.o
+
+LINKING:
+$ ld -shared -Bsymbolic -Lgnu-efi-dir/x86_64/lib -Lgnu-efi-dir/x86_64/gnuefi \
+ -Tgnu-efi-dir/gnuefi/elf_x86_64_efi.lds \
+ gnu-efi-dir/x86_64/gnuefi/crt0-efi-x86_64.o \
+ main.o -o main.so -lgnuefi -lefi
+
+ -shared -Bsymbolic || tell GNU ld to create so (shared library)
+
+ -L and -T || Where to find the static GNU-EFI libraries
+ || (.a) and the linker script
+
+ .o || it is important to specify crt0 as the
+ || first. Should work as the last too, but
+ || some had problems
+
+ -l || linking with gnuefi is a must, as that
+ || contains the relocation code. Linking
+ || with efi is optional, but recommended
+
+CONVERT CHARED OBJECT TO EFI EXECUTABLE
+$ objcopy -j .text -j .sdata -j .data -j .dynamic -j .dynsym -j .rel -j .rela -j .rel.*
+ -j .rela.* -j .reloc --target efi-app-x86_64 --subsystem=10 main.so main.efi
+
+ -j || which sections to keep during convertion
+
+ --target efi-app-x86_64 || tells objcop to generate a PE32+ format,
+ || with architecture code 0x8664
+
+ --subsystem=10: || most important. Sets file type to UEFI
+ || executable in the PE header
+
+Now you can copy main.efi to your EFI System Partition, and after boot run it
+from the EFI Shell. Or you can rename it to EFI\BOOT\BOOTX64.EFI and it should
+be executed automatically on boot.
+
+
+LIBEFI.A
+
+Has wrappers for the most common UEFI functions, but you might need to call
+something not covered. For completeness, it provides:
+
+uefi_call_wrapper(func, numarg, ...);
+
+For example, the "Print" function used in our main.c and which accepts printf
+compatible arguments, is under the hood nothing else than a call to:
+
+uefi_call_wrapper(ST->ConOut->OutputString, 2, ST->ConOut, buffer);
+
+The biggest advantage of 'uefi_call_wrapper_ is that doesn't matter what ABI
+your gcc is using, it will always correctly translate thet into UEFI ABI. If,
+and only if you've used the correct gcc options, then you should be able to
+make the same call as:
+
+ST->ConOut->OutputString(ST->ConOut, buffer);
+
+
+#################################################################################
+# https://wiki.osdev.org/Debugging_UEFI_applications_with_GDB #
+#################################################################################
+
+Makefile at:
+https://sourceforge.net/p/ast-phoenix/code/ci/master/tree/kernel/boot/Makefile#l72
+
+EFI firmware is unable to launch binaries with debug sections. What you need is
+to create two EFI binaries - one with only required sections to upload it to
+target system and another one with debug symbols to use with GDB. Actually you
+just need to run objcopy utility twice with different set of sections to copy and
+different output files. (See Makefile example)
+
+To load image with symbols to relocated addresses for .text and .data sections,
+you need to add ImageBase address to their offsets:
+
+*********************************************************************************
+* # gdb hello.efi *
+* (gdb) info files *
+* ... *
+* Entry point: 0x3000 *
+* 3000 - ... is .text *
+* c00 - ... is .data *
+* (gdb) file || unload file *
+* add-symbol-file hello.efi (ImageBase+text-off) -s .data (ImageBase+data-off) *
+*********************************************************************************
+
+#################################################################################
+# https://www.rodsbooks.com/efi-programming/hello.html #
+#################################################################################
+
+You should not normally include regular C header files, such as stdlib.h,
+because most of these header files define data types and functions that are used
+by the C library. This library is not available in EFI.
+
+************************************
+* efi.h and efilib.h always needed *
+************************************
+
+Entry point: efi_main() in GNU-efi
+
+CFLAGS:
+* -fno-stack-protector:
+ Stack protection isn't suppoerted by EFI, so there's no point in
+ building a binary with this feature active.
+
+* -fpic:
+ EFI requires that code be position-independet, hence the use
+ of this option.
+
+* -fshort-wchar:
+ GCC defines the wchar_t type to be 32 bits by default, but EFI requires
+ it to be 16 bits for 16-bit strings to work correctly.
+
+* fmno-red-zone:
+ On x86-64 systems, the red zone is an area that follows the stack pointer
+ that can be used for temporary variables. The EFI may modify this area,
+ though, so it's not safe to use, and you must compile EFI binaries with
+ this option.
+
+* -Wall:
+ When developing EFI applications, you might want to pay extra attention to
+ compiler warnings, and this switch (which causes warnings to be treated as
+ errors) can help.
+
+* -DEFI_FUNCTION_WRAPPER:
+ This option is required on the x86_64 platform, but is not defined on the
+ 32-bit x86 platform. It relates to th calling conventions for EFI functions,
+ described on the Using EFI Services page.
+
+LDFLAGS:
+* -nostdlib:
+ An EFI application should not be linked against standard libraries, and this
+ argument accomplishes this goal.
+
+* -nocombreloc:
+ This argument causes the linker to not combine relocation sections.
+
+* -T $(EFI_LDS):
+ To create an EFI binary, a non-standard linker script must be used, and this
+ option tells ld where to find it.
+
+* -shared:
+ Even with GNU-EFI's new linker script, ld can't create the final executable.
+ Instead, it creates a shared library, which is subsequently
+ turned into the final binary.
+
+* -Bsymbolic:
+ This option causes references to global symbols to be bound to the
+ definitions within the shared library.
+
+
+
+
+
+
+
+
+
+
diff --git a/documentation/QEMU Monitor Commands b/documentation/QEMU Monitor Commands
new file mode 100644
index 0000000..bae7cf7
--- /dev/null
+++ b/documentation/QEMU Monitor Commands
@@ -0,0 +1,39 @@
+####################################################################
+#################### ###################
+### QEMU MONITOR COMMANDS ###
+#################### ###################
+####################################################################
+
+1. START QEMU MONITOR
+
+ - within viewer:
+ Ctrl + Alt + 2
+ exit with Ctrl + Alt + 1
+
+ - as QEMU parameter to get monitor in terminal:
+ -monitor stdio
+
+2. GET HELP
+
+ help
+ help info
+ help list
+
+3. SCROLL
+
+ Ctrl + PgUp/PgDown
+
+4. GDBSERVER
+
+ starts a remote session for the GNU debugger (gdb)
+ To connect to it from the host machine,
+ $gdb qemuKernelFile
+ target remote localhost:1234
+
+5. SHOW REGISTERS
+
+ info registers
+
+ eax = 32bit
+ rax = 64bit
+ rip = memory address of the next instruction to execute
diff --git a/documentation/debug statement b/documentation/debug statement
deleted file mode 100644
index a8e192c..0000000
--- a/documentation/debug statement
+++ /dev/null
@@ -1 +0,0 @@
-DEBUG (("%a: %d\n", _FUNCTION_, _LINE_));
diff --git a/documentation/debugcon b/documentation/debugcon
new file mode 100644
index 0000000..5d914f5
--- /dev/null
+++ b/documentation/debugcon
@@ -0,0 +1,11 @@
+#########################
+# #
+# DEBUGCON #
+# #
+#########################
+
+for debug already in early bootphases
+One can connect the I/O port to either a file or a device, like /dev/stdout
+ - debugcon /dev/stdout (terminal that started Qemu process)
+ - debugcon file:qemu/debug.log (or other file name)
+
diff --git a/documentation/gdb commands b/documentation/gdb commands
deleted file mode 100644
index 85bf88e..0000000
--- a/documentation/gdb commands
+++ /dev/null
@@ -1,19 +0,0 @@
-GDB COMMANDS
-============
-
-qemu must be started with "-s" option (shorthand for "-gdb tcp::1234")
-
-source gdbscript
-
-file MemtestEfi.efi || load file
-info files || get Entry point + sections
-file || unload files
-
-b CoreHandleProtocol | or OutputString
-
-target remote localhost:1234
-
-c
-bt || print back_trace of all stack frames
-stop || stop program until it reaches a different source line
-list || list specified function or line
diff --git a/documentation/gdb with efi application b/documentation/gdb with efi application
deleted file mode 100644
index e69de29..0000000
--- a/documentation/gdb with efi application
+++ /dev/null
diff --git a/documentation/memtest86_build_process/24_08_22_memtest_build_process b/documentation/memtest86_build_process/24_08_22_memtest_build_process
new file mode 100644
index 0000000..fc8f33c
--- /dev/null
+++ b/documentation/memtest86_build_process/24_08_22_memtest_build_process
@@ -0,0 +1,244 @@
+
+Linker scripts:
+ memtest_shared.lds
+ memtest_efi.lds
+boot/
+ header.S || The standard EFI header
+ setup.S
+ efisetup.c || Macros + private functions
+ || Only for 32-bit boot entry point???
+ startup64.S
+
+*.c files in app/, lib/, system/, tests/
+
+##########################################################################
+## ##
+## MEMTEST LINKING PART 1 - MEMTEST_SHARED ##
+## ##
+##########################################################################
+
+#
+# memtest_shared.lds
+#
+
+OUTPUT_FORMAT("elf64-x86-64")
+
+ENTRY(startup64); <--------- in startup64.S
+
+SECTIONS {
+ .text : {
+ _start = .; <---------- First section in memtest_shared-.text
+ *(.text)
+ *(.text.*)
+ ...
+
+ .rodata
+ .dynsym
+ .dynstr
+ .hash
+ .gnu.hash
+ .dynamic
+
+ .rela.text
+ .rela.rodata
+ .rela.data
+ .rela.got
+ .rela.plt
+
+ .data
+ .got
+ .bss
+
+#
+# startup64.S
+#
+118: .globl startup64
+119: startup64:
+120: cld
+121: cli
+
+ # Save the boot params pointer
+125: movq %rsi, boot_params_addr(%rip)
+
+127: jmp startup
+
+143: .globl startup
+144: startup:
+ Use startup stack until we pick a correct one
+ Pick the correct stack
+ Initialize the pml4 and pdp tables
+ Set the page directory base address
+ Initialise the GDT and the segment registers
+ Load the GDT and the segment registers
+ Initialise the IDT
+ Initialise the IDT descriptor
+ Zero the BSS (if first boot)
+ Initialise the FPU
+ Enable SSE
+ Call the dynamic linker to fix up the addresses in the GOT
+
+268: call reloc <---------------- system/reloc64.c:151
+ get_load_address()
+ get_dynamic_section_offset()
+ get_dynamic_info()
+ do_relocations
+
+276: call main <---------------- app/main.c:499 # main entry point called from the startup code
+
+#
+# Analysis of the binary
+#
+
+* objdump -h memtest_shared
+ .text ... File off Algn
+ 00200000 2**4
+
+* objdump -g memtest_shared | grep efi_setup # check for occurences
+ | grep efi_handover
+
+* readelf -h memtest_shared
+ ELF Header:
+ Magic: 7f 45 4c 46 02 01 01 00 00 00 00 00 00 00 00 00
+ Class: ELF64
+ Data: 2's complement, little endian
+ Version: 1 (current)
+ OS/ABI: UNIX - System V
+ ABI Version: 0
+ Type: DYN (Shared object file)
+ Machine: Advanced Micro Devices X86-64
+ Version: 0x1
+ Entry point address: 0x200 <-----------------That's startup64 !!!
+ Start of program headers: 64 (bytes into file)
+ Start of section headers: 2821656 (bytes into file)
+ Flags: 0x0
+ Size of this header: 64 (bytes)
+ Size of program headers: 56 (bytes)
+ Number of program headers: 3
+ Size of section headers: 64 (bytes)
+ Number of section headers: 26
+ Section header string table index: 25
+
+* objdump -d memtest_shared
+ memtest_shared: file format elf64-x86-64
+
+ Disassembly of section .text:
+
+ 0000000000000000 <_start>:
+ 0: cld
+ 1: cli
+
+ 9f: ljmp *-0x6(%rsp)
+
+ 00000000000001e0 <efi_boot>:
+
+ 1ed: jmp 210 <efi_handover>
+
+ 0000000000000200 <startup64>:
+
+ 202: mov %rsi,0x23df7(%rip) # 2400 <boot_params_addr>
+ 209: jmp 220 <startup>
+
+ 0000000000000210 <efi_handover>:
+
+ 214: callq 68f <efi_setup>
+ 219: mov %rax,0x23de0(%rip) # 2400 <boot_params_addr>
+
+ 0000000000000220 <startup>:
+
+ 2ce: ljmp *-0x6(%rsp)
+
+
+
+##########################################################################
+## ##
+## MEMTEST LINKING PART 2 - MEMTEST.EFI ##
+## ##
+##########################################################################
+
+#
+# memtest_efi.lds
+#
+OUTPUT_FORMAT("binary")
+
+ENTRY(boot); <----- in boot/header.S:36
+
+SECTIONS {
+ .header : { <----- boot/header.S
+ *(.header)
+ }
+ .setup : { <----- boot/setup.S
+ *(.setup)
+ }
+ .text : {
+ _text_start = .;
+ *(.data) <----- !!! NO .text !!!!
+ ...
+
+#
+# header.S
+#
+The EFI loader loads the header at ImageBase, so we have to locate the main program
+after that. This means we can't load the main program at HIGH_LOAD_ADDR. Pick a load
+address well away from HIGH_LOAD_ADDR, to avoid overlap when relocating code.
+
+. # define IMAGE_BASE 0x200000
+. # define BASE_OF_CODE 0x1000 <- where do these values come from?????
+
+ .section ".header", "ax", @progbits
+ .code16
+
+ .globl boot
+
+boot:
+ "MZ", the MS-DOS header signature
+ .byte 0x4d
+ .byte 0x5a
+
+pe_header:
+
+coff_header:
+
+...
+
+#
+# setup.S
+#
+Collects memory map information from the BIOS, disables APM, enables A20 and performs
+the switch from real mode to protected mode before jumping to the main program entry
+point.
+
+The memory map information is stored in the 4KB block of memory immediately following
+the setup code. The layout of the information matches the Linux boot_params struct.
+A pointer to this block is passed to the main program, for compatibility with the Linux
+32-bit boot protocol.
+
+. # define BOOT_PARAMS_START (SETUP_SECS * 512) || SETUP_SEC is defined in boot.h
+. # define BOOT_PARAMS_END (BOOT_PARAMS_START + 4096) <--- here are the 4K
+
+ .section ".setup", "ax", @progbits
+ .code16
+
+Emulate the Linux boot header, to allow loading by other boot loaders. Indicate that the
+main program code should be loaded in high memory.
+
+ .globl setup
+setup: jmp do_setup
+
+101: do_setup:
+ Reload the segment registers, except for the stack
+ Get the memory map and disable APM
+ Disable interrupts
+ Enable A20
+ ...
+
+179: flush:
+ Reload the segment registers and jump to the main test program <------------!!!!
+
+ ...
+188: jump:
+ data32 ljmp $KERNEL_CS, $0
+
+
+
+389: Pad to the declared size
+ .org (ESTUP_SECS*512)
diff --git a/documentation/todo b/documentation/todo
deleted file mode 100644
index 5238731..0000000
--- a/documentation/todo
+++ /dev/null
@@ -1,12 +0,0 @@
-
-- gdb breakpoint
-
-- debug Symbole Memtest
-
-- AddressSanitizer
-
-- make vs make run
-
-- plugin to handle lto object
-
-- debug information by DEBUG ((---))
diff --git a/memtest86+_old/FAQ b/memtest86+_old/FAQ
deleted file mode 100644
index 3c2a01c..0000000
--- a/memtest86+_old/FAQ
+++ /dev/null
@@ -1,310 +0,0 @@
-- What is memtest86+, what do I use it for?
-
- Memtest86+ is a utility designed to test whether your memory is in working
- order. It repeatedly writes an enormous amount of different patterns to all
- memory locations and reads them back again and verifies whether the result
- of the read is the same as what was written to memory.
-
- There can be a multitude of reasons for running memtest, but foremost of all
- is of course to test whether your memory modules might be bad. Whenever you
- suspect your modules to be bad because of system crashes, lockups or reboots
- it would be nice to know whether the modules are in working order.
- Memtest86+ is a utility which tries to answer that question for you.
-
- Another common use exists in the overclocking scene. When overclocking a
- system you are essentially pushing your system to the limits and at some
- point it will simply give way and break. Unfortunately there isn't a clear
- cut way of deciding whether a system is still working correctly. Because of
- the complexity of a computer a system which is pushed to the limits doesn't
- just break completely when it starts to fail, instead little errors start
- showing up in many different places in the system growing more frequent and
- widespread the more the system is pushed. Each one of these little errors
- can lead to a crash of your system but can also go unnoticed for days or
- weeks in a running system. The art so to speak of overclocking is thus to
- push the system as far as it can go without introducing any such errors. As
- memory is usually one of the first places these such errors start coming up
- a memory test is very useful.
-
-- How do I get it to run?
-
- There are several ways to use memtest, which are described below:
-
- + Run from floppydisk
-
- Memtest86+ is directly executable by any modern x86 compatible machine, by
- writing the bootable binary to a floppy disk one can boot from the disk to
- run memtest.
-
- Simply download the appropriate package, the Pre-Compiled Bootable Binary
- (.gz) package for Linux users and the Pre-Compiled package for Floppy (DOS
- - Win) for Windows users.
-
- For Windows, unzip the package into a directory like C:\memtest, insert a
- blank floppy into your a: disk drive and run the install.bat file. As the
- install prompts you, to use memtest directly, leave the disk in the drive
- and reboot your machine.
-
- For Linux, unpack the package into your home directory, insert a blank
- floppy into your floppy drive and execute 'dd if=~/memtest+-1.xx.bin.gz
- of=/dev/fd0 conv=osync' replacing 1.xx with the correct version number of
- the memtest86+ you downloaded. To run memtest immediately reboot your
- machine.
-
- Your machine should now boot from the disk, display the word Loading
- folowed by a series of periods and then show a screen much like the
- screenshots on the memtest86+ web page. The test is automatically started.
-
- If your machine simply boots back into Windows/Linux you will most likely
- have to configure your BIOS to attempt to boot from floppy disk on
- startup, refer to your computer's/mainboard's manual how to do this.
-
- When you are done testing simply remove the floppy and reset your
- computer, if ever you want to execure the test again simply reinsert the
- disk and reboot/start your computer.
-
- + Run from CD
-
- Memtest86+ is directly executable by any modern x86 compatible machine, by
- writing the iso to a CD one can boot from the CD to run memtest.
-
- Simply download the appropriate package, the Download - Pre-Compiled
- Bootable ISO (.gz) for Linux users and the Pre-Compiled Bootable ISO
- (.zip) for Windows users.
-
- For Windows, unzip the package into a directory like C:\memtest. You will
- now see a file called memtest86+-1.xx.iso in this directory. You will need
- to burn this file to a CD with a CD recording program. Do note however
- that you should not make a regular data CD on which you for instance write
- your text documents and holiday photographs. Instead the iso file is a so
- called image of a CD, it is a direct copy of a CD. Your CD recording
- program will most likely have a feature called burn image or something to
- that effect which you should use to burn the CD.
-
- For linux, unzip the package into your home directory. and execute
- 'cdrecord dev=<your burner> ~/memtest86+-1.xx.iso' where you replace <your
- burner> with the scsi address of your CD burner and replace 1.xx with the
- correct version number of the memtest86+ your downloaded.
-
- When the burning completed your drive will most likely have ejected the CD
- and you should have a bootable memtest86+ CD. To run the test directly
- reinsert the CD and reboot your machine.
-
- Your machine should now boot from the CD, display the word Loading folowed
- by a series of periods and then show a screen much like the screenshots on
- the memtest86+ web page. The test is automatically started.
-
- If your machine simply boots back into Windows/Linux you will most likely
- have to configure your BIOS to attempt to boot from CD-ROM drive on
- startup, refer to your computer's/mainboard's manual how to do this.
-
- When you are done testing simply remove the CD and reset your computer, if
- ever you want to execure the test again simply reinsert the CD and
- reboot/start your computer.
-
- + Run from USB Flash drive
-
- FIXME
-
- + Run from boot manager
-
- FIXME
-
-- How long does memtest86+ run? How do I stop it?
-
- Memtest86+ runs indefinately unless you stop it. It does however repeat the
- same tests over and over again. Memtest86+ contains a number of different
- tests which each take different approaches in trying to expose any errors in
- your memory. In the top right of your screen you can see the progress of
- each test in the lower of the two progress bars. The topmost progress bar
- shows the progress of a pass, each pass consists of all the tests in the
- memtest suite.
-
- Thus all tests are executed in one pass, so does that mean that no errors
- will show after the first pass if that pass didn't reveal any errors? Well
- no, there are several reasons why errors might only show up after a number
- of passes. Firstly as of this writing, the latest version of memtest also
- includes a test which uses random test patterns, each pass these patterns
- will of course be different. Secondly some types of errors simply don't show
- up until the system has been running for a while or are very critical on a
- certain timing condition, or other such conditions.
-
- To conclude, one successful pass of memtest will give you a pretty good idea
- that your memory is ok, only in rare cases will there be errors showing
- after the first pass. To be sure though simply have the test run overnight
- or even for a couple of days depending on the level of importance of the
- system.
-
-- How many errors are acceptable?
-
- No errors are acceptable. Even if there is just one error, something is
- amiss which can cause your system to crash. Of course what the cause of the
- errors is you will still have to determine.
-
-- What do I do when I get errors?
-
- Firstly, don't start drawing any conclusions. You only know that memtest86+
- is giving your errors, not what the cause is. Unfortunately it is not a
- straightforward exercise to decisively test the memory in an actual system.
- This is because a computer is not just built up of some memory, but also
- includes many other elements such as a memory controller, cache, a cache
- controller, algorithmic and logic units, etc, all of which contribute to the
- machine. If there are faults in any of these other parts of the computer you
- will likely also see errors showing up in memtest.
-
- So what to do? First verify that the BIOS settings of your machine are
- correctly configured. Look up the memory timing settings applicable to the
- brand and type of memory modules you have and check they match your BIOS
- settings, correct them if they don't and run memtest again
-
- Ok, you have all the settings correctly set and you're still getting errors.
- Well of course a very likely cause are the memory modules and the logical
- course of action is to look into them further.
-
- If you are well stocked, have a few other machines at your disposal, or just
- want to spend the cash for some new modules the best way to test if the
- cause are your memory modules is just to replace them and test again. If you
- are less fortunate though there is still something you can do.
-
- If you have more then one module in your system, test them one by one, if
- one is consistently giving errors and another is consistently showing no
- errors it's a pretty good bet that the module giving the errors is simply
- defective. To exclude the possibility that a defective slot is throwing your
- results, use the same slot to test each different module.
-
- If each module by itself shows no errors, but when you place two or more
- modules into the machine at the same time you do get errors, you are most
- likely stuck with a compatibility issue and unfortunately there isn't a
- whole lot you can do about it. Be sure to check your computer/motherboard
- manual to see if the setup you are trying is allowed, some boards require
- special restrictions in the sizes of modules, the order of modules, the
- placement of double sided and single sides modules and more of such things.
-
- If you have only one module in your system, or all modules are giving
- errors, there are only very few options left. The only thing you can do
- really is to try the module(s) in another slot. Finally simply try out
- different orders of the memory modules, although your manual might not
- mention anything on the matter sometimes there simply exist timing or other
- issues which can be resolved by changing the order of your modules. And of
- course test each slot by putting a single module into that slot and running
- memtest on it.
-
- In the end if you still have not been able to localize the problem you will
- have to find a replacement module to establish whether the problem lies in
- your modules. See if you can borrow a module from someone else.
-
- When you have replaced the memory by new memory and the errors still
- persist, first check if you can rule out any compatibility issues or timing
- issues. If you are sure the memory should work in the system the cause of
- the errors must obviously lie someplace else in the system.
-
- The only way to find out where, is by trial and error really. Simply start
- replacing and/or removing parts of your computer one by one, running memtest
- each time you changed anything, until the errors are resolved.
-
-- I'm getting errors in test #x, what doest that mean?
-
- Interpreting memtest results is as scientific an endeavour as testing
- whether a person is a witch by the methods used in Monty Python's Holy
- Grail. In short, don't even start, it's not going to get you anywhere. Just
- interpret any error as you should any other and use the methods descibed in
- the previous question to determine the cause.
-
-- I'm getting errors in test #5 and/or #8 and have read a lot about it.
-
- Yes there are just about enough discussions on the topic to fill a book, but
- it all boils down to the answer given above. The only thing that can be said
- is that many a times, when memory latencies are incorrectly set in the BIOS
- you will experience errors in test #5 and #8. (Though #8 does not exist
- anymore as of version 1.40 and might be reinstated as a different test in a
- later version.) This does however NOT mean that errors in these tests are
- always the cause of incorrect settings, your memory might just as well be
- defective.
-
-- I'm getting errors in memtest on one machine, but not when I put the same
- memory in another, what does that mean?
-
- It can mean one of two things:
- - The machine that is giving the errors is defective. Errors don't just
- orginate from the memory module itself, but can also be caused by
- defects in the cpu, chipset, motherboard, PSU and even by timing issues
- introduced by any other component in the machine.
- - The machine giving the errors is imposing stricter timing than the other
- which the memory module simply can't cope with. If the module should
- work with the machine according to its specifications then it most
- likely is defective.
-
-- Which memory is tested?
-
- As much as possible of the system memory is tested. Unfortunately memtest86+
- can usually not test all of the memory. The reason for this is that todays
- processors have become so complex that they require a small amount of memory
- to keep accounting data of the processor state. If memtest were to write
- over these areas the state of the processor becomes invalid and it's
- behaviour unpredictable. Alas it is also impossible to relocate these areas
- in the memory.
-
- This means that a small area of your memory can not be tested by memtest. If
- this part of the memory is defective you will know soon enough though as the
- processor, or parts of the processor simply won't work correctly if this
- part of your memory is defective. Do realise though that in very rare cases
- memtest will show no errors even though the module is defective, not because
- memtest can't detect the error, but because memtest can't test the area the
- error is located in.
-
-- When I select BIOS-ALL I get many errors / my machine crashes.
-
- This is normal. With todays computers this option should never be selected.
- See the previous question about the reason for the errors.
-
-- I want to use memtest on a multiboot CD, how do I do this?
-
- This is of course very dependent on which boot loader you use for your CD.
- Below is a description of how to set up a multiboot CD including memtest+
- with isolinux, if you have experience with any other bootloader(s) please
- consider writing a small description of using memtest with that bootloader
- for the FAQ.
-
- -isolinux
-
- For general instructions on how to make a bootable CD with isolinux see
- the syslinux website and the manual. What you need to do to get memtest
- working is as follows.
-
- Download the Pre-Compiled Bootable Binary, the .gz if you are working
- under linux, the .zip if you are working under windows. Unpack the file
- from the package and rename it to an 8.3 filename with an extension other
- than .bin, renaming to memtest. (without an extension) is a good choice.
-
- Put the file somewhere in your CD directory structure, for example in
- images/memtest and edit your config file to include the following:
-
- label memtest
- kernel /images/memtest
-
- If you want to boot memtest automatically insert or change a line at the
- top to:
-
- default memtest
-
- If you want to display a prompt from which you can start memtest add or
- change the lines at the top to: (Change the timeout to suit your needs)
-
- prompt 1
- timeout 200
-
-- If memtest86+ shows no errors does that mean my memory is not defective?
-
- Of course no answers are definitive, no matter how good memtest86+ will
- eventually become there is always the possibility that a particular type of
- error will go unnoticed. As long as you are having no problems with the
- system it will be pretty safe to say that the modules are good. If you are
- having problems with the system however you will just have to check by trial
- and error, ie swapping the modules for new ones and/or testing with modules
- of a different brand/type.
-
-- When I run install.bat it doesn't write anything to floppy.
-
- You most likely have unpacked the memtest+-2.xx.floppy.zip file into a
- folder with a long pathname and/or containing + and - signs. It seems
- rawrite doesn't like that. Just move the files you unpacked to a directory
- like c:\memtest and execure it from there.
diff --git a/memtest86+_old/Makefile b/memtest86+_old/Makefile
deleted file mode 100644
index 9295258..0000000
--- a/memtest86+_old/Makefile
+++ /dev/null
@@ -1,88 +0,0 @@
-# Makefile for MemTest86+
-#
-# Author: Chris Brady
-# Created: January 1, 1996
-
-
-#
-# Path for the floppy disk device
-#
-FDISK=/dev/fd0
-
-AS=as -32
-CC=gcc
-
-CFLAGS= -Wall -Werror -march=i486 -m32 -O1 -fomit-frame-pointer -fno-builtin \
- -ffreestanding -fPIC $(SMP_FL) -fno-stack-protector
-
-SELF_TEST_CFLAGS = -Wall -Werror -march=i486 -m32 -O1 -g
-
-OBJS= head.o reloc.o main.o test.o init.o lib.o patn.o screen_buffer.o \
- config.o cpuid.o linuxbios.o pci.o spd.o error.o dmi.o controller.o \
- smp.o vmem.o memsize.o random.o
-
-SELF_TEST_OBJS = test.o self_test.o cpuid.o random.o
-
-all: clean memtest.bin memtest
-
-run_self_test : self_test
- ./self_test && touch run_self_test
-
-# Link it statically once so I know I don't have undefined
-# symbols and then link it dynamically so I have full
-# relocation information
-memtest_shared: $(OBJS) memtest_shared.lds Makefile
- $(LD) --warn-constructors --warn-common -static -T memtest_shared.lds \
- -o $@ $(OBJS) && \
- $(LD) -shared -Bsymbolic -T memtest_shared.lds -o $@ $(OBJS)
-
-memtest_shared.bin: memtest_shared
- objcopy -O binary $< memtest_shared.bin
-
-memtest: memtest_shared.bin memtest.lds
- $(LD) -s -T memtest.lds -b binary memtest_shared.bin -o $@
-
-self_test : $(SELF_TEST_OBJS)
- $(CC) $(SELF_TEST_CFLAGS) -o $@ $(SELF_TEST_OBJS)
-
-head.s: head.S config.h defs.h test.h
- $(CC) -E -traditional $< -o $@
-
-bootsect.s: bootsect.S config.h defs.h
- $(CC) -E -traditional $< -o $@
-
-setup.s: setup.S config.h defs.h
- $(CC) -E -traditional $< -o $@
-
-memtest.bin: memtest_shared.bin bootsect.o setup.o memtest.bin.lds
- $(LD) -T memtest.bin.lds bootsect.o setup.o -b binary \
- memtest_shared.bin -o memtest.bin
-
-self_test.o : self_test.c
- $(CC) -c $(SELF_TEST_CFLAGS) self_test.c
-
-memsize.o: memsize.c
- $(CC) -Wall -Werror -march=i486 -m32 -O0 -fomit-frame-pointer -fno-builtin -ffreestanding -fPIC $(SMP_FL) -fno-stack-protector -c -o memsize.o memsize.c
-
-random.o: random.c
- $(CC) -c -Wall -march=i486 -m32 -O3 -fomit-frame-pointer -fno-builtin -ffreestanding random.c
-
-clean:
- rm -f *.o *.s *.iso memtest.bin memtest memtest_shared \
- memtest_shared.bin memtest.iso run_self_test self_test
-
-iso:
- make all
- ./makeiso.sh
-
-install: all
- dd <memtest.bin >$(FDISK) bs=8192
-
-install-precomp:
- dd <precomp.bin >$(FDISK) bs=8192
-
-dos: all
- cat mt86+_loader memtest.bin > memtest.exe
-
-debug2pxe: all
- cp memtest.bin /srv/tftp/memtest/memtest
diff --git a/memtest86+_old/README b/memtest86+_old/README
deleted file mode 100644
index f9df887..0000000
--- a/memtest86+_old/README
+++ /dev/null
@@ -1,925 +0,0 @@
- ====================
- = MemTest-86 v4.0 =
- = 28 Mar, 2011 =
- = Chris Brady =
- ====================
-Table of Contents
-=================
- 1) Introduction
- 2) Licensing
- 3) Installation
- 4) Serial Port Console
- 5) Online Commands
- 6) Memory Sizing
- 7) Error Display
- 8) Trouble-shooting Memory Errors
- 9) Execution Time
- 10) Memory Testing Philosophy
- 11) Memtest86 Test Algorithms
- 12) Individual Test Descriptions
- 13) Problem Reporting - Contact Information
- 14) Known Problems
- 15) Planned Features List
- 16) Change Log
- 17) Acknowledgments
-
-
-1) Introduction
-===============
-Memtest86 is thorough, stand alone memory test for Intel/AMD x86 architecture
-systems. BIOS based memory tests are only a quick check and often miss
-failures that are detected by Memtest86.
-
-For updates go to the Memtest86 web page:
-
- http://www.memtest86.com
-
-
-2) Licensing
-============
-Memtest86 is released under the terms of the Gnu Public License (GPL). Other
-than the provisions of the GPL there are no restrictions for use, private or
-commercial. See: http://www.gnu.org/licenses/gpl.html for details.
-
-
-3) Linux Installation
-============================
-Memtest86 is a stand alone program and can be loaded from either a disk
-partition or from a floppy disk.
-
-To build Memtest86:
- 1) Review the Makefile and adjust options as needed.
- 2) Type "make"
-
-This creates a file named "memtest.bin" which is a bootable image. This
-image file may be copied to a floppy disk or may be loaded from a disk
-partition via Lilo or Grub image from a hard disk partition.
-
- To create a Memtest86 bootdisk
- 1) Insert a blank write enabled floppy disk.
- 2) As root, Type "make install"
-
- To boot from a disk partition via Grub
- 1) Copy the image file to a permanent location (ie. /boot/memtest.bin).
- 2) Add an entry in the Grub config file (/boot/grub/menu.lst) to boot
- memtest86. Only the title and kernel fields need to be specified.
- The following is a sample Grub entry for booting memtest86:
-
- title Memtest86
- kernel (hd0,0)/memtest.bin
-
- To boot from a disk partition via Lilo
- 1) Copy the image file to a permanent location (ie. /boot/memtest.bin).
- 2) Add an entry in the lilo config file (usually /etc/lilo.conf) to boot
- memtest86. Only the image and label fields need to be specified.
- The following is a sample Lilo entry for booting memtest86:
-
- image = /boot/memtest.bin
- label = memtest86
-
- 3) As root, type "lilo"
-
-If you encounter build problems a binary image has been included (precomp.bin).
-To create a boot-disk with this pre-built image do the following:
- 1) Insert a blank write enabled floppy disk.
- 2) Type "make install-precomp"
-
-
-4) Serial Console
-=================
-Memtest86 can be used on PC's equipped with a serial port for the console.
-By default serial port console support is not enabled since it slows
-down testing. To enable change the SERIAL_CONSOLE_DEFAULT define in
-config.h from a zero to a one. The serial console baud rate may also
-be set in config.h with the SERIAL_BAUD_RATE define. The other serial
-port settings are no parity, 8 data bits, 1 stop bit. All of the features
-used by memtest86 are accessible via the serial console. However, the
-screen sometimes is garbled when the online commands are used.
-
-
-5) Online Commands
-==================
-Memtest86 has a limited number of online commands. Online commands
-provide control over caching, test selection, address range and error
-scrolling. A help bar is displayed at the bottom of the screen listing
-the available on-line commands.
-
- Command Description
-
- ESC Exits the test and does a warm restart via the BIOS.
-
- c Enters test configuration menu
- Menu options are:
- 1) Test selection
- 2) Address Range
- 3) Error Report Mode
- 4) CPU Selection Mode
- 5) Refresh Screen
-
- SP Set scroll lock (Stops scrolling of error messages)
- Note: Testing is stalled when the scroll lock is
- set and the scroll region is full.
-
- CR Clear scroll lock (Enables error message scrolling)
-
-
-6) Error Information
-======================
-Memtest has three options for reporting errors. The default is an an error
-summary that displays the most relevant error information. The second option
-is reporting of individual errors. In BadRAM Patterns mode patterns are
-created for use with the Linux BadRAM feature. This slick feature allows
-Linux to avoid bad memory pages. Details about the BadRAM feature can be
-found at:
-
- http://home.zonnet.nl/vanrein/badram
-
-The error summary mode displays the following information:
-
- Error Confidence Value:
- A value that indicates the validity of the errors being reported with
- larger values indicating greater validity. There is a high probability
- that all errors reported are valid regardless of this value. However,
- when this value exceeds 100 it is nearly impossible that the reported
- errors will be invalid.
-
- Lowest Error Address:
- The lowest address that where an error has been reported.
-
- Highest Error Address:
- The highest address that where an error has been reported.
-
- Bits in Error Mask:
- A mask of all bits that have been in error (hexadecimal).
-
- Bits in Error:
- Total bit in error for all error instances and the min, max and average
- bit in error of each individual occurrence.
-
- Max Contiguous Errors:
- The maximum of contiguous addresses with errors.
-
- ECC Correctable Errors:
- The number of errors that have been corrected by ECC hardware.
-
- Test Errors:
- On the right hand side of the screen the number of errors for each test
- are displayed.
-
-For individual errors the following information is displayed when a memory
-error is detected. An error message is only displayed for errors with a
-different address or failing bit pattern. All displayed values are in
-hexadecimal.
-
- Tst: Test number
- Failing Address: Failing memory address
- Good: Expected data pattern
- Bad: Failing data pattern
- Err-Bits: Exclusive or of good and bad data (this shows the
- position of the failing bit(s))
- Count: Number of consecutive errors with the same address
- and failing bits
- CPU: CPU that detected the error
-
-In BadRAM Patterns mode, Lines are printed in a form badram=F1,M1,F2,M2.
-In each F/M pair, the F represents a fault address, and the corresponding M
-is a bitmask for that address. These patterns state that faults have
-occurred in addresses that equal F on all "1" bits in M. Such a pattern may
-capture more errors that actually exist, but at least all the errors are
-captured. These patterns have been designed to capture regular patterns of
-errors caused by the hardware structure in a terse syntax.
-
-The BadRAM patterns are `grown' increment-ally rather than `designed' from an
-overview of all errors. The number of pairs is constrained to five for a
-number of practical reasons. As a result, handcrafting patterns from the
-output in address printing mode may, in exceptional cases, yield better
-results.
-
-
-7) Trouble-shooting Memory Errors
-================================
-Please be aware that not all errors reported by Memtest86 are due to
-bad memory. The test implicitly tests the CPU, L1 and L2 caches as well as
-the motherboard. It is impossible for the test to determine what causes
-the failure to occur. Most failures will be due to a problem with memory.
-When it is not, the only option is to replace parts until the failure is
-corrected.
-
-Once a memory error has been detected, determining the failing
-module is not a clear cut procedure. With the large number of motherboard
-vendors and possible combinations of simm slots it would be difficult if
-not impossible to assemble complete information about how a particular
-error would map to a failing memory module. However, there are steps
-that may be taken to determine the failing module. Here are three
-techniques that you may wish to use:
-
-1) Removing modules
-This is simplest method for isolating a failing modules, but may only be
-employed when one or more modules can be removed from the system. By
-selectively removing modules from the system and then running the test
-you will be able to find the bad module(s). Be sure to note exactly which
-modules are in the system when the test passes and when the test fails.
-
-2) Rotating modules
-When none of the modules can be removed then you may wish to rotate modules
-to find the failing one. This technique can only be used if there are
-three or more modules in the system. Change the location of two modules
-at a time. For example put the module from slot 1 into slot 2 and put
-the module from slot 2 in slot 1. Run the test and if either the failing
-bit or address changes then you know that the failing module is one of the
-ones just moved. By using several combinations of module movement you
-should be able to determine which module is failing.
-
-3) Replacing modules
-If you are unable to use either of the previous techniques then you are
-left to selective replacement of modules to find the failure.
-
-4) Avoiding allocation
-The printing mode for BadRAM patterns is intended to construct boot time
-parameters for a Linux kernel that is compiled with BadRAM support. This
-work-around makes it possible for Linux to reliably run on defective
-RAM. For more information on BadRAM support
-for Linux, sail to
-
- http://home.zonnet.nl/vanrein/badram
-
-Sometimes memory errors show up due to component incompatibility. A memory
-module may work fine in one system and not in another. This is not
-uncommon and is a source of confusion. The components are not necessarily
-bad but certain combinations may need to be avoided.
-
-I am often asked about the reliability of errors reported by Mestest86.
-In the vast majority of cases errors reported by the test are valid.
-There are some systems that cause Memtest86 to be confused about the size of
-memory and it will try to test non-existent memory. This will cause a large
-number of consecutive addresses to be reported as bad and generally there
-will be many bits in error. If you have a relatively small number of
-failing addresses and only one or two bits in error you can be certain
-that the errors are valid. Also intermittent errors are always valid.
-
-All valid memory errors should be corrected. It is possible that a
-particular error will never show up in normal operation. However, operating
-with marginal memory is risky and can result in data loss and even
-disk corruption. You can be sure that Murphy will get you if you know
-about a memory error and ignore it.
-
-Memtest86 can not diagnose many types of PC failures. For example a
-faulty CPU that causes Windows to crash will most likely just cause
-Memtest86 to crash in the same way.
-
-
-8) Execution Time
-==================
-The time required for a complete pass of Memtest86 will vary greatly
-depending on CPU speed, memory speed and memory size. Memtest86 executes
-indefinitely. The pass counter increments each time that all of the
-selected tests have been run. Generally a single pass is sufficient to
-catch all but the most obscure errors. However, for complete confidence
-when intermittent errors are suspected testing for a longer period is advised.
-
-9) Memory Testing Philosophy
-=============================
-There are many good approaches for testing memory. However, many tests
-simply throw some patterns at memory without much thought or knowledge
-of memory architecture or how errors can best be detected. This
-works fine for hard memory failures but does little to find intermittent
-errors. BIOS based memory tests are useless for finding intermittent
-memory errors.
-
-Memory chips consist of a large array of tightly packed memory cells,
-one for each bit of data. The vast majority of the intermittent failures
-are a result of interaction between these memory cells. Often writing a
-memory cell can cause one of the adjacent cells to be written with the
-same data. An effective memory test attempts to test for this
-condition. Therefore, an ideal strategy for testing memory would be
-the following:
-
- 1) write a cell with a zero
- 2) write all of the adjacent cells with a one, one or more times
- 3) check that the first cell still has a zero
-
-It should be obvious that this strategy requires an exact knowledge
-of how the memory cells are laid out on the chip. In addition there is a
-never ending number of possible chip layouts for different chip types
-and manufacturers making this strategy impractical. However, there
-are testing algorithms that can approximate this ideal strategy.
-
-
-11) Memtest86 Test Algorithms
-=============================
-Memtest86 uses two algorithms that provide a reasonable approximation
-of the ideal test strategy above. The first of these strategies is called
-moving inversions. The moving inversion test works as follows:
-
- 1) Fill memory with a pattern
- 2) Starting at the lowest address
- 2a check that the pattern has not changed
- 2b write the patterns complement
- 2c increment the address
- repeat 2a - 2c
- 3) Starting at the highest address
- 3a check that the pattern has not changed
- 3b write the patterns complement
- 3c decrement the address
- repeat 3a - 3c
-
-This algorithm is a good approximation of an ideal memory test but
-there are some limitations. Most high density chips today store data
-4 to 16 bits wide. With chips that are more than one bit wide it
-is impossible to selectively read or write just one bit. This means
-that we cannot guarantee that all adjacent cells have been tested
-for interaction. In this case the best we can do is to use some
-patterns to insure that all adjacent cells have at least been written
-with all possible one and zero combinations.
-
-It can also be seen that caching, buffering and out of order execution
-will interfere with the moving inversions algorithm and make less effective.
-It is possible to turn off cache but the memory buffering in new high
-performance chips can not be disabled. To address this limitation a new
-algorithm I call Modulo-X was created. This algorithm is not affected by
-cache or buffering. The algorithm works as follows:
- 1) For starting offsets of 0 - 20 do
- 1a write every 20th location with a pattern
- 1b write all other locations with the patterns complement
- repeat 1b one or more times
- 1c check every 20th location for the pattern
-
-This algorithm accomplishes nearly the same level of adjacency testing
-as moving inversions but is not affected by caching or buffering. Since
-separate write passes (1a, 1b) and the read pass (1c) are done for all of
-memory we can be assured that all of the buffers and cache have been
-flushed between passes. The selection of 20 as the stride size was somewhat
-arbitrary. Larger strides may be more effective but would take longer to
-execute. The choice of 20 seemed to be a reasonable compromise between
-speed and thoroughness.
-
-
-11) Individual Test Descriptions
-================================
-Memtest86 executes a series of numbered test sections to check for
-errors. These test sections consist of a combination of test
-algorithm, data pattern and caching. The execution order for these tests
-were arranged so that errors will be detected as rapidly as possible.
-A description of each of the test sections follows:
-
-Test 0 [Address test, walking ones, no cache]
- Tests all address bits in all memory banks by using a walking ones
- address pattern. Errors from this test are not used to calculate
- BadRAM patterns.
-
-Test 1 [Address test, own address Sequential]
- Each address is written with its own address and then is checked
- for consistency. In theory previous tests should have caught any
- memory addressing problems. This test should catch any addressing
- errors that somehow were not previously detected. This test is done
- sequentially with each available CPU.
-
-Test 2 [Address test, own address Parallel]
- Same as test 1 but the testing is done in parallel using all CPUs using
- overlapping addresses.
-
-Test 3 [Moving inversions, ones&zeros Sequential]
- This test uses the moving inversions algorithm with patterns of all
- ones and zeros. Cache is enabled even though it interferes to some
- degree with the test algorithm. With cache enabled this test does not
- take long and should quickly find all "hard" errors and some more
- subtle errors. This test is done sequentially with each available CPU.
-
-Test 4 [Moving inversions, ones&zeros Parallel]
- Same as test 3 but the testing is done in parallel using all CPUs.
-
-Test 5 [Moving inversions, 8 bit pat]
- This is the same as test 4 but uses a 8 bit wide pattern of
- "walking" ones and zeros. This test will better detect subtle errors
- in "wide" memory chips. A total of 20 data patterns are used.
-
-Test 6 [Moving inversions, random pattern]
- Test 6 uses the same algorithm as test 4 but the data pattern is a
- random number and it's complement. This test is particularly effective
- in finding difficult to detect data sensitive errors.
- The random number sequence is different with each pass
- so multiple passes increase effectiveness.
-
-Test 7 [Block move, 64 moves]
- This test stresses memory by using block move (movsl) instructions
- and is based on Robert Redelmeier's burnBX test. Memory is initialized
- with shifting patterns that are inverted every 8 bytes. Then 4MB blocks
- of memory are moved around using the movsl instruction. After the moves
- are completed the data patterns are checked. Because the data is checked
- only after the memory moves are completed it is not possible to know
- where the error occurred. The addresses reported are only for where the
- bad pattern was found. Since the moves are constrained to a 8MB segment
- of memory the failing address will always be lest than 8MB away from the
- reported address. Errors from this test are not used to calculate
- BadRAM patterns.
-
-Test 8 [Moving inversions, 32 bit pat]
- This is a variation of the moving inversions algorithm that shifts the data
- pattern left one bit for each successive address. The starting bit position
- is shifted left for each pass. To use all possible data patterns 32 passes
- are required. This test is quite effective at detecting data sensitive
- errors but the execution time is long.
-
-Test 9 [Random number sequence]
- This test writes a series of random numbers into memory. By resetting the
- seed for the random number the same sequence of number can be created for
- a reference. The initial pattern is checked and then complemented and
- checked again on the next pass. However, unlike the moving inversions test
- writing and checking can only be done in the forward direction.
-
-Test 10 [Modulo 20, random pattern]
- Using the Modulo-X algorithm should uncover errors that are not
- detected by moving inversions due to cache and buffering interference
- with the the algorithm. A 32 bit random pattern is used.
-
-Test 11 [Bit fade test, 2 patterns]
- The bit fade test initializes all of memory with a pattern and then
- sleeps for 5 minutes. Then memory is examined to see if any memory bits
- have changed. All ones and all zero patterns are used.
-
-
-12) Problem Reporting - Contact Information
-===========================================
-Due to the growing popularity of Memtest86 (more than 200,000 downloads per
-month) I have been inundated by, questions, feedback, problem reports and
-requests for enhancements. I simply do not have time to respond to ANY Memtest86
-emails. Bug reports and suggestions are welcome but will typically not be
-responded to.
-
-*** NOTE: *** The Keyword MEM86 must appear in the subject of all emails or
-the message will be automaticly deleted before it gets to me. This thanks to
-spam and viruses!
-
-Problems/Bugs:
-Before submitting a problem report please check the Known Problems section
-to see if this problem has already been reported. Be sure to include the
-version number and also any details that may be relevant.
-
-Chris Brady, Email: bugs@memtest86.com
-
-With some PC's Memtest86 will just die with no hints as to what went wrong.
-Without any details it is impossible to fix these failures. Fixing these
-problems will require debugging on your part. There is no point in reporting
-these failures unless you have a Linux system and would be willing to debug
-the failure.
-
-Enhancements:
-If you would like to request an enhancement please see if is already on
-the Planned Features List before sending your request. All requests will
-be considered, but not all can be implemented. If you are be interested in
-contributing code please contact me so that the integration can be
-co-ordinated.
-
-Chris Brady, Email: enhance@memtest86.com
-
-Questions:
-Unfortunately, I do not have time to respond to any questions or provide
-assistance with troubleshooting problems. Please read the Troubleshooting
-and Known Problems sections for assistance with problems. These sections have
-the answers for the questions that I have answers to. If there is not an
-answer for your problem in these sections it is probably not something I can
-help you with.
-
-
-15) Known Problems
-==================
-Sometimes when booting from a floppy disk the following messages scroll up
-on the screen:
- X:8000
- AX:0212
- BX:8600
- CX:0201
- DX:0000
-This the BIOS reporting floppy disk read errors. Either re-write or toss
-the floppy disk.
-
-Memtest86 can not diagnose many types of PC failures. For example a
-faulty CPU that causes Windows to crash will most likely just cause
-Memtest86 to crash in the same way.
-
-There have been numerous reports of errors in only the block move test. Often
-the memory works in a different system or the vendor insists that it is good.
-In these cases the memory is not necessarily bad but is not able to operate
-reliably high speeds. Sometimes more conservative memory timings on the
-motherboard will correct these errors. In other cases the only option is to
-replace the memory with better quality, higher speed memory. Don't buy cheap
-memory and expect it to work at full speed.
-
-Memtest86 supports all types of memory. If fact the test has absolutely
-no knowledge of the memory type nor does it need to. This not a problem
-or bug but is listed here due to the many questions I get about this issue.
-
-Changes in the compiler and loader have caused problems with
-Memtest86 resulting in both build failures and errors in execution. A
-binary image (precomp.bin) of the test is included and may be used if
-problems are encountered.
-
-
-15) Planned Features List
-=========================
-This is a list of enhancements planned for future releases of Memtest86.
-There is no timetable for when these will be implemented.
-
- - Testing in 64 bit mode with 64 data patterns
- - Support for reporting ECC errors was removed in the 4.0 release. A
- simplified implementation of ECC reporting is planned for a future release.
-
-
-16) Change Log
-==============
-Enhancements in v4.0 (28/Mar/2011)
-
- Full support for testing with multiple CPUs. All tests except for #11 (Bit
- Fade) have been multi-threaded. A maximum of 16 CPUs will be used for testing.
-
- CPU detection has been completely re-written to use the brand ID string
- rather than the cumbersome, difficult to maintain and often out of date
- CPUID family information. All new processors will now be correctly
- identified without requiring code support.
-
- All code related to controller identification, PCI and DMI has been removed.
- This may be a controversial decision and was not made lightly. The following
- are justifications for the decision:
-
- 1. Controller identification has nothing to do with actual testing of
- memory, the core purpose of Memtest86.
- 2. This code needed to be updated with every new chipset. With the ever
- growing number of chipsets it is not possible to keep up with the
- changes. The result is that new chipsets were more often than not
- reported in-correctly. In the authors opinion incorrect information is
- worse than no information.
- 3. Probing for chipset information carries the risk of making the program
- crash.
- 4. The amount of code involved with controller identification was quite
- large, making support more difficult.
-
- Removing this code also had the unfortunate effect of removing reporting of
- correctable ECC errors. The code to support ECC was hopelessly intertwined
- the controller identification code. A fresh, streamlined implementation of
- ECC reporting is planned for a future release.
-
- A surprising number of conditions existed that potentially cause problems
- when testing more than 4 GB of memory. Most if not all of these conditions
- have been identified and corrected.
-
- A number of cases were corrected where not all of memory was being tested.
- For most tests the last word of each test block was not tested. In addition
- an error in the paging code was fixed that omitted from testing the last 256
- bytes of each block above 2 GB.
-
- The information display has been simplified and a number of details that were
- not relevant to testing were removed.
-
- Memory speed reporting has been parallelized for more accurate reporting for
- multi channel memory controllers.
-
- This is a major re-write of the Memtest86 with a large number of minor
- bug-fixes and substantial cleanup and re-organization of the code.
-
-
-Enhancements in v3.5 (3/Jan/2008)
-
- Limited support for execution with multiple CPUs. CPUs are selected
- round-robin or sequential for each test.
-
- Support for additional chipsets. (from Memtest86+ v2.11).
-
- Additions and corrections for CPU detection including reporting of L3 cache.
-
- Reworked information display for better readability and new information.
-
- Abbreviated iterations for first pass.
-
- Enhancements to memory sizing.
-
- Misc fixes.
-
-Enhancements in v3.4 (2/Aug/2007)
-
- A new error summary display with error confidence analysis.
-
- Support for additional chipsets. (from Memtest86+ v1.70).
-
- Additions and corrections for CPU detection.
-
- Support for memory module information reporting.
-
- Misc bug fixes.
-
-Enhancements in v3.3 (12/Jan/2007)
-
- Added support for additional chipsets. (from Memtest86+ v1.60)
-
- Changed Modulo 20 test (#8) to use a more effective random pattern rather
- than simple ones and zeros.
-
- Fixed a bug that prevented testing of low memory.
-
- Added an advanced menu option to display SPD info (only for selected
- chipsets).
-
- Updated CPU detection for new CPUs and corrected some bugs.
-
- Reworked online command text for better clarity.
-
- Added a fix to correct a Badram pattern bug.
-
-
-Enhancements in v3.2 (11/Nov/2004)
-
- Added two new, highly effective tests that use random number patterns
- (tests 4 and 6).
-
- Reworked the online commands:
- - Changed wording for better clarity
- - Dropped Cache Mode menu
-
- Updated CPU detection for newer AMD, Intel and Cyrix CPUs.
-
- Reworked test sequence:
- - Dropped ineffective non cached tests (Numbers 7-11)
- - Changed cache mode to "cached" for test 2
- - Fixed bug that did not allow some tests to be skipped
- - Added bailout for Bit fade test
-
- Error reports are highlighted in red to provide a more vivid error
- indication.
-
- Added support for a large number of additional chipsets. (from Memtest86+
- v1.30)
-
- Added an advanced setup feature that with new chiset allows memory timings
- to be altered from inside Memtest86. (from Memtest86+ v1.30)
-
-
-Enhancements in v3.1 (11/Mar/2004)
-
- Added processor detection for newer AMD processors.
-
- Added new "Bit Fade" extended test.
-
- Fixed a compile time bug with gcc version 3.x.
-
- E7500 memory controller ECC support
-
- Added support for 16bit ECC syndromes
-
- Option to keep the serial port baud rate of the boot loader
-
-
-Enhancements in v3.0 (22/May/2002) Provided by Eric Biederman
-
- Testing of more than 2gb of memory is at last fixed (tested with 6Gb)
-
- The infrastructure is to poll ecc error reporting chipset regisets,
- and the support has been done for some chipsets.
-
- Uses dynamic relocation information records to make itself PIC
- instead of requiring 2 copies of memtest86 in the binary.
-
- The serial console code does not do redundant writes to the serial port
- Very little slow down at 9600 baud.
-
- You can press ^l or just l to get a screen refresh, when you are
- connecting and UN-connecting a serial cable.
-
- Net-booting is working again
-
- Linux-BIOS support (To get the memory size)
-
- Many bug-fixes and code cleanup.
-
-Enhancements in v2.9 (29/Feb/2002)
-
- The memory sizing code has been completely rewritten. By default
- Memtest86 gets a memory map from the BIOS that is now used to find
- available memory. A new online configuration option provides three
- choices for how memory will be sized, including the old "probe" method.
- The default mode generally will not test all of memory, but should be more
- stable. See the "Memory Sizing" section for details.
-
- Testing of more than 2gb of memory should now work. A number of bugs
- were found and corrected that prevented testing above 2gb. Testing
- with more than 2gb has been limited and there could be problems with a
- full 4gb of memory.
-
- Memory is divided into segments for testing. This allow for frequent
- progress updates and responsiveness to interactive commands. The
- memory segment size has been increased from 8 to 32mb. This should
- improve testing effectiveness but progress reports will be less frequent.
-
- Minor bug fixes.
-
-Enhancements in v2.8 (18/Oct/2001)
- Eric Biederman reworked the build process making it far simpler and also
- to produce a network bootable ELF image.
-
- Re-wrote the memory and cache speed detection code. Previously the
- reported numbers were inaccurate for Intel CPU's and completely wrong
- for Athlon/Duron CPU's.
-
- By default the serial console is disabled since this was slowing
- down testing.
-
- Added CPU detection for Pentium 4.
-
-
-Enhancements in v2.7 (12/Jul/2001)
- Expanded workaround for errors caused by BIOS USB keyboard support to
- include test #5.
-
- Re-worked L1 / L2 cache detection code to provide clearer reporting.
-
- Fixed an obvious bug in the computation of cache and memory speeds.
-
- Changed on-line menu to stay in the menu between option selections.
-
- Fixed bugs in the test restart and redraw code.
-
- Adjusted code size to fix compilation problems with RedHat 7.1.
-
- Misc updates to the documentation.
-
-Enhancements in v2.6 (25/May/2001)
- Added workaround for errors caused by BIOS USB keyboard support.
-
- Fixed problems with reporting of 1 GHZ + processor speeds.
-
- Fixed Duron cache detection.
-
- Added screen buffer so that menus will work correctly from a serial
- console.
-
- The Memtest86 image is now built in ELF format.
-
-Enhancements in v2.5 (14/Dec/00)
- Enhanced CPU and cache detection to correctly identify Duron CPU
- and K6-III 1MB cache.
-
- Added code to report cache-able memory size.
-
- Added limited support for parity memory.
-
- Support was added to allow use of on-line commands from a serial
- port.
-
- Dropped option for changing refresh rates. This was not useful
- and did not work on newer motherboards.
-
- Improved fatal exception reporting to include a register and stack
- dump.
-
- The pass number is now displayed in the error report.
-
- Fixed a bug that crashed the test when selecting one of the extended
- tests.
-
-Enhancements in v2.4
- The error report format was reworked for better clarity and now
- includes a decimal address in megabytes.
-
- A new memory move test was added (from Robert Redelmeier's CPU-Burn)
-
- The test sequence and iterations were modified.
-
- Fixed scrolling problems with the BadRAM patterns.
-
-
-Enhancements in v2.3
- A progress meter was added to replace the spinner and dots.
-
- Measurement and reporting of memory and cache performance
- was added.
-
- Support for creating BadRAM patterns was added.
-
- All of the test routines were rewritten in assembler to
- improve both test performance and speed.
-
- The screen layout was reworked to hopefully be more readable.
-
- An error summary option was added to the online commands.
-
-
-Enhancements in v2.2
- Added two new address tests
-
- Added an on-line command for setting test address range
-
- Optimized test code for faster execution (-O3, -funroll-loops and
- -fomit-frame-pointer)
-
- Added and elapsed time counter.
-
- Adjusted menu options for better consistency
-
-
-Enhancements in v2.1
- Fixed a bug in the CPU detection that caused the test to
- hang or crash with some 486 and Cryrix CPU's
-
- Added CPU detection for Cyrix CPU's
-
- Extended and improved CPU detection for Intel and AMD CPU's
-
- Added a compile time option (BIOS_MEMSZ) for obtaining the last
- memory address from the BIOS. This should fix problems with memory
- sizing on certain motherboards. This option is not enabled by default.
- It may be enabled be default in a future release.
-
-Enhancements in v2.0
- Added new Modulo-20 test algorithm.
-
- Added a 32 bit shifting pattern to the moving inversions algorithm.
-
- Created test sections to specify algorithm, pattern and caching.
-
- Improved test progress indicators.
-
- Created popup menus for configuration.
-
- Added menu for test selection.
-
- Added CPU and cache identification.
-
- Added a "bail out" feature to quit the current test when it does not
- fit the test selection parameters.
-
- Re-arranged the screen layout and colors.
-
- Created local include files for I/O and serial interface definitions
- rather than using the sometimes incompatible system include files.
-
- Broke up the "C" source code into four separate source modules.
-
-Enhancements in v1.5
- Some additional changes were made to fix obscure memory sizing
- problems.
-
- The 4 bit wide data pattern was increased to 8 bits since 8 bit
- wide memory chips are becoming more common.
-
- A new test algorithm was added to improve detection of data
- pattern sensitive errors.
-
-
-Enhancements in v1.4
- Changes to the memory sizing code to avoid problems with some
- motherboards where memtest would find more memory than actually
- exists.
-
- Added support for a console serial port. (thanks to Doug Sisk)
-
- On-line commands are now available for configuring Memtest86 on
- the fly (see On-line Commands).
-
-
-Enhancements in v1.3
- Scrolling of memory errors is now provided. Previously, only one screen
- of error information was displayed.
-
- Memtest86 can now be booted from any disk via lilo.
-
- Testing of up to 4gb of memory has been fixed is now enabled by default.
- This capability was clearly broken in v1.2a and should work correctly
- now but has not been fully tested (4gb PC's are a bit rare).
-
- The maximum memory size supported by the motherboard is now being
- calculated correctly. In previous versions there were cases where not
- all of memory would be tested and the maximum memory size supported
- was incorrect.
-
- For some types of failures the good and bad values were reported to be
- same with an Xor value of 0. This has been fixed by retaining the data
- read from memory and not re-reading the bad data in the error reporting
- routine.
-
- APM (advanced power management) is now disabled by Memtest86. This
- keeps the screen from blanking while the test is running.
-
- Problems with enabling & disabling cache on some motherboards have been
- corrected.
-
-
-17) Acknowledgments
-===================
-Memtest86 was developed by Chris Brady with the resources and assistance
-listed below:
-
-- The initial versions of the source files bootsect.S, setup.S, head.S and
- build.c are from the Linux 1.2.1 kernel and have been heavily modified.
-
-- Doug Sisk provided code to support a console connected via a serial port.
-
-- Code to create BadRAM patterns was provided by Rick van Rein.
-
-- Tests 5 and 8 are based on Robert Redelmeier's burnBX test.
-
-- Screen buffer code was provided by Jani Averbach.
-
-- Eric Biederman provided all of the feature content for version 3.0
- plus many bugfixes and significant code cleanup.
-
-- Major enhancements to hardware detection and reporting in version 3.2,
- 3.3 pnd 3.4 rovided by Samuel Demeulemeester (from Memtest86+ v1.11, v1.60
- and v1.70).
diff --git a/memtest86+_old/README.background b/memtest86+_old/README.background
deleted file mode 100644
index 4acab8e..0000000
--- a/memtest86+_old/README.background
+++ /dev/null
@@ -1,156 +0,0 @@
- The Anatomy & Physiology of Memtest86-SMP
- -----------------------------------------
-
-1. Binary layout
-
- ---------------------------------------------------------------
- | bootsect.o | setup.o | head.o memtest_shared |
- ---------------------------------------------------------------
-Labels _start<-------memtest---------->_end
- -----------------------------------------------------------
-addr 0 512 512+4*512 |
- -----------------------------------------------------------
-
-2. The following steps occur after we power on.
- a. The bootsect.o code gets loaded at 0x7c00
- and copies
- i. itself to 0x90000
- ii. setup.o to 0x90200
- iii. everything between _start and _end i.e memtest
- to 0x10000
- b. jumps somewhere into the copied bootsect.o code at 0x90000
- ,does some trivial stuff and jumps to setup.o
- c. setup.o puts the processor in protected mode, with a basic
- gdt and idt and does a long jump to the start of the
- memtest code (startup_32, see 4 below). The code and data
- segment base address are all set to 0x0. So a linear
- address range and no paging is enabled.
- d. From now on we no longer required the bootsect.o and setup.o
- code.
-3. The code in memtest is compiled as position independent
- code. Which implies that the code can be moved dynamically in
- the address space and can still work. Since we are now in head.o,
- which is compiled with PIC , we no longer should use absolute
- addresses references while accessing functions or globals.
- All symbols are stored in a table called Global Offset Table(GOT)
- and %ebx is set to point to the base of that table. So to get/set
- the value of a symbol we need to read (%ebx + symbolOffsetIntoGOT) to
- get the symbol value. For eg. if foo is global varible the assembly
- code to store %eax value into foo will be changed from
- mov %eax, foo
- to
- mov %eax, foo@GOTOFF(%ebx)
-4. (startup_32) The first step done in head.o is to change
- the gdtr and idtr register values to point to the final(!)
- gdt and ldt tables in head.o, since we can no longer use the
- gdt and ldt tables in setup.o, and call the dynamic linker
- stub in memtest_shared (see call _dl_start in head.S). This
- dynamic linker stub relocates all the code in memtest w.r.t
- the new base location i.e 0x1000. Finally we call the test_start()
- 'C' routine.
-5. The test_start() C routine is the main routine which lets the BSP
- bring up the APs from their halt state, relocate the code
- (if necessary) to new address, move the APs to the newly
- relocated address and execute the tests. The BSP is the
- master which controls the execution of the APs, and mostly
- it is the one which manupulates the global variables.
- i. we change the stack to a private per cpu stack.
- (this step happens every time we move to a new location)
- ii. We kick start the APs in the system by
- a. Putting a temporary real mode code
- (_ap_trampoline_start - _ap_trampoline_protmode)
- at 0x9000, which puts the AP in protected mode and jumps
- to _ap_trampoline_protmode in head.o. The code in
- _ap_trampoline_protmode calls start_32 in head.o which
- reinitialises the AP's gdt and idt to point to the
- final(!) gdt and idt. (see step 4 above)
- b. Since the APs also traverse through the same initialisation
- code(startup_32 in head.o), the APs also call test_start().
- The APs just spin wait (see AP_SpinWaitStart) till the
- are instructed by the BSP to jump to a new location,
- which can either be a test execution or spin wait at a
- new location.
- iii. The base address at which memtest tries to execute as far
- as possible is 0x2000. This is the lowest possible address
- memtest can put itself at. So the next step is to
- move to 0x2000, which it cannot directly, since copying
- code to 0x2000 will override the existing code at 0x1000.
- 0x2000 +sizeof(memtest) will usually be greater than 0x1000.
- so we temporarily relocated to 0x200000 and then relocate
- back to 0x2000. Every time the BSP relocates the code to the
- new location, it pulls up the APs spin waiting at the old
- location to spin wait at the corresponding relocated
- spin wait location, by making them jump to the new
- statup_32 relocated location(see 4 above).
- Hence forth during the tests 0x200000 is the only place
- we relocate to if we need to test a memory window
- (see v. below to get a description of what a window is)
- which includes address range 0x2000.
-
- Address map during normal execution.
- --------------------------------------------------------------------
- | head.o memtest_shared | |RAM_END
- --------------------------------------------------------------------
-Labels _start<-------memtest---------->_end
- --------------------------------------------------------------------
-addr 0x0 0x2000 | Memory that is being tested.. |RAM_END
- --------------------------------------------------------------------
-
- Address map during relocated state.
- --------------------------------------------------------------------
- | head.o memtest_shared | |RAM_END
- --------------------------------------------------------------------
-Labels _start<-------memtest---------->_end
- --------------------------------------------------------------------
-addr memory that is being tested... |0x200000 | |RAM_END
- --------------------------------------------------------------------
-
- iv. Once we are at 0x2000 we initialise the system, and
- determine the memory map ,usually via the bios e820 map.
- The sorted, and non-overlapping RAM page ranges are
- placed in v->pmap[] array. This array is the reference
- of the RAM memory map on the system.
- v. The memory range(in page numbers) which the
- memtest86 can test is partitioned into windows.
- the current version of memtest86-smp has the capability
- to test the memory from 0x0 - 0xFFFFFFFFF (max address
- when pae mode is enabled).
- We then compute the linear memory address ranges(called
- segments) for the window we are currently about to
- test. The windows are
- a. 0 - 640K
- b. (0x2000 + (_end - _start)) - 4G (since the code is at 0x2000).
- c. >4G to test pae address range, each window with size
- of 0x80000(2G), large enough to be mapped in one page directory
- entry. So a window size of 0x80000 means we can map 1024 page
- table entries, with page size of 2M(pae mode), with one
- page directory entry. Something similar to kseg entry
- in linux. The upper bound page number is 0x1000000 which
- corresponds to linear address 0xFFFFFFFFF + 1 which uses
- all the 36 address bits.
- Each window is compared against the sorted & non-overlapping
- e820 map which we have stored in v->pmap[] array, since all
- memory in the selected window address range may correspond to
- RAM or can be usable. A list of segments within the window is
- created, which contain the usable portions of the window.
- This is stored in v->mmap[] array.
- vi. Once the v->mmap[] array is populated, we have the list of
- non-overlapping segments in the current window which are the
- final address ranges that can be tested. The BSP executes the
- test first and lets each AP execute the test one by one. Once
- all the APs finish execting the same test, the BSP moves to the
- next window follows the same procedure till all the windows
- are done. Once all the windows are done, the BSP moves to the
- next test. Before executing in any window the BSP checks if
- the window overlaps with the code/data of memtest86, if so
- tries to relocate to 0x200000. If the window includes both
- 0x2000 as well as 0x200000 the BSP skips that window.
- Looking at the window values the only time the memtest
- relocates is when testing the 0 - 640K window.
-
-Known Issues:
-* Memtest86-smp does not work on IBM-NUMA machines, x440 and friends.
-
-email comments to:
-Kalyan Rajasekharuni<kc_rajasekharuni@yahoo.com>
-Sub: Memtest86-SMP
diff --git a/memtest86+_old/README.build-process b/memtest86+_old/README.build-process
deleted file mode 100644
index 12158d6..0000000
--- a/memtest86+_old/README.build-process
+++ /dev/null
@@ -1,39 +0,0 @@
-During memory testing memtest86 relocates itself in memory so it can test the
-memory it was previously running from. memtest86 is compiled as position mostly
-independent code. Some relocations records must be processed to achieve the
-affect of position independent code. A 16 bit loader is prepended to memtest86
-so it can be loaded from a floppy, or from lilo.
-
-In restructuring the build process I had several goals. Maintainability and
-comprehensibility of the build process. Simplicity of the toolset. And the
-ability to build images bootable by both the legacy x86 bootloader,
-and images bootable by bootloaders that directly load static ELF images.
-
-With the ability to process relocation records, memtest.bin has been
-reduced in size from 84480 bytes to 49308 bytes. And now only requires one copy
-of memtest86. A reduction in size of 35K. And the build process can now ignore
-the size of memtest86.
-
-BIOS calls have been moved from setup.S to head.S making bootsect.S and
-setup.S exclusively for booting.
-
-memtest86 is built in three stages. In the first stage the relocatable object
-files are built as with any program. In the second stage the relocatable object
-files are linked together into memtest_shared, a shared library version
-of memtest86. In the third stage a raw memory image of memtest_shared is formed
-and linked into memtest.bin, and memtest.
-
-memtest.bin is the floppy/lilo bootable target.
-
-memtest is the ELF bootable target.
-
-Another major change is now data in the bss segment is also preserved
-when memtest86 is relocated, and memtest86 can be relocated to any address.
-
-The one thing to watch out for is pointers to data inside of memtest86. Except
-for constant pointers to static data there is not enough information to generate
-relocation records for pointers so they will not change when memtest86 is
-relocated, which might lead to nasty surprises.
-
-Eric Biederman <ebiederman@lnxi.com>
-
diff --git a/memtest86+_old/bootsect.S b/memtest86+_old/bootsect.S
deleted file mode 100644
index 96aa22b..0000000
--- a/memtest86+_old/bootsect.S
+++ /dev/null
@@ -1,383 +0,0 @@
-/*
- * bootsect.s Copyright (C) 1991, 1992 Linus Torvalds
- *
- * bootsect.s is loaded at 0x7c00 by the bios-startup routines, and moves
- * itself out of the way to address 0x90000, and jumps there.
- *
- * It then loads 'setup' directly after itself (0x90200), and the system
- * at 0x10000, using BIOS interrupts.
- *
- * The loader has been made as simple as possible, and continuos
- * read errors will result in a unbreakable loop. Reboot by hand. It
- * loads pretty fast by getting whole tracks at a time whenever possible.
- *
- * 1-Jan-96 Modified by Chris Brady for use as a boot loader for MemTest-86.
- */
-
-#include "defs.h"
-
-ROOT_DEV = 0
-
-.code16
-.section ".bootsect", "ax", @progbits
-_boot:
-
-
-# ld86 requires an entry symbol. This may as well be the usual one.
-.globl _main
-_main:
- movw $BOOTSEG, %ax
- movw %ax, %ds
- movw $INITSEG, %ax
- movw %ax, %es
- movw $256, %cx
- subw %si, %si
- subw %di, %di
- cld
- rep
- movsw
- ljmp $INITSEG, $go - _boot
-
-go:
- movw %cs, %ax
- movw $(0x4000-12), %dx # 0x4000 is arbitrary value >= length of
- # bootsect + length of setup + room for stack
- # 12 is disk parm size
-
-# bde - changed 0xff00 to 0x4000 to use debugger at 0x6400 up (bde). We
-# wouldn't have to worry about this if we checked the top of memory. Also
-# my BIOS can be configured to put the wini drive tables in high memory
-# instead of in the vector table. The old stack might have clobbered the
-# drive table.
-
- movw %ax, %ds
- movw %ax, %es
- movw %ax, %ss # put stack at INITSEG:0x4000-12.
- movw %dx, %sp
-
-/*
- * Many BIOS's default disk parameter tables will not
- * recognize multi-sector reads beyond the maximum sector number
- * specified in the default diskette parameter tables - this may
- * mean 7 sectors in some cases.
- *
- * Since single sector reads are slow and out of the question,
- * we must take care of this by creating new parameter tables
- * (for the first disk) in RAM. We will set the maximum sector
- * count to 18 - the most we will encounter on an HD 1.44.
- *
- * High doesn't hurt. Low does.
- *
- * Segments are as follows: ds=es=ss=cs - INITSEG,
- * fs = 0, gs = parameter table segment
- */
- pushw $0
- popw %fs
- movw $0x78, %bx # fs:bx is parameter table address
- lgs %fs:(%bx),%si # gs:si is source
-
- movw %dx, %di # es:di is destination
- movw $6, %cx # copy 12 bytes
- cld
-
- rep movsw %gs:(%si), (%di)
-
- movw %dx, %di
- movb $18, 4(%di) # patch sector count
-
- movw %di, %fs:(%bx)
- movw %es, %fs:2(%bx)
-
- movw %cs, %ax
- movw %ax, %fs
- movw %ax, %gs
-
- xorb %ah, %ah # reset FDC
- xorb %dl, %dl
- int $0x13
-
-# load the setup-sectors directly after the bootblock.
-# Note that 'es' is already set up.
-
-load_setup:
- xorw %dx, %dx # drive 0, head 0
- movw $0x0002, %cx # sector 2, track 0
- movw $0x0200, %bx # address = 512, in INITSEG
- movw $(0x0200 + SETUPSECS), %ax # service 2, nr of sectors
- # (assume all on head 0, track 0)
- int $0x13 # read it
- jnc ok_load_setup # ok - continue
-
- pushw %ax # dump error code
- call print_nl
- movw %sp, %bp
- call print_hex
- popw %ax
-
- xorb %dl, %dl # reset FDC
- xorb %ah, %ah
- int $0x13
- jmp load_setup
-
-ok_load_setup:
-
-# Get disk drive parameters, specifically nr of sectors/track
-
-
-/* It seems that there is no BIOS call to get the number of sectors. Guess
- * 18 sectors if sector 18 can be read, 15 if sector 15 can be read.
- * Otherwise guess 9
- */
-
- xorw %dx, %dx # drive 0, head 0
- movw $0x0012, %cx # sector 18, track 0
- movw $(0x200+(SETUPSECS*0x200)), %bx # address after setup (es = cs)
- movw $0x0201, %ax # service 2, 1 sector
- int $0x13
- jnc got_sectors
- movb $0x0f, %cl # sector 15
- movw $0x0201, %ax # service 2, 1 sector
- int $0x13
- jnc got_sectors
- movb $0x09, %cl
-
-got_sectors:
- movw %cx, %cs:sectors - _boot
- movw $INITSEG, %ax
- movw %ax, %es
-
-# Print some inane message
-
- movb $0x03, %ah # read cursor pos
- xorb %bh, %bh
- int $0x10
-
- movw $9, %cx
- movw $0x0007, %bx # page 0, attribute 7 (normal)
- movw $msg1 - _boot, %bp
- movw $0x1301, %ax # write string, move cursor
- int $0x10
-
-# ok, we've written the message, now
-# we want to load the system (at 0x10000)
-
- movw $TSTLOAD, %ax
- movw %ax, %es # segment of 0x010000
- call read_it
- call kill_motor
- call turnoffcursor
- call print_nl
-
-# after that (everyting loaded), we jump to
-# the setup-routine loaded directly after
-# the bootblock:
-
- ljmp $SETUPSEG,$0
-
-# This routine loads the system at address 0x10000, making sure
-# no 64kB boundaries are crossed. We try to load it as fast as
-# possible, loading whole tracks whenever we can.
-#
-# in: es - starting address segment (normally 0x1000)
-#
-sread: .word 1+SETUPSECS # sectors read of current track
-head: .word 0 # current head
-track: .word 0 # current track
-
-read_it:
- movw %es, %ax
- testw $0x0fff, %ax
-die:
- jne die # es must be at 64kB boundary
- xorw %bx,%bx # bx is starting address within segment
-rp_read:
- movw %es, %ax
- subw $TSTLOAD, %ax # have we loaded all yet?
- cmpw syssize - _boot, %ax
- jbe ok1_read
- ret
-ok1_read:
- movw %cs:sectors - _boot, %ax
- subw sread - _boot, %ax
- movw %ax, %cx
- shlw $9, %cx
- addw %bx, %cx
- jnc ok2_read
- je ok2_read
- xorw %ax, %ax
- subw %bx, %ax
- shrw $9, %ax
-ok2_read:
- call read_track
- movw %ax, %cx
- add sread - _boot, %ax
- cmpw %cs:sectors - _boot, %ax
- jne ok3_read
- movw $1, %ax
- subw head - _boot, %ax
- jne ok4_read
- incw track - _boot
-ok4_read:
- movw %ax, head - _boot
- xorw %ax, %ax
-ok3_read:
- movw %ax, sread - _boot
- shlw $9, %cx
- addw %cx, %bx
- jnc rp_read
- movw %es, %ax
- addb $0x10, %ah
- movw %ax, %es
- xorw %bx, %bx
- jmp rp_read
-
-read_track:
- pusha
- pusha
- movw $0xe2e, %ax # loading... message 2e = .
- movw $7, %bx
- int $0x10
- popa
-
- movw track - _boot, %dx
- movw sread - _boot, %cx
- incw %cx
- movb %dl, %ch
- movw head - _boot, %dx
- movb %dl, %dh
- andw $0x0100, %dx
- movb $2, %ah
-
- pushw %dx # save for error dump
- pushw %cx
- pushw %bx
- pushw %ax
-
- int $0x13
- jc bad_rt
- addw $8, %sp
- popa
- ret
-
-bad_rt:
- pushw %ax # save error code
- call print_all # ah = error, al = read
-
- xorb %ah, %ah
- xorb %dl, %dl
- int $0x13
-
- addw $10, %sp
- popa
- jmp read_track
-
-/*
- * print_all is for debugging purposes.
- * It will print out all of the registers. The assumption is that this is
- * called from a routine, with a stack frame like
- * dx
- * cx
- * bx
- * ax
- * error
- * ret <- sp
- *
-*/
-
-print_all:
- movw $5, %cx # error code + 4 registers
- movw %sp, %bp
-
-print_loop:
- pushw %cx # save count left
- call print_nl # nl for readability
-
- cmpb 5, %cl # see if register name is needed
- jae no_reg
-
- movw $(0xe05 + 'A' - 1), %ax
- subb %cl, %al
- int $0x10
- movb $'X', %al
- int $0x10
- movb $':', %al
- int $0x10
-
-no_reg:
- addw $2, %bp # next register
- call print_hex # print it
- popw %cx
- loop print_loop
- ret
-
-print_nl:
- movw $0xe0d, %ax # CR
- int $0x10
- movb $0x0a, %al # LF
- int $0x10
- ret
-
-/*
- * print_hex is for debugging purposes, and prints the word
- * pointed to by ss:bp in hexadecmial.
- */
-
-print_hex:
- movw $4, %cx # 4 hex digits
- movw (%bp), %dx # load word into dx
-
-print_digit:
- rolw $4, %dx # rotate so that lowest 4 bits are used
- movb $0xe, %ah
- movb %dl, %al # mask off so we have only next nibble
- andb $0xf, %al
- addb $'0', %al # convert to 0-based digit
- cmpb $'9', %al # check for overflow
- jbe good_digit
- addb $('A' - '0' - 10), %al
-
-good_digit:
- int $0x10
- loop print_digit
- ret
-
-
-/*
- * This procedure turns off the floppy drive motor, so
- * that we enter the kernel in a known state, and
- * don't have to worry about it later.
- */
-kill_motor:
- pushw %dx
- movw $0x3f2, %dx
- xorb %al, %al
- outb %al, %dx
- popw %dx
- ret
-
-turnoffcursor:
- movb $0x01, %ah # turn off the cursor
- movb $0x00, %bh
- movw $0x2000, %cx
- int $0x10
- ret
-
-sectors:
- .word 0
-
-msg1:
- .byte 13,10
- .ascii "Loading"
-
-.org 497
-setup_sects:
- .byte SETUPSECS
-.org 500
-syssize:
- .word _syssize
-.org 508
-root_dev:
- .word ROOT_DEV
-boot_flag:
- .word 0xAA55
-_eboot:
diff --git a/memtest86+_old/build-number.txt b/memtest86+_old/build-number.txt
deleted file mode 100644
index 7f8f011..0000000
--- a/memtest86+_old/build-number.txt
+++ /dev/null
@@ -1 +0,0 @@
-7
diff --git a/memtest86+_old/build.number b/memtest86+_old/build.number
deleted file mode 100644
index e110e8d..0000000
--- a/memtest86+_old/build.number
+++ /dev/null
@@ -1 +0,0 @@
-617
diff --git a/memtest86+_old/build_number.h b/memtest86+_old/build_number.h
deleted file mode 100644
index d1f2abc..0000000
--- a/memtest86+_old/build_number.h
+++ /dev/null
@@ -1,9 +0,0 @@
-#ifndef BUILD_NUMBER_STR
-#define BUILD_NUMBER_STR "617"
-#endif
-#ifndef VERSION_STR
-#define VERSION_STR "4.99617 - Thu May 3 11:45:57 CEST 2012"
-#endif
-#ifndef VERSION_STR_SHORT
-#define VERSION_STR_SHORT "4.99617"
-#endif
diff --git a/memtest86+_old/buildnumber.mak b/memtest86+_old/buildnumber.mak
deleted file mode 100644
index 8d5b85d..0000000
--- a/memtest86+_old/buildnumber.mak
+++ /dev/null
@@ -1,10 +0,0 @@
-# Create an auto-incrementing build number.
-
-BUILD_NUMBER_LDFLAGS = -Xlinker --defsym -Xlinker __BUILD_DATE=$$(date +'%Y%m%d')
-BUILD_NUMBER_LDFLAGS += -Xlinker --defsym -Xlinker __BUILD_NUMBER=$$(cat $(BUILD_NUMBER_FILE))
-
-# Build number file. Increment if any object file changes.
-$(BUILD_NUMBER_FILE): $(OBJS)
- @if ! test -f $(BUILD_NUMBER_FILE); then echo 0 > $(BUILD_NUMBER_FILE); fi
- @echo $$(($$(cat $(BUILD_NUMBER_FILE)) + 1)) > $(BUILD_NUMBER_FILE)
-
diff --git a/memtest86+_old/changelog b/memtest86+_old/changelog
deleted file mode 100644
index 9379a5b..0000000
--- a/memtest86+_old/changelog
+++ /dev/null
@@ -1,25 +0,0 @@
-Memtest86+ V5.01 changelog
-----------------------------
-
- - Added support for up to 2 TB of RAM on X64 CPUs
- - Added experimental SMT support up to 32 cores
- - Added complete detection for memory controllers.
- - Added Motherboard Manufacturer & Model reporting
- - Added CPU temperature reporting
- - Added enhanced Fail Safe Mode (Press F1 at startup)
- - Added support for Intel "Sandy Bridge-E" CPUs
- - Added support for Intel "Ivy Bridge" CPUs
- - Added preliminary support for Intel "Haswell" CPUs
- - Added preliminary support for Intel "Haswell-ULT" CPUs
- - Added support for AMD "Kabini" (K16) CPUs
- - Added support for AMD "Bulldozer" CPUs
- - Added support for AMD "Trinity" CPUs
- - Added support for AMD E-/C-/G-/Z- "Bobcat" CPUs
- - Added support for Intel Atom "Pineview" CPUs
- - Added support for Intel Atom "Cedar Trail" CPUs
- - Added SPD detection on most AMD Chipsets
- - Enforced Coreboot support
- - Optimized run time for faster memory error detection
- - Rewriten lots of memory timings detection code
- - Corrected bugs, bugs and more bugs
-
diff --git a/memtest86+_old/config.c b/memtest86+_old/config.c
deleted file mode 100644
index d5af37f..0000000
--- a/memtest86+_old/config.c
+++ /dev/null
@@ -1,531 +0,0 @@
-/* config.c - MemTest-86 Version 3.4
- *
- * Released under version 2 of the Gnu Public License.
- * By Chris Brady
- * ----------------------------------------------------
- * MemTest86+ V5.00 Specific code (GPL V2.0)
- * By Samuel DEMEULEMEESTER, sdemeule@memtest.org
- * http://www.x86-secret.com - http://www.memtest.org
- */
-#include "test.h"
-#include "screen_buffer.h"
-#include "dmi.h"
-
-extern int bail, beepmode;
-extern struct tseq tseq[];
-extern short e820_nr;
-void performance();
-extern volatile short cpu_mode;
-extern volatile int test;
-extern void find_chunks();
-extern volatile short start_seq;
-extern short restart_flag;
-extern short onepass;
-extern short btflag;
-
-extern void get_list(int x, int y, int len, char *buf);
-
-char save[2][POP_H][POP_W];
-char save2[2][POP2_H][POP2_W];
-
-void get_config()
-{
- int flag = 0, sflag = 0, i, j, k, n, m, prt = 0;
- int reprint_screen = 0;
- char cp[64];
- ulong page;
-
- popup();
- wait_keyup();
- while(!flag) {
- cprint(POP_Y+1, POP_X+2, "Settings:");
- cprint(POP_Y+3, POP_X+6, "(1) Test Selection");
- cprint(POP_Y+4, POP_X+6, "(2) Address Range");
- cprint(POP_Y+5, POP_X+6, "(3) Error Report Mode");
- cprint(POP_Y+6, POP_X+6, "(4) Core Selection");
- cprint(POP_Y+7, POP_X+6, "(5) Refresh Screen");
- cprint(POP_Y+8, POP_X+6, "(6) Display DMI Data");
- cprint(POP_Y+9, POP_X+6, "(7) Display SPD Data");
- cprint(POP_Y+11, POP_X+6, "(0) Continue");
-
- /* Wait for key release */
- /* Fooey! This nuts'es up the serial input. */
- sflag = 0;
- switch(get_key()) {
- case 2:
- /* 1 - Test Selection */
- popclear();
- cprint(POP_Y+1, POP_X+2, "Test Selection:");
- cprint(POP_Y+3, POP_X+6, "(1) Default Tests");
- cprint(POP_Y+4, POP_X+6, "(2) Skip Current Test");
- cprint(POP_Y+5, POP_X+6, "(3) Select Test");
- cprint(POP_Y+6, POP_X+6, "(4) Enter Test List");
- cprint(POP_Y+7, POP_X+6, "(0) Cancel");
- if (vv->testsel < 0) {
- cprint(POP_Y+3, POP_X+5, ">");
- } else {
- cprint(POP_Y+5, POP_X+5, ">");
- }
- wait_keyup();
- while (!sflag) {
- switch(get_key()) {
- case 2:
- /* Default - All tests */
- i = 0;
- while (tseq[i].cpu_sel) {
- tseq[i].sel = 1;
- i++;
- }
- find_ticks_for_pass();
- sflag++;
- break;
- case 3:
- /* Skip test */
- bail++;
- sflag++;
- break;
- case 4:
- /* Select test */
- popclear();
- cprint(POP_Y+1, POP_X+3,
- "Test Selection:");
- cprint(POP_Y+4, POP_X+5,
- "Test Number [1-11]: ");
- n = getval(POP_Y+4, POP_X+24, 0) - 1;
- if (n <= 11)
- {
- /* Deselect all tests */
- i = 0;
- while (tseq[i].cpu_sel) {
- tseq[i].sel = 0;
- i++;
- }
- /* Now set the selection */
- tseq[n].sel = 1;
- vv->pass = -1;
- test = n;
- find_ticks_for_pass();
- sflag++;
- bail++;
- }
- break;
- case 5:
- /* Enter a test list */
- popclear();
- cprint(POP_Y+1, POP_X+3,
- "Enter a comma separated list");
- cprint(POP_Y+2, POP_X+3,
- "of tests to execute:");
- cprint(POP_Y+5, POP_X+5, "List: ");
- /* Deselect all tests */
- k = 0;
- while (tseq[k].cpu_sel) {
- tseq[k].sel = 0;
- k++;
- }
-
- /* Get the list */
- for (i=0; i<64; i++) cp[i] = 0;
- get_list(POP_Y+5, POP_X+10, 64, cp);
-
- /* Now enable all of the tests in the
- * list */
- i = j = m = 0;
- while (1) {
- if (mt86_isdigit(cp[i])) {
- n = cp[i]-'0';
- j = j*10 + n;
- i++;
- if (cp[i] == ',' || cp[i] == 0){
- if (j < k) {
- tseq[j].sel = 1;
- m++;
- }
- if (cp[i] == 0) break;
- j = 0;
- i++;
- }
- }
- }
-
- /* If we didn't select at least one
- * test turn them all back on */
- if (m == 0) {
- k = 0;
- while (tseq[k].cpu_sel) {
- tseq[k].sel = 1;
- k++;
- }
- }
- vv->pass = -1;
- test = n;
- find_ticks_for_pass();
- sflag++;
- bail++;
- break;
- case 11:
- case 57:
- sflag++;
- break;
- }
- }
- popclear();
- break;
- case 3:
- /* 2 - Address Range */
- popclear();
- cprint(POP_Y+1, POP_X+2, "Test Address Range:");
- cprint(POP_Y+3, POP_X+6, "(1) Set Lower Limit");
- cprint(POP_Y+4, POP_X+6, "(2) Set Upper Limit");
- cprint(POP_Y+5, POP_X+6, "(3) Test All Memory");
- cprint(POP_Y+6, POP_X+6, "(0) Cancel");
- wait_keyup();
- while (!sflag) {
- switch(get_key()) {
- case 2:
- /* Lower Limit */
- popclear();
- cprint(POP_Y+2, POP_X+4,
- "Lower Limit: ");
- cprint(POP_Y+4, POP_X+4,
- "Current: ");
- aprint(POP_Y+4, POP_X+13, vv->plim_lower);
- cprint(POP_Y+6, POP_X+4,
- "New: ");
- page = getval(POP_Y+6, POP_X+9, 12);
- if (page + 1 <= vv->plim_upper) {
- vv->plim_lower = page;
- test--;
- bail++;
- }
- adj_mem();
- find_chunks();
- find_ticks_for_pass();
- sflag++;
- break;
- case 3:
- /* Upper Limit */
- popclear();
- cprint(POP_Y+2, POP_X+4,
- "Upper Limit: ");
- cprint(POP_Y+4, POP_X+4,
- "Current: ");
- aprint(POP_Y+4, POP_X+13, vv->plim_upper);
- cprint(POP_Y+6, POP_X+4,
- "New: ");
- page = getval(POP_Y+6, POP_X+9, 12);
- if (page - 1 >= vv->plim_lower) {
- vv->plim_upper = page;
- bail++;
- test--;
- }
- adj_mem();
- find_chunks();
- find_ticks_for_pass();
- sflag++;
- break;
- case 4:
- /* All of memory */
- vv->plim_lower = 0;
- vv->plim_upper =
- vv->pmap[vv->msegs - 1].end;
- test--;
- bail++;
- adj_mem();
- find_chunks();
- find_ticks_for_pass();
- sflag++;
- break;
- case 11:
- case 57:
- /* 0/CR - Continue */
- sflag++;
- break;
- }
- }
- popclear();
- break;
- case 4:
- /* Error Mode */
- popclear();
- cprint(POP_Y+1, POP_X+2, "Printing Mode:");
- cprint(POP_Y+3, POP_X+6, "(1) Error Summary");
- cprint(POP_Y+4, POP_X+6, "(2) Individual Errors");
- cprint(POP_Y+5, POP_X+6, "(3) BadRAM Patterns");
- cprint(POP_Y+6, POP_X+6, "(4) Error Counts Only");
- cprint(POP_Y+7, POP_X+6, "(5) Beep on Error");
- cprint(POP_Y+8, POP_X+6, "(0) Cancel");
- cprint(POP_Y+3+vv->printmode, POP_X+5, ">");
- if (beepmode) { cprint(POP_Y+7, POP_X+5, ">"); }
- wait_keyup();
- while (!sflag) {
- switch(get_key()) {
- case 2:
- /* Error Summary */
- vv->printmode=PRINTMODE_SUMMARY;
- vv->erri.eadr = 0;
- vv->erri.hdr_flag = 0;
- sflag++;
- break;
- case 3:
- /* Separate Addresses */
- vv->printmode=PRINTMODE_ADDRESSES;
- vv->erri.eadr = 0;
- vv->erri.hdr_flag = 0;
- vv->msg_line = LINE_SCROLL-1;
- sflag++;
- break;
- case 4:
- /* BadRAM Patterns */
- vv->printmode=PRINTMODE_PATTERNS;
- vv->erri.hdr_flag = 0;
- sflag++;
- prt++;
- break;
- case 5:
- /* Error Counts Only */
- vv->printmode=PRINTMODE_NONE;
- vv->erri.hdr_flag = 0;
- sflag++;
- break;
- case 6:
- /* Set Beep On Error mode */
- beepmode = !beepmode;
- sflag++;
- break;
- case 11:
- case 57:
- /* 0/CR - Continue */
- sflag++;
- break;
- }
- }
- popclear();
- break;
- case 5:
- /* CPU Mode */
- reprint_screen = 1;
- popclear();
- cprint(POP_Y+1, POP_X+2, "CPU Selection Mode:");
- cprint(POP_Y+3, POP_X+6, "(1) Parallel (All)");
- cprint(POP_Y+4, POP_X+6, "(2) Round Robin (RRb)");
- cprint(POP_Y+5, POP_X+6, "(3) Sequential (Seq)");
- cprint(POP_Y+6, POP_X+6, "(0) Cancel");
- cprint(POP_Y+2+cpu_mode, POP_X+5, ">");
- wait_keyup();
- while(!sflag) {
- switch(get_key()) {
- case 2:
- if (cpu_mode != CPM_ALL) bail++;
- cpu_mode = CPM_ALL;
- sflag++;
- popdown();
- cprint(9,34,"All");
- popup();
- break;
- case 3:
- if (cpu_mode != CPM_RROBIN) bail++;
- cpu_mode = CPM_RROBIN;
- sflag++;
- popdown();
- cprint(9,34,"RRb");
- popup();
- break;
- case 4:
- if (cpu_mode != CPM_SEQ) bail++;
- cpu_mode = CPM_SEQ;
- sflag++;
- popdown();
- cprint(9,34,"Seq");
- popup();
- break;
- case 11:
- case 57:
- /* 0/CR - Continue */
- sflag++;
- break;
- }
- }
- popclear();
- break;
- case 6:
- reprint_screen = 1;
- flag++;
- break;
- case 7:
- /* Display DMI Memory Info */
- pop2up();
- print_dmi_info();
- pop2down();
- break;
- case 8:
- /* Display SPD Data */
- popdown();
- show_spd();
- popup();
- sflag++;
- break;
- case 11:
- case 57:
- case 28:
- /* 0/CR/SP - Continue */
- flag++;
- break;
- }
- }
- popdown();
- if (prt) {
- printpatn();
- }
- if (reprint_screen){
- tty_print_screen();
- }
-}
-
-void popup()
-{
- int i, j;
- char *pp;
-
- for (i=POP_Y; i<POP_Y + POP_H; i++) {
- for (j=POP_X; j<POP_X + POP_W; j++) {
- pp = (char *)(SCREEN_ADR + (i * 160) + (j * 2));
- save[0][i-POP_Y][j-POP_X] = *pp; /* Save screen */
- set_scrn_buf(i, j, ' ');
- *pp = ' '; /* Clear */
- pp++;
- save[1][i-POP_Y][j-POP_X] = *pp;
- *pp = 0x07; /* Change Background to black */
- }
- }
- tty_print_region(POP_Y, POP_X, POP_Y+POP_H, POP_X+POP_W);
-}
-
-void popdown()
-{
- int i, j;
- char *pp;
-
- for (i=POP_Y; i<POP_Y + POP_H; i++) {
- for (j=POP_X; j<POP_X + POP_W; j++) {
- pp = (char *)(SCREEN_ADR + (i * 160) + (j * 2));
- *pp = save[0][i-POP_Y][j-POP_X]; /* Restore screen */
- set_scrn_buf(i, j, save[0][i-POP_Y][j-POP_X]);
- pp++;
- *pp = save[1][i-POP_Y][j-POP_X]; /* Restore color */
- }
- }
- tty_print_region(POP_Y, POP_X, POP_Y+POP_H, POP_X+POP_W);
-}
-
-void popclear()
-{
- int i, j;
- char *pp;
-
- for (i=POP_Y; i<POP_Y + POP_H; i++) {
- for (j=POP_X; j<POP_X + POP_W; j++) {
- pp = (char *)(SCREEN_ADR + (i * 160) + (j * 2));
- *pp = ' '; /* Clear popup */
- set_scrn_buf(i, j, ' ');
- pp++;
- }
- }
- tty_print_region(POP_Y, POP_X, POP_Y+POP_H, POP_X+POP_W);
-}
-
-void pop2up()
-{
- int i, j;
- char *pp;
-
- for (i=POP2_Y; i<POP2_Y + POP2_H; i++) {
- for (j=POP2_X; j<POP2_X + POP2_W; j++) {
- pp = (char *)(SCREEN_ADR + (i * 160) + (j * 2));
- save2[0][i-POP2_Y][j-POP2_X] = *pp; /* Save screen */
- set_scrn_buf(i, j, ' ');
- *pp = ' '; /* Clear */
- pp++;
- save2[1][i-POP2_Y][j-POP2_X] = *pp;
- *pp = 0x07; /* Change Background to black */
- }
- }
- tty_print_region(POP2_Y, POP2_X, POP2_Y+POP2_H, POP2_X+POP2_W);
-}
-
-void pop2down()
-{
- int i, j;
- char *pp;
-
- for (i=POP2_Y; i<POP2_Y + POP2_H; i++) {
- for (j=POP2_X; j<POP2_X + POP2_W; j++) {
- pp = (char *)(SCREEN_ADR + (i * 160) + (j * 2));
- *pp = save2[0][i-POP2_Y][j-POP2_X]; /* Restore screen */
- set_scrn_buf(i, j, save2[0][i-POP2_Y][j-POP2_X]);
- pp++;
- *pp = save2[1][i-POP2_Y][j-POP2_X]; /* Restore color */
- }
- }
- tty_print_region(POP2_Y, POP2_X, POP2_Y+POP2_H, POP2_X+POP2_W);
-}
-
-void pop2clear()
-{
- int i, j;
- char *pp;
-
- for (i=POP2_Y; i<POP2_Y + POP2_H; i++) {
- for (j=POP2_X; j<POP2_X + POP2_W; j++) {
- pp = (char *)(SCREEN_ADR + (i * 160) + (j * 2));
- *pp = ' '; /* Clear popup */
- set_scrn_buf(i, j, ' ');
- pp++;
- }
- }
- tty_print_region(POP2_Y, POP2_X, POP2_Y+POP2_H, POP2_X+POP2_W);
-}
-
-
-void adj_mem(void)
-{
- int i;
-
- vv->selected_pages = 0;
- for (i=0; i< vv->msegs; i++) {
- /* Segment inside limits ? */
- if (vv->pmap[i].start >= vv->plim_lower &&
- vv->pmap[i].end <= vv->plim_upper) {
- vv->selected_pages += (vv->pmap[i].end - vv->pmap[i].start);
- continue;
- }
- /* Segment starts below limit? */
- if (vv->pmap[i].start < vv->plim_lower) {
- /* Also ends below limit? */
- if (vv->pmap[i].end < vv->plim_lower) {
- continue;
- }
-
- /* Ends past upper limit? */
- if (vv->pmap[i].end > vv->plim_upper) {
- vv->selected_pages +=
- vv->plim_upper - vv->plim_lower;
- } else {
- /* Straddles lower limit */
- vv->selected_pages +=
- (vv->pmap[i].end - vv->plim_lower);
- }
- continue;
- }
- /* Segment ends above limit? */
- if (vv->pmap[i].end > vv->plim_upper) {
- /* Also starts above limit? */
- if (vv->pmap[i].start > vv->plim_upper) {
- continue;
- }
- /* Straddles upper limit */
- vv->selected_pages +=
- (vv->plim_upper - vv->pmap[i].start);
- }
- }
-}
diff --git a/memtest86+_old/config.h b/memtest86+_old/config.h
deleted file mode 100644
index aa4c9fb..0000000
--- a/memtest86+_old/config.h
+++ /dev/null
@@ -1,52 +0,0 @@
-/*
- * MemTest86+ V5 Specific code (GPL V2.0)
- * By Samuel DEMEULEMEESTER, sdemeule@memtest.org
- * http://www.canardpc.com - http://www.memtest.org
- * ------------------------------------------------
- * config.h - MemTest-86 Version 3.3
- *
- * Compile time configuration options
- *
- * Released under version 2 of the Gnu Public License.
- * By Chris Brady
- */
-
-/* CONSERVATIVE_SMP - If set to 0, SMP will be enabled by default */
-/* Might be enabled in future revision after extensive testing */
-/* In all cases, SMP is disabled by defaut on server platform */
-#define CONSERVATIVE_SMP 1
-
-/* BEEP_MODE - Beep on error. Default off, Change to 1 to enable */
-#define BEEP_MODE 0
-
-/* BEEP_END_NO_ERROR - Beep at end of each pass without error. Default off, Change to 1 to enable */
-#define BEEP_END_NO_ERROR 0
-
-/* PARITY_MEM - Enables support for reporting memory parity errors */
-/* Experimental, normally enabled */
-#define PARITY_MEM
-
-/* SERIAL_CONSOLE_DEFAULT - The default state of the serial console. */
-/* This is normally off since it slows down testing. Change to a 1 */
-/* to enable. */
-#define SERIAL_CONSOLE_DEFAULT 0
-
-/* SERIAL_TTY - The default serial port to use. 0=ttyS0, 1=ttyS1 */
-#define SERIAL_TTY 0
-
-/* SERIAL_BAUD_RATE - Baud rate for the serial console */
-#define SERIAL_BAUD_RATE 9600
-
-/* SCRN_DEBUG - extra check for SCREEN_BUFFER
- */
-/* #define SCRN_DEBUG */
-
-/* APM - Turns off APM at boot time to avoid blanking the screen */
-/* Normally enabled */
-#define APM_OFF
-
-/* USB_WAR - Enables a workaround for errors caused by BIOS USB keyboard */
-/* and mouse support*/
-/* Normally enabled */
-#define USB_WAR
-
diff --git a/memtest86+_old/controller.c b/memtest86+_old/controller.c
deleted file mode 100644
index 6d3f202..0000000
--- a/memtest86+_old/controller.c
+++ /dev/null
@@ -1,4155 +0,0 @@
-/*
- * MemTest86+ V5 Specific code (GPL V2.0)
- * By Samuel DEMEULEMEESTER, sdemeule@memtest.org
- * http://www.canardpc.com - http://www.memtest.org
- */
-
-//#include "defs.h"
-#include "config.h"
-//#include "test.h"
-#include "pci.h"
-#include "controller.h"
-#include "spd.h"
-#include "test.h"
-#include "stdint.h"
-#include "cpuid.h"
-#include "msr.h"
-#include "dmi.h"
-
-int col, col2;
-int nhm_bus = 0x3F;
-
-extern ulong extclock;
-extern unsigned long imc_type;
-extern struct cpu_ident cpu_id;
-/*
- #define rdmsr(msr,val1,val2) \
- __asm__ __volatile__("rdmsr" \
- : "=a" (val1), "=d" (val2) \
- : "c" (msr) : "edi")
-
- #define wrmsr(msr,val1,val2) \
- __asm__ __volatile__("wrmsr" \
- : \
- : "c" (msr), "a" (val1), "d" (val2) : "edi")
-*/
-/* controller ECC capabilities and mode */
-#define __ECC_UNEXPECTED 1 /* Unknown ECC capability present */
-#define __ECC_DETECT 2 /* Can detect ECC errors */
-#define __ECC_CORRECT 4 /* Can correct some ECC errors */
-#define __ECC_SCRUB 8 /* Can scrub corrected ECC errors */
-#define __ECC_CHIPKILL 16 /* Can corrected multi-errors */
-
-#define ECC_UNKNOWN (~0UL) /* Unknown error correcting ability/status */
-#define ECC_NONE 0 /* Doesnt support ECC (or is BIOS disabled) */
-#define ECC_RESERVED __ECC_UNEXPECTED /* Reserved ECC type */
-#define ECC_DETECT __ECC_DETECT
-#define ECC_CORRECT (__ECC_DETECT | __ECC_CORRECT)
-#define ECC_CHIPKILL (__ECC_DETECT | __ECC_CORRECT | __ECC_CHIPKILL)
-#define ECC_SCRUB (__ECC_DETECT | __ECC_CORRECT | __ECC_SCRUB)
-
-
-static struct ecc_info {
- int index;
- int poll;
- unsigned bus;
- unsigned dev;
- unsigned fn;
- unsigned cap;
- unsigned mode;
-} ctrl =
- {
- .index = 0,
- /* I know of no case where the memory controller is not on the
- * host bridge, and the host bridge is not on bus 0 device 0
- * fn 0. But just in case leave these as variables.
- */
- .bus = 0,
- .dev = 0,
- .fn = 0,
- /* Properties of the current memory controller */
- .cap = ECC_UNKNOWN,
- .mode = ECC_UNKNOWN,
- };
-
-
-void coretemp(void)
-{
- unsigned int msrl, msrh;
- unsigned int tjunc, tabs, tnow;
- unsigned long rtcr;
- double amd_raw_temp;
-
- // Only enable coretemp if IMC is known
- if(imc_type == 0) { return; }
-
- tnow = 0;
-
- // Intel CPU
- if(cpu_id.vend_id.char_array[0] == 'G' && cpu_id.max_cpuid >= 6)
- {
- if(cpu_id.dts_pmp & 1){
- rdmsr(MSR_IA32_THERM_STATUS, msrl, msrh);
- tabs = ((msrl >> 16) & 0x7F);
- rdmsr(MSR_IA32_TEMPERATURE_TARGET, msrl, msrh);
- tjunc = ((msrl >> 16) & 0x7F);
- if(tjunc < 50 || tjunc > 125) { tjunc = 90; } // assume Tjunc = 90°C if boggus value received.
- tnow = tjunc - tabs;
- dprint(LINE_CPU+1, 30, vv->check_temp, 3, 0);
- vv->check_temp = tnow;
- }
- return;
- }
-
- // AMD CPU
- if(cpu_id.vend_id.char_array[0] == 'A' && cpu_id.vers.bits.extendedFamily > 0)
- {
- pci_conf_read(0, 24, 3, 0xA4, 4, &rtcr);
- amd_raw_temp = ((rtcr >> 21) & 0x7FF);
- vv->check_temp = (int)(amd_raw_temp / 8);
- dprint(LINE_CPU+1, 30, vv->check_temp, 3, 0);
- }
-
-
-}
-
-void print_cpu_line(float dram_freq, float fsb_freq, int ram_type)
-{
- int cur_col = COL_SPEC;
-
- cprint(LINE_CPU, cur_col, "RAM: ");
- cur_col += 5;
- dprint(LINE_CPU, cur_col, dram_freq, 4, 1);
- cur_col += 4;
- cprint(LINE_CPU, cur_col, "MHz (");
- cur_col += 5;
-
- switch(ram_type)
- {
- default:
- case 1:
- cprint(LINE_CPU, cur_col, "DDR-");
- cur_col += 4;
- break;
- case 2:
- cprint(LINE_CPU, cur_col, "DDR2-");
- cur_col += 5;
- break;
- case 3:
- cprint(LINE_CPU, cur_col, "DDR3-");
- cur_col += 5;
- break;
- }
-
- if(dram_freq < 500)
- {
- dprint(LINE_CPU, cur_col, dram_freq*2, 3, 0);
- cur_col += 3;
- } else {
- dprint(LINE_CPU, cur_col, dram_freq*2, 4, 0);
- cur_col += 4;
- }
- cprint(LINE_CPU, cur_col, ")");
- cur_col++;
-
- if(fsb_freq > 10)
- {
- cprint(LINE_CPU, cur_col, " - BCLK: ");
- cur_col += 9;
-
- dprint(LINE_CPU, cur_col, fsb_freq, 3, 0);
- }
-
-}
-
-void print_ram_line(float cas, int rcd, int rp, int ras, int chan)
-{
- int cur_col = COL_SPEC;
-
- cprint(LINE_RAM, cur_col, "Timings: CAS ");
- cur_col += 13;
-
- // CAS Latency (tCAS)
- if (cas == 1.5) {
- cprint(LINE_RAM, cur_col, "1.5"); cur_col += 3;
- } else if (cas == 2.5) {
- cprint(LINE_RAM, cur_col, "2.5"); cur_col += 3;
- } else if (cas < 10) {
- dprint(LINE_RAM, cur_col, cas, 1, 0); cur_col += 1;
- } else {
- dprint(LINE_RAM, cur_col, cas, 2, 0); cur_col += 2;
- }
- cprint(LINE_RAM, cur_col, "-"); cur_col += 1;
-
- // RAS-To-CAS (tRCD)
- if (rcd < 10) {
- dprint(LINE_RAM, cur_col, rcd, 1, 0);
- cur_col += 1;
- } else {
- dprint(LINE_RAM, cur_col, rcd, 2, 0);
- cur_col += 2;
- }
- cprint(LINE_RAM, cur_col, "-"); cur_col += 1;
-
- // RAS Precharge (tRP)
- if (rp < 10) {
- dprint(LINE_RAM, cur_col, rp, 1, 0);
- cur_col += 1;
- } else {
- dprint(LINE_RAM, cur_col, rp, 2, 0);
- cur_col += 2;
- }
- cprint(LINE_RAM, cur_col, "-"); cur_col += 1;
-
- // RAS Active to precharge (tRAS)
- if (ras < 10) {
- dprint(LINE_RAM, cur_col, ras, 1, 0);
- cur_col += 1;
- } else {
- dprint(LINE_RAM, cur_col, ras, 2, 0);
- cur_col += 2;
- }
-
-
- switch(chan)
- {
- case 0:
- break;
- case 1:
- cprint(LINE_RAM, cur_col, " @ 64-bit Mode");
- break;
- case 2:
- cprint(LINE_RAM, cur_col, " @ 128-bit Mode");
- break;
- case 3:
- cprint(LINE_RAM, cur_col, " @ 192-bit Mode");
- break;
- case 4:
- cprint(LINE_RAM, cur_col, " @ 256-bit Mode");
- break;
- }
-}
-
-static void poll_fsb_nothing(void)
-{
-
- char *name;
-
- /* Print the controller name */
- name = controllers[ctrl.index].name;
- cprint(LINE_CPU, COL_SPEC, "Chipset: ");
- cprint(LINE_CPU, COL_SPEC+9, name);
- return;
-}
-
-static void poll_timings_nothing(void)
-{
- char *ram_type;
-
- /* Print the controller name */
- ram_type = controllers[ctrl.index].ram_type;
- cprint(LINE_RAM, COL_SPEC, "RAM Type: ");
- cprint(LINE_RAM, COL_SPEC+10, ram_type);
- return;
-}
-
-static void setup_nothing(void)
-{
- ctrl.cap = ECC_NONE;
- ctrl.mode = ECC_NONE;
-}
-
-static void poll_nothing(void)
-{
- /* Code to run when we don't know how, or can't ask the memory
- * controller about memory errors.
- */
- return;
-}
-
-static void setup_wmr(void)
-{
- ulong dev0;
-
- // Activate MMR I/O
- pci_conf_read( 0, 0, 0, 0x48, 4, &dev0);
- if (!(dev0 & 0x1)) {
- pci_conf_write( 0, 0, 0, 0x48, 1, dev0 | 1);
- }
-
-}
-
-
-static void setup_nhm(void)
-{
- static float possible_nhm_bus[] = {0xFF, 0x7F, 0x3F};
- unsigned long did, vid, mc_control, mc_ssrcontrol;
- int i;
-
- //Nehalem supports Scrubbing */
- ctrl.cap = ECC_SCRUB;
- ctrl.mode = ECC_NONE;
-
- /* First, locate the PCI bus where the MCH is located */
-
- for(i = 0; i < (sizeof(possible_nhm_bus) /
- sizeof(possible_nhm_bus[0])); i++) {
- pci_conf_read( possible_nhm_bus[i], 3, 4, 0x00, 2, &vid);
- pci_conf_read( possible_nhm_bus[i], 3, 4, 0x02, 2, &did);
- vid &= 0xFFFF;
- did &= 0xFF00;
- if(vid == 0x8086 && did >= 0x2C00) {
- nhm_bus = possible_nhm_bus[i];
- }
- }
-
- /* Now, we have the last IMC bus number in nhm_bus */
- /* Check for ECC & Scrub */
-
- pci_conf_read(nhm_bus, 3, 0, 0x4C, 2, &mc_control);
- if((mc_control >> 4) & 1) {
- ctrl.mode = ECC_CORRECT;
- pci_conf_read(nhm_bus, 3, 2, 0x48, 2, &mc_ssrcontrol);
- if(mc_ssrcontrol & 3) {
- ctrl.mode = ECC_SCRUB;
- }
- }
-
-}
-
-static void setup_nhm32(void)
-{
- static float possible_nhm_bus[] = {0xFF, 0x7F, 0x3F};
- unsigned long did, vid, mc_control, mc_ssrcontrol;
- int i;
-
- //Nehalem supports Scrubbing */
- ctrl.cap = ECC_SCRUB;
- ctrl.mode = ECC_NONE;
-
- /* First, locate the PCI bus where the MCH is located */
- for(i = 0; i < (sizeof(possible_nhm_bus) /
- sizeof(possible_nhm_bus[0])); i++) {
- pci_conf_read( possible_nhm_bus[i], 3, 4, 0x00, 2, &vid);
- pci_conf_read( possible_nhm_bus[i], 3, 4, 0x02, 2, &did);
- vid &= 0xFFFF;
- did &= 0xFF00;
- if(vid == 0x8086 && did >= 0x2C00) {
- nhm_bus = possible_nhm_bus[i];
- }
- }
-
- /* Now, we have the last IMC bus number in nhm_bus */
- /* Check for ECC & Scrub */
- pci_conf_read(nhm_bus, 3, 0, 0x48, 2, &mc_control);
- if((mc_control >> 1) & 1) {
- ctrl.mode = ECC_CORRECT;
- pci_conf_read(nhm_bus, 3, 2, 0x48, 2, &mc_ssrcontrol);
- if(mc_ssrcontrol & 1) {
- ctrl.mode = ECC_SCRUB;
- }
- }
-
-}
-
-static void setup_amd64(void)
-{
- static const int ddim[] = { ECC_NONE, ECC_CORRECT, ECC_RESERVED, ECC_CHIPKILL };
- unsigned long nbxcfg;
- unsigned int mcgsrl;
- unsigned int mcgsth;
- unsigned long mcanb;
- unsigned long dramcl;
-
- /* All AMD64 support Chipkill */
- ctrl.cap = ECC_CHIPKILL;
-
- /* Check First if ECC DRAM Modules are used */
- pci_conf_read(0, 24, 2, 0x90, 4, &dramcl);
-
- if (cpu_id.vers.bits.extendedModel >= 4) {
- /* NEW K8 0Fh Family 90 nm */
-
- if ((dramcl >> 19)&1){
- /* Fill in the correct memory capabilites */
- pci_conf_read(0, 24, 3, 0x44, 4, &nbxcfg);
- ctrl.mode = ddim[(nbxcfg >> 22)&3];
- } else {
- ctrl.mode = ECC_NONE;
- }
- /* Enable NB ECC Logging by MSR Write */
- rdmsr(0x017B, mcgsrl, mcgsth);
- wrmsr(0x017B, 0x10, mcgsth);
-
- /* Clear any previous error */
- pci_conf_read(0, 24, 3, 0x4C, 4, &mcanb);
- pci_conf_write(0, 24, 3, 0x4C, 4, mcanb & 0x7FFFFFFF );
-
- } else {
- /* OLD K8 130 nm */
-
- if ((dramcl >> 17)&1){
- /* Fill in the correct memory capabilites */
- pci_conf_read(0, 24, 3, 0x44, 4, &nbxcfg);
- ctrl.mode = ddim[(nbxcfg >> 22)&3];
- } else {
- ctrl.mode = ECC_NONE;
- }
- /* Enable NB ECC Logging by MSR Write */
- rdmsr(0x017B, mcgsrl, mcgsth);
- wrmsr(0x017B, 0x10, mcgsth);
-
- /* Clear any previous error */
- pci_conf_read(0, 24, 3, 0x4C, 4, &mcanb);
- pci_conf_write(0, 24, 3, 0x4C, 4, mcanb & 0x7F801EFC );
- }
-}
-
-static void setup_k10(void)
-{
- static const int ddim[] = { ECC_NONE, ECC_CORRECT, ECC_CHIPKILL, ECC_CHIPKILL };
- unsigned long nbxcfg;
- unsigned int mcgsrl;
- unsigned int mcgsth;
- unsigned long mcanb;
- unsigned long dramcl;
- ulong msr_low, msr_high;
-
- // All AMD64 support Chipkill */
- ctrl.cap = ECC_CHIPKILL;
-
- // Check First if ECC DRAM Modules are used */
- pci_conf_read(0, 24, 2, 0x90, 4, &dramcl);
-
- if ((dramcl >> 19)&1){
- // Fill in the correct memory capabilites */
- pci_conf_read(0, 24, 3, 0x44, 4, &nbxcfg);
- ctrl.mode = ddim[(nbxcfg >> 22)&3];
- } else {
- ctrl.mode = ECC_NONE;
- }
- // Enable NB ECC Logging by MSR Write */
- rdmsr(0x017B, mcgsrl, mcgsth);
- wrmsr(0x017B, 0x10, mcgsth);
-
- // Clear any previous error */
- pci_conf_read(0, 24, 3, 0x4C, 4, &mcanb);
- pci_conf_write(0, 24, 3, 0x4C, 4, mcanb & 0x7FFFFFFF );
-
- /* Enable ECS */
- rdmsr(0xC001001F, msr_low, msr_high);
- wrmsr(0xC001001F, msr_low, (msr_high | 0x4000));
- rdmsr(0xC001001F, msr_low, msr_high);
-
-}
-
-static void setup_apu(void)
-{
-
- ulong msr_low, msr_high;
-
- /* Enable ECS */
- rdmsr(0xC001001F, msr_low, msr_high);
- wrmsr(0xC001001F, msr_low, (msr_high | 0x4000));
- rdmsr(0xC001001F, msr_low, msr_high);
-
-}
-
-/*
- static void poll_amd64(void)
- {
-
- unsigned long mcanb;
- unsigned long page, offset;
- unsigned long celog_syndrome;
- unsigned long mcanb_add;
-
- pci_conf_read(0, 24, 3, 0x4C, 4, &mcanb);
-
- if (((mcanb >> 31)&1) && ((mcanb >> 14)&1)) {
- // Find out about the first correctable error
- // Syndrome code -> bits use a complex matrix. Will add this later
- // Read the error location
- pci_conf_read(0, 24, 3, 0x50, 4, &mcanb_add);
-
- // Read the syndrome
- celog_syndrome = (mcanb >> 15)&0xFF;
-
- // Parse the error location
- page = (mcanb_add >> 12);
- offset = (mcanb_add >> 3) & 0xFFF;
-
- // Report the error
- print_ecc_err(page, offset, 1, celog_syndrome, 0);
-
- // Clear the error registers
- pci_conf_write(0, 24, 3, 0x4C, 4, mcanb & 0x7FFFFFFF );
- }
- if (((mcanb >> 31)&1) && ((mcanb >> 13)&1)) {
- // Found out about the first uncorrectable error
- // Read the error location
- pci_conf_read(0, 24, 3, 0x50, 4, &mcanb_add);
-
- // Parse the error location
- page = (mcanb_add >> 12);
- offset = (mcanb_add >> 3) & 0xFFF;
-
- // Report the error
- print_ecc_err(page, offset, 0, 0, 0);
-
- // Clear the error registers
- pci_conf_write(0, 24, 3, 0x4C, 4, mcanb & 0x7FFFFFF );
-
- }
-
- }
-*/
-
-static void setup_amd751(void)
-{
- unsigned long dram_status;
-
- /* Fill in the correct memory capabilites */
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, 0x5a, 2, &dram_status);
- ctrl.cap = ECC_CORRECT;
- ctrl.mode = (dram_status & (1 << 2))?ECC_CORRECT: ECC_NONE;
-}
-
-/*
- static void poll_amd751(void)
- {
- unsigned long ecc_status;
- unsigned long bank_addr;
- unsigned long bank_info;
- unsigned long page;
- int bits;
- int i;
-
- // Read the error status
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, 0x58, 2, &ecc_status);
- if (ecc_status & (3 << 8)) {
- for(i = 0; i < 6; i++) {
- if (!(ecc_status & (1 << i))) {
- continue;
- }
- // Find the bank the error occured on
- bank_addr = 0x40 + (i << 1);
-
- // Now get the information on the erroring bank
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, bank_addr, 2, &bank_info);
-
- // Parse the error location and error type
- page = (bank_info & 0xFF80) << 4;
- bits = (((ecc_status >> 8) &3) == 2)?1:2;
-
- // Report the error
- print_ecc_err(page, 0, bits==1?1:0, 0, 0);
-
- }
-
- // Clear the error status
- pci_conf_write(ctrl.bus, ctrl.dev, ctrl.fn, 0x58, 2, 0);
- }
- }
-
- // Still waiting for the CORRECT intel datasheet
- static void setup_i85x(void)
- {
- unsigned long drc;
- ctrl.cap = ECC_CORRECT;
-
- pci_conf_read(ctrl.bus, ctrl.dev, 1, 0x70, 4, &drc);
- ctrl.mode = ((drc>>20)&1)?ECC_CORRECT:ECC_NONE;
-
- }
-*/
-
-static void setup_amd76x(void)
-{
- static const int ddim[] = { ECC_NONE, ECC_DETECT, ECC_CORRECT, ECC_CORRECT };
- unsigned long ecc_mode_status;
-
- /* Fill in the correct memory capabilites */
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, 0x48, 4, &ecc_mode_status);
- ctrl.cap = ECC_CORRECT;
- ctrl.mode = ddim[(ecc_mode_status >> 10)&3];
-}
-
-/*
- static void poll_amd76x(void)
- {
- unsigned long ecc_mode_status;
- unsigned long bank_addr;
- unsigned long bank_info;
- unsigned long page;
-
- // Read the error status
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, 0x48, 4, &ecc_mode_status);
- // Multibit error
- if (ecc_mode_status & (1 << 9)) {
- // Find the bank the error occured on
- bank_addr = 0xC0 + (((ecc_mode_status >> 4) & 0xf) << 2);
-
- // Now get the information on the erroring bank
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, bank_addr, 4, &bank_info);
-
- // Parse the error location and error type
- page = (bank_info & 0xFF800000) >> 12;
-
- // Report the error
- print_ecc_err(page, 0, 1, 0, 0);
-
- }
- // Singlebit error
- if (ecc_mode_status & (1 << 8)) {
- // Find the bank the error occured on
- bank_addr = 0xC0 + (((ecc_mode_status >> 0) & 0xf) << 2);
-
- // Now get the information on the erroring bank
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, bank_addr, 4, &bank_info);
-
- // Parse the error location and error type
- page = (bank_info & 0xFF800000) >> 12;
-
- // Report the error
- print_ecc_err(page, 0, 0, 0, 0);
-
- }
- // Clear the error status
- if (ecc_mode_status & (3 << 8)) {
- pci_conf_write(ctrl.bus, ctrl.dev, ctrl.fn, 0x48, 4, ecc_mode_status);
- }
- }
-*/
-
-static void setup_cnb20(void)
-{
- /* Fill in the correct memory capabilites */
- ctrl.cap = ECC_CORRECT;
-
- /* FIXME add ECC error polling. I don't have the documentation
- * do it right now.
- */
-}
-
-static void setup_E5400(void)
-{
- unsigned long mcs;
-
-
- /* Read the hardware capabilities */
- pci_conf_read(ctrl.bus, 16, 1, 0x40, 4, &mcs);
-
- /* Fill in the correct memory capabilities */
- ctrl.mode = 0;
- ctrl.cap = ECC_SCRUB;
-
- /* Checking and correcting enabled */
- if (((mcs >> 5) & 1) == 1) {
- ctrl.mode |= ECC_CORRECT;
- }
-
- /* scrub enabled */
- if (((mcs >> 7) & 1) == 1) {
- ctrl.mode |= __ECC_SCRUB;
- }
-}
-
-
-static void setup_iE7xxx(void)
-{
- unsigned long mchcfgns;
- unsigned long drc;
- unsigned long device;
- unsigned long dvnp;
-
- /* Read the hardare capabilities */
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, 0x52, 2, &mchcfgns);
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, 0x7C, 4, &drc);
-
- /* This is a check for E7205 */
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, 0x02, 2, &device);
-
- /* Fill in the correct memory capabilities */
- ctrl.mode = 0;
- ctrl.cap = ECC_CORRECT;
-
- /* checking and correcting enabled */
- if (((drc >> 20) & 3) == 2) {
- ctrl.mode |= ECC_CORRECT;
- }
-
- /* E7205 doesn't support scrubbing */
- if (device != 0x255d) {
- /* scrub enabled */
- /* For E7501, valid SCRUB operations is bit 0 / D0:F0:R70-73 */
- ctrl.cap = ECC_SCRUB;
- if (mchcfgns & 1) {
- ctrl.mode |= __ECC_SCRUB;
- }
-
- /* Now, we can active Dev1/Fun1 */
- /* Thanks to Tyan for providing us the board to solve this */
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, 0xE0, 2, &dvnp);
- pci_conf_write(ctrl.bus, ctrl.dev, ctrl.fn , 0xE0, 2, (dvnp & 0xFE));
-
- /* Clear any routing of ECC errors to interrupts that the BIOS might have set up */
- pci_conf_write(ctrl.bus, ctrl.dev, ctrl.fn +1, 0x88, 1, 0x0);
- pci_conf_write(ctrl.bus, ctrl.dev, ctrl.fn +1, 0x8A, 1, 0x0);
- pci_conf_write(ctrl.bus, ctrl.dev, ctrl.fn +1, 0x8C, 1, 0x0);
-
-
- }
-
- /* Clear any prexisting error reports */
- pci_conf_write(ctrl.bus, ctrl.dev, ctrl.fn +1, 0x80, 1, 3);
- pci_conf_write(ctrl.bus, ctrl.dev, ctrl.fn +1, 0x82, 1, 3);
-
-
-}
-
-static void setup_iE7520(void)
-{
- unsigned long mchscrb;
- unsigned long drc;
- unsigned long dvnp1;
-
- /* Read the hardare capabilities */
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, 0x52, 2, &mchscrb);
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, 0x7C, 4, &drc);
-
- /* Fill in the correct memory capabilities */
- ctrl.mode = 0;
- ctrl.cap = ECC_CORRECT;
-
- /* Checking and correcting enabled */
- if (((drc >> 20) & 3) != 0) {
- ctrl.mode |= ECC_CORRECT;
- }
-
- /* scrub enabled */
- ctrl.cap = ECC_SCRUB;
- if ((mchscrb & 3) == 2) {
- ctrl.mode |= __ECC_SCRUB;
- }
-
- /* Now, we can activate Fun1 */
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, 0xF4, 1, &dvnp1);
- pci_conf_write(ctrl.bus, ctrl.dev, ctrl.fn , 0xF4, 1, (dvnp1 | 0x20));
-
- /* Clear any prexisting error reports */
- pci_conf_write(ctrl.bus, ctrl.dev, ctrl.fn +1, 0x80, 2, 0x4747);
- pci_conf_write(ctrl.bus, ctrl.dev, ctrl.fn +1, 0x82, 2, 0x4747);
-
-}
-
-/*
- static void poll_iE7xxx(void)
- {
- unsigned long ferr;
- unsigned long nerr;
-
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn +1, 0x80, 1, &ferr);
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn +1, 0x82, 1, &nerr);
-
- if (ferr & 1) {
- // Find out about the first correctable error
- unsigned long celog_add;
- unsigned long celog_syndrome;
- unsigned long page;
-
- // Read the error location
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn +1, 0xA0, 4, &celog_add);
- // Read the syndrome
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn +1, 0xD0, 2, &celog_syndrome);
-
- // Parse the error location
- page = (celog_add & 0x0FFFFFC0) >> 6;
-
- // Report the error
- print_ecc_err(page, 0, 1, celog_syndrome, 0);
-
- // Clear Bit
- pci_conf_write(ctrl.bus, ctrl.dev, ctrl.fn +1, 0x80, 1, ferr & 3);
- }
-
- if (ferr & 2) {
- // Found out about the first uncorrectable error
- unsigned long uccelog_add;
- unsigned long page;
-
- // Read the error location
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn +1, 0xB0, 4, &uccelog_add);
-
- // Parse the error location
- page = (uccelog_add & 0x0FFFFFC0) >> 6;
-
- // Report the error
- print_ecc_err(page, 0, 0, 0, 0);
-
- // Clear Bit
- pci_conf_write(ctrl.bus, ctrl.dev, ctrl.fn +1, 0x80, 1, ferr & 3);
- }
-
- // Check if DRAM_NERR contains data
- if (nerr & 3) {
- pci_conf_write(ctrl.bus, ctrl.dev, ctrl.fn +1, 0x82, 1, nerr & 3);
- }
-
- }
-*/
-
-static void setup_i440gx(void)
-{
- static const int ddim[] = { ECC_NONE, ECC_DETECT, ECC_CORRECT, ECC_CORRECT };
- unsigned long nbxcfg;
-
- /* Fill in the correct memory capabilites */
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, 0x50, 4, &nbxcfg);
- ctrl.cap = ECC_CORRECT;
- ctrl.mode = ddim[(nbxcfg >> 7)&3];
-}
-
-/*
- static void poll_i440gx(void)
- {
- unsigned long errsts;
- unsigned long page;
- int bits;
- // Read the error status
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, 0x91, 2, &errsts);
- if (errsts & 0x11) {
- unsigned long eap;
- // Read the error location
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, 0x80, 4, &eap);
-
- // Parse the error location and error type
- page = (eap & 0xFFFFF000) >> 12;
- bits = 0;
- if (eap &3) {
- bits = ((eap & 3) == 1)?1:2;
- }
-
- if (bits) {
- // Report the error
- print_ecc_err(page, 0, bits==1?1:0, 0, 0);
- }
-
- // Clear the error status
- pci_conf_write(ctrl.bus, ctrl.dev, ctrl.fn, 0x91, 2, 0x11);
- pci_conf_write(ctrl.bus, ctrl.dev, ctrl.fn, 0x80, 4, 3);
- }
-
- }
-*/
-
-
-static void setup_i840(void)
-{
- static const int ddim[] = { ECC_NONE, ECC_RESERVED, ECC_CORRECT, ECC_CORRECT };
- unsigned long mchcfg;
-
- /* Fill in the correct memory capabilites */
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, 0x50, 2, &mchcfg);
- ctrl.cap = ECC_CORRECT;
- ctrl.mode = ddim[(mchcfg >> 7)&3];
-}
-
-/*
- static void poll_i840(void)
- {
- unsigned long errsts;
- unsigned long page;
- unsigned long syndrome;
- int channel;
- int bits;
- // Read the error status
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, 0xC8, 2, &errsts);
- if (errsts & 3) {
- unsigned long eap;
- unsigned long derrctl_sts;
- // Read the error location
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, 0xE4, 4, &eap);
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, 0xE2, 2, &derrctl_sts);
-
- // Parse the error location and error type
- page = (eap & 0xFFFFF800) >> 11;
- channel = eap & 1;
- syndrome = derrctl_sts & 0xFF;
- bits = ((errsts & 3) == 1)?1:2;
-
- // Report the error
- print_ecc_err(page, 0, bits==1?1:0, syndrome, channel);
-
- // Clear the error status
- pci_conf_write(ctrl.bus, ctrl.dev, ctrl.fn, 0xE2, 2, 3 << 10);
- pci_conf_write(ctrl.bus, ctrl.dev, ctrl.fn, 0xC8, 2, 3);
- }
- }
-*/
-
-
-static void setup_i875(void)
-{
-
- long *ptr;
- ulong dev0, dev6 ;
-
- /* Fill in the correct memory capabilites */
-
- ctrl.cap = ECC_CORRECT;
- ctrl.mode = ECC_NONE;
-
- /* From my article : http://www.x86-secret.com/articles/tweak/pat/patsecrets-2.htm */
- /* Activate Device 6 */
- pci_conf_read( 0, 0, 0, 0xF4, 1, &dev0);
- pci_conf_write( 0, 0, 0, 0xF4, 1, (dev0 | 0x2));
-
- /* Activate Device 6 MMR */
- pci_conf_read( 0, 6, 0, 0x04, 2, &dev6);
- pci_conf_write( 0, 6, 0, 0x04, 2, (dev6 | 0x2));
-
- /* Read the MMR Base Address & Define the pointer*/
- pci_conf_read( 0, 6, 0, 0x10, 4, &dev6);
- ptr=(long*)(dev6+0x68);
-
- if (((*ptr >> 18)&1) == 1) { ctrl.mode = ECC_CORRECT; }
-
- /* Reseting state */
- pci_conf_write(ctrl.bus, ctrl.dev, ctrl.fn, 0xC8, 2, 0x81);
-}
-
-static void setup_i925(void)
-{
-
- // Activate MMR I/O
- ulong dev0, drc;
- unsigned long tolm;
- long *ptr;
-
- pci_conf_read( 0, 0, 0, 0x54, 4, &dev0);
- dev0 = dev0 | 0x10000000;
- pci_conf_write( 0, 0, 0, 0x54, 4, dev0);
-
- // CDH start
- pci_conf_read( 0, 0, 0, 0x44, 4, &dev0);
- if (!(dev0 & 0xFFFFC000)) {
- pci_conf_read( 0, 0, 0, 0x9C, 1, &tolm);
- pci_conf_write( 0, 0, 0, 0x47, 1, tolm & 0xF8);
- }
- // CDH end
-
- // ECC Checking
- ctrl.cap = ECC_CORRECT;
-
- dev0 &= 0xFFFFC000;
- ptr=(long*)(dev0+0x120);
- drc = *ptr & 0xFFFFFFFF;
-
- if (((drc >> 20) & 3) == 2) {
- pci_conf_write(ctrl.bus, ctrl.dev, ctrl.fn, 0xC8, 2, 3);
- ctrl.mode = ECC_CORRECT;
- } else {
- ctrl.mode = ECC_NONE;
- }
-
-}
-
-static void setup_p35(void)
-{
-
- // Activate MMR I/O
- ulong dev0, capid0;
-
- pci_conf_read( 0, 0, 0, 0x48, 4, &dev0);
- if (!(dev0 & 0x1)) {
- pci_conf_write( 0, 0, 0, 0x48, 1, dev0 | 1);
- }
-
- // ECC Checking (No poll on X38/48 for now)
- pci_conf_read( 0, 0, 0, 0xE4, 4, &capid0);
- if ((capid0 >> 8) & 1) {
- ctrl.cap = ECC_NONE;
- } else {
- ctrl.cap = ECC_CORRECT;
- }
-
- ctrl.mode = ECC_NONE;
-
- /*
- ulong toto;
- pci_conf_write(0, 31, 3, 0x40, 1, 0x1);
- pci_conf_read(0, 31, 3, 0x0, 4, &toto);
- hprint(11,0,toto);
- pci_conf_read(0, 31, 3, 0x10, 4, &toto);
- hprint(11,10,toto) ;
- pci_conf_read(0, 31, 3, 0x20, 4, &toto);
- hprint(11,20,toto) ;
- pci_conf_read(0, 28, 0, 0x0, 4, &toto);
- hprint(11,30,toto);
- pci_conf_read(0, 31, 0, 0x0, 4, &toto);
- hprint(11,40,toto) ;
- pci_conf_read(0, 31, 1, 0x0, 4, &toto);
- hprint(11,50,toto) ;
- pci_conf_read(0, 31, 2, 0x0, 4, &toto);
- hprint(11,60,toto) ;
- */
-}
-
-/*
- static void poll_i875(void)
- {
- unsigned long errsts;
- unsigned long page;
- unsigned long des;
- unsigned long syndrome;
- int channel;
- int bits;
- // Read the error status
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, 0xC8, 2, &errsts);
- if (errsts & 0x81) {
- unsigned long eap;
- unsigned long derrsyn;
- // Read the error location, syndrome and channel
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, 0x58, 4, &eap);
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, 0x5C, 1, &derrsyn);
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, 0x5D, 1, &des);
-
- // Parse the error location and error type
- page = (eap & 0xFFFFF000) >> 12;
- syndrome = derrsyn;
- channel = des & 1;
- bits = (errsts & 0x80)?0:1;
-
- // Report the error
- print_ecc_err(page, 0, bits, syndrome, channel);
-
- // Clear the error status
- pci_conf_write(ctrl.bus, ctrl.dev, ctrl.fn, 0xC8, 2, 0x81);
- }
- }
-*/
-
-static void setup_i845(void)
-{
- static const int ddim[] = { ECC_NONE, ECC_RESERVED, ECC_CORRECT, ECC_RESERVED };
- unsigned long drc;
-
- // Fill in the correct memory capabilites
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, 0x7C, 4, &drc);
- ctrl.cap = ECC_CORRECT;
- ctrl.mode = ddim[(drc >> 20)&3];
-}
-
-/*
- static void poll_i845(void)
- {
- unsigned long errsts;
- unsigned long page, offset;
- unsigned long syndrome;
- int bits;
- // Read the error status
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, 0xC8, 2, &errsts);
- if (errsts & 3) {
- unsigned long eap;
- unsigned long derrsyn;
- // Read the error location
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, 0x8C, 4, &eap);
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, 0x86, 1, &derrsyn);
-
- // Parse the error location and error type
- offset = (eap & 0xFE) << 4;
- page = (eap & 0x3FFFFFFE) >> 8;
- syndrome = derrsyn;
- bits = ((errsts & 3) == 1)?1:2;
-
- // Report the error
- print_ecc_err(page, offset, bits==1?1:0, syndrome, 0);
-
- // Clear the error status
- pci_conf_write(ctrl.bus, ctrl.dev, ctrl.fn, 0xC8, 2, 3);
- }
- }
-*/
-
-
-static void setup_i820(void)
-{
- static const int ddim[] = { ECC_NONE, ECC_RESERVED, ECC_CORRECT, ECC_CORRECT };
- unsigned long mchcfg;
-
- // Fill in the correct memory capabilites
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, 0xbe, 2, &mchcfg);
- ctrl.cap = ECC_CORRECT;
- ctrl.mode = ddim[(mchcfg >> 7)&3];
-}
-
-/*
- static void poll_i820(void)
- {
- unsigned long errsts;
- unsigned long page;
- unsigned long syndrome;
- int bits;
- // Read the error status
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, 0xC8, 2, &errsts);
- if (errsts & 3) {
- unsigned long eap;
- // Read the error location
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, 0xc4, 4, &eap);
-
- // Parse the error location and error type
- page = (eap & 0xFFFFF000) >> 4;
- syndrome = eap & 0xFF;
- bits = ((errsts & 3) == 1)?1:2;
-
- // Report the error
- print_ecc_err(page, 0, bits==1?1:0, syndrome, 0);
-
- // Clear the error status
- pci_conf_write(ctrl.bus, ctrl.dev, ctrl.fn, 0xC8, 2, 3);
- }
- }
-*/
-
-static void setup_i850(void)
-{
- static const int ddim[] = { ECC_NONE, ECC_RESERVED, ECC_CORRECT, ECC_RESERVED };
- unsigned long mchcfg;
-
- // Fill in the correct memory capabilites
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, 0x50, 2, &mchcfg);
- ctrl.cap = ECC_CORRECT;
- ctrl.mode = ddim[(mchcfg >> 7)&3];
-}
-
-/*
- static void poll_i850(void)
- {
- unsigned long errsts;
- unsigned long page;
- unsigned long syndrome;
- int channel;
- int bits;
- // Read the error status
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, 0xC8, 2, &errsts);
- if (errsts & 3) {
- unsigned long eap;
- unsigned long derrctl_sts;
- // Read the error location
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, 0xE4, 4, &eap);
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, 0xE2, 2, &derrctl_sts);
-
- // Parse the error location and error type
- page = (eap & 0xFFFFF800) >> 11;
- channel = eap & 1;
- syndrome = derrctl_sts & 0xFF;
- bits = ((errsts & 3) == 1)?1:2;
-
- // Report the error
- print_ecc_err(page, 0, bits==1?1:0, syndrome, channel);
-
- // Clear the error status
- pci_conf_write(ctrl.bus, ctrl.dev, ctrl.fn, 0xC8, 2, errsts & 3);
- }
- }
-*/
-
-static void setup_i860(void)
-{
- static const int ddim[] = { ECC_NONE, ECC_RESERVED, ECC_CORRECT, ECC_RESERVED };
- unsigned long mchcfg;
- unsigned long errsts;
-
- // Fill in the correct memory capabilites
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, 0x50, 2, &mchcfg);
- ctrl.cap = ECC_CORRECT;
- ctrl.mode = ddim[(mchcfg >> 7)&3];
-
- // Clear any prexisting error reports
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, 0xC8, 2, &errsts);
- pci_conf_write(ctrl.bus, ctrl.dev, ctrl.fn, 0xC8, 2, errsts & 3);
-}
-
-/*
- static void poll_i860(void)
- {
- unsigned long errsts;
- unsigned long page;
- unsigned char syndrome;
- int channel;
- int bits;
- // Read the error status
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, 0xC8, 2, &errsts);
- if (errsts & 3) {
- unsigned long eap;
- unsigned long derrctl_sts;
- // Read the error location
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, 0xE4, 4, &eap);
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, 0xE2, 2, &derrctl_sts);
-
- // Parse the error location and error type
- page = (eap & 0xFFFFFE00) >> 9;
- channel = eap & 1;
- syndrome = derrctl_sts & 0xFF;
- bits = ((errsts & 3) == 1)?1:2;
-
- // Report the error
- print_ecc_err(page, 0, bits==1?1:0, syndrome, channel);
-
- // Clear the error status
- pci_conf_write(ctrl.bus, ctrl.dev, ctrl.fn, 0xC8, 2, errsts & 3);
- }
- }
-
-
- static void poll_iE7221(void)
- {
- unsigned long errsts;
- unsigned long page;
- unsigned char syndrome;
- int channel;
- int bits;
- int errocc;
-
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, 0xC8, 2, &errsts);
-
- errocc = errsts & 3;
-
- if ((errocc == 1) || (errocc == 2)) {
- unsigned long eap, offset;
- unsigned long derrctl_sts;
-
- // Read the error location
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, 0x58, 4, &eap);
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, 0x5C, 1, &derrctl_sts);
-
- // Parse the error location and error type
- channel = eap & 1;
- eap = eap & 0xFFFFFF80;
- page = eap >> 12;
- offset = eap & 0xFFF;
- syndrome = derrctl_sts & 0xFF;
- bits = errocc & 1;
-
- // Report the error
- print_ecc_err(page, offset, bits, syndrome, channel);
-
- // Clear the error status
- pci_conf_write(ctrl.bus, ctrl.dev, ctrl.fn, 0xC8, 2, errsts & 3);
- }
-
- else if (errocc == 3) {
-
- pci_conf_write(ctrl.bus, ctrl.dev, ctrl.fn, 0xC8, 2, errsts & 3);
-
- }
- }
-
-
- static void poll_iE7520(void)
- {
- unsigned long ferr;
- unsigned long nerr;
-
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn +1, 0x80, 2, &ferr);
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn +1, 0x82, 2, &nerr);
-
- if (ferr & 0x0101) {
- // Find out about the first correctable error
- unsigned long celog_add;
- unsigned long celog_syndrome;
- unsigned long page;
-
- // Read the error location
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn +1, 0xA0, 4,&celog_add);
- // Read the syndrome
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn +1, 0xC4, 2, &celog_syndrome);
-
- // Parse the error location
- page = (celog_add & 0x7FFFFFFC) >> 2;
-
- // Report the error
- print_ecc_err(page, 0, 1, celog_syndrome, 0);
-
- // Clear Bit
- pci_conf_write(ctrl.bus, ctrl.dev, ctrl.fn +1, 0x80, 2, ferr& 0x0101);
- }
-
- if (ferr & 0x4646) {
- // Found out about the first uncorrectable error
- unsigned long uccelog_add;
- unsigned long page;
-
- // Read the error location
- pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn +1, 0xA4, 4, &uccelog_add);
-
- // Parse the error location
- page = (uccelog_add & 0x7FFFFFFC) >> 2;
-
- // Report the error
- print_ecc_err(page, 0, 0, 0, 0);
-
- // Clear Bit
- pci_conf_write(ctrl.bus, ctrl.dev, ctrl.fn +1, 0x80, 2, ferr & 0x4646);
- }
-
- // Check if DRAM_NERR contains data
- if (nerr & 0x4747) {
- pci_conf_write(ctrl.bus, ctrl.dev, ctrl.fn +1, 0x82, 2, nerr & 0x4747);
- }
- }
-*/
-
-
-
-/* ----------------- Here's the code for FSB detection ----------------- */
-/* --------------------------------------------------------------------- */
-
-static float athloncoef[] = {11, 11.5, 12.0, 12.5, 5.0, 5.5, 6.0, 6.5, 7.0, 7.5, 8.0, 8.5, 9.0, 9.5, 10.0, 10.5};
-static float athloncoef2[] = {12, 19.0, 12.0, 20.0, 13.0, 13.5, 14.0, 21.0, 15.0, 22, 16.0, 16.5, 17.0, 18.0, 23.0, 24.0};
-static float p4model1ratios[] = {16, 17, 18, 19, 20, 21, 22, 23, 8, 9, 10, 11, 12, 13, 14, 15};
-
-static float getP4PMmultiplier(void)
-{
- //unsigned int msr_lo, msr_hi;
- int msr_lo, msr_hi;
- float coef;
-
-
- /* Find multiplier (by MSR) */
- if (cpu_id.vers.bits.family == 6)
- {
- if(cpu_id.fid.bits.eist & 1)
- {
- rdmsr(0x198, msr_lo, msr_hi);
- coef = ((msr_lo) >> 8) & 0x1F;
- if ((msr_lo >> 14) & 0x1) { coef += 0.5f; }
- // Atom Fix
- if(coef == 6)
- {
- coef = ((msr_hi) >> 8) & 0x1F;
- if ((msr_hi >> 14) & 0x1) { coef += 0.5f; }
- }
- } else {
- rdmsr(0x2A, msr_lo, msr_hi);
- coef = (msr_lo >> 22) & 0x1F;
- }
- }
- else
- {
- if (cpu_id.vers.bits.model < 2)
- {
- rdmsr(0x2A, msr_lo, msr_hi);
- coef = (msr_lo >> 8) & 0xF;
- coef = p4model1ratios[(int)coef];
- }
- else
- {
- rdmsr(0x2C, msr_lo, msr_hi);
- coef = (msr_lo >> 24) & 0x1F;
- }
- }
-
- return coef;
-}
-
-static float getNHMmultiplier(void)
-{
- unsigned int msr_lo, msr_hi;
- float coef;
-
- /* Find multiplier (by MSR) */
- /* First, check if Flexible Ratio is Enabled */
- rdmsr(0x194, msr_lo, msr_hi);
- if((msr_lo >> 16) & 1){
- coef = (msr_lo >> 8) & 0xFF;
- } else {
- rdmsr(0xCE, msr_lo, msr_hi);
- coef = (msr_lo >> 8) & 0xFF;
- }
-
- return coef;
-}
-static float getSNBmultiplier(void)
-{
- unsigned int msr_lo, msr_hi;
- float coef;
-
- rdmsr(0xCE, msr_lo, msr_hi);
- coef = (msr_lo >> 8) & 0xFF;
-
- return coef;
-}
-
-static void poll_fsb_ct(void)
-{
- unsigned long mcr, mdr;
- double dramratio, dramclock, fsb;
- float coef = getP4PMmultiplier();
-
- /* Build the MCR Message*/
- mcr = (0x10 << 24); // 10h = Read - 11h = Write
- mcr += (0x01 << 16); // DRAM Registers located on port 01h
- mcr += (0x01 << 8); // DRP = 00h, DTR0 = 01h, DTR1 = 02h, DTR2 = 03h
- mcr &= 0xFFFFFFF0; // bit 03:00 RSVD
-
- /* Send Message to GMCH */
- pci_conf_write(0, 0, 0, 0xD0, 4, mcr);
-
- /* Read Answer from Sideband bus */
- pci_conf_read(0, 0, 0, 0xD4, 4, &mdr);
-
- /* Get RAM ratio */
- switch (mdr & 0x3) {
- default:
- case 0: dramratio = 3.0f; break;
- case 1: dramratio = 4.0f; break;
- case 2: dramratio = 5.0f; break;
- case 3: dramratio = 6.0f; break;
- }
-
- // Compute FSB & RAM Frequency
- fsb = ((extclock / 1000) / coef);
- dramclock = fsb * dramratio;
-
- // Print'em all. Whoa !
- print_cpu_line(dramclock, fsb, 3);
-
-}
-
-static void poll_fsb_amd64(void) {
-
- unsigned int mcgsrl;
- unsigned int mcgsth;
- unsigned long fid, temp2;
- unsigned long dramchr;
- float clockratio;
- double dramclock;
- unsigned int dummy[3];
- int ram_type;
-
- float coef = 10;
-
- cpuid(0x80000007, &dummy[0], &dummy[1], &dummy[2], &dummy[3]);
-
- /* First, got the FID by MSR */
- /* First look if Cool 'n Quiet is supported to choose the best msr */
- if (((dummy[3] >> 1) & 1) == 1) {
- rdmsr(0xc0010042, mcgsrl, mcgsth);
- fid = (mcgsrl & 0x3F);
- } else {
- rdmsr(0xc0010015, mcgsrl, mcgsth);
- fid = ((mcgsrl >> 24)& 0x3F);
- }
-
- /* Extreme simplification. */
- coef = ( fid / 2 ) + 4.0;
-
- /* Support for .5 coef */
- if (fid & 1) { coef = coef + 0.5; }
-
- /* Next, we need the clock ratio */
- if (cpu_id.vers.bits.extendedModel >= 4) {
- /* K8 0FH */
- pci_conf_read(0, 24, 2, 0x94, 4, &dramchr);
- temp2 = (dramchr & 0x7);
- clockratio = coef;
- ram_type = 2;
-
- switch (temp2) {
- case 0x0:
- clockratio = (int)(coef);
- break;
- case 0x1:
- clockratio = (int)(coef * 3.0f/4.0f);
- break;
- case 0x2:
- clockratio = (int)(coef * 3.0f/5.0f);
- break;
- case 0x3:
- clockratio = (int)(coef * 3.0f/6.0f);
- break;
- }
-
- } else {
- /* OLD K8 */
- pci_conf_read(0, 24, 2, 0x94, 4, &dramchr);
- temp2 = (dramchr >> 20) & 0x7;
- ram_type = 1;
- clockratio = coef;
-
- switch (temp2) {
- case 0x0:
- clockratio = (int)(coef * 2.0f);
- break;
- case 0x2:
- clockratio = (int)((coef * 3.0f/2.0f) + 0.81f);
- break;
- case 0x4:
- clockratio = (int)((coef * 4.0f/3.0f) + 0.81f);
- break;
- case 0x5:
- clockratio = (int)((coef * 6.0f/5.0f) + 0.81f);
- break;
- case 0x6:
- clockratio = (int)((coef * 10.0f/9.0f) + 0.81f);
- break;
- case 0x7:
- clockratio = (int)(coef + 0.81f);
- break;
- }
- }
-
- /* Compute the final DRAM Clock */
- dramclock = (extclock / 1000) / clockratio;
-
- /* ...and print */
- print_cpu_line(dramclock, (extclock / 1000 / coef), ram_type);
-
-}
-
-static void poll_fsb_k10(void) {
-
- unsigned int mcgsrl;
- unsigned int mcgsth;
- unsigned long temp2;
- unsigned long dramchr;
- unsigned long mainPllId;
- double dramclock;
- ulong offset = 0;
- int ram_type = 2;
-
- /* First, we need the clock ratio */
- pci_conf_read(0, 24, 2, 0x94, 4, &dramchr);
- temp2 = (dramchr & 0x7);
-
- switch (temp2) {
- case 0x7: temp2++;
- case 0x6: temp2++;
- case 0x5: temp2++;
- case 0x4: temp2++;
- default: temp2 += 3;
- }
-
- /* Compute the final DRAM Clock */
- if (((cpu_id.vers.bits.extendedModel >> 4) & 0xFF) == 1) {
- dramclock = ((temp2 * 200) / 3.0) + 0.25;
- } else {
- unsigned long target;
- unsigned long dx;
- unsigned divisor;
-
- target = temp2 * 400;
-
- /* Get the FID by MSR */
- rdmsr(0xc0010071, mcgsrl, mcgsth);
-
- pci_conf_read(0, 24, 3, 0xD4, 4, &mainPllId);
-
- if ( mainPllId & 0x40 )
- mainPllId &= 0x3F;
- else
- mainPllId = 8; /* FID for 1600 */
-
- mcgsth = (mcgsth >> 17) & 0x3F;
- if ( mcgsth ) {
- if ( mainPllId > mcgsth )
- mainPllId = mcgsth;
- }
-
- dx = (mainPllId + 8) * 1200;
- for ( divisor = 3; divisor < 100; divisor++ )
- if ( (dx / divisor) <= target )
- break;
-
-
- pci_conf_read(0, 24, 2, 0x94, 4, &dramchr);
-
- // If Channel A not enabled, switch to channel B
- if(((dramchr>>14) & 0x1))
- {
- offset = 0x100;
- pci_conf_read(0, 24, 2, 0x94+offset, 4, &dramchr);
- }
-
- //DDR2 or DDR3
- if ((dramchr >> 8)&1) {
- ram_type = 3;
- } else {
- ram_type = 2;;
- }
-
- dramclock = ((dx / divisor) / 6.0) + 0.25;
- }
-
- /* ...and print */
- print_cpu_line(dramclock, 0, ram_type);
-
-}
-
-static void poll_fsb_k12(void) {
-
- unsigned long temp2;
- unsigned long dramchr;
- double dramratio, dramclock, fsb, did;
- unsigned int mcgsrl,mcgsth, fid, did_raw;
-
- // Get current FID & DID
- rdmsr(0xc0010071, mcgsrl, mcgsth);
- did_raw = mcgsrl & 0xF;
- fid = (mcgsrl >> 4) & 0xF;
-
- switch(did_raw)
- {
- default:
- case 0x0:
- did = 1.0f;
- break;
- case 0x1:
- did = 1.5f;
- break;
- case 0x2:
- did = 2.0f;
- break;
- case 0x3:
- did = 3.0f;
- break;
- case 0x4:
- did = 4.0f;
- break;
- case 0x5:
- did = 6.0f;
- break;
- case 0x6:
- did = 8.0f;
- break;
- case 0x7:
- did = 12.0f;
- break;
- case 0x8:
- did = 16.0f;
- break;
- }
-
- fsb = ((extclock / 1000.0f) / ((fid + 16.0f) / did));
-
- /* Finaly, we need the clock ratio */
- pci_conf_read(0, 24, 2, 0x94, 4, &dramchr);
-
- if(((dramchr >> 14) & 0x1) == 1)
- {
- pci_conf_read(0, 24, 2, 0x194, 4, &dramchr);
- }
-
- temp2 = (dramchr & 0x1F);
-
- switch (temp2) {
- default:
- case 0x06:
- dramratio = 4.0f;
- break;
- case 0x0A:
- dramratio = 16.0f / 3.0f;
- break;
- case 0x0E:
- dramratio = 20.0f / 3.0f;
- break;
- case 0x12:
- dramratio = 8.0f;
- break;
- case 0x16:
- dramratio = 28.0f / 3.0f;
- break;
- }
-
- dramclock = fsb * dramratio;
-
- /* print */
- print_cpu_line(dramclock, fsb, 3);
-
-}
-
-static void poll_fsb_k16(void)
-{
-
- unsigned long dramchr;
- double dramratio, dramclock, fsb;
-
- // FIXME: Unable to find a real way to detect multiplier.
- fsb = 100.0f;
-
- /* Clock ratio */
- pci_conf_read(0, 24, 2, 0x94, 4, &dramchr);
-
- switch (dramchr & 0x1F) {
- default:
- case 0x04: /* 333 */
- dramratio = 10.0f / 3.0f;
- break;
- case 0x06: /* 400 */
- dramratio = 4.0f;
- break;
- case 0x0A: /* 533 */
- dramratio = 16.0f / 3.0f;
- break;
- case 0x0E: /* 667 */
- dramratio = 20.0f / 3.0f;
- break;
- case 0x12: /* 800 */
- dramratio = 8.0f;
- break;
- case 0x16: /* 933 */
- dramratio = 28.0f / 3.0f;
- break;
- case 0x19: /* 1050 */
- dramratio = 21.0f / 2.0f;
- break;
- case 0x1A: /* 1066 */
- dramratio = 32.0f / 3.0f;
- break;
- }
-
- dramclock = fsb * dramratio;
-
- /* print */
- print_cpu_line(dramclock, fsb, 3);
-
-}
-
-static void poll_fsb_k15(void) {
-
- unsigned long temp2;
- unsigned long dramchr;
- double dramratio, dramclock, fsb;
- unsigned int mcgsrl,mcgsth, fid, did;
-
- // Get current FID & DID
- rdmsr(0xc0010071, mcgsrl, mcgsth);
- fid = mcgsrl & 0x3F;
- did = (mcgsrl >> 6) & 0x7;
-
- fsb = ((extclock / 1000.0f) / ((fid + 16.0f) / (2^did)) / 2);
-
- /* Finaly, we need the clock ratio */
- pci_conf_read(0, 24, 2, 0x94, 4, &dramchr);
-
- if(((dramchr >> 14) & 0x1) == 1)
- {
- pci_conf_read(0, 24, 2, 0x194, 4, &dramchr);
- }
-
- temp2 = (dramchr & 0x1F);
-
- switch (temp2) {
- case 0x04:
- dramratio = 10.0f / 3.0f;
- break;
- default:
- case 0x06:
- dramratio = 4.0f;
- break;
- case 0x0A:
- dramratio = 16.0f / 3.0f;
- break;
- case 0x0E:
- dramratio = 20.0f / 3.0f;
- break;
- case 0x12:
- dramratio = 8.0f;
- break;
- case 0x16:
- dramratio = 28.0f / 3.0f;
- break;
- case 0x1A:
- dramratio = 32.0f / 3.0f;
- break;
- case 0x1F:
- dramratio = 36.0f / 3.0f;
- break;
- }
-
- dramclock = fsb * dramratio;
-
- /* print */
- print_cpu_line(dramclock, fsb, 3);
-
-}
-
-static void poll_fsb_k14(void)
-{
-
- unsigned long dramchr;
- double dramratio, dramclock, fsb;
-
- // FIXME: Unable to find a real way to detect multiplier.
- fsb = 100.0f;
-
- /* Clock ratio */
- pci_conf_read(0, 24, 2, 0x94, 4, &dramchr);
-
- switch (dramchr & 0x1F) {
- default:
- case 0x06:
- dramratio = 4.0f;
- break;
- case 0x0A:
- dramratio = 16.0f / 3.0f;
- break;
- case 0x0E:
- dramratio = 20.0f / 3.0f;
- break;
- case 0x12:
- dramratio = 8.0f;
- break;
- }
-
- dramclock = fsb * dramratio;
-
- /* print */
- print_cpu_line(dramclock, fsb, 3);
-
-}
-
-
-static void poll_fsb_i925(void) {
-
- double dramclock, dramratio, fsb;
- unsigned long mchcfg, mchcfg2, dev0, drc, idetect;
- float coef = getP4PMmultiplier();
- long *ptr;
- int ddr_type;
-
- pci_conf_read( 0, 0, 0, 0x02, 2, &idetect);
-
- /* Find dramratio */
- pci_conf_read( 0, 0, 0, 0x44, 4, &dev0);
- dev0 = dev0 & 0xFFFFC000;
- ptr=(long*)(dev0+0xC00);
- mchcfg = *ptr & 0xFFFF;
- ptr=(long*)(dev0+0x120);
- drc = *ptr & 0xFFFF;
- dramratio = 1;
-
- mchcfg2 = (mchcfg >> 4)&3;
-
- if ((drc&3) != 2) {
- // We are in DDR1 Mode
- if (mchcfg2 == 1) { dramratio = 0.8; } else { dramratio = 1; }
- ddr_type = 1;
- } else {
- // We are in DDR2 Mode
- ddr_type = 2;
- if ((mchcfg >> 2)&1) {
- // We are in FSB1066 Mode
- if (mchcfg2 == 2) { dramratio = 0.75; } else { dramratio = 1; }
- } else {
- switch (mchcfg2) {
- case 1:
- dramratio = 0.66667;
- break;
- case 2:
- if (idetect != 0x2590) { dramratio = 1; } else { dramratio = 1.5; }
- break;
- case 3:
- // Checking for FSB533 Mode & Alviso
- if ((mchcfg & 1) == 0) { dramratio = 1.33334; }
- else if (idetect == 0x2590) { dramratio = 2; }
- else { dramratio = 1.5; }
- }
- }
- }
- // Compute RAM Frequency
- fsb = ((extclock / 1000) / coef);
- dramclock = fsb * dramratio;
-
-
- print_cpu_line(dramclock, fsb, ddr_type);
-
-}
-
-static void poll_fsb_i945(void) {
-
- double dramclock, dramratio, fsb;
- unsigned long mchcfg, dev0;
- float coef = getP4PMmultiplier();
- long *ptr;
-
- /* Find dramratio */
- pci_conf_read( 0, 0, 0, 0x44, 4, &dev0);
- dev0 &= 0xFFFFC000;
- ptr=(long*)(dev0+0xC00);
- mchcfg = *ptr & 0xFFFF;
- dramratio = 1;
-
- switch ((mchcfg >> 4)&7) {
- case 1: dramratio = 1.0; break;
- case 2: dramratio = 1.33334; break;
- case 3: dramratio = 1.66667; break;
- case 4: dramratio = 2.0; break;
- }
-
- // Compute RAM Frequency
- fsb = ((extclock / 1000) / coef);
-
- dramclock = fsb * dramratio;
-
- // Print
- print_cpu_line(dramclock, fsb, 2);
-
-}
-
-static void poll_fsb_i945gme(void) {
-
- double dramclock, dramratio, fsb;
- unsigned long mchcfg, dev0, fsb_mch;
- float coef = getP4PMmultiplier();
- long *ptr;
-
- /* Find dramratio */
- pci_conf_read( 0, 0, 0, 0x44, 4, &dev0);
- dev0 &= 0xFFFFC000;
- ptr=(long*)(dev0+0xC00);
- mchcfg = *ptr & 0xFFFF;
- dramratio = 1;
-
- switch (mchcfg & 7) {
- case 0: fsb_mch = 400; break;
- default:
- case 1: fsb_mch = 533; break;
- case 2: fsb_mch = 667; break;
- }
-
-
- switch (fsb_mch) {
- case 400:
- switch ((mchcfg >> 4)&7) {
- case 2: dramratio = 1.0f; break;
- case 3: dramratio = 4.0f/3.0f; break;
- case 4: dramratio = 5.0f/3.0f; break;
- }
- break;
-
- default:
- case 533:
- switch ((mchcfg >> 4)&7) {
- case 2: dramratio = 3.0f/4.0f; break;
- case 3: dramratio = 1.0f; break;
- case 4: dramratio = 5.0f/4.0f; break;
- }
- break;
-
- case 667:
- switch ((mchcfg >> 4)&7) {
- case 2: dramratio = 3.0f/5.0f; break;
- case 3: dramratio = 4.0f/5.0f; break;
- case 4: dramratio = 1.0f; break;
- }
- break;
- }
-
- // Compute RAM Frequency
- fsb = ((extclock / 1000) / coef);
- dramclock = fsb * dramratio * 2;
-
- print_cpu_line(dramclock, fsb, 2);
-
-}
-
-
-static void poll_fsb_i975(void) {
-
- double dramclock, dramratio, fsb;
- unsigned long mchcfg, dev0, fsb_mch;
- float coef = getP4PMmultiplier();
- long *ptr;
-
- /* Find dramratio */
- pci_conf_read( 0, 0, 0, 0x44, 4, &dev0);
- dev0 &= 0xFFFFC000;
- ptr=(long*)(dev0+0xC00);
- mchcfg = *ptr & 0xFFFF;
- dramratio = 1;
-
- switch (mchcfg & 7) {
- case 1: fsb_mch = 533; break;
- case 2: fsb_mch = 800; break;
- case 3: fsb_mch = 667; break;
- default: fsb_mch = 1066; break;
- }
-
-
- switch (fsb_mch) {
- case 533:
- switch ((mchcfg >> 4)&7) {
- case 0: dramratio = 1.25; break;
- case 1: dramratio = 1.5; break;
- case 2: dramratio = 2.0; break;
- }
- break;
-
- default:
- case 800:
- switch ((mchcfg >> 4)&7) {
- case 1: dramratio = 1.0; break;
- case 2: dramratio = 1.33334; break;
- case 3: dramratio = 1.66667; break;
- case 4: dramratio = 2.0; break;
- }
- break;
-
- case 1066:
- switch ((mchcfg >> 4)&7) {
- case 1: dramratio = 0.75; break;
- case 2: dramratio = 1.0; break;
- case 3: dramratio = 1.25; break;
- case 4: dramratio = 1.5; break;
- }
- break;
- }
-
- // Compute RAM Frequency
- fsb = ((extclock / 1000) / coef);
- dramclock = fsb * dramratio;
-
- print_cpu_line(dramclock, fsb, 2);
-
-}
-
-static void poll_fsb_i965(void) {
-
- double dramclock, dramratio, fsb;
- unsigned long mchcfg, dev0, fsb_mch;
- float coef = getP4PMmultiplier();
- long *ptr;
-
- /* Find dramratio */
- pci_conf_read( 0, 0, 0, 0x48, 4, &dev0);
- dev0 &= 0xFFFFC000;
- ptr=(long*)(dev0+0xC00);
- mchcfg = *ptr & 0xFFFF;
- dramratio = 1;
-
- switch (mchcfg & 7) {
- case 0: fsb_mch = 1066; break;
- case 1: fsb_mch = 533; break;
- default: case 2: fsb_mch = 800; break;
- case 3: fsb_mch = 667; break;
- case 4: fsb_mch = 1333; break;
- case 6: fsb_mch = 1600; break;
- }
-
-
- switch (fsb_mch) {
- case 533:
- switch ((mchcfg >> 4)&7) {
- case 1: dramratio = 2.0; break;
- case 2: dramratio = 2.5; break;
- case 3: dramratio = 3.0; break;
- }
- break;
-
- default:
- case 800:
- switch ((mchcfg >> 4)&7) {
- case 0: dramratio = 1.0; break;
- case 1: dramratio = 5.0f/4.0f; break;
- case 2: dramratio = 5.0f/3.0f; break;
- case 3: dramratio = 2.0f; break;
- case 4: dramratio = 8.0f/3.0f; break;
- case 5: dramratio = 10.0f/3.0f; break;
- }
- break;
-
- case 1066:
- switch ((mchcfg >> 4)&7) {
- case 1: dramratio = 1.0f; break;
- case 2: dramratio = 5.0f/4.0f; break;
- case 3: dramratio = 3.0f/2.0f; break;
- case 4: dramratio = 2.0f; break;
- case 5: dramratio = 5.0f/2.0f; break;
- }
- break;
-
- case 1333:
- switch ((mchcfg >> 4)&7) {
- case 2: dramratio = 1.0f; break;
- case 3: dramratio = 6.0f/5.0f; break;
- case 4: dramratio = 8.0f/5.0f; break;
- case 5: dramratio = 2.0f; break;
- }
- break;
-
- case 1600:
- switch ((mchcfg >> 4)&7) {
- case 3: dramratio = 1.0f; break;
- case 4: dramratio = 4.0f/3.0f; break;
- case 5: dramratio = 3.0f/2.0f; break;
- case 6: dramratio = 2.0f; break;
- }
- break;
-
- }
-
- // Compute RAM Frequency
- fsb = ((extclock / 1000) / coef);
- dramclock = fsb * dramratio;
-
- // Print DRAM Freq
- print_cpu_line(dramclock, fsb, 2);
-
-}
-
-static void poll_fsb_p35(void) {
-
- double dramclock, dramratio, fsb;
- unsigned long mchcfg, dev0, fsb_mch, Device_ID, Memory_Check, c0ckectrl, offset;
- float coef = getP4PMmultiplier();
- long *ptr;
- int ram_type;
-
- pci_conf_read( 0, 0, 0, 0x02, 2, &Device_ID);
- Device_ID &= 0xFFFF;
-
- /* Find dramratio */
- pci_conf_read( 0, 0, 0, 0x48, 4, &dev0);
- dev0 &= 0xFFFFC000;
-
- ptr = (long*)(dev0+0x260);
- c0ckectrl = *ptr & 0xFFFFFFFF;
-
-
- // If DIMM 0 not populated, check DIMM 1
- ((c0ckectrl) >> 20 & 0xF)?(offset = 0):(offset = 0x400);
-
- ptr=(long*)(dev0+0xC00);
- mchcfg = *ptr & 0xFFFF;
- dramratio = 1;
-
- switch (mchcfg & 7) {
- case 0: fsb_mch = 1066; break;
- case 1: fsb_mch = 533; break;
- default: case 2: fsb_mch = 800; break;
- case 3: fsb_mch = 667; break;
- case 4: fsb_mch = 1333; break;
- case 6: fsb_mch = 1600; break;
- }
-
-
- switch (fsb_mch) {
- case 533:
- switch ((mchcfg >> 4)&7) {
- case 1: dramratio = 2.0; break;
- case 2: dramratio = 2.5; break;
- case 3: dramratio = 3.0; break;
- }
- break;
-
- default:
- case 800:
- switch ((mchcfg >> 4)&7) {
- case 0: dramratio = 1.0; break;
- case 1: dramratio = 5.0f/4.0f; break;
- case 2: dramratio = 5.0f/3.0f; break;
- case 3: dramratio = 2.0; break;
- case 4: dramratio = 8.0f/3.0f; break;
- case 5: dramratio = 10.0f/3.0f; break;
- }
- break;
-
- case 1066:
- switch ((mchcfg >> 4)&7) {
- case 1: dramratio = 1.0f; break;
- case 2: dramratio = 5.0f/4.0f; break;
- case 3: dramratio = 3.0f/2.0f; break;
- case 4: dramratio = 2.0f; break;
- case 5: dramratio = 5.0f/2.0f; break;
- }
- break;
-
- case 1333:
- switch ((mchcfg >> 4)&7) {
- case 2: dramratio = 1.0f; break;
- case 3: dramratio = 6.0f/5.0f; break;
- case 4: dramratio = 8.0f/5.0f; break;
- case 5: dramratio = 2.0f; break;
- }
- break;
-
- case 1600:
- switch ((mchcfg >> 4)&7) {
- case 3: dramratio = 1.0f; break;
- case 4: dramratio = 4.0f/3.0f; break;
- case 5: dramratio = 3.0f/2.0f; break;
- case 6: dramratio = 2.0f; break;
- }
- break;
-
- }
-
- // On P45, check 1A8
- if(Device_ID > 0x2E00 && imc_type != 8) {
- ptr = (long*)(dev0+offset+0x1A8);
- Memory_Check = *ptr & 0xFFFFFFFF;
- Memory_Check >>= 2;
- Memory_Check &= 1;
- Memory_Check = !Memory_Check;
- } else if (imc_type == 8) {
- ptr = (long*)(dev0+offset+0x224);
- Memory_Check = *ptr & 0xFFFFFFFF;
- Memory_Check &= 1;
- Memory_Check = !Memory_Check;
- } else {
- ptr = (long*)(dev0+offset+0x1E8);
- Memory_Check = *ptr & 0xFFFFFFFF;
- }
-
- //Determine DDR-II or DDR-III
- if (Memory_Check & 1) {
- ram_type = 2;
- } else {
- ram_type = 3;
- }
-
- // Compute RAM Frequency
- fsb = ((extclock / 1000) / coef);
- dramclock = fsb * dramratio;
-
- // Print DRAM Freq
- print_cpu_line(dramclock, fsb, ram_type);
-
-}
-
-static void poll_fsb_im965(void) {
-
- double dramclock, dramratio, fsb;
- unsigned long mchcfg, dev0, fsb_mch;
- float coef = getP4PMmultiplier();
- long *ptr;
-
- /* Find dramratio */
- pci_conf_read( 0, 0, 0, 0x48, 4, &dev0);
- dev0 &= 0xFFFFC000;
- ptr=(long*)(dev0+0xC00);
- mchcfg = *ptr & 0xFFFF;
- dramratio = 1;
-
- switch (mchcfg & 7) {
- case 1: fsb_mch = 533; break;
- default: case 2: fsb_mch = 800; break;
- case 3: fsb_mch = 667; break;
- case 6: fsb_mch = 1066; break;
- }
-
-
- switch (fsb_mch) {
- case 533:
- switch ((mchcfg >> 4)&7) {
- case 1: dramratio = 5.0f/4.0f; break;
- case 2: dramratio = 3.0f/2.0f; break;
- case 3: dramratio = 2.0f; break;
- }
- break;
-
- case 667:
- switch ((mchcfg >> 4)&7) {
- case 1: dramratio = 1.0f; break;
- case 2: dramratio = 6.0f/5.0f; break;
- case 3: dramratio = 8.0f/5.0f; break;
- case 4: dramratio = 2.0f; break;
- case 5: dramratio = 12.0f/5.0f; break;
- }
- break;
- default:
- case 800:
- switch ((mchcfg >> 4)&7) {
- case 1: dramratio = 5.0f/6.0f; break;
- case 2: dramratio = 1.0f; break;
- case 3: dramratio = 4.0f/3.0f; break;
- case 4: dramratio = 5.0f/3.0f; break;
- case 5: dramratio = 2.0f; break;
- }
- break;
- case 1066:
- switch ((mchcfg >> 4)&7) {
- case 5: dramratio = 3.0f/2.0f; break;
- case 6: dramratio = 2.0f; break;
- }
- break;
- }
-
- // Compute RAM Frequency
- fsb = ((extclock / 1000) / coef);
- dramclock = fsb * dramratio;
-
- // Print DRAM Freq
- print_cpu_line(dramclock, fsb, 2);
-
-}
-
-
-static void poll_fsb_5400(void) {
-
- double dramclock, dramratio, fsb;
- unsigned long ambase_low, ambase_high, ddrfrq;
- float coef = getP4PMmultiplier();
-
- /* Find dramratio */
- pci_conf_read( 0, 16, 0, 0x48, 4, &ambase_low);
- ambase_low &= 0xFFFE0000;
- pci_conf_read( 0, 16, 0, 0x4C, 4, &ambase_high);
- ambase_high &= 0xFF;
- pci_conf_read( 0, 16, 1, 0x56, 1, &ddrfrq);
- ddrfrq &= 7;
- dramratio = 1;
-
- switch (ddrfrq) {
- case 0:
- case 1:
- case 4:
- dramratio = 1.0;
- break;
- case 2:
- dramratio = 5.0f/4.0f;
- break;
- case 3:
- case 7:
- dramratio = 4.0f/5.0f;
- break;
- }
-
-
- // Compute RAM Frequency
- fsb = ((extclock / 1000) / coef);
- dramclock = fsb * dramratio;
-
- // Print DRAM Freq
- print_cpu_line(dramclock, fsb, 2);
-
-}
-
-
-static void poll_fsb_nf4ie(void) {
-
- double dramclock, dramratio, fsb;
- float mratio, nratio;
- unsigned long reg74, reg60;
- float coef = getP4PMmultiplier();
-
- /* Find dramratio */
- pci_conf_read(0, 0, 2, 0x74, 2, &reg74);
- pci_conf_read(0, 0, 2, 0x60, 4, &reg60);
- mratio = reg74 & 0xF;
- nratio = (reg74 >> 4) & 0xF;
-
- // If M or N = 0, then M or N = 16
- if (mratio == 0) { mratio = 16; }
- if (nratio == 0) { nratio = 16; }
-
- // Check if synchro or pseudo-synchro mode
- if((reg60 >> 22) & 1) {
- dramratio = 1;
- } else {
- dramratio = nratio / mratio;
- }
-
- /* Compute RAM Frequency */
- fsb = ((extclock /1000) / coef);
- dramclock = fsb * dramratio;
-
- // Print DRAM Freq
- print_cpu_line(dramclock, fsb, 2);
-
-}
-
-static void poll_fsb_i875(void) {
-
- double dramclock, dramratio, fsb;
- unsigned long mchcfg, smfs;
- float coef = getP4PMmultiplier();
-
- /* Find dramratio */
- pci_conf_read(0, 0, 0, 0xC6, 2, &mchcfg);
- smfs = (mchcfg >> 10)&3;
- dramratio = 1;
-
- if ((mchcfg&3) == 3) { dramratio = 1; }
- if ((mchcfg&3) == 2) {
- if (smfs == 2) { dramratio = 1; }
- if (smfs == 1) { dramratio = 1.25; }
- if (smfs == 0) { dramratio = 1.5; }
- }
- if ((mchcfg&3) == 1) {
- if (smfs == 2) { dramratio = 0.6666666666; }
- if (smfs == 1) { dramratio = 0.8; }
- if (smfs == 0) { dramratio = 1; }
- }
- if ((mchcfg&3) == 0) { dramratio = 0.75; }
-
-
- /* Compute RAM Frequency */
- dramclock = ((extclock /1000) / coef) / dramratio;
- fsb = ((extclock /1000) / coef);
-
- /* Print DRAM Freq */
- print_cpu_line(dramclock, fsb, 2);
-}
-
-static void poll_fsb_p4(void) {
-
- ulong fsb, idetect;
- float coef = getP4PMmultiplier();
- char *name;
- int col,temp;
-
- fsb = ((extclock /1000) / coef);
-
- /* For synchro only chipsets */
- pci_conf_read( 0, 0, 0, 0x02, 2, &idetect);
- if (idetect == 0x2540 || idetect == 0x254C)
- {
- print_cpu_line(fsb, fsb, 1);
- } else {
- /* Print the controller name */
- col = COL_SPEC;
- cprint(LINE_CPU, col, "Chipset: ");
- col += 9;
- /* Print the controller name */
- name = controllers[ctrl.index].name;
- cprint(LINE_CPU, col, name);
- /* Now figure out how much I just printed */
- temp = 20;
- while(name[temp - 20] != '\0') {
- col++;
- temp++;
- }
-
- if(temp < 36){
- cprint(LINE_CPU, col +1, "- FSB : ");
- col += 9;
- dprint(LINE_CPU, col, fsb, 3,0);
- col += 3;
- }
-
- }
-}
-
-static void poll_fsb_i855(void) {
-
-
- double dramclock, dramratio, fsb ;
- unsigned int msr_lo, msr_hi;
- ulong mchcfg, idetect;
- int coef;
-
- pci_conf_read( 0, 0, 0, 0x02, 2, &idetect);
-
- /* Find multiplier (by MSR) */
-
- /* Is it a Pentium M ? */
- if (cpu_id.vers.bits.family == 6) {
- rdmsr(0x2A, msr_lo, msr_hi);
- coef = (msr_lo >> 22) & 0x1F;
- } else {
- rdmsr(0x2C, msr_lo, msr_hi);
- coef = (msr_lo >> 24) & 0x1F;
- }
-
- fsb = ((extclock /1000) / coef);
-
-
- /* Compute DRAM Clock */
-
- dramratio = 1;
- if (idetect == 0x3580) {
- pci_conf_read( 0, 0, 3, 0xC0, 2, &mchcfg);
- mchcfg = mchcfg & 0x7;
-
- if (mchcfg == 1 || mchcfg == 2 || mchcfg == 4 || mchcfg == 5) { dramratio = 1; }
- if (mchcfg == 0 || mchcfg == 3) { dramratio = 1.333333333; }
- if (mchcfg == 6) { dramratio = 1.25; }
- if (mchcfg == 7) { dramratio = 1.666666667; }
-
- } else {
- pci_conf_read( 0, 0, 0, 0xC6, 2, &mchcfg);
- if (((mchcfg >> 10)&3) == 0) { dramratio = 1; }
- else if (((mchcfg >> 10)&3) == 1) { dramratio = 1.666667; }
- else { dramratio = 1.333333333; }
- }
-
-
- dramclock = fsb * dramratio;
-
- /* ...and print */
- print_cpu_line(dramclock, fsb, 1);
-
-}
-
-static void poll_fsb_amd32(void) {
-
- unsigned int mcgsrl;
- unsigned int mcgsth;
- unsigned long temp;
- double dramclock;
- double coef2;
- int col;
- char *name;
-
- /* First, got the FID */
- rdmsr(0x0c0010015, mcgsrl, mcgsth);
- temp = (mcgsrl >> 24)&0x0F;
-
- if ((mcgsrl >> 19)&1) { coef2 = athloncoef2[temp]; }
- else { coef2 = athloncoef[temp]; }
-
- if (coef2 == 0) { coef2 = 1; };
-
- /* Compute the final FSB Clock */
- dramclock = (extclock /1000) / coef2;
-
- /* Print the controller name */
- col = COL_SPEC;
- cprint(LINE_CPU, col, "Chipset: ");
- col += 9;
- /* Print the controller name */
- name = controllers[ctrl.index].name;
- cprint(LINE_CPU, col, name);
- /* Now figure out how much I just printed */
- temp = 20;
- while(name[temp - 20] != '\0') {
- col++;
- temp++;
- }
-
- if(temp < 36){
- cprint(LINE_CPU, col +1, "- FSB : ");
- col += 9;
- dprint(LINE_CPU, col, dramclock, 3,0);
- col += 3;
- }
-
-
-}
-
-static void poll_fsb_nf2(void) {
-
- unsigned int mcgsrl;
- unsigned int mcgsth;
- unsigned long temp, mempll;
- double dramclock, fsb;
- double mem_m, mem_n;
- float coef;
- coef = 10;
-
- /* First, got the FID */
- rdmsr(0x0c0010015, mcgsrl, mcgsth);
- temp = (mcgsrl >> 24)&0x0F;
-
- if ((mcgsrl >> 19)&1) { coef = athloncoef2[temp]; }
- else { coef = athloncoef[temp]; }
-
- /* Get the coef (COEF = N/M) - Here is for Crush17 */
- pci_conf_read(0, 0, 3, 0x70, 4, &mempll);
- mem_m = (mempll&0x0F);
- mem_n = ((mempll >> 4) & 0x0F);
-
- /* If something goes wrong, the chipset is probably a Crush18 */
- if ( mem_m == 0 || mem_n == 0 ) {
- pci_conf_read(0, 0, 3, 0x7C, 4, &mempll);
- mem_m = (mempll&0x0F);
- mem_n = ((mempll >> 4) & 0x0F);
- }
-
- /* Compute the final FSB Clock */
- dramclock = ((extclock /1000) / coef) * (mem_n/mem_m);
- fsb = ((extclock /1000) / coef);
-
- /* ...and print */
- print_cpu_line(dramclock, fsb, 1);
-
-}
-
-static void poll_fsb_us15w(void) {
-
- double dramclock, dramratio, fsb;
- unsigned long msr;
-
- /* Find dramratio */
- /* D0 MsgRd, 05 Zunit, 03 MSR */
- pci_conf_write(0, 0, 0, 0xD0, 4, 0xD0050300 );
- pci_conf_read(0, 0, 0, 0xD4, 4, &msr );
- fsb = ( msr >> 3 ) & 1;
-
- dramratio = 0.5;
-
- // Compute RAM Frequency
- if (( msr >> 3 ) & 1) {
- fsb = 533;
- } else {
- fsb = 400;
- }
-
- /*
- switch (( msr >> 0 ) & 7) {
- case 0:
- gfx = 100;
- break;
- case 1:
- gfx = 133;
- break;
- case 2:
- gfx = 150;
- break;
- case 3:
- gfx = 178;
- break;
- case 4:
- gfx = 200;
- break;
- case 5:
- gfx = 266;
- break;
- default:
- gfx = 0;
- break;
- }
- */
-
- dramclock = fsb * dramratio;
-
- // Print DRAM Freq
- print_cpu_line(dramclock, fsb, 1);
-
-}
-
-static void poll_fsb_nhm(void) {
-
- double dramclock, dramratio, fsb;
- unsigned long mc_dimm_clk_ratio;
- float coef = getNHMmultiplier();
- //unsigned long qpi_pll_status;
- //float qpi_speed;
-
-
- fsb = ((extclock /1000) / coef);
-
- /* Print QPI Speed (if ECC not supported) */
- /*
- if(ctrl.mode == ECC_NONE && cpu_id.vers.bits.model == 10) {
- pci_conf_read(nhm_bus, 2, 1, 0x50, 2, &qpi_pll_status);
- qpi_speed = (qpi_pll_status & 0x7F) * ((extclock / 1000) / coef) * 2;
- cprint(LINE_CPU+5, col +1, "/ QPI : ");
- col += 9;
- dprint(LINE_CPU+5, col, qpi_speed/1000, 1,0);
- col += 1;
- cprint(LINE_CPU+5, col, ".");
- col += 1;
- qpi_speed = ((qpi_speed / 1000) - (int)(qpi_speed / 1000)) * 10;
- dprint(LINE_CPU+5, col, qpi_speed, 1,0);
- col += 1;
- cprint(LINE_CPU+5, col +1, "GT/s");
- col += 5;
- }
- */
-
- /* Get the clock ratio */
-
- pci_conf_read(nhm_bus, 3, 4, 0x54, 2, &mc_dimm_clk_ratio);
- dramratio = (mc_dimm_clk_ratio & 0x1F);
-
- // Compute RAM Frequency
- fsb = ((extclock / 1000) / coef);
- dramclock = fsb * dramratio / 2;
-
- // Print DRAM Freq
- print_cpu_line(dramclock, fsb, 3);
-
-}
-
-static void poll_fsb_nhm32(void) {
-
- double dramclock, dramratio, fsb;
- unsigned long mc_dimm_clk_ratio;
- float coef = getNHMmultiplier();
- //unsigned long qpi_pll_status;
- //float qpi_speed;
-
- fsb = ((extclock /1000) / coef);
-
- /* Print QPI Speed (if ECC not supported) */
- /*
- if(ctrl.mode == ECC_NONE && cpu_id.vers.bits.model == 12) {
- pci_conf_read(nhm_bus, 2, 1, 0x50, 2, &qpi_pll_status);
- qpi_speed = (qpi_pll_status & 0x7F) * ((extclock / 1000) / coef) * 2;
- cprint(LINE_CPU+5, col +1, "/ QPI : ");
- col += 9;
- dprint(LINE_CPU+5, col, qpi_speed/1000, 1,0);
- col += 1;
- cprint(LINE_CPU+5, col, ".");
- col += 1;
- qpi_speed = ((qpi_speed / 1000) - (int)(qpi_speed / 1000)) * 10;
- dprint(LINE_CPU+5, col, qpi_speed, 1,0);
- col += 1;
- cprint(LINE_CPU+5, col +1, "GT/s");
- col += 5;
- }
- */
-
- /* Get the clock ratio */
-
- pci_conf_read(nhm_bus, 3, 4, 0x50, 2, &mc_dimm_clk_ratio);
- dramratio = (mc_dimm_clk_ratio & 0x1F);
-
- // Compute RAM Frequency
- fsb = ((extclock / 1000) / coef);
- dramclock = fsb * dramratio / 2;
-
- // Print DRAM Freq
- print_cpu_line(dramclock, fsb, 3);
-
-}
-
-static void poll_fsb_wmr(void) {
-
- double dramclock, dramratio, fsb;
- unsigned long dev0;
- float coef = getNHMmultiplier();
- long *ptr;
-
- fsb = ((extclock / 1000) / coef);
-
- /* Find dramratio */
- pci_conf_read( 0, 0, 0, 0x48, 4, &dev0);
- dev0 &= 0xFFFFC000;
- ptr=(long*)(dev0+0x2C20);
- dramratio = 1;
-
- /* Get the clock ratio */
- dramratio = 0.25 * (float)(*ptr & 0x1F);
-
- // Compute RAM Frequency
- dramclock = fsb * dramratio;
-
- // Print DRAM Freq
- print_cpu_line(dramclock, fsb, 3);
-
-}
-
-static void poll_fsb_snb(void) {
-
- double dramclock, dramratio, fsb;
- unsigned long dev0;
- float coef = getSNBmultiplier();
- long *ptr;
-
- fsb = ((extclock / 1000) / coef);
-
- /* Find dramratio */
- pci_conf_read( 0, 0, 0, 0x48, 4, &dev0);
- dev0 &= 0xFFFFC000;
- ptr=(long*)(dev0+0x5E04);
- dramratio = 1;
-
- /* Get the clock ratio */
- dramratio = (float)(*ptr & 0x1F) * (133.34f / 100.0f);
-
- // Compute RAM Frequency
- dramclock = fsb * dramratio;
-
- // Print DRAM Freq
- print_cpu_line(dramclock, fsb, 3);
-
-}
-
-static void poll_fsb_ivb(void) {
-
- double dramclock, dramratio, fsb;
- unsigned long dev0, mchcfg;
- float coef = getSNBmultiplier();
- long *ptr;
-
- fsb = ((extclock / 1000) / coef);
-
- /* Find dramratio */
- pci_conf_read( 0, 0, 0, 0x48, 4, &dev0);
- dev0 &= 0xFFFFC000;
- ptr=(long*)(dev0+0x5E04);
- mchcfg = *ptr & 0xFFFF;
- dramratio = 1;
-
- /* Get the clock ratio */
- switch((mchcfg >> 8) & 0x01)
- {
- case 0x0:
- dramratio = (float)(*ptr & 0x1F) * (133.34f / 100.0f);
- break;
- case 0x1:
- dramratio = (float)(*ptr & 0x1F) * (100.0f / 100.0f);
- break;
- }
-
- // Compute RAM Frequency
- dramclock = fsb * dramratio;
-
- // Print DRAM Freq
- print_cpu_line(dramclock, fsb, 3);
-
-}
-
-static void poll_fsb_snbe(void) {
-
- double dramclock, dramratio, fsb;
- unsigned long dev0;
- float coef = getSNBmultiplier();
-
- fsb = ((extclock / 1000) / coef);
-
- /* Find dramratio */
- pci_conf_read( 0xFF, 10, 1, 0x98, 4, &dev0);
- dev0 &= 0xFFFFFFFF;
- dramratio = 1;
-
- /* Get the clock ratio */
- dramratio = (float)(dev0 & 0x3F) * (66.67f / 100.0f);
-
- // Compute RAM Frequency
- dramclock = fsb * dramratio;
-
- // Print DRAM Freq
- print_cpu_line(dramclock, fsb, 3);
-
-
-
-}
-
-/* ------------------ Here the code for Timings detection ------------------ */
-/* ------------------------------------------------------------------------- */
-
-static void poll_timings_nf4ie(void) {
-
-
- ulong regd0, reg8c, reg9c, reg80;
- int cas, rcd, rp, ras, chan;
-
- //Now, read Registers
- pci_conf_read( 0, 1, 1, 0xD0, 4, &regd0);
- pci_conf_read( 0, 1, 1, 0x80, 1, &reg80);
- pci_conf_read( 0, 1, 0, 0x8C, 4, &reg8c);
- pci_conf_read( 0, 1, 0, 0x9C, 4, &reg9c);
-
- // Then, detect timings
- cas = (regd0 >> 4) & 0x7;
- rcd = (reg8c >> 24) & 0xF;
- rp = (reg9c >> 8) & 0xF;
- ras = (reg8c >> 16) & 0x3F;
-
- if (reg80 & 0x3) {
- chan = 2;
- } else {
- chan = 1;
- }
- print_ram_line(cas, rcd, rp, ras, chan);
-}
-
-static void poll_timings_i875(void) {
-
- ulong dev6, dev62;
- ulong temp;
- float cas;
- int rcd, rp, ras, chan;
- long *ptr, *ptr2;
-
- pci_conf_read( 0, 6, 0, 0x40, 4, &dev62);
- ptr2=(long*)(dev6+0x68);
-
- /* Read the MMR Base Address & Define the pointer */
- pci_conf_read( 0, 6, 0, 0x10, 4, &dev6);
-
- /* Now, we could check some additionnals timings infos) */
- ptr=(long*)(dev6+0x60);
- // CAS Latency (tCAS)
- temp = ((*ptr >> 5)& 0x3);
- if (temp == 0x0) { cas = 2.5; } else if (temp == 0x1) { cas = 2; } else { cas = 3; }
-
- // RAS-To-CAS (tRCD)
- temp = ((*ptr >> 2)& 0x3);
- if (temp == 0x0) { rcd = 4; } else if (temp == 0x1) { rcd = 3; } else { rcd = 2; }
-
- // RAS Precharge (tRP)
- temp = (*ptr&0x3);
- if (temp == 0x0) { rp = 4; } else if (temp == 0x1) { rp = 3; } else { rp = 2; }
-
- // RAS Active to precharge (tRAS)
- temp = ((*ptr >> 7)& 0x7);
- ras = 10 - temp;
-
- // Print 64 or 128 bits mode
- if (((*ptr2 >> 21)&3) > 0) {
- chan = 2;
- } else {
- chan = 1;
- }
- print_ram_line(cas, rcd, rp, ras, chan);
-}
-
-static void poll_timings_i925(void) {
-
- // Thanks for CDH optis
- float cas;
- int rcd,rp,ras,chan;
- ulong dev0, drt, drc, dcc, idetect, temp;
- long *ptr;
-
- //Now, read MMR Base Address
- pci_conf_read( 0, 0, 0, 0x44, 4, &dev0);
- pci_conf_read( 0, 0, 0, 0x02, 2, &idetect);
- dev0 &= 0xFFFFC000;
-
- //Set pointer for DRT
- ptr=(long*)(dev0+0x114);
- drt = *ptr & 0xFFFFFFFF;
-
- //Set pointer for DRC
- ptr=(long*)(dev0+0x120);
- drc = *ptr & 0xFFFFFFFF;
-
- //Set pointer for DCC
- ptr=(long*)(dev0+0x200);
- dcc = *ptr & 0xFFFFFFFF;
-
- // CAS Latency (tCAS)
- temp = ((drt >> 8)& 0x3);
-
- if ((drc & 3) == 2){
- // Timings DDR-II
- if (temp == 0x0) { cas = 5; }
- else if (temp == 0x1) { cas = 4; }
- else if (temp == 0x2) { cas = 3; }
- else { cas = 6; }
- } else {
- // Timings DDR-I
- if (temp == 0x0) { cas = 3; }
- else if (temp == 0x1) { cas = 2.5f;}
- else { cas = 2; }
- }
-
- // RAS-To-CAS (tRCD)
- rcd = ((drt >> 4)& 0x3)+2;
-
- // RAS Precharge (tRP)
- rp = (drt&0x3)+2;
-
- // RAS Active to precharge (tRAS)
- // If Lakeport, than change tRAS computation (Thanks to CDH, again)
- if (idetect > 0x2700)
- ras = ((drt >> 19)& 0x1F);
- else
- ras = ((drt >> 20)& 0x0F);
-
-
- temp = (dcc&0x3);
- if (temp == 1) { chan = 2; }
- else if (temp == 2) { chan = 2; }
- else { chan = 1; }
-
- print_ram_line(cas, rcd, rp, ras, chan);
-
-}
-
-static void poll_timings_i965(void) {
-
- // Thanks for CDH optis
- ulong dev0, c0ckectrl, c1ckectrl, offset;
- ulong ODT_Control_Register, Precharge_Register, ACT_Register, Read_Register;
- long *ptr;
- int rcd,rp,ras,chan;
- float cas;
-
- //Now, read MMR Base Address
- pci_conf_read( 0, 0, 0, 0x48, 4, &dev0);
- dev0 &= 0xFFFFC000;
-
- ptr = (long*)(dev0+0x260);
- c0ckectrl = *ptr & 0xFFFFFFFF;
-
- ptr = (long*)(dev0+0x660);
- c1ckectrl = *ptr & 0xFFFFFFFF;
-
- // If DIMM 0 not populated, check DIMM 1
- ((c0ckectrl) >> 20 & 0xF)?(offset = 0):(offset = 0x400);
-
- ptr = (long*)(dev0+offset+0x29C);
- ODT_Control_Register = *ptr & 0xFFFFFFFF;
-
- ptr = (long*)(dev0+offset+0x250);
- Precharge_Register = *ptr & 0xFFFFFFFF;
-
- ptr = (long*)(dev0+offset+0x252);
- ACT_Register = *ptr & 0xFFFFFFFF;
-
- ptr = (long*)(dev0+offset+0x258);
- Read_Register = *ptr & 0xFFFFFFFF;
-
-
- // CAS Latency (tCAS)
- cas = ((ODT_Control_Register >> 17)& 7) + 3.0f;
-
- // RAS-To-CAS (tRCD)
- rcd = (Read_Register >> 16) & 0xF;
-
- // RAS Precharge (tRP)
- rp = (ACT_Register >> 13) & 0xF;
-
- // RAS Active to precharge (tRAS)
- ras = (Precharge_Register >> 11) & 0x1F;
-
- if ((c0ckectrl >> 20 & 0xF) && (c1ckectrl >> 20 & 0xF)) {
- chan = 2;
- } else {
- chan = 1;
- }
-
- print_ram_line(cas, rcd, rp, ras, chan);
-}
-
-static void poll_timings_im965(void) {
-
- // Thanks for CDH optis
- ulong dev0, c0ckectrl, c1ckectrl, offset;
- ulong ODT_Control_Register, Precharge_Register;
- long *ptr;
- int rcd,rp,ras,chan;
- float cas;
-
- //Now, read MMR Base Address
- pci_conf_read( 0, 0, 0, 0x48, 4, &dev0);
- dev0 &= 0xFFFFC000;
-
- ptr = (long*)(dev0+0x1200);
- c0ckectrl = *ptr & 0xFFFFFFFF;
-
- ptr = (long*)(dev0+0x1300);
- c1ckectrl = *ptr & 0xFFFFFFFF;
-
- // If DIMM 0 not populated, check DIMM 1
- ((c0ckectrl) >> 20 & 0xF)?(offset = 0):(offset = 0x100);
-
- ptr = (long*)(dev0+offset+0x121C);
- ODT_Control_Register = *ptr & 0xFFFFFFFF;
-
- ptr = (long*)(dev0+offset+0x1214);
- Precharge_Register = *ptr & 0xFFFFFFFF;
-
- // CAS Latency (tCAS)
- cas = ((ODT_Control_Register >> 23)& 7) + 3.0f;
-
- // RAS-To-CAS (tRCD)
- rcd = ((Precharge_Register >> 5)& 7) + 2.0f;
-
- // RAS Precharge (tRP)
- rp = (Precharge_Register & 7) + 2.0f;
-
- // RAS Active to precharge (tRAS)
- ras = (Precharge_Register >> 21) & 0x1F;
-
-
- if ((c0ckectrl >> 20 & 0xF) && (c1ckectrl >> 20 & 0xF)) {
- chan = 2;
- } else {
- chan = 1;
- }
- print_ram_line(cas, rcd, rp, ras, chan);
-}
-
-static void poll_timings_p35(void) {
-
- // Thanks for CDH optis
- float cas;
- int rcd, rp, ras, chan;
- ulong dev0, Device_ID, c0ckectrl, c1ckectrl, offset;
- ulong ODT_Control_Register, Precharge_Register, ACT_Register, Read_Register;
- long *ptr;
-
- pci_conf_read( 0, 0, 0, 0x02, 2, &Device_ID);
- Device_ID &= 0xFFFF;
-
- //Now, read MMR Base Address
- pci_conf_read( 0, 0, 0, 0x48, 4, &dev0);
- dev0 &= 0xFFFFC000;
-
- ptr = (long*)(dev0+0x260);
- c0ckectrl = *ptr & 0xFFFFFFFF;
-
- ptr = (long*)(dev0+0x660);
- c1ckectrl = *ptr & 0xFFFFFFFF;
-
- // If DIMM 0 not populated, check DIMM 1
- ((c0ckectrl) >> 20 & 0xF)?(offset = 0):(offset = 0x400);
-
- ptr = (long*)(dev0+offset+0x265);
- ODT_Control_Register = *ptr & 0xFFFFFFFF;
-
- ptr = (long*)(dev0+offset+0x25D);
- Precharge_Register = *ptr & 0xFFFFFFFF;
-
- ptr = (long*)(dev0+offset+0x252);
- ACT_Register = *ptr & 0xFFFFFFFF;
-
- ptr = (long*)(dev0+offset+0x258);
- Read_Register = *ptr & 0xFFFFFFFF;
-
-
- // CAS Latency (tCAS)
- if(Device_ID > 0x2E00 && imc_type != 8) {
- cas = ((ODT_Control_Register >> 8)& 0x3F) - 6.0f;
- } else {
- cas = ((ODT_Control_Register >> 8)& 0x3F) - 9.0f;
- }
-
- // RAS-To-CAS (tRCD)
- rcd = (Read_Register >> 17) & 0xF;
-
- // RAS Precharge (tRP)
- rp = (ACT_Register >> 13) & 0xF;
-
- // RAS Active to precharge (tRAS)
- ras = Precharge_Register & 0x3F;
-
- if ((c0ckectrl >> 20 & 0xF) && (c1ckectrl >> 20 & 0xF)) {
- chan = 2;
- } else {
- chan = 1;
- }
- print_ram_line(cas, rcd, rp, ras, chan);
-}
-
-static void poll_timings_wmr(void) {
-
- float cas;
- int rcd, rp, ras, chan;
- ulong dev0, c0ckectrl, c1ckectrl, offset;
- ulong ODT_Control_Register, Precharge_Register, ACT_Register, Read_Register, MRC_Register;
- long *ptr;
-
- //Now, read MMR Base Address
- pci_conf_read( 0, 0, 0, 0x48, 4, &dev0);
- dev0 &= 0xFFFFC000;
-
- ptr = (long*)(dev0+0x260);
- c0ckectrl = *ptr & 0xFFFFFFFF;
-
- ptr = (long*)(dev0+0x660);
- c1ckectrl = *ptr & 0xFFFFFFFF;
-
- // If DIMM 0 not populated, check DIMM 1
- ((c0ckectrl) >> 20 & 0xF)?(offset = 0):(offset = 0x400);
-
- ptr = (long*)(dev0+offset+0x265);
- ODT_Control_Register = *ptr & 0xFFFFFFFF;
-
- ptr = (long*)(dev0+offset+0x25D);
- Precharge_Register = *ptr & 0xFFFFFFFF;
-
- ptr = (long*)(dev0+offset+0x252);
- ACT_Register = *ptr & 0xFFFFFFFF;
-
- ptr = (long*)(dev0+offset+0x258);
- Read_Register = *ptr & 0xFFFFFFFF;
-
- ptr = (long*)(dev0+offset+0x240);
- MRC_Register = *ptr & 0xFFFFFFFF;
-
- // CAS Latency (tCAS)
- if(MRC_Register & 0xF) {
- cas = (MRC_Register & 0xF) + 3.0f;
- } else {
- cas = ((ODT_Control_Register >> 8)& 0x3F) - 5.0f;
- }
-
- // RAS-To-CAS (tRCD)
- rcd = (Read_Register >> 17) & 0xF;
-
- // RAS Precharge (tRP)
- rp = (ACT_Register >> 13) & 0xF;
-
- // RAS Active to precharge (tRAS)
- ras = Precharge_Register & 0x3F;
-
- if ((c0ckectrl >> 20 & 0xF) && (c1ckectrl >> 20 & 0xF)) {
- chan = 2;
- } else {
- chan = 1;
- }
-
- print_ram_line(cas, rcd, rp, ras, chan);
-
-}
-
-static void poll_timings_snb(void) {
-
- float cas;
- int rcd, rp, ras, chan;
- ulong dev0, offset;
- ulong IMC_Register, MCMain0_Register, MCMain1_Register;
- long *ptr;
-
- //Now, read MMR Base Address
- pci_conf_read( 0, 0, 0, 0x48, 4, &dev0);
- dev0 &= 0xFFFFC000;
-
- offset = 0x0000;
-
- ptr = (long*)(dev0+offset+0x4000);
- IMC_Register = *ptr & 0xFFFFFFFF;
-
- // CAS Latency (tCAS)
- cas = (float)((IMC_Register >> 8) & 0x0F);
-
- // RAS-To-CAS (tRCD)
- rcd = IMC_Register & 0x0F;
-
- // RAS Precharge (tRP)
- rp = (IMC_Register >> 4) & 0x0F;
-
- // RAS Active to precharge (tRAS)
- ras = (IMC_Register >> 16) & 0xFF;
-
- // Channels
- ptr = (long*)(dev0+offset+0x5004);
- MCMain0_Register = *ptr & 0xFFFF;
- ptr = (long*)(dev0+offset+0x5008);
- MCMain1_Register = *ptr & 0xFFFF;
-
- if(MCMain0_Register == 0 || MCMain1_Register == 0) {
- chan = 1;
- } else {
- chan = 2;
- }
-
- print_ram_line(cas, rcd, rp, ras, chan);
-}
-
-static void poll_timings_hsw(void) {
-
- float cas;
- int rcd, rp, ras, chan;
- ulong dev0, offset = 0;
- ulong IMC_Register, MCMain0_Register, MCMain1_Register;
- long *ptr;
-
- //Now, read MMR Base Address
- pci_conf_read( 0, 0, 0, 0x48, 4, &dev0);
- dev0 &= 0xFFFFC000;
-
- // Channels
- ptr = (long*)(dev0+offset+0x5004);
- MCMain0_Register = *ptr & 0xFFFF;
-
- ptr = (long*)(dev0+offset+0x5008);
- MCMain1_Register = *ptr & 0xFFFF;
-
- if(MCMain0_Register && MCMain1_Register) {
- chan = 2;
- } else {
- chan = 1;
- }
-
- if(MCMain0_Register) { offset = 0x0000; } else { offset = 0x0400; }
-
- // CAS Latency (tCAS)
- ptr = (long*)(dev0+offset+0x4014);
- IMC_Register = *ptr & 0xFFFFFFFF;
- cas = (float)(IMC_Register & 0x1F);
-
- ptr = (long*)(dev0+offset+0x4000);
- IMC_Register = *ptr & 0xFFFFFFFF;
-
- // RAS-To-CAS (tRCD)
- rcd = IMC_Register & 0x1F;
-
- // RAS Precharge (tRP)
- rp = (IMC_Register >> 5) & 0x1F;
-
- // RAS Active to precharge (tRAS)
- ras = (IMC_Register >> 10) & 0x3F;
-
-
- print_ram_line(cas, rcd, rp, ras, chan);
-}
-
-static void poll_timings_snbe(void) {
-
- float cas;
- int rcd, rp, ras;
- int nb_channel = 0, current_channel = 0;
- ulong temp, IMC_Register;
- long *ptr;
-
- //Read Channel #1
- pci_conf_read(0xFF, 16, 2, 0x80, 4, &temp);
- temp &= 0x3F;
- if(temp != 0xB) { current_channel = 0; nb_channel++; }
-
- //Read Channel #2
- pci_conf_read(0xFF, 16, 3, 0x80, 4, &temp);
- temp &= 0x3F;
- if(temp != 0xB) { current_channel = 1; nb_channel++; }
-
- //Read Channel #3
- pci_conf_read(0xFF, 16, 6, 0x80, 4, &temp);
- temp &= 0x3F;
- if(temp != 0xB) { current_channel = 4; nb_channel++; }
-
- //Read Channel #4
- pci_conf_read(0xFF, 16, 7, 0x80, 4, &temp);
- temp &= 0x3F;
- if(temp != 0xB) { current_channel = 5; nb_channel++; }
-
-
- pci_conf_read(0, 5, 0, 0x84, 4, &temp);
- ptr = (long*)((temp & 0xFC000000) + (MAKE_PCIE_ADDRESS(0xFF,16,current_channel) | 0x200));
- IMC_Register = *ptr & 0xFFFFFFFF;
-
- // CAS Latency (tCAS)
- cas = (float)((IMC_Register >> 9) & 0x1F);
-
- // RAS-To-CAS (tRCD)
- rcd = IMC_Register & 0x1F;
-
- // RAS Precharge (tRP)
- rp = (IMC_Register >> 5) & 0x0F;
-
- // RAS Active to precharge (tRAS)
- ras = (IMC_Register >> 19) & 0x3F;
-
-
- print_ram_line(cas, rcd, rp, ras, nb_channel);
-
-}
-
-static void poll_timings_5400(void) {
-
- // Thanks for CDH optis
- ulong ambase, mtr1, mtr2, offset, mca;
- long *ptr;
- float cas;
- int rcd, rp, ras, chan;
-
- //Hard-coded Ambase value (should not be realocated by software when using Memtest86+
- ambase = 0xFE000000;
- offset = mtr1 = mtr2 = 0;
-
- // Will loop until a valid populated channel is found
- // Bug : DIMM 0 must be populated or it will fall in an endless loop
- while(((mtr2 & 0xF) < 3) || ((mtr2 & 0xF) > 6)) {
- ptr = (long*)(ambase+0x378+offset);
- mtr1 = *ptr & 0xFFFFFFFF;
-
- ptr = (long*)(ambase+0x37C+offset);
- mtr2 = *ptr & 0xFFFFFFFF;
- offset += 0x8000;
- }
-
- pci_conf_read( 0, 16, 1, 0x58, 4, &mca);
-
- //This chipset only supports FB-DIMM (Removed => too long)
- //cprint(LINE_CPU+5, col +1, "- Type : FBD");
-
- // Now, detect timings
-
- // CAS Latency (tCAS)
- cas = mtr2 & 0xF;
-
- // RAS-To-CAS (tRCD)
- rcd = 6 - ((mtr1 >> 10) & 3);
-
- // RAS Precharge (tRP)
- rp = 6 - ((mtr1 >> 8) & 3);
-
- // RAS Active to precharge (tRAS)
- ras = 16 - (3 * ((mtr1 >> 29) & 3)) + ((mtr1 >> 12) & 3);
- if(((mtr1 >> 12) & 3) == 3 && ((mtr1 >> 29) & 3) == 2) { ras = 9; }
-
-
- if ((mca >> 14) & 1) {
- chan = 1;
- } else {
- chan = 2;
- }
-
- print_ram_line(cas, rcd, rp, ras, chan);
-
-}
-
-static void poll_timings_E7520(void) {
-
- ulong drt, ddrcsr;
- float cas;
- int rcd, rp, ras, chan;
-
- pci_conf_read( 0, 0, 0, 0x78, 4, &drt);
- pci_conf_read( 0, 0, 0, 0x9A, 2, &ddrcsr);
-
- cas = ((drt >> 2) & 3) + 2;
- rcd = ((drt >> 10) & 1) + 3;
- rp = ((drt >> 9) & 1) + 3;
- ras = ((drt >> 14) & 3) + 11;
-
- if ((ddrcsr & 0xF) >= 0xC) {
- chan = 2;
- } else {
- chan = 1;
- }
-
- print_ram_line(cas, rcd, rp, ras, chan);
-}
-
-
-static void poll_timings_i855(void) {
-
- ulong drt, temp;
- float cas;
- int rcd, rp, ras;
-
- pci_conf_read( 0, 0, 0, 0x78, 4, &drt);
-
- /* Now, we could print some additionnals timings infos) */
- cprint(LINE_CPU+6, col2 +1, "/ CAS : ");
- col2 += 9;
-
- // CAS Latency (tCAS)
- temp = ((drt >> 4)&0x1);
- if (temp == 0x0) { cas = 2.5; }
- else { cas = 2; }
-
- // RAS-To-CAS (tRCD)
- temp = ((drt >> 2)& 0x1);
- if (temp == 0x0) { rcd = 3; }
- else { rcd = 2; }
-
- // RAS Precharge (tRP)
- temp = (drt&0x1);
- if (temp == 0x0) { rp = 3 ; }
- else { rp = 2; }
-
- // RAS Active to precharge (tRAS)
- temp = 7-((drt >> 9)& 0x3);
- if (temp == 0x0) { ras = 7; }
- if (temp == 0x1) { ras = 6; }
- if (temp == 0x2) { ras = 5; }
-
- print_ram_line(cas, rcd, rp, ras, 1);
-
-}
-
-static void poll_timings_E750x(void) {
-
- ulong drt, drc, temp;
- float cas;
- int rcd, rp, ras, chan;
-
- pci_conf_read( 0, 0, 0, 0x78, 4, &drt);
- pci_conf_read( 0, 0, 0, 0x7C, 4, &drc);
-
- if ((drt >> 4) & 1) { cas = 2; } else { cas = 2.5; };
- if ((drt >> 1) & 1) { rcd = 2; } else { rcd = 3; };
- if (drt & 1) { rp = 2; } else { rp = 3; };
-
- temp = ((drt >> 9) & 3);
- if (temp == 2) { ras = 5; } else if (temp == 1) { ras = 6; } else { ras = 7; }
-
- if (((drc >> 22)&1) == 1) {
- chan = 2;
- } else {
- chan = 1;
- }
-
- print_ram_line(cas, rcd, rp, ras, chan);
-
-}
-
-static void poll_timings_i852(void) {
-
- ulong drt, temp;
- float cas;
- int rcd, rp, ras;
-
- pci_conf_read( 0, 0, 1, 0x60, 4, &drt);
-
- /* Now, we could print some additionnals timings infos) */
- cprint(LINE_CPU+6, col2 +1, "/ CAS : ");
- col2 += 9;
-
- // CAS Latency (tCAS)
- temp = ((drt >> 5)&0x1);
- if (temp == 0x0) { cas = 2.5; }
- else { cas = 2; }
-
- // RAS-To-CAS (tRCD)
- temp = ((drt >> 2)& 0x3);
- if (temp == 0x0) { rcd = 4; }
- if (temp == 0x1) { rcd = 3; }
- else { rcd = 2; }
-
- // RAS Precharge (tRP)
- temp = (drt&0x3);
- if (temp == 0x0) { rp = 4; }
- if (temp == 0x1) { rp = 3; }
- else { rp = 2; }
-
- // RAS Active to precharge (tRAS)
- temp = ((drt >> 9)& 0x3);
- if (temp == 0x0) { ras = 8; }
- if (temp == 0x1) { ras = 7; }
- if (temp == 0x2) { ras = 6; }
- if (temp == 0x3) { ras = 5; }
-
- print_ram_line(cas, rcd, rp, ras, 1);
-
-}
-
-static void poll_timings_amd64(void) {
-
- ulong dramtlr, dramclr;
- int temp, chan;
- float tcas;
- int trcd, trp, tras ;
-
- pci_conf_read(0, 24, 2, 0x88, 4, &dramtlr);
- pci_conf_read(0, 24, 2, 0x90, 4, &dramclr);
-
- if (cpu_id.vers.bits.extendedModel >= 4) {
- /* NEW K8 0Fh Family 90 nm (DDR2) */
-
- // CAS Latency (tCAS)
- tcas = (dramtlr & 0x7) + 1;
-
- // RAS-To-CAS (tRCD)
- trcd = ((dramtlr >> 4) & 0x3) + 3;
-
- // RAS Precharge (tRP)
- trp = ((dramtlr >> 8) & 0x3) + 3;
-
- // RAS Active to precharge (tRAS)
- tras = ((dramtlr >> 12) & 0xF) + 3;
-
- // Print 64 or 128 bits mode
- if ((dramclr >> 11)&1) {
- chan = 2;
- } else {
- chan = 1;
- }
-
- } else {
- /* OLD K8 (DDR1) */
-
- // CAS Latency (tCAS)
- temp = (dramtlr & 0x7);
- if (temp == 0x1) { tcas = 2; }
- if (temp == 0x2) { tcas = 3; }
- if (temp == 0x5) { tcas = 2.5; }
-
- // RAS-To-CAS (tRCD)
- trcd = ((dramtlr >> 12) & 0x7);
-
- // RAS Precharge (tRP)
- trp = ((dramtlr >> 24) & 0x7);
-
- // RAS Active to precharge (tRAS)
- tras = ((dramtlr >> 20) & 0xF);
-
- // Print 64 or 128 bits mode
- if (((dramclr >> 16)&1) == 1) {
- chan = 2;
- } else {
- chan = 1;
- }
- }
-
- print_ram_line(tcas, trcd, trp, tras, chan);
-
-}
-
-static void poll_timings_k10(void) {
-
- ulong dramtlr, dramclr, dramchr, dramchrb;
- ulong offset = 0;
- int cas, rcd, rp, ras, chan;
-
- pci_conf_read(0, 24, 2, 0x94, 4, &dramchr);
- pci_conf_read(0, 24, 2, 0x194, 4, &dramchrb);
-
- if(((dramchr>>14) & 0x1) || ((dramchr>>14) & 0x1)) { chan = 1; } else { chan = 2; }
-
- // If Channel A not enabled, switch to channel B
- if(((dramchr>>14) & 0x1))
- {
- offset = 0x100;
- pci_conf_read(0, 24, 2, 0x94+offset, 4, &dramchr);
- }
-
- pci_conf_read(0, 24, 2, 0x88+offset, 4, &dramtlr);
- pci_conf_read(0, 24, 2, 0x110, 4, &dramclr);
-
- // CAS Latency (tCAS)
- if(((dramchr >> 8)&1) || ((dramchr & 0x7) == 0x4)){
- // DDR3 or DDR2-1066
- cas = (dramtlr & 0xF) + 4;
- rcd = ((dramtlr >> 4) & 0x7) + 5;
- rp = ((dramtlr >> 7) & 0x7) + 5;
- ras = ((dramtlr >> 12) & 0xF) + 15;
- } else {
- // DDR2-800 or less
- cas = (dramtlr & 0xF) + 1;
- rcd = ((dramtlr >> 4) & 0x3) + 3;
- rp = ((dramtlr >> 8) & 0x3) + 3;
- ras = ((dramtlr >> 12) & 0xF) + 3;
- }
-
- print_ram_line(cas, rcd, rp, ras, chan);
-}
-
-static void poll_timings_k12(void) {
-
- ulong dramt0, dramlow, dimma, dimmb;
- int cas, rcd, rp, ras, chan = 0;
-
- pci_conf_read(0, 24, 2, 0x94, 4, &dimma);
- pci_conf_read(0, 24, 2, 0x194, 4, &dimmb);
-
- if(((dimma >> 14) & 0x1) == 0)
- {
- chan++;
- pci_conf_read(0, 24, 2, 0x88, 4, &dramlow);
- pci_conf_write(0, 24, 2, 0xF0, 4, 0x00000040);
- pci_conf_read(0, 24, 2, 0xF4, 4, &dramt0);
- }
-
- if(((dimmb >> 14) & 0x1) == 0)
- {
- chan++;
- pci_conf_read(0, 24, 2, 0x188, 4, &dramlow);
- pci_conf_write(0, 24, 2, 0x1F0, 4, 0x00000040);
- pci_conf_read(0, 24, 2, 0x1F4, 4, &dramt0);
- }
-
- cas = (dramlow & 0xF) + 4;
- rcd = (dramt0 & 0xF) + 5;
- rp = ((dramt0 >> 8) & 0xF) + 5;
- ras = ((dramt0 >> 16) & 0x1F) + 15;
-
- print_ram_line(cas, rcd, rp, ras, chan);
-}
-
-
-static void poll_timings_k14(void) {
-
- ulong dramt0, dramlow;
- int cas, rcd, rp, ras;
-
- pci_conf_read(0, 24, 2, 0x88, 4, &dramlow);
- pci_conf_write(0, 24, 2, 0xF0, 4, 0x00000040);
- pci_conf_read(0, 24, 2, 0xF4, 4, &dramt0);
-
- cas = (dramlow & 0xF) + 4;
- rcd = (dramt0 & 0xF) + 5;
- rp = ((dramt0 >> 8) & 0xF) + 5;
- ras = ((dramt0 >> 16) & 0x1F) + 15;
-
- print_ram_line(cas, rcd, rp, ras, 1);
-}
-
-static void poll_timings_k15(void) {
-
- ulong dramp1, dramp2, dimma, dimmb;
- int cas, rcd, rp, ras, chan = 0;
-
- pci_conf_read(0, 24, 2, 0x94, 4, &dimma);
- pci_conf_read(0, 24, 2, 0x194, 4, &dimmb);
- if(((dimma>>14) & 0x1) || ((dimmb>>14) & 0x1)) { chan = 1; } else { chan = 2; }
-
- pci_conf_read(0, 24, 2, 0x200, 4, &dramp1);
- pci_conf_read(0, 24, 2, 0x204, 4, &dramp2);
-
- cas = dramp1 & 0x1F;
- rcd = (dramp1 >> 8) & 0x1F;
- rp = (dramp1 >> 16) & 0x1F;
- ras = (dramp1 >> 24) & 0x3F;
-
- print_ram_line(cas, rcd, rp, ras, chan);
-}
-
-static void poll_timings_k16(void) {
-
- ulong dramt0, dramt1;
- int cas, rcd, rp, /*rc,*/ ras;
-
- pci_conf_read(0, 24, 2, 0x200, 4, &dramt0);
- pci_conf_read(0, 24, 2, 0x204, 4, &dramt1);
-
- cas = (dramt0 & 0x1F);
- rcd = ((dramt0 >> 8) & 0x1F);
- rp = ((dramt0 >> 16) & 0x1F);
- ras = ((dramt0 >> 24) & 0x3F);
-
- // rc = (dramt1 & 0x3F);
-
- print_ram_line(cas, rcd, rp, ras, 1);
-}
-
-static void poll_timings_EP80579(void) {
-
- ulong drt1, drt2;
- float cas;
- int rcd, rp, ras;
-
- pci_conf_read( 0, 0, 0, 0x78, 4, &drt1);
- pci_conf_read( 0, 0, 0, 0x64, 4, &drt2);
-
- cas = ((drt1 >> 3) & 0x7) + 3;
- rcd = ((drt1 >> 9) & 0x7) + 3;
- rp = ((drt1 >> 6) & 0x7) + 3;
- ras = ((drt2 >> 28) & 0xF) + 8;
-
- print_ram_line(cas, rcd, rp, ras, 0);
-}
-
-static void poll_timings_nf2(void) {
-
- ulong dramtlr, dramtlr2, dramtlr3, temp;
- ulong dimm1p, dimm2p, dimm3p;
- float cas;
- int rcd, rp, ras, chan;
-
- pci_conf_read(0, 0, 1, 0x90, 4, &dramtlr);
- pci_conf_read(0, 0, 1, 0xA0, 4, &dramtlr2);
- pci_conf_read(0, 0, 1, 0x84, 4, &dramtlr3);
- pci_conf_read(0, 0, 2, 0x40, 4, &dimm1p);
- pci_conf_read(0, 0, 2, 0x44, 4, &dimm2p);
- pci_conf_read(0, 0, 2, 0x48, 4, &dimm3p);
-
- // CAS Latency (tCAS)
- temp = ((dramtlr2 >> 4) & 0x7);
- if (temp == 0x2) { cas = 2; }
- if (temp == 0x3) { cas = 3; }
- if (temp == 0x6) { cas = 2.5; }
-
- // RAS-To-CAS (tRCD)
- rcd = ((dramtlr >> 20) & 0xF);
-
- // RAS Precharge (tRP)
- rp = ((dramtlr >> 28) & 0xF);
-
- // RAS Active to precharge (tRAS)
- ras = ((dramtlr >> 15) & 0xF);
-
- // Print 64 or 128 bits mode
- // If DIMM1 & DIMM3 or DIMM1 & DIMM2 populated, than Dual Channel.
-
- if ((dimm3p&1) + (dimm2p&1) == 2 || (dimm3p&1) + (dimm1p&1) == 2 ) {
- chan = 2;
- } else {
- chan = 1;
- }
- print_ram_line(cas, rcd, rp, ras, chan);
-}
-
-static void poll_timings_us15w(void) {
-
- // Thanks for CDH optis
- ulong dtr;
- float cas;
- int rcd, rp;
-
- /* Find dramratio */
- /* D0 MsgRd, 01 Dunit, 01 DTR */
- pci_conf_write(0, 0, 0, 0xD0, 4, 0xD0010100 );
- pci_conf_read(0, 0, 0, 0xD4, 4, &dtr );
-
- // CAS Latency (tCAS)
- cas = ((dtr >> 4) & 0x3) + 3;
-
- // RAS-To-CAS (tRCD)
- rcd = ((dtr >> 2) & 0x3) + 3;
-
- // RAS Precharge (tRP)
- rp = ((dtr >> 0) & 0x3) + 3;
-
- print_ram_line(cas, rcd, rp, 9, 1);
-
-}
-
-static void poll_timings_nhm(void) {
-
- ulong mc_channel_bank_timing, mc_control, mc_channel_mrs_value;
- float cas;
- int rcd, rp, ras, chan;
- int fvc_bn = 4;
-
- /* Find which channels are populated */
- pci_conf_read(nhm_bus, 3, 0, 0x48, 2, &mc_control);
- mc_control = (mc_control >> 8) & 0x7;
-
- /* Get the first valid channel */
- if(mc_control & 1) {
- fvc_bn = 4;
- } else if(mc_control & 2) {
- fvc_bn = 5;
- } else if(mc_control & 4) {
- fvc_bn = 6;
- }
-
- // Now, detect timings
- // CAS Latency (tCAS) / RAS-To-CAS (tRCD) / RAS Precharge (tRP) / RAS Active to precharge (tRAS)
- pci_conf_read(nhm_bus, fvc_bn, 0, 0x88, 4, &mc_channel_bank_timing);
- pci_conf_read(nhm_bus, fvc_bn, 0, 0x70, 4, &mc_channel_mrs_value);
- cas = ((mc_channel_mrs_value >> 4) & 0xF ) + 4.0f;
- rcd = (mc_channel_bank_timing >> 9) & 0xF;
- ras = (mc_channel_bank_timing >> 4) & 0x1F;
- rp = mc_channel_bank_timing & 0xF;
-
- // Print 1, 2 or 3 Channels
- if (mc_control == 1 || mc_control == 2 || mc_control == 4 ) {
- chan = 1;
- } else if (mc_control == 7) {
- chan = 3;
- } else {
- chan = 2;
- }
- print_ram_line(cas, rcd, rp, ras, chan);
-
-}
-
-static void poll_timings_ct(void)
-{
-
- unsigned long mcr,mdr;
- float cas;
- int rcd, rp, ras;
-
- /* Build the MCR Message*/
- mcr = (0x10 << 24); // 10h = Read - 11h = Write
- mcr += (0x01 << 16); // DRAM Registers located on port 01h
- mcr += (0x01 << 8); // DRP = 00h, DTR0 = 01h, DTR1 = 02h, DTR2 = 03h
- mcr &= 0xFFFFFFF0; // bit 03:00 RSVD
-
- /* Send Message to GMCH */
- pci_conf_write(0, 0, 0, 0xD0, 4, mcr);
-
- /* Read Answer from Sideband bus */
- pci_conf_read(0, 0, 0, 0xD4, 4, &mdr);
-
- // CAS Latency (tCAS)
- cas = ((mdr >> 12)& 0x7) + 5.0f;
-
- // RAS-To-CAS (tRCD)
- rcd = ((mdr >> 8)& 0x7) + 5;
-
- // RAS Precharge (tRP)
- rp = ((mdr >> 4)& 0x7) + 5;
-
- // RAS is in DTR1. Read Again.
- mcr = 0x10010200; // Quick Mode ! Awesome !
- pci_conf_write(0, 0, 0, 0xD0, 4, mcr);
- pci_conf_read(0, 0, 0, 0xD4, 4, &mdr);
-
- // RAS Active to precharge (tRAS)
- ras = (mdr >> 20) & 0xF;
-
- // Print
- print_ram_line(cas, rcd, rp, ras, 1);
-
-}
-
-/* ------------------ Let's continue ------------------ */
-/* ---------------------------------------------------- */
-
-struct pci_memory_controller controllers[] = {
- /* Default unknown chipset */
- { 0, 0, "","", 0, poll_fsb_nothing, poll_timings_nothing, setup_nothing, poll_nothing },
-
- /* AMD */
- { 0x1022, 0x7006, "AMD 751","SDRAM PC-100", 0, poll_fsb_nothing, poll_timings_nothing, setup_amd751, poll_nothing },
- { 0x1022, 0x700c, "AMD 762","DDR-SDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_amd76x, poll_nothing },
- { 0x1022, 0x700e, "AMD 761","DDR-SDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_amd76x, poll_nothing },
-
- /* SiS */
- { 0x1039, 0x0600, "SiS 600","EDO/SDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x1039, 0x0620, "SiS 620","SDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x1039, 0x5600, "SiS 5600","SDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x1039, 0x0645, "SiS 645","DDR-SDRAM", 0, poll_fsb_p4, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x1039, 0x0646, "SiS 645DX","DDR-SDRAM", 0, poll_fsb_p4, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x1039, 0x0630, "SiS 630","SDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x1039, 0x0650, "SiS 650","DDR-SDRAM", 0, poll_fsb_p4, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x1039, 0x0651, "SiS 651","DDR-SDRAM", 0, poll_fsb_p4, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x1039, 0x0730, "SiS 730","SDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x1039, 0x0735, "SiS 735","DDR-SDRAM", 0, poll_fsb_amd32, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x1039, 0x0740, "SiS 740","DDR-SDRAM", 0, poll_fsb_amd32, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x1039, 0x0745, "SiS 745","DDR-SDRAM", 0, poll_fsb_amd32, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x1039, 0x0748, "SiS 748","DDR-SDRAM", 0, poll_fsb_amd32, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x1039, 0x0655, "SiS 655","DDR-SDRAM", 0, poll_fsb_p4, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x1039, 0x0656, "SiS 656","DDR/DDR2-SDRAM", 0, poll_fsb_p4, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x1039, 0x0648, "SiS 648","DDR-SDRAM", 0, poll_fsb_p4, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x1039, 0x0649, "SiS 649","DDR-SDRAM", 0, poll_fsb_p4, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x1039, 0x0661, "SiS 661","DDR-SDRAM", 0, poll_fsb_p4, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x1039, 0x0671, "SiS 671","DDR2-SDRAM", 0, poll_fsb_p4, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x1039, 0x0672, "SiS 672","DDR2-SDRAM", 0, poll_fsb_p4, poll_timings_nothing, setup_nothing, poll_nothing },
-
- /* ALi */
- { 0x10b9, 0x1531, "ALi Aladdin 4","EDO/SDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x10b9, 0x1541, "ALi Aladdin 5","EDO/SDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x10b9, 0x1644, "ALi Aladdin M1644","SDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_nothing, poll_nothing },
-
- /* ATi */
- { 0x1002, 0x5830, "ATi Radeon 9100 IGP","DDR-SDRAM", 0, poll_fsb_p4, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x1002, 0x5831, "ATi Radeon 9100 IGP","DDR-SDRAM", 0, poll_fsb_p4, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x1002, 0x5832, "ATi Radeon 9100 IGP","DDR-SDRAM", 0, poll_fsb_p4, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x1002, 0x5833, "ATi Radeon 9100 IGP","DDR-SDRAM", 0, poll_fsb_p4, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x1002, 0x5954, "ATi Xpress 200","DDR-SDRAM", 0, poll_fsb_p4, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x1002, 0x5A41, "ATi Xpress 200","DDR-SDRAM", 0, poll_fsb_p4, poll_timings_nothing, setup_nothing, poll_nothing },
-
- /* nVidia */
- { 0x10de, 0x01A4, "nVidia nForce","DDR-SDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x10de, 0x01E0, "nVidia nForce2 SPP","", 0, poll_fsb_nf2, poll_timings_nf2, setup_nothing, poll_nothing },
- { 0x10de, 0x0071, "nForce4 SLI","", 0, poll_fsb_nf4ie, poll_timings_nf4ie, setup_nothing, poll_nothing },
-
- /* VIA */
- { 0x1106, 0x0305, "VIA KT133/KT133A","SDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x1106, 0x0391, "VIA KX133","SDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x1106, 0x0501, "VIA MVP4","EDO/SDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x1106, 0x0585, "VIA VP/VPX","EDO/SDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x1106, 0x0595, "VIA VP2","EDO/SDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x1106, 0x0597, "VIA VP3","EDO/SDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x1106, 0x0598, "VIA MVP3","EDO/SDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x1106, 0x0691, "VIA Apollo Pro 133(A)","SDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x1106, 0x0693, "VIA Apollo Pro+","SDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x1106, 0x0601, "VIA PLE133","SDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x1106, 0x3099, "VIA KT266(A)/KT333","DDR-SDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x1106, 0x3189, "VIA KT400(A)/600","DDR-SDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x1106, 0x0269, "VIA KT880","DDR-SDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x1106, 0x3205, "VIA KM400","DDR-SDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x1106, 0x3116, "VIA KM266","DDR-SDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x1106, 0x3156, "VIA KN266","DDR-SDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x1106, 0x3123, "VIA CLE266","DDR-SDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x1106, 0x0198, "VIA PT800","DDR-SDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x1106, 0x3258, "VIA PT880","DDR2-SDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_nothing, poll_nothing },
-
- /* Serverworks */
- { 0x1166, 0x0008, "CNB20HE","SDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_cnb20, poll_nothing },
- { 0x1166, 0x0009, "CNB20LE","SDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_cnb20, poll_nothing },
-
- /* Intel */
- { 0x8086, 0x1130, "Intel i815","SDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x8086, 0x122d, "Intel i430FX","EDO DRAM",0, poll_fsb_nothing, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x8086, 0x1235, "Intel i430MX","EDO DRAM",0, poll_fsb_nothing, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x8086, 0x1237, "Intel i440FX","EDO DRAM",0, poll_fsb_nothing, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x8086, 0x1250, "Intel i430HX","EDO DRAM",0, poll_fsb_nothing, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x8086, 0x1A21, "Intel i840","RDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_i840, poll_nothing },
- { 0x8086, 0x1A30, "Intel i845","SDR/DDR", 0, poll_fsb_p4, poll_timings_nothing, setup_i845, poll_nothing },
- { 0x8086, 0x2560, "Intel i845E/G/PE/GE","", 0, poll_fsb_p4, poll_timings_nothing, setup_i845, poll_nothing },
- { 0x8086, 0x2500, "Intel i820","RDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_i820, poll_nothing },
- { 0x8086, 0x2530, "Intel i850","RDRAM", 0, poll_fsb_p4, poll_timings_nothing, setup_i850, poll_nothing },
- { 0x8086, 0x2531, "Intel i860","RDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_i860, poll_nothing },
- { 0x8086, 0x7030, "Intel i430VX","SDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x8086, 0x7100, "Intel i430TX","SDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x8086, 0x7120, "Intel i810","SDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x8086, 0x7122, "Intel i810","SDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x8086, 0x7124, "Intel i810E","SDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x8086, 0x7180, "Intel i440[LE]X","SDRAM",0, poll_fsb_nothing, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x8086, 0x7190, "Intel i440BX","SDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x8086, 0x7192, "Intel i440BX","SDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x8086, 0x71A0, "Intel i440GX","SDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_i440gx, poll_nothing },
- { 0x8086, 0x71A2, "Intel i440GX","SDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_i440gx, poll_nothing },
- { 0x8086, 0x84C5, "Intel i450GX","SDRAM", 0, poll_fsb_nothing, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x8086, 0x2540, "Intel E7500","DDR-SDRAM",0, poll_fsb_p4, poll_timings_E750x, setup_iE7xxx, poll_nothing },
- { 0x8086, 0x254C, "Intel E7501","DDR-SDRAM",0, poll_fsb_p4, poll_timings_E750x, setup_iE7xxx, poll_nothing },
- { 0x8086, 0x255d, "Intel E7205","DDR-SDRAM",0, poll_fsb_p4, poll_timings_nothing, setup_iE7xxx, poll_nothing },
- { 0x8086, 0x3592, "Intel E7320","DDR-SDRAM",0, poll_fsb_p4, poll_timings_E7520, setup_iE7520, poll_nothing },
- { 0x8086, 0x2588, "Intel E7221","DDR-SDRAM",0, poll_fsb_i925, poll_timings_i925, setup_i925, poll_nothing },
- { 0x8086, 0x3590, "Intel E7520","DDR-SDRAM",0, poll_fsb_p4, poll_timings_E7520, setup_iE7520, poll_nothing },
- { 0x8086, 0x2600, "Intel E8500","DDR-SDRAM",0, poll_fsb_p4, poll_timings_nothing, setup_nothing, poll_nothing },
- { 0x8086, 0x2570, "Intel i848/i865","", 0, poll_fsb_i875, poll_timings_i875, setup_i875, poll_nothing },
- { 0x8086, 0x2578, "Intel i875P","", 0, poll_fsb_i875, poll_timings_i875, setup_i875, poll_nothing },
- { 0x8086, 0x2550, "Intel E7505","DDR-SDRAM",0, poll_fsb_p4, poll_timings_nothing, setup_iE7xxx, poll_nothing },
- { 0x8086, 0x3580, "Intel i852P/i855G","", 0, poll_fsb_i855, poll_timings_i852, setup_nothing, poll_nothing },
- { 0x8086, 0x3340, "Intel i855PM","", 0, poll_fsb_i855, poll_timings_i855, setup_nothing, poll_nothing },
- { 0x8086, 0x2580, "Intel i915P/G","", 0, poll_fsb_i925, poll_timings_i925, setup_i925, poll_nothing },
- { 0x8086, 0x2590, "Intel i915PM/GM","", 0, poll_fsb_i925, poll_timings_i925, setup_i925, poll_nothing },
- { 0x8086, 0x2584, "Intel i925X/XE","", 0, poll_fsb_i925, poll_timings_i925, setup_i925, poll_nothing },
- { 0x8086, 0x2770, "Intel i945P/G","", 0, poll_fsb_i945, poll_timings_i925, setup_i925, poll_nothing },
- { 0x8086, 0x27A0, "Intel i945GM/PM","", 0, poll_fsb_i945, poll_timings_i925, setup_i925, poll_nothing },
- { 0x8086, 0x27AC, "Intel i945GME","", 0, poll_fsb_i945gme, poll_timings_i925, setup_i925, poll_nothing },
- { 0x8086, 0x2774, "Intel i955X","", 0, poll_fsb_i945, poll_timings_i925, setup_i925, poll_nothing},
- { 0x8086, 0x277C, "Intel i975X","", 0, poll_fsb_i975, poll_timings_i925, setup_i925, poll_nothing},
- { 0x8086, 0x2970, "Intel i946PL/GZ","", 0, poll_fsb_i965, poll_timings_i965, setup_p35, poll_nothing},
- { 0x8086, 0x2990, "Intel Q963/Q965","", 0, poll_fsb_i965, poll_timings_i965, setup_p35, poll_nothing},
- { 0x8086, 0x29A0, "Intel P965/G965","", 0, poll_fsb_i965, poll_timings_i965, setup_p35, poll_nothing},
- { 0x8086, 0x2A00, "Intel GM965/GL960","", 0, poll_fsb_im965, poll_timings_im965, setup_p35, poll_nothing},
- { 0x8086, 0x2A10, "Intel GME965/GLE960","", 0, poll_fsb_im965, poll_timings_im965, setup_p35, poll_nothing},
- { 0x8086, 0x2A40, "Intel PM/GM45/47","", 0, poll_fsb_im965, poll_timings_im965, setup_p35, poll_nothing},
- { 0x8086, 0x29B0, "Intel Q35","", 0, poll_fsb_p35, poll_timings_p35, setup_p35, poll_nothing},
- { 0x8086, 0x29C0, "Intel P35/G33","", 0, poll_fsb_p35, poll_timings_p35, setup_p35, poll_nothing},
- { 0x8086, 0x29D0, "Intel Q33","", 0, poll_fsb_p35, poll_timings_p35, setup_p35, poll_nothing},
- { 0x8086, 0x29E0, "Intel X38/X48","", 0, poll_fsb_p35, poll_timings_p35, setup_p35, poll_nothing},
- { 0x8086, 0x29F0, "Intel 3200/3210","", 0, poll_fsb_p35, poll_timings_p35, setup_p35, poll_nothing},
- { 0x8086, 0x2E10, "Intel Q45/Q43","", 0, poll_fsb_p35, poll_timings_p35, setup_p35, poll_nothing},
- { 0x8086, 0x2E20, "Intel P45/G45","", 0, poll_fsb_p35, poll_timings_p35, setup_p35, poll_nothing},
- { 0x8086, 0x2E30, "Intel G41","", 0, poll_fsb_p35, poll_timings_p35, setup_p35, poll_nothing},
- { 0x8086, 0x4001, "Intel 5400A","", 0, poll_fsb_5400, poll_timings_5400, setup_E5400, poll_nothing},
- { 0x8086, 0x4003, "Intel 5400B","", 0, poll_fsb_5400, poll_timings_5400, setup_E5400, poll_nothing},
- { 0x8086, 0x25D8, "Intel 5000P","", 0, poll_fsb_5400, poll_timings_5400, setup_E5400, poll_nothing},
- { 0x8086, 0x25D4, "Intel 5000V","", 0, poll_fsb_5400, poll_timings_5400, setup_E5400, poll_nothing},
- { 0x8086, 0x25C0, "Intel 5000X","", 0, poll_fsb_5400, poll_timings_5400, setup_E5400, poll_nothing},
- { 0x8086, 0x25D0, "Intel 5000Z","", 0, poll_fsb_5400, poll_timings_5400, setup_E5400, poll_nothing},
- { 0x8086, 0x5020, "Intel EP80579","", 0, poll_fsb_p4, poll_timings_EP80579, setup_nothing, poll_nothing },
- { 0x8086, 0x8100, "Intel US15W","", 0, poll_fsb_us15w, poll_timings_us15w, setup_nothing, poll_nothing},
- { 0x8086, 0x8101, "Intel UL11L/US15L","", 0, poll_fsb_us15w, poll_timings_us15w, setup_nothing, poll_nothing},
-
- /* INTEL IMC (Integrated Memory Controllers) */
- { 0xFFFF, 0x0001, "Core IMC","", 0, poll_fsb_nhm, poll_timings_nhm, setup_nhm, poll_nothing},
- { 0xFFFF, 0x0002, "Core IMC","", 0, poll_fsb_nhm32, poll_timings_nhm, setup_nhm32, poll_nothing},
- { 0xFFFF, 0x0003, "Core IMC","", 0, poll_fsb_wmr, poll_timings_wmr, setup_wmr, poll_nothing},
- { 0xFFFF, 0x0004, "SNB IMC","", 0, poll_fsb_snb, poll_timings_snb, setup_wmr, poll_nothing},
- { 0xFFFF, 0x0005, "SNB-E IMC","", 0, poll_fsb_snbe, poll_timings_snbe, setup_wmr, poll_nothing},
- { 0xFFFF, 0x0006, "IVB IMC","", 0, poll_fsb_ivb, poll_timings_snb, setup_wmr, poll_nothing},
- { 0xFFFF, 0x0007, "HSW IMC","", 0, poll_fsb_ivb, poll_timings_hsw, setup_wmr, poll_nothing},
- { 0xFFFF, 0x0008, "PineView IMC","", 0, poll_fsb_p35, poll_timings_p35, setup_p35, poll_nothing},
- { 0xFFFF, 0x0009, "CedarTrail IMC","", 0, poll_fsb_ct, poll_timings_ct, setup_nothing, poll_nothing},
-
- /* AMD IMC (Integrated Memory Controllers) */
- { 0xFFFF, 0x0100, "AMD K8 IMC","", 0, poll_fsb_amd64, poll_timings_amd64, setup_amd64, poll_nothing },
- { 0xFFFF, 0x0101, "AMD K10 IMC","", 0, poll_fsb_k10, poll_timings_k10, setup_k10, poll_nothing },
- { 0xFFFF, 0x0102, "AMD K12 IMC","", 0, poll_fsb_k12, poll_timings_k12, setup_apu, poll_nothing },
- { 0xFFFF, 0x0103, "AMD K14 IMC","", 0, poll_fsb_k14, poll_timings_k14, setup_apu, poll_nothing },
- { 0xFFFF, 0x0104, "AMD K15 IMC","", 0, poll_fsb_k15, poll_timings_k15, setup_apu, poll_nothing },
- { 0xFFFF, 0x0105, "AMD K16 IMC","", 0, poll_fsb_k16, poll_timings_k16, setup_apu, poll_nothing }
-};
-
-static void print_memory_controller(void)
-{
-
- /* Print memory controller info */
- if (ctrl.index == 0) {
- return;
- }
-
- /* Now print the memory controller capabilities */
- /*
- cprint(LINE_CPU+5, col, " "); col++;
- if (ctrl.cap == ECC_UNKNOWN) {
- return;
- }
- if (ctrl.cap & __ECC_DETECT) {
- int on;
- on = ctrl.mode & __ECC_DETECT;
- cprint(LINE_CPU+5, col, "(ECC : ");
- cprint(LINE_CPU+5, col +7, on?"Detect":"Disabled)");
- on?(col += 13):(col += 16);
- }
- if (ctrl.mode & __ECC_CORRECT) {
- int on;
- on = ctrl.mode & __ECC_CORRECT;
- cprint(LINE_CPU+5, col, " / ");
- if (ctrl.cap & __ECC_CHIPKILL) {
- cprint(LINE_CPU+5, col +3, on?"Correct -":"");
- on?(col += 12):(col +=3);
- } else {
- cprint(LINE_CPU+5, col +3, on?"Correct)":"");
- on?(col += 11):(col +=3);
- }
- }
- if (ctrl.mode & __ECC_DETECT) {
- if (ctrl.cap & __ECC_CHIPKILL) {
- int on;
- on = ctrl.mode & __ECC_CHIPKILL;
- cprint(LINE_CPU+5, col, " Chipkill : ");
- cprint(LINE_CPU+5, col +12, on?"On)":"Off)");
- on?(col += 15):(col +=16);
- }}
- if (ctrl.mode & __ECC_SCRUB) {
- int on;
- on = ctrl.mode & __ECC_SCRUB;
- cprint(LINE_CPU+5, col, " Scrub");
- cprint(LINE_CPU+5, col +6, on?"+ ":"- ");
- col += 7;
- }
- if (ctrl.cap & __ECC_UNEXPECTED) {
- int on;
- on = ctrl.mode & __ECC_UNEXPECTED;
- cprint(LINE_CPU+5, col, "Unknown");
- cprint(LINE_CPU+5, col +7, on?"+ ":"- ");
- col += 9;
- }
- */
-
-
-
- /* Print advanced caracteristics */
- col2 = 0;
-
- controllers[ctrl.index].poll_fsb();
- controllers[ctrl.index].poll_timings();
-
-}
-
-
-void find_controller(void)
-{
- unsigned long vendor;
- unsigned long device;
- int i;
- int result;
- result = pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, PCI_VENDOR_ID, 2, &vendor);
- result = pci_conf_read(ctrl.bus, ctrl.dev, ctrl.fn, PCI_DEVICE_ID, 2, &device);
-
- // Detect IMC by CPUID
- if(imc_type) { vendor = 0xFFFF; device = imc_type; }
- if(vv->fail_safe & 1) { vendor = 0xFFFF; device = 0xFFFF; }
-
- //hprint(11,0,vendor); hprint(11,10,device);
-
- ctrl.index = 0;
- if (result == 0 || imc_type) {
- for(i = 1; i < sizeof(controllers)/sizeof(controllers[0]); i++) {
- if ((controllers[i].vendor == vendor) && (controllers[i].device == device)) {
- ctrl.index = i;
- break;
- }
- }
- }
-
- controllers[ctrl.index].setup_ecc();
- /* Don't enable ECC polling by default unless it has
- * been well tested.
- */
- //set_ecc_polling(-1);
- print_memory_controller();
-
- if(imc_type) { print_dmi_startup_info(); }
-
-}
-
-void poll_errors(void)
-{
- if (ctrl.poll) {
- controllers[ctrl.index].poll_errors();
- }
-}
-
-/*
- void set_ecc_polling(int val)
- {
- int tested = controllers[ctrl.index].tested;
- if (val == -1) {
- val = tested;
- }
- if (val && (ctrl.mode & __ECC_DETECT)) {
- ctrl.poll = 1;
- cprint(LINE_INFO, COL_ECC, tested? " on": " ON");
- } else {
- ctrl.poll = 0;
- cprint(LINE_INFO, COL_ECC, "off");
- }
- }
-*/
-
diff --git a/memtest86+_old/controller.h b/memtest86+_old/controller.h
deleted file mode 100644
index da64ef1..0000000
--- a/memtest86+_old/controller.h
+++ /dev/null
@@ -1,23 +0,0 @@
-#ifndef MEMTEST_CONTROLLER_H
-#define MEMTEST_CONTROLLER_H
-
-struct pci_memory_controller {
- unsigned vendor;
- unsigned device;
- char *name;
- char *ram_type;
- int tested;
- void (*poll_fsb)(void);
- void (*poll_timings)(void);
- void (*setup_ecc)(void);
- void (*poll_errors)(void);
-};
-
-void find_controller(void);
-void poll_errors(void);
-void set_ecc_polling(int val);
-void coretemp(void);
-extern struct pci_memory_controller controllers[];
-
-
-#endif /* MEMTEST_CONTROLLER_H */
diff --git a/memtest86+_old/cpuid.c b/memtest86+_old/cpuid.c
deleted file mode 100644
index 4c25ede..0000000
--- a/memtest86+_old/cpuid.c
+++ /dev/null
@@ -1,87 +0,0 @@
-/*
- * cpuid.c --
- *
- * Implements CPUID querying functions
- *
- */
-#include "stdin.h"
-#include "cpuid.h"
-
-struct cpu_ident cpu_id;
-
-void get_cpuid()
-{
- unsigned int *v, dummy[3];
- char *p, *q;
-
- /* Get max std cpuid & vendor ID */
- cpuid(0x0, &cpu_id.max_cpuid, &cpu_id.vend_id.uint32_array[0],
- &cpu_id.vend_id.uint32_array[2], &cpu_id.vend_id.uint32_array[1]);
- cpu_id.vend_id.char_array[11] = 0;
-
- /* Get processor family information & feature flags */
- if (cpu_id.max_cpuid >= 1) {
- cpuid(0x00000001, &cpu_id.vers.flat, &cpu_id.info.flat,
- &cpu_id.fid.uint32_array[1], &cpu_id.fid.uint32_array[0]);
- }
-
- /* Get the digital thermal sensor & power management status bits */
- if(cpu_id.max_cpuid >= 6) {
- cpuid(0x00000006, &cpu_id.dts_pmp, &dummy[0], &dummy[1], &dummy[2]);
- }
-
- /* Get the max extended cpuid */
- cpuid(0x80000000, &cpu_id.max_xcpuid, &dummy[0], &dummy[1], &dummy[2]);
-
- /* Get extended feature flags, only save EDX */
- if (cpu_id.max_xcpuid >= 0x80000001) {
- cpuid(0x80000001, &dummy[0], &dummy[1],
- &dummy[2], &cpu_id.fid.uint32_array[2]);
- }
-
- /* Get the brand ID */
- if (cpu_id.max_xcpuid >= 0x80000004) {
- v = (unsigned int *)&cpu_id.brand_id;
- cpuid(0x80000002, &v[0], &v[1], &v[2], &v[3]);
- cpuid(0x80000003, &v[4], &v[5], &v[6], &v[7]);
- cpuid(0x80000004, &v[8], &v[9], &v[10], &v[11]);
- cpu_id.brand_id.char_array[47] = 0;
- }
- /*
- * Intel chips right-justify this string for some dumb reason;
- * undo that brain damage:
- */
- p = q = &cpu_id.brand_id.char_array[0];
- while (*p == ' ')
- p++;
- if (p != q) {
- while (*p)
- *q++ = *p++;
- while (q <= &cpu_id.brand_id.char_array[48])
- *q++ = '\0'; /* Zero-pad the rest */
- }
-
- /* Get cache information */
- switch(cpu_id.vend_id.char_array[0]) {
- case 'A':
- /* AMD Processors */
- /* The cache information is only in ecx and edx so only save
- * those registers */
- if (cpu_id.max_xcpuid >= 0x80000005) {
- cpuid(0x80000005, &dummy[0], &dummy[1],
- &cpu_id.cache_info.uint[0], &cpu_id.cache_info.uint[1]);
- }
- if (cpu_id.max_xcpuid >= 0x80000006) {
- cpuid(0x80000006, &dummy[0], &dummy[1],
- &cpu_id.cache_info.uint[2], &cpu_id.cache_info.uint[3]);
- }
- break;
- case 'G':
- /* Intel Processors, Need to do this in init.c */
- break;
- }
-
- /* Turn off mon bit since monitor based spin wait may not be reliable */
- cpu_id.fid.bits.mon = 0;
-
-}
diff --git a/memtest86+_old/cpuid.h b/memtest86+_old/cpuid.h
deleted file mode 100644
index 0feb56e..0000000
--- a/memtest86+_old/cpuid.h
+++ /dev/null
@@ -1,205 +0,0 @@
-
-
-#ifndef CPUID_H_
-#define CPUID_H_
-
-
-/*
- * cpuid.h --
- * contains the data structures required for CPUID
- * implementation.
- */
-
-#define CPUID_VENDOR_LENGTH 3 /* 3 GPRs hold vendor ID */
-#define CPUID_VENDOR_STR_LENGTH (CPUID_VENDOR_LENGTH * sizeof(uint32_t) + 1)
-#define CPUID_BRAND_LENGTH 12 /* 12 GPRs hold vendor ID */
-#define CPUID_BRAND_STR_LENGTH (CPUID_BRAND_LENGTH * sizeof(uint32_t) + 1)
-
-extern struct cpu_ident cpu_id;
-
-static inline void __cpuid(unsigned int *eax, unsigned int *ebx,
- unsigned int *ecx, unsigned int *edx)
-{
- /* ecx is often an input as well as an output. */
- asm volatile("\t"
- "push %%ebx; cpuid; mov %%ebx, %%edi; pop %%ebx"
- : "=a" (*eax),
- "=D" (*ebx),
- "=c" (*ecx),
- "=d" (*edx)
- : "0" (*eax), "2" (*ecx));
-}
-
-static inline void cpuid(unsigned int op,
- unsigned int *eax, unsigned int *ebx,
- unsigned int *ecx, unsigned int *edx)
-{
- *eax = op;
- *ecx = 0;
- __cpuid(eax, ebx, ecx, edx);
-}
-
-/* Some CPUID calls want 'count' to be placed in ecx */
-static inline void cpuid_count(unsigned int op, int count,
- unsigned int *eax, unsigned int *ebx,
- unsigned int *ecx, unsigned int *edx)
-{
- *eax = op;
- *ecx = count;
- __cpuid(eax, ebx, ecx, edx);
-}
-
-/* Typedef for storing the Cache Information */
-typedef union {
- unsigned char ch[48];
- uint32_t uint[12];
- struct {
- uint32_t fill1:24; /* Bit 0 */
- uint32_t l1_i_sz:8;
- uint32_t fill2:24;
- uint32_t l1_d_sz:8;
- uint32_t fill3:16;
- uint32_t l2_sz:16;
- uint32_t fill4:18;
- uint32_t l3_sz:14;
- uint32_t fill5[8];
- } amd;
-} cpuid_cache_info_t;
-
-/* Typedef for storing the CPUID Vendor String */
-typedef union {
- /* Note: the extra byte in the char array is for '\0'. */
- char char_array[CPUID_VENDOR_STR_LENGTH];
- uint32_t uint32_array[CPUID_VENDOR_LENGTH];
-} cpuid_vendor_string_t;
-
-/* Typedef for storing the CPUID Brand String */
-typedef union {
- /* Note: the extra byte in the char array is for '\0'. */
- char char_array[CPUID_BRAND_STR_LENGTH];
- uint32_t uint32_array[CPUID_BRAND_LENGTH];
-} cpuid_brand_string_t;
-
-/* Typedef for storing CPUID Version */
-typedef union {
- uint32_t flat;
- struct {
- uint32_t stepping:4; /* Bit 0 */
- uint32_t model:4;
- uint32_t family:4;
- uint32_t processorType:2;
- uint32_t reserved1514:2;
- uint32_t extendedModel:4;
- uint32_t extendedFamily:8;
- uint32_t reserved3128:4; /* Bit 31 */
- } bits;
-} cpuid_version_t;
-
-/* Typedef for storing CPUID Processor Information */
-typedef union {
- uint32_t flat;
- struct {
- uint32_t brandIndex:8; /* Bit 0 */
- uint32_t cflushLineSize:8;
- uint32_t logicalProcessorCount:8;
- uint32_t apicID:8; /* Bit 31 */
- } bits;
-} cpuid_proc_info_t;
-
-/* Typedef for storing CPUID Feature flags */
-typedef union {
- uint32_t flat;
- struct {
- uint32_t :1;
- } bits;
-} cpuid_custom_features;
-
-/* Typedef for storing CPUID Feature flags */
-typedef union {
- uint32_t uint32_array[3];
- struct {
- uint32_t fpu:1; /* EDX feature flags, bit 0 */
- uint32_t vme:1;
- uint32_t de:1;
- uint32_t pse:1;
- uint32_t rdtsc:1;
- uint32_t msr:1;
- uint32_t pae:1;
- uint32_t mce:1;
- uint32_t cx8:1;
- uint32_t apic:1;
- uint32_t bit10:1;
- uint32_t sep:1;
- uint32_t mtrr:1;
- uint32_t pge:1;
- uint32_t mca:1;
- uint32_t cmov:1;
- uint32_t pat:1;
- uint32_t pse36:1;
- uint32_t psn:1;
- uint32_t cflush:1;
- uint32_t bit20:1;
- uint32_t ds:1;
- uint32_t acpi:1;
- uint32_t mmx:1;
- uint32_t fxsr:1;
- uint32_t sse:1;
- uint32_t sse2:1;
- uint32_t ss:1;
- uint32_t htt:1;
- uint32_t tm:1;
- uint32_t bit30:1;
- uint32_t pbe:1; /* EDX feature flags, bit 31 */
- uint32_t sse3:1; /* ECX feature flags, bit 0 */
- uint32_t mulq:1;
- uint32_t bit2:1;
- uint32_t mon:1;
- uint32_t dscpl:1;
- uint32_t vmx:1;
- uint32_t smx:1;
- uint32_t eist:1;
- uint32_t tm2:1;
- uint32_t bits_9_31:23;
- uint32_t bits0_28:29; /* EDX extended feature flags, bit 0 */
- uint32_t lm:1; /* Long Mode */
- uint32_t bits_30_31:2; /* EDX extended feature flags, bit 32 */
- } bits;
-} cpuid_feature_flags_t;
-
-/* An overall structure to cache all of the CPUID information */
-struct cpu_ident {
- uint32_t max_cpuid;
- uint32_t max_xcpuid;
- uint32_t dts_pmp;
- cpuid_version_t vers;
- cpuid_proc_info_t info;
- cpuid_feature_flags_t fid;
- cpuid_vendor_string_t vend_id;
- cpuid_brand_string_t brand_id;
- cpuid_cache_info_t cache_info;
- cpuid_custom_features custom;
-};
-
-struct cpuid4_eax {
- uint32_t ctype:5;
- uint32_t level:3;
- uint32_t is_self_initializing:1;
- uint32_t is_fully_associative:1;
- uint32_t reserved:4;
- uint32_t num_threads_sharing:12;
- uint32_t num_cores_on_die:6;
-};
-
-struct cpuid4_ebx {
- uint32_t coherency_line_size:12;
- uint32_t physical_line_partition:10;
- uint32_t ways_of_associativity:10;
-};
-
-struct cpuid4_ecx {
- uint32_t number_of_sets:32;
-};
-
-void get_cpuid();
-
-#endif // CPUID_H_
diff --git a/memtest86+_old/defs.h b/memtest86+_old/defs.h
deleted file mode 100644
index 1b77f2c..0000000
--- a/memtest86+_old/defs.h
+++ /dev/null
@@ -1,26 +0,0 @@
-/* defs.h - MemTest-86 Version 3.3
- * assembler/compiler definitions
- *
- * Released under version 2 of the Gnu Public License.
- * By Chris Brady
- */
-
-#define SETUPSECS 4 /* Number of setup sectors */
-
-/*
- * Caution!! There is magic in the build process. Read
- * README.build-process before you change anything.
- * Unlike earlier versions all of the settings are in defs.h
- * so the build process should be more robust.
- */
-#define LOW_TEST_ADR 0x00010000 /* Final adrs for test code */
-
-#define BOOTSEG 0x07c0 /* Segment adrs for initial boot */
-#define INITSEG 0x9000 /* Segment adrs for relocated boot */
-#define SETUPSEG (INITSEG+0x20) /* Segment adrs for relocated setup */
-#define TSTLOAD 0x1000 /* Segment adrs for load of test */
-
-#define KERNEL_CS 0x10 /* 32 bit segment adrs for code */
-#define KERNEL_DS 0x18 /* 32 bit segment adrs for data */
-#define REAL_CS 0x20 /* 16 bit segment adrs for code */
-#define REAL_DS 0x28 /* 16 bit segment adrs for data */
diff --git a/memtest86+_old/dmi.c b/memtest86+_old/dmi.c
deleted file mode 100644
index 41b0347..0000000
--- a/memtest86+_old/dmi.c
+++ /dev/null
@@ -1,438 +0,0 @@
-/* dmi.c using the DMI from SMBIOS to read information about the hardware's
- * memory devices capabilities and where they are mapped into the address space
- *
- * Copyright (c) Joachim Deguara, AMD 2006
- *
- * Release under the GPL version 2
- * ----------------------------------------------------
- * Memtest86+ V4.00 - Added compliance with SMBIOS Spec V2.6.1
- */
-
-
-#include "test.h"
-#include "stdint.h"
-
-#define round_up(x,y) (((x) + (y) - 1) & ~((y)-1))
-#define round_down(x,y) ((x) & ~((y)-1))
-
-struct dmi_eps {
- uint8_t anchor[4];
- int8_t checksum;
- uint8_t length;
- uint8_t majorversion;
- uint8_t minorversion;
- uint16_t maxstructsize;
- uint8_t revision;
- uint8_t pad[5];
- uint8_t intanchor[5];
- int8_t intchecksum;
- uint16_t tablelength;
- uint32_t tableaddress;
- uint16_t numstructs;
- uint8_t SMBIOSrev;
-} __attribute__((packed));
-
-struct tstruct_header{
- uint8_t type;
- uint8_t length;
- uint16_t handle;
-} __attribute__((packed));
-
-struct system_map {
- struct tstruct_header header;
- uint8_t manufacturer;
- uint8_t productname;
- uint8_t version;
- uint8_t serialnumber;
- uint8_t uuidbytes[16];
- uint8_t wut;
-} __attribute__((packed));
-
-struct cpu_map {
- struct tstruct_header header;
- uint8_t cpu_socket;
- uint8_t cpu_type;
- uint8_t cpu_family;
- uint8_t cpu_manufacturer;
- uint32_t cpu_id;
- uint8_t cpu_version;
- uint8_t cpu_voltage;
- uint16_t ext_clock;
- uint16_t max_speed;
- uint16_t cur_speed;
- uint8_t cpu_status;
- uint8_t cpu_upgrade;
- uint16_t l1_handle;
- uint16_t l2_handle;
- uint16_t l3_handle;
- uint8_t cpu_serial;
- uint8_t cpu_asset_tag;
- uint8_t cpu_part_number;
- uint8_t core_count;
- uint8_t core_enabled;
- uint8_t thread_count;
- uint16_t cpu_specs;
- uint16_t cpu_family_2;
-} __attribute__((packed));
-
-struct mem_dev {
- struct tstruct_header header;
- uint16_t pma_handle;
- uint16_t err_handle;
- uint16_t tot_width;
- uint16_t dat_width;
- uint16_t size;
- uint8_t form;
- uint8_t set;
- uint8_t dev_locator;
- uint8_t bank_locator;
- uint8_t type;
- uint16_t typedetail;
- uint16_t speed;
- uint8_t manufacturer;
- uint8_t serialnum;
- uint8_t asset;
- uint8_t partnum;
- uint8_t attributes;
- uint8_t ext_size;
- uint8_t conf_ram_speed;
- uint8_t min_voltage;
- uint8_t max_votage;
- uint8_t conf_voltage;
-} __attribute__((packed));
-
-struct md_map{
- struct tstruct_header header;
- uint32_t start;
- uint32_t end;
- uint16_t md_handle;
- uint16_t mama_handle;
- uint8_t row_pos;
- uint8_t interl_pos;
- uint8_t interl_depth;
-} __attribute__((packed));
-
-struct pma{
- struct tstruct_header header;
- uint8_t location;
- uint8_t use;
- uint8_t ecc;
- uint32_t capacity;
- uint16_t errhandle;
- uint16_t numdevs;
-} __attribute__((packed));
-
-static char *form_factors[] = {
- "?",
- "Other", "Unknown", "SIMM", "SIP", "Chip", "DIP", "ZIP",
- "Proprietary Card", "DIMM", "TSOP", "Row of chips", "RIMM",
- "SODIMM", "SRIMM", "FB-DIMM", "Die"
-};
-
-
-static char *memory_types[] = {
- "?",
- "Other", "????", "DRAM", "EDRAM", "VRAM", "SRAM", "RAM",
- "ROM", "FLASH", "EEPROM", "FEPROM", "EPROM", "CDRAM", "3DRAM",
- "SDRAM", "SGRAM", "RDRAM", "DDR", "DDR2", "DDR2 FB", "RSVD",
- "RSVD","RSVD","DDR3","FBD2", "DDR4", "LPDDR", "LPDDR2", "LPDDR3",
- "LPDDR4", "LNVD", "HBM", "HBM2", "DDR5", "LPDDR5"
-};
-
-
-struct mem_dev * mem_devs[MAX_DMI_MEMDEVS];
-int mem_devs_count=0;
-struct md_map * md_maps[MAX_DMI_MEMDEVS];
-struct system_map * dmi_system_info;
-struct cpu_map * dmi_cpu_info;
-int md_maps_count=0;
-int dmi_err_cnts[MAX_DMI_MEMDEVS];
-short dmi_initialized=0;
-
-char * get_tstruct_string(struct tstruct_header *header, int n){
- if(n<1)
- return 0;
- char * a = (char *)header + header->length;
- n--;
- do{
- if (!*a)
- n--;
- if (!n && *a)
- return a;
- a++;
- }while (!(*a==0 && *(a-1)==0));
- return 0;
-}
-
-
-int open_dmi(void){
- char *dmi, *dmi_search_start, *dmi_start;
- int found=0;
- struct dmi_eps *eps;
- char *table_start;
- int tstruct_count=0;
- dmi_search_start = (char *)DMI_SEARCH_START;
-
- //find anchor
- for(dmi = dmi_search_start; dmi < dmi_search_start + 0xf0000; dmi +=16){
- if( *dmi == '_' &&
- *(dmi+1) == 'S' &&
- *(dmi+2) == 'M' &&
- *(dmi+3) == '_'){
- found =1;
- break;
- }
- }
- if (!found) {
- return -1;
- }
- dmi_start=dmi;
- eps=(struct dmi_eps *)dmi;
-
- //check checksum
- int8_t checksum=0;
- for (; dmi < dmi_start + eps->length; dmi++)
- checksum += *dmi;
- if (checksum){
- return -1;
- }
-
- //we need at least revision 2.1 of SMBIOS
- if ( eps->majorversion < 2 &&
- eps->minorversion < 1){
- return -1;
- }
-
- table_start=(char *)eps->tableaddress;
- dmi=table_start;
-//look at all structs
- while(dmi < table_start + eps->tablelength){
- struct tstruct_header *header = (struct tstruct_header *)dmi;
-
- if (header->type == 17)
- mem_devs[mem_devs_count++] = (struct mem_dev *)dmi;
-
- // Mem Dev Map
- if (header->type == 20)
- md_maps[md_maps_count++] = (struct md_map *)dmi;
-
- // MB_SPEC
- if (header->type == 2)
- {
- dmi_system_info = (struct system_map *)dmi;
- }
-
- // CPU_SPEC
- if (header->type == 4)
- {
- dmi_cpu_info = (struct cpu_map *)dmi;
- }
-
- dmi+=header->length;
-
- while( ! (*dmi == 0 && *(dmi+1) == 0 ) )
- dmi++;
- dmi+=2;
-
- if (++tstruct_count > eps->numstructs)
- return -1;
- }
- return 0;
-}
-
-void init_dmi(void){
- int i;
- for(i=0; i < MAX_DMI_MEMDEVS; i++)
- dmi_err_cnts[i]=0;
- open_dmi();
- dmi_initialized=1;
-}
-
-void print_dmi_startup_info(void)
-{
- char *string1;
- char *string2;
- char *string3;
- int dmicol = 78;
- int slenght;
- int sl1, sl2, sl3;
-
- if(!dmi_initialized) { init_dmi(); }
-
- string1 = get_tstruct_string(&dmi_system_info->header,dmi_system_info->manufacturer);
- sl1 = mt86_strlen(string1);
- string2 = get_tstruct_string(&dmi_system_info->header,dmi_system_info->productname);
- sl2 = mt86_strlen(string2);
- string3 = get_tstruct_string(&dmi_cpu_info->header,dmi_cpu_info->cpu_socket);
- sl3 = mt86_strlen(string3);
-
- slenght = sl1 + sl2;
- if(sl3 > 2) { slenght += sl3 + 4; } else { slenght++; }
-
- if(sl1 && sl2)
- {
- //dmicol -= slenght; // right align
- dmicol = 39 - slenght/2; // center align
- cprint(LINE_DMI, dmicol, string1);
- dmicol += sl1 + 1;
- cprint(LINE_DMI, dmicol, string2);
- dmicol += sl2 + 1;
-
- if(sl3 > 2){
- cprint(LINE_DMI, dmicol, "(");
- dmicol++;
- cprint(LINE_DMI, dmicol, string3);
- dmicol += sl3;
- cprint(LINE_DMI, dmicol, ")");
- }
- }
-}
-
-void print_dmi_info(void){
- int i,j,page;
- char * string=0;
-
- if(!dmi_initialized)
- init_dmi();
-
- if (mem_devs_count == 0){
- cprint(POP2_Y+1, POP2_X+2, "No valid DMI Memory Devices info found");
- while (get_key() == 0);
- return;
- }
-
- for(page=1; page <= 1 + (mem_devs_count-1)/8; page++){
- pop2clear();
- cprint(POP2_Y+1, POP2_X+2, "DMI Memory Device Info (page ");
- itoa(string,page);
- cprint(POP2_Y+1, POP2_X+32, string);
- cprint(POP2_Y+1, POP2_X+33, "/");
- itoa(string,1 + (mem_devs_count-1)/8);
- cprint(POP2_Y+1, POP2_X+34, string);
- cprint(POP2_Y+1, POP2_X+35, ")");
-
- cprint(POP2_Y+3, POP2_X+4, "Location Size(MB) Speed(MHz) Type Form");
- cprint(POP2_Y+4, POP2_X+4, "--------------------------------------------------------------");
-
- for(i=8*(page-1); i<mem_devs_count && i<8*page; i++){
- int size_in_mb;
- int yof;
-
- yof = POP2_Y+5+2*(i-8*(page-1));
- cprint(yof, POP2_X+4, get_tstruct_string(&(mem_devs[i]->header), mem_devs[i]->dev_locator));
-
- if (mem_devs[i]->size == 0){
- cprint(yof, POP2_X+4+18, "Empty");
- }else if (mem_devs[i]->size == 0xFFFF){
- cprint(yof, POP2_X+4+18, "Unknown");
- }else if (mem_devs[i]->size == 0x7FFF){
- // SMBIOS 2.7+
- size_in_mb = mem_devs[i]->ext_size;
- itoa(string, size_in_mb);
- cprint(yof, POP2_X+4+18, string);
- }else{
- size_in_mb = 0xFFFF & mem_devs[i]->size;
- if (mem_devs[i]->size & 0x8000)
- size_in_mb <<= 10;
- itoa(string, size_in_mb);
- cprint(yof, POP2_X+4+18, string);
- }
-
- //this is the only field that needs to be SMBIOS 2.3+
- if ( mem_devs[i]->speed &&
- mem_devs[i]->header.length > 21){
- itoa(string, mem_devs[i]->speed);
- cprint(yof, POP2_X+4+27, string);
- }else{
- cprint(yof, POP2_X+4+27, "Unknown");
- }
- cprint(yof, POP2_X+4+37, memory_types[mem_devs[i]->type]);
- cprint(yof, POP2_X+4+44, form_factors[mem_devs[i]->form]);
-
- //print mappings
- int mapped=0,of=0;
- cprint(yof+1, POP2_X+6,"mapped to: ");
- for(j=0; j<md_maps_count; j++)
- {
- if (mem_devs[i]->header.handle != md_maps[j]->md_handle)
- continue;
- if (mapped++){
- cprint(yof+1, POP2_X+17+of, ",");
- of++;
- }
- hprint3(yof+1, POP2_X+17+of, md_maps[j]->start>>22, 4);
- of += 4;
- hprint3(yof+1, POP2_X+17+of, md_maps[j]->start<<10, 8);
- of += 8;
- cprint(yof+1, POP2_X+17+of, "-");
- of++;
- hprint3(yof+1, POP2_X+17+of, md_maps[j]->end>>22, 4);
- of += 4;
- hprint3(yof+1, POP2_X+17+of, ((md_maps[j]->end+1)<<10) - 1, 8);
- of += 8;
- if(md_maps[j]->end == 0) { hprint3(yof+1, POP2_X+17+of-8,0,8); }
- }
- if (!mapped)
- {
- cprint(yof+1, POP2_X+17, "No mapping (Interleaved Device)");
- }
-
- }
-
- wait_keyup();
- while (get_key() == 0);
- }
-}
-
-//return 1 if the list of bad memory devices changes, 0 otherwise, -1 if no mapped
-int add_dmi_err(ulong adr){
- int i,j,found=-1;
-
- if(!dmi_initialized)
- init_dmi();
-
- for(i=0; i < md_maps_count; i++){
- if ( adr < (md_maps[i]->start<<10) ||
- adr > (md_maps[i]->end<<10) )
- continue;
-
- //matching map found, now check find corresponding dev
- for(j=0; j < mem_devs_count; j++){
- if (mem_devs[j]->header.handle != md_maps[i]->md_handle)
- continue;
- if (dmi_err_cnts[j]){
- found=0;
- }else{
- found = dmi_err_cnts[j] = 1;
- }
- }
- }
-
- return found;
-}
-
-void print_dmi_err(void){
- int i,count,of;
- char *string;
-
- scroll();
-
- cprint(vv->msg_line, 0,"Bad Memory Devices: ");
- of=20;
- for ( i=count=0; i < MAX_DMI_MEMDEVS; i++){
- if (!dmi_err_cnts[i])
- continue;
- struct mem_dev *md = mem_devs[i];
- if(count++){
- cprint(vv->msg_line, of, ", ");
- of+=2;
- }
- string=get_tstruct_string((struct tstruct_header *)md,md->dev_locator);
- if (mt86_strlen(string) + of > 80){
- scroll();
- of=7;
- }
- cprint(vv->msg_line, of, string);
- of += mt86_strlen(string);
- }
-}
diff --git a/memtest86+_old/dmi.h b/memtest86+_old/dmi.h
deleted file mode 100644
index c90fedd..0000000
--- a/memtest86+_old/dmi.h
+++ /dev/null
@@ -1,7 +0,0 @@
-#ifndef __DMI_H__
-#define __DMI_H__
-int add_dmi_err(ulong adr);
-void print_dmi_err(void);
-void print_dmi_info(void);
-void print_dmi_startup_info(void);
-#endif
diff --git a/memtest86+_old/elf.h b/memtest86+_old/elf.h
deleted file mode 100644
index 72efaac..0000000
--- a/memtest86+_old/elf.h
+++ /dev/null
@@ -1,590 +0,0 @@
-#ifndef ELF_H
-#define ELF_H
-
-#define EI_NIDENT 16 /* Size of e_ident array. */
-
-/* Values for e_type. */
-#define ET_NONE 0 /* No file type */
-#define ET_REL 1 /* Relocatable file */
-#define ET_EXEC 2 /* Executable file */
-#define ET_DYN 3 /* Shared object file */
-#define ET_CORE 4 /* Core file */
-
-/* Values for e_machine (architecute). */
-#define EM_NONE 0 /* No machine */
-#define EM_M32 1 /* AT&T WE 32100 */
-#define EM_SPARC 2 /* SUN SPARC */
-#define EM_386 3 /* Intel 80386+ */
-#define EM_68K 4 /* Motorola m68k family */
-#define EM_88K 5 /* Motorola m88k family */
-#define EM_486 6 /* Perhaps disused */
-#define EM_860 7 /* Intel 80860 */
-#define EM_MIPS 8 /* MIPS R3000 big-endian */
-#define EM_S370 9 /* IBM System/370 */
-#define EM_MIPS_RS3_LE 10 /* MIPS R3000 little-endian */
-
-#define EM_PARISC 15 /* HPPA */
-#define EM_VPP500 17 /* Fujitsu VPP500 */
-#define EM_SPARC32PLUS 18 /* Sun's "v8plus" */
-#define EM_960 19 /* Intel 80960 */
-#define EM_PPC 20 /* PowerPC */
-#define EM_PPC64 21 /* PowerPC 64-bit */
-#define EM_S390 22 /* IBM S390 */
-
-#define EM_V800 36 /* NEC V800 series */
-#define EM_FR20 37 /* Fujitsu FR20 */
-#define EM_RH32 38 /* TRW RH-32 */
-#define EM_RCE 39 /* Motorola RCE */
-#define EM_ARM 40 /* ARM */
-#define EM_FAKE_ALPHA 41 /* Digital Alpha */
-#define EM_SH 42 /* Hitachi SH */
-#define EM_SPARCV9 43 /* SPARC v9 64-bit */
-#define EM_TRICORE 44 /* Siemens Tricore */
-#define EM_ARC 45 /* Argonaut RISC Core */
-#define EM_H8_300 46 /* Hitachi H8/300 */
-#define EM_H8_300H 47 /* Hitachi H8/300H */
-#define EM_H8S 48 /* Hitachi H8S */
-#define EM_H8_500 49 /* Hitachi H8/500 */
-#define EM_IA_64 50 /* Intel Merced */
-#define EM_MIPS_X 51 /* Stanford MIPS-X */
-#define EM_COLDFIRE 52 /* Motorola Coldfire */
-#define EM_68HC12 53 /* Motorola M68HC12 */
-#define EM_MMA 54 /* Fujitsu MMA Multimedia Accelerator*/
-#define EM_PCP 55 /* Siemens PCP */
-#define EM_NCPU 56 /* Sony nCPU embeeded RISC */
-#define EM_NDR1 57 /* Denso NDR1 microprocessor */
-#define EM_STARCORE 58 /* Motorola Start*Core processor */
-#define EM_ME16 59 /* Toyota ME16 processor */
-#define EM_ST100 60 /* STMicroelectronic ST100 processor */
-#define EM_TINYJ 61 /* Advanced Logic Corp. Tinyj emb.fam*/
-#define EM_X86_64 62 /* AMD x86-64 architecture */
-#define EM_PDSP 63 /* Sony DSP Processor */
-
-#define EM_FX66 66 /* Siemens FX66 microcontroller */
-#define EM_ST9PLUS 67 /* STMicroelectronics ST9+ 8/16 mc */
-#define EM_ST7 68 /* STmicroelectronics ST7 8 bit mc */
-#define EM_68HC16 69 /* Motorola MC68HC16 microcontroller */
-#define EM_68HC11 70 /* Motorola MC68HC11 microcontroller */
-#define EM_68HC08 71 /* Motorola MC68HC08 microcontroller */
-#define EM_68HC05 72 /* Motorola MC68HC05 microcontroller */
-#define EM_SVX 73 /* Silicon Graphics SVx */
-#define EM_AT19 74 /* STMicroelectronics ST19 8 bit mc */
-#define EM_VAX 75 /* Digital VAX */
-#define EM_CRIS 76 /* Axis Communications 32-bit embedded processor */
-#define EM_JAVELIN 77 /* Infineon Technologies 32-bit embedded processor */
-#define EM_FIREPATH 78 /* Element 14 64-bit DSP Processor */
-#define EM_ZSP 79 /* LSI Logic 16-bit DSP Processor */
-#define EM_MMIX 80 /* Donald Knuth's educational 64-bit processor */
-#define EM_HUANY 81 /* Harvard University machine-independent object files */
-#define EM_PRISM 82 /* SiTera Prism */
-#define EM_AVR 83 /* Atmel AVR 8-bit microcontroller */
-#define EM_FR30 84 /* Fujitsu FR30 */
-#define EM_D10V 85 /* Mitsubishi D10V */
-#define EM_D30V 86 /* Mitsubishi D30V */
-#define EM_V850 87 /* NEC v850 */
-#define EM_M32R 88 /* Mitsubishi M32R */
-#define EM_MN10300 89 /* Matsushita MN10300 */
-#define EM_MN10200 90 /* Matsushita MN10200 */
-#define EM_PJ 91 /* picoJava */
-#define EM_OPENRISC 92 /* OpenRISC 32-bit embedded processor */
-#define EM_ARC_A5 93 /* ARC Cores Tangent-A5 */
-#define EM_XTENSA 94 /* Tensilica Xtensa Architecture */
-#define EM_NUM 95
-
-/* Values for p_type. */
-#define PT_NULL 0 /* Unused entry. */
-#define PT_LOAD 1 /* Loadable segment. */
-#define PT_DYNAMIC 2 /* Dynamic linking information segment. */
-#define PT_INTERP 3 /* Pathname of interpreter. */
-#define PT_NOTE 4 /* Auxiliary information. */
-#define PT_SHLIB 5 /* Reserved (not used). */
-#define PT_PHDR 6 /* Location of program header itself. */
-
-/* Values for p_flags. */
-#define PF_X 0x1 /* Executable. */
-#define PF_W 0x2 /* Writable. */
-#define PF_R 0x4 /* Readable. */
-
-
-#define ELF_PROGRAM_RETURNS_BIT 0x8000000 /* e_flags bit 31 */
-
-#define EI_MAG0 0
-#define ELFMAG0 0x7f
-
-#define EI_MAG1 1
-#define ELFMAG1 'E'
-
-#define EI_MAG2 2
-#define ELFMAG2 'L'
-
-#define EI_MAG3 3
-#define ELFMAG3 'F'
-
-#define ELFMAG "\177ELF"
-
-#define EI_CLASS 4 /* File class byte index */
-#define ELFCLASSNONE 0 /* Invalid class */
-#define ELFCLASS32 1 /* 32-bit objects */
-#define ELFCLASS64 2 /* 64-bit objects */
-
-#define EI_DATA 5 /* Data encodeing byte index */
-#define ELFDATANONE 0 /* Invalid data encoding */
-#define ELFDATA2LSB 1 /* 2's complement little endian */
-#define ELFDATA2MSB 2 /* 2's complement big endian */
-
-#define EI_VERSION 6 /* File version byte index */
- /* Value must be EV_CURRENT */
-
-#define EV_NONE 0 /* Invalid ELF Version */
-#define EV_CURRENT 1 /* Current version */
-
-#define ELF32_PHDR_SIZE (8*4) /* Size of an elf program header */
-
-#ifndef ASSEMBLY
-
-#include "stdint.h"
-
-/*
- * ELF definitions common to all 32-bit architectures.
- */
-
-typedef uint32_t Elf32_Addr;
-typedef uint16_t Elf32_Half;
-typedef uint32_t Elf32_Off;
-typedef uint16_t Elf32_Section;
-typedef int32_t Elf32_Sword;
-typedef uint32_t Elf32_Word;
-typedef uint32_t Elf32_Size;
-
-typedef uint64_t Elf64_Addr;
-typedef uint16_t Elf64_Half;
-typedef uint64_t Elf64_Off;
-typedef uint16_t Elf64_Section;
-typedef int32_t Elf64_Sword;
-typedef uint32_t Elf64_Word;
-typedef uint64_t Elf64_Size;
-typedef uint64_t Elf64_Xword;
-typedef int64_t Elf64_Sxword;
-
-/*
- * ELF header.
- */
-typedef struct {
- unsigned char e_ident[EI_NIDENT]; /* File identification. */
- Elf32_Half e_type; /* File type. */
- Elf32_Half e_machine; /* Machine architecture. */
- Elf32_Word e_version; /* ELF format version. */
- Elf32_Addr e_entry; /* Entry point. */
- Elf32_Off e_phoff; /* Program header file offset. */
- Elf32_Off e_shoff; /* Section header file offset. */
- Elf32_Word e_flags; /* Architecture-specific flags. */
- Elf32_Half e_ehsize; /* Size of ELF header in bytes. */
- Elf32_Half e_phentsize; /* Size of program header entry. */
- Elf32_Half e_phnum; /* Number of program header entries. */
- Elf32_Half e_shentsize; /* Size of section header entry. */
- Elf32_Half e_shnum; /* Number of section header entries. */
- Elf32_Half e_shstrndx; /* Section name strings section. */
-} Elf32_Ehdr;
-
-typedef struct {
- unsigned char e_ident[EI_NIDENT]; /* File identification. */
- Elf64_Half e_type; /* File type. */
- Elf64_Half e_machine; /* Machine architecture. */
- Elf64_Word e_version; /* ELF format version. */
- Elf64_Addr e_entry; /* Entry point. */
- Elf64_Off e_phoff; /* Program header file offset. */
- Elf64_Off e_shoff; /* Section header file offset. */
- Elf64_Word e_flags; /* Architecture-specific flags. */
- Elf64_Half e_ehsize; /* Size of ELF header in bytes. */
- Elf64_Half e_phentsize; /* Size of program header entry. */
- Elf64_Half e_phnum; /* Number of program header entries. */
- Elf64_Half e_shentsize; /* Size of section header entry. */
- Elf64_Half e_shnum; /* Number of section header entries. */
- Elf64_Half e_shstrndx; /* Section name strings section. */
-} Elf64_Ehdr;
-
-/*
- * Program header.
- */
-typedef struct {
- Elf32_Word p_type; /* Entry type. */
- Elf32_Off p_offset; /* File offset of contents. */
- Elf32_Addr p_vaddr; /* Virtual address (not used). */
- Elf32_Addr p_paddr; /* Physical address. */
- Elf32_Size p_filesz; /* Size of contents in file. */
- Elf32_Size p_memsz; /* Size of contents in memory. */
- Elf32_Word p_flags; /* Access permission flags. */
- Elf32_Size p_align; /* Alignment in memory and file. */
-} Elf32_Phdr;
-
-typedef struct {
- Elf64_Word p_type; /* Entry type. */
- Elf64_Word p_flags; /* Access permission flags. */
- Elf64_Off p_offset; /* File offset of contents. */
- Elf64_Addr p_vaddr; /* Virtual address (not used). */
- Elf64_Addr p_paddr; /* Physical address. */
- Elf64_Size p_filesz; /* Size of contents in file. */
- Elf64_Size p_memsz; /* Size of contents in memory. */
- Elf64_Size p_align; /* Alignment in memory and file. */
-} Elf64_Phdr;
-
-
-/* Dynamic section entry. */
-
-typedef struct
-{
- Elf32_Sword d_tag; /* Dynamic entry type */
- union
- {
- Elf32_Word d_val; /* Integer value */
- Elf32_Addr d_ptr; /* Address value */
- } d_un;
-} Elf32_Dyn;
-
-typedef struct
-{
- Elf64_Sxword d_tag; /* Dynamic entry type */
- union
- {
- Elf64_Xword d_val; /* Integer value */
- Elf64_Addr d_ptr; /* Address value */
- } d_un;
-} Elf64_Dyn;
-
-/* Legal values for d_tag (dynamic entry type). */
-
-#define DT_NULL 0 /* Marks end of dynamic section */
-#define DT_NEEDED 1 /* Name of needed library */
-#define DT_PLTRELSZ 2 /* Size in bytes of PLT relocs */
-#define DT_PLTGOT 3 /* Processor defined value */
-#define DT_HASH 4 /* Address of symbol hash table */
-#define DT_STRTAB 5 /* Address of string table */
-#define DT_SYMTAB 6 /* Address of symbol table */
-#define DT_RELA 7 /* Address of Rela relocs */
-#define DT_RELASZ 8 /* Total size of Rela relocs */
-#define DT_RELAENT 9 /* Size of one Rela reloc */
-#define DT_STRSZ 10 /* Size of string table */
-#define DT_SYMENT 11 /* Size of one symbol table entry */
-#define DT_INIT 12 /* Address of init function */
-#define DT_FINI 13 /* Address of termination function */
-#define DT_SONAME 14 /* Name of shared object */
-#define DT_RPATH 15 /* Library search path (deprecated) */
-#define DT_SYMBOLIC 16 /* Start symbol search here */
-#define DT_REL 17 /* Address of Rel relocs */
-#define DT_RELSZ 18 /* Total size of Rel relocs */
-#define DT_RELENT 19 /* Size of one Rel reloc */
-#define DT_PLTREL 20 /* Type of reloc in PLT */
-#define DT_DEBUG 21 /* For debugging; unspecified */
-#define DT_TEXTREL 22 /* Reloc might modify .text */
-#define DT_JMPREL 23 /* Address of PLT relocs */
-#define DT_BIND_NOW 24 /* Process relocations of object */
-#define DT_INIT_ARRAY 25 /* Array with addresses of init fct */
-#define DT_FINI_ARRAY 26 /* Array with addresses of fini fct */
-#define DT_INIT_ARRAYSZ 27 /* Size in bytes of DT_INIT_ARRAY */
-#define DT_FINI_ARRAYSZ 28 /* Size in bytes of DT_FINI_ARRAY */
-#define DT_RUNPATH 29 /* Library search path */
-#define DT_FLAGS 30 /* Flags for the object being loaded */
-#define DT_ENCODING 32 /* Start of encoded range */
-#define DT_PREINIT_ARRAY 32 /* Array with addresses of preinit fct*/
-#define DT_PREINIT_ARRAYSZ 33 /* size in bytes of DT_PREINIT_ARRAY */
-#define DT_NUM 34 /* Number used */
-#define DT_LOOS 0x6000000d /* Start of OS-specific */
-#define DT_HIOS 0x6ffff000 /* End of OS-specific */
-#define DT_LOPROC 0x70000000 /* Start of processor-specific */
-#define DT_HIPROC 0x7fffffff /* End of processor-specific */
-#define DT_PROCNUM 0x32 /* Most used by any processor */
-
-/* DT_* entries which fall between DT_VALRNGHI & DT_VALRNGLO use the
- Dyn.d_un.d_val field of the Elf*_Dyn structure. This follows Sun's
- approach. */
-#define DT_VALRNGLO 0x6ffffd00
-#define DT_GNU_PRELINKED 0x6ffffdf5 /* Prelinking timestamp */
-#define DT_GNU_CONFLICTSZ 0x6ffffdf6 /* Size of conflict section */
-#define DT_GNU_LIBLISTSZ 0x6ffffdf7 /* Size of library list */
-#define DT_CHECKSUM 0x6ffffdf8
-#define DT_PLTPADSZ 0x6ffffdf9
-#define DT_MOVEENT 0x6ffffdfa
-#define DT_MOVESZ 0x6ffffdfb
-#define DT_FEATURE_1 0x6ffffdfc /* Feature selection (DTF_*). */
-#define DT_POSFLAG_1 0x6ffffdfd /* Flags for DT_* entries, effecting
- the following DT_* entry. */
-#define DT_SYMINSZ 0x6ffffdfe /* Size of syminfo table (in bytes) */
-#define DT_SYMINENT 0x6ffffdff /* Entry size of syminfo */
-#define DT_VALRNGHI 0x6ffffdff
-#define DT_VALTAGIDX(tag) (DT_VALRNGHI - (tag)) /* Reverse order! */
-#define DT_VALNUM 12
-
-/* DT_* entries which fall between DT_ADDRRNGHI & DT_ADDRRNGLO use the
- Dyn.d_un.d_ptr field of the Elf*_Dyn structure.
-
- If any adjustment is made to the ELF object after it has been
- built these entries will need to be adjusted. */
-#define DT_ADDRRNGLO 0x6ffffe00
-#define DT_GNU_CONFLICT 0x6ffffef8 /* Start of conflict section */
-#define DT_GNU_LIBLIST 0x6ffffef9 /* Library list */
-#define DT_CONFIG 0x6ffffefa /* Configuration information. */
-#define DT_DEPAUDIT 0x6ffffefb /* Dependency auditing. */
-#define DT_AUDIT 0x6ffffefc /* Object auditing. */
-#define DT_PLTPAD 0x6ffffefd /* PLT padding. */
-#define DT_MOVETAB 0x6ffffefe /* Move table. */
-#define DT_SYMINFO 0x6ffffeff /* Syminfo table. */
-#define DT_ADDRRNGHI 0x6ffffeff
-#define DT_ADDRTAGIDX(tag) (DT_ADDRRNGHI - (tag)) /* Reverse order! */
-#define DT_ADDRNUM 10
-
-/* The versioning entry types. The next are defined as part of the
- GNU extension. */
-#define DT_VERSYM 0x6ffffff0
-
-#define DT_RELACOUNT 0x6ffffff9
-#define DT_RELCOUNT 0x6ffffffa
-
-/* These were chosen by Sun. */
-#define DT_FLAGS_1 0x6ffffffb /* State flags, see DF_1_* below. */
-#define DT_VERDEF 0x6ffffffc /* Address of version definition
- table */
-#define DT_VERDEFNUM 0x6ffffffd /* Number of version definitions */
-#define DT_VERNEED 0x6ffffffe /* Address of table with needed
- versions */
-#define DT_VERNEEDNUM 0x6fffffff /* Number of needed versions */
-#define DT_VERSIONTAGIDX(tag) (DT_VERNEEDNUM - (tag)) /* Reverse order! */
-#define DT_VERSIONTAGNUM 16
-
-/* Sun added these machine-independent extensions in the "processor-specific"
- range. Be compatible. */
-#define DT_AUXILIARY 0x7ffffffd /* Shared object to load before self */
-#define DT_FILTER 0x7fffffff /* Shared object to get values from */
-#define DT_EXTRATAGIDX(tag) ((Elf32_Word)-((Elf32_Sword) (tag) <<1>>1)-1)
-#define DT_EXTRANUM 3
-
-/* Values of `d_un.d_val' in the DT_FLAGS entry. */
-#define DF_ORIGIN 0x00000001 /* Object may use DF_ORIGIN */
-#define DF_SYMBOLIC 0x00000002 /* Symbol resolutions starts here */
-#define DF_TEXTREL 0x00000004 /* Object contains text relocations */
-#define DF_BIND_NOW 0x00000008 /* No lazy binding for this object */
-#define DF_STATIC_TLS 0x00000010 /* Module uses the static TLS model */
-
-/* State flags selectable in the `d_un.d_val' element of the DT_FLAGS_1
- entry in the dynamic section. */
-#define DF_1_NOW 0x00000001 /* Set RTLD_NOW for this object. */
-#define DF_1_GLOBAL 0x00000002 /* Set RTLD_GLOBAL for this object. */
-#define DF_1_GROUP 0x00000004 /* Set RTLD_GROUP for this object. */
-#define DF_1_NODELETE 0x00000008 /* Set RTLD_NODELETE for this object.*/
-#define DF_1_LOADFLTR 0x00000010 /* Trigger filtee loading at runtime.*/
-#define DF_1_INITFIRST 0x00000020 /* Set RTLD_INITFIRST for this object*/
-#define DF_1_NOOPEN 0x00000040 /* Set RTLD_NOOPEN for this object. */
-#define DF_1_ORIGIN 0x00000080 /* $ORIGIN must be handled. */
-#define DF_1_DIRECT 0x00000100 /* Direct binding enabled. */
-#define DF_1_TRANS 0x00000200
-#define DF_1_INTERPOSE 0x00000400 /* Object is used to interpose. */
-#define DF_1_NODEFLIB 0x00000800 /* Ignore default lib search path. */
-#define DF_1_NODUMP 0x00001000 /* Object can't be dldump'ed. */
-#define DF_1_CONFALT 0x00002000 /* Configuration alternative created.*/
-#define DF_1_ENDFILTEE 0x00004000 /* Filtee terminates filters search. */
-#define DF_1_DISPRELDNE 0x00008000 /* Disp reloc applied at build time. */
-#define DF_1_DISPRELPND 0x00010000 /* Disp reloc applied at run-time. */
-
-/* Flags for the feature selection in DT_FEATURE_1. */
-#define DTF_1_PARINIT 0x00000001
-#define DTF_1_CONFEXP 0x00000002
-
-/* Flags in the DT_POSFLAG_1 entry effecting only the next DT_* entry. */
-#define DF_P1_LAZYLOAD 0x00000001 /* Lazyload following object. */
-#define DF_P1_GROUPPERM 0x00000002 /* Symbols from next object are not
- generally available. */
-
-/* Special section indices. */
-
-#define SHN_UNDEF 0 /* Undefined section */
-#define SHN_LORESERVE 0xff00 /* Start of reserved indices */
-#define SHN_LOPROC 0xff00 /* Start of processor-specific */
-#define SHN_HIPROC 0xff1f /* End of processor-specific */
-#define SHN_LOOS 0xff20 /* Start of OS-specific */
-#define SHN_HIOS 0xff3f /* End of OS-specific */
-#define SHN_ABS 0xfff1 /* Associated symbol is absolute */
-#define SHN_COMMON 0xfff2 /* Associated symbol is common */
-#define SHN_XINDEX 0xffff /* Index is in extra table. */
-#define SHN_HIRESERVE 0xffff /* End of reserved indices */
-
-/* Legal values for sh_type (section type). */
-
-#define SHT_NULL 0 /* Section header table entry unused */
-#define SHT_PROGBITS 1 /* Program data */
-#define SHT_SYMTAB 2 /* Symbol table */
-#define SHT_STRTAB 3 /* String table */
-#define SHT_RELA 4 /* Relocation entries with addends */
-#define SHT_HASH 5 /* Symbol hash table */
-#define SHT_DYNAMIC 6 /* Dynamic linking information */
-#define SHT_NOTE 7 /* Notes */
-#define SHT_NOBITS 8 /* Program space with no data (bss) */
-#define SHT_REL 9 /* Relocation entries, no addends */
-#define SHT_SHLIB 10 /* Reserved */
-#define SHT_DYNSYM 11 /* Dynamic linker symbol table */
-#define SHT_INIT_ARRAY 14 /* Array of constructors */
-#define SHT_FINI_ARRAY 15 /* Array of destructors */
-#define SHT_PREINIT_ARRAY 16 /* Array of pre-constructors */
-#define SHT_GROUP 17 /* Section group */
-#define SHT_SYMTAB_SHNDX 18 /* Extended section indeces */
-#define SHT_NUM 19 /* Number of defined types. */
-#define SHT_LOOS 0x60000000 /* Start OS-specific */
-#define SHT_GNU_LIBLIST 0x6ffffff7 /* Prelink library list */
-#define SHT_CHECKSUM 0x6ffffff8 /* Checksum for DSO content. */
-#define SHT_LOSUNW 0x6ffffffa /* Sun-specific low bound. */
-#define SHT_SUNW_move 0x6ffffffa
-#define SHT_SUNW_COMDAT 0x6ffffffb
-#define SHT_SUNW_syminfo 0x6ffffffc
-#define SHT_GNU_verdef 0x6ffffffd /* Version definition section. */
-#define SHT_GNU_verneed 0x6ffffffe /* Version needs section. */
-#define SHT_GNU_versym 0x6fffffff /* Version symbol table. */
-#define SHT_HISUNW 0x6fffffff /* Sun-specific high bound. */
-#define SHT_HIOS 0x6fffffff /* End OS-specific type */
-#define SHT_LOPROC 0x70000000 /* Start of processor-specific */
-#define SHT_HIPROC 0x7fffffff /* End of processor-specific */
-#define SHT_LOUSER 0x80000000 /* Start of application-specific */
-#define SHT_HIUSER 0x8fffffff /* End of application-specific */
-
-/* Legal values for sh_flags (section flags). */
-
-#define SHF_WRITE (1 << 0) /* Writable */
-#define SHF_ALLOC (1 << 1) /* Occupies memory during execution */
-#define SHF_EXECINSTR (1 << 2) /* Executable */
-#define SHF_MERGE (1 << 4) /* Might be merged */
-#define SHF_STRINGS (1 << 5) /* Contains nul-terminated strings */
-#define SHF_INFO_LINK (1 << 6) /* `sh_info' contains SHT index */
-#define SHF_LINK_ORDER (1 << 7) /* Preserve order after combining */
-#define SHF_OS_NONCONFORMING (1 << 8) /* Non-standard OS specific handling
- required */
-#define SHF_GROUP (1 << 9) /* Section is member of a group. */
-#define SHF_TLS (1 << 10) /* Section hold thread-local data. */
-#define SHF_MASKOS 0x0ff00000 /* OS-specific. */
-#define SHF_MASKPROC 0xf0000000 /* Processor-specific */
-
-/* Section group handling. */
-#define GRP_COMDAT 0x1 /* Mark group as COMDAT. */
-
-/* Symbol table entry. */
-
-typedef struct
-{
- Elf32_Word st_name; /* Symbol name (string tbl index) */
- Elf32_Addr st_value; /* Symbol value */
- Elf32_Word st_size; /* Symbol size */
- unsigned char st_info; /* Symbol type and binding */
- unsigned char st_other; /* Symbol visibility */
- Elf32_Section st_shndx; /* Section index */
-} Elf32_Sym;
-
-typedef struct
-{
- Elf64_Word st_name; /* Symbol name (string tbl index) */
- unsigned char st_info; /* Symbol type and binding */
- unsigned char st_other; /* Symbol visibility */
- Elf64_Section st_shndx; /* Section index */
- Elf64_Addr st_value; /* Symbol value */
- Elf64_Xword st_size; /* Symbol size */
-} Elf64_Sym;
-
-/* Relocation table entry without addend (in section of type SHT_REL). */
-
-typedef struct
-{
- Elf32_Addr r_offset; /* Address */
- Elf32_Word r_info; /* Relocation type and symbol index */
-} Elf32_Rel;
-
-/* I have seen two different definitions of the Elf64_Rel and
- Elf64_Rela structures, so we'll leave them out until Novell (or
- whoever) gets their act together. */
-/* The following, at least, is used on Sparc v9, MIPS, and Alpha. */
-
-typedef struct
-{
- Elf64_Addr r_offset; /* Address */
- Elf64_Xword r_info; /* Relocation type and symbol index */
-} Elf64_Rel;
-
-/* Relocation table entry with addend (in section of type SHT_RELA). */
-
-typedef struct
-{
- Elf32_Addr r_offset; /* Address */
- Elf32_Word r_info; /* Relocation type and symbol index */
- Elf32_Sword r_addend; /* Addend */
-} Elf32_Rela;
-
-typedef struct
-{
- Elf64_Addr r_offset; /* Address */
- Elf64_Xword r_info; /* Relocation type and symbol index */
- Elf64_Sxword r_addend; /* Addend */
-} Elf64_Rela;
-
-/* How to extract and insert information held in the r_info field. */
-
-#define ELF32_R_SYM(val) ((val) >> 8)
-#define ELF32_R_TYPE(val) ((val) & 0xff)
-#define ELF32_R_INFO(sym, type) (((sym) << 8) + ((type) & 0xff))
-
-#define ELF64_R_SYM(i) ((i) >> 32)
-#define ELF64_R_TYPE(i) ((i) & 0xffffffff)
-#define ELF64_R_INFO(sym,type) ((((Elf64_Xword) (sym)) << 32) + (type))
-
-
-/* Intel 80386 specific definitions. */
-
-/* i386 relocs. */
-
-#define R_386_NONE 0 /* No reloc */
-#define R_386_32 1 /* Direct 32 bit */
-#define R_386_PC32 2 /* PC relative 32 bit */
-#define R_386_GOT32 3 /* 32 bit GOT entry */
-#define R_386_PLT32 4 /* 32 bit PLT address */
-#define R_386_COPY 5 /* Copy symbol at runtime */
-#define R_386_GLOB_DAT 6 /* Create GOT entry */
-#define R_386_JMP_SLOT 7 /* Create PLT entry */
-#define R_386_RELATIVE 8 /* Adjust by program base */
-#define R_386_GOTOFF 9 /* 32 bit offset to GOT */
-#define R_386_GOTPC 10 /* 32 bit PC relative offset to GOT */
-#define R_386_32PLT 11
-#define R_386_TLS_TPOFF 14 /* Offset in static TLS block */
-#define R_386_TLS_IE 15 /* Address of GOT entry for static TLS
- block offset */
-#define R_386_TLS_GOTIE 16 /* GOT entry for static TLS block
- offset */
-#define R_386_TLS_LE 17 /* Offset relative to static TLS
- block */
-#define R_386_TLS_GD 18 /* Direct 32 bit for GNU version of
- general dynamic thread local data */
-#define R_386_TLS_LDM 19 /* Direct 32 bit for GNU version of
- local dynamic thread local data
- in LE code */
-#define R_386_16 20
-#define R_386_PC16 21
-#define R_386_8 22
-#define R_386_PC8 23
-#define R_386_TLS_GD_32 24 /* Direct 32 bit for general dynamic
- thread local data */
-#define R_386_TLS_GD_PUSH 25 /* Tag for pushl in GD TLS code */
-#define R_386_TLS_GD_CALL 26 /* Relocation for call to
- __tls_get_addr() */
-#define R_386_TLS_GD_POP 27 /* Tag for popl in GD TLS code */
-#define R_386_TLS_LDM_32 28 /* Direct 32 bit for local dynamic
- thread local data in LE code */
-#define R_386_TLS_LDM_PUSH 29 /* Tag for pushl in LDM TLS code */
-#define R_386_TLS_LDM_CALL 30 /* Relocation for call to
- __tls_get_addr() in LDM code */
-#define R_386_TLS_LDM_POP 31 /* Tag for popl in LDM TLS code */
-#define R_386_TLS_LDO_32 32 /* Offset relative to TLS block */
-#define R_386_TLS_IE_32 33 /* GOT entry for negated static TLS
- block offset */
-#define R_386_TLS_LE_32 34 /* Negated offset relative to static
- TLS block */
-#define R_386_TLS_DTPMOD32 35 /* ID of module containing symbol */
-#define R_386_TLS_DTPOFF32 36 /* Offset in TLS block */
-#define R_386_TLS_TPOFF32 37 /* Negated offset in static TLS block */
-/* Keep this the last entry. */
-#define R_386_NUM 38
-
-#endif /* ASSEMBLY */
-
-#endif /* ELF_H */
diff --git a/memtest86+_old/error.c b/memtest86+_old/error.c
deleted file mode 100644
index 4b4f1f0..0000000
--- a/memtest86+_old/error.c
+++ /dev/null
@@ -1,629 +0,0 @@
-/* error.c - MemTest-86 Version 4.1
- *
- * Released under version 2 of the Gnu Public License.
- * By Chris Brady
- */
-#include "stddef.h"
-#include "stdint.h"
-#include "test.h"
-#include "config.h"
-#include "cpuid.h"
-#include "smp.h"
-#include "dmi.h"
-#include "controller.h"
-
-extern int dmi_err_cnts[MAX_DMI_MEMDEVS];
-extern int beepmode;
-extern short dmi_initialized;
-extern struct cpu_ident cpu_id;
-extern struct barrier_s *barr;
-extern int test_ticks, nticks;
-extern struct tseq tseq[];
-extern volatile int test;
-void poll_errors();
-extern int num_cpus;
-
-static void update_err_counts(void);
-static void print_err_counts(void);
-static void common_err();
-static int syn, chan, len=1;
-
-static void paint_line(int msg_line, unsigned vga_color) {
- if (msg_line < 24) {
- char* pp;
- int i;
- for(i=0, pp=(char *)((SCREEN_ADR+msg_line*160+1));
- i<76; i++, pp+=2) {
- *pp = vga_color;
- }
- }
-}
-
-/*
- * Report an assertion failure. This is typically NOT a memory error.
- */
-void assert_fail(const char* file, int line_no) {
- spin_lock(&barr->mutex);
-
- scroll();
- cprint(vv->msg_line, 0, " *** INTERNAL ERROR *** line ");
- dprint(vv->msg_line, 31, line_no, 5, 1);
- cprint(vv->msg_line, 37, file);
- paint_line(vv->msg_line, 0x0E /* yellow on black */);
-
- spin_unlock(&barr->mutex);
-
- // Ensure the message remains visible for a while
- // before it scrolls away. Assert-fails should be rare
- // and may indicate that subsequent result aren't valid.
- sleep(60, 0, 0, 0);
-}
-
-/*
- * Display data error message. Don't display duplicate errors.
- */
-void mt86_error(ulong *adr, ulong good, ulong bad)
-{
- ulong xor;
-
- spin_lock(&barr->mutex);
-
- xor = good ^ bad;
-
-#ifdef USB_WAR
- /* Skip any errors that appear to be due to the BIOS using location
- * 0x4e0 for USB keyboard support. This often happens with Intel
- * 810, 815 and 820 chipsets. It is possible that we will skip
- * a real error but the odds are very low.
- */
- if ((ulong)adr == 0x4e0 || (ulong)adr == 0x410) {
- return;
- }
-#endif
-
- common_err(adr, good, bad, xor, 0);
- spin_unlock(&barr->mutex);
-}
-
-/*
- * Display address error message.
- * Since this is strictly an address test, trying to create BadRAM
- * patterns does not make sense. Just report the error.
- */
-void ad_err1(ulong *adr1, ulong *mask, ulong bad, ulong good)
-{
- spin_lock(&barr->mutex);
- common_err(adr1, good, bad, (ulong)mask, 1);
- spin_unlock(&barr->mutex);
-}
-
-/*
- * Display address error message.
- * Since this type of address error can also report data errors go
- * ahead and generate BadRAM patterns.
- */
-void ad_err2(ulong *adr, ulong bad)
-{
- spin_lock(&barr->mutex);
- common_err(adr, (ulong)adr, bad, ((ulong)adr) ^ bad, 0);
- spin_unlock(&barr->mutex);
-}
-
-static void update_err_counts(void)
-{
- if (beepmode){
- beep(600);
- beep(1000);
- }
-
- if (vv->pass && vv->ecount == 0) {
- cprint(LINE_MSG, COL_MSG,
- " ");
- }
- ++(vv->ecount);
- tseq[test].errors++;
-}
-
-static void print_err_counts(void)
-{
- if ((vv->ecount > 4096) && (vv->ecount % 256 != 0)) return;
-
- dprint(LINE_INFO, 72, vv->ecount, 6, 0);
- /*
- dprint(LINE_INFO, 56, vv->ecc_ecount, 6, 0);
- */
-
- /* Paint the error messages on the screen red to provide a vivid */
- /* indicator that an error has occured */
- if ((vv->printmode == PRINTMODE_ADDRESSES ||
- vv->printmode == PRINTMODE_PATTERNS)) {
- paint_line(vv->msg_line, 0x47 /* gray-on-red */);
- }
-}
-
-/*
- * Print an individual error
- */
-void common_err( ulong *adr, ulong good, ulong bad, ulong xor, int type)
-{
- int i, j, n, x, flag=0;
- ulong page, offset;
- int patnchg;
- ulong mb;
-
- update_err_counts();
-
- switch(vv->printmode) {
- case PRINTMODE_SUMMARY:
- /* Don't do anything for a parity error. */
- if (type == 3) {
- return;
- }
-
- /* Address error */
- if (type == 1) {
- xor = good ^ bad;
- }
-
- /* Ecc correctable errors */
- if (type == 2) {
- /* the bad value is the corrected flag */
- if (bad) {
- vv->erri.cor_err++;
- }
- page = (ulong)adr;
- offset = good;
- } else {
- page = page_of(adr);
- offset = (ulong)adr & 0xFFF;
- }
-
- /* Calc upper and lower error addresses */
- if (vv->erri.low_addr.page > page) {
- vv->erri.low_addr.page = page;
- vv->erri.low_addr.offset = offset;
- flag++;
- } else if (vv->erri.low_addr.page == page &&
- vv->erri.low_addr.offset > offset) {
- vv->erri.low_addr.offset = offset;
- vv->erri.high_addr.offset = offset;
- flag++;
- } else if (vv->erri.high_addr.page < page) {
- vv->erri.high_addr.page = page;
- flag++;
- }
- if (vv->erri.high_addr.page == page &&
- vv->erri.high_addr.offset < offset) {
- vv->erri.high_addr.offset = offset;
- flag++;
- }
-
- /* Calc bits in error */
- for (i=0, n=0; i<32; i++) {
- if (xor>>i & 1) {
- n++;
- }
- }
- vv->erri.tbits += n;
- if (n > vv->erri.max_bits) {
- vv->erri.max_bits = n;
- flag++;
- }
- if (n < vv->erri.min_bits) {
- vv->erri.min_bits = n;
- flag++;
- }
- if (vv->erri.ebits ^ xor) {
- flag++;
- }
- vv->erri.ebits |= xor;
-
- /* Calc max contig errors */
- len = 1;
- if ((ulong)adr == (ulong)vv->erri.eadr+4 ||
- (ulong)adr == (ulong)vv->erri.eadr-4 ) {
- len++;
- }
- if (len > vv->erri.maxl) {
- vv->erri.maxl = len;
- flag++;
- }
- vv->erri.eadr = (ulong)adr;
-
- if (vv->erri.hdr_flag == 0) {
- clear_scroll();
- cprint(LINE_HEADER+0, 1, "Error Confidence Value:");
- cprint(LINE_HEADER+1, 1, " Lowest Error Address:");
- cprint(LINE_HEADER+2, 1, " Highest Error Address:");
- cprint(LINE_HEADER+3, 1, " Bits in Error Mask:");
- cprint(LINE_HEADER+4, 1, " Bits in Error - Total:");
- cprint(LINE_HEADER+4, 29, "Min: Max: Avg:");
- cprint(LINE_HEADER+5, 1, " Max Contiguous Errors:");
- x = 24;
- if (dmi_initialized) {
- for ( i=0; i < MAX_DMI_MEMDEVS;){
- n = LINE_HEADER+7;
- for (j=0; j<4; j++) {
- if (dmi_err_cnts[i] >= 0) {
- dprint(n, x, i, 2, 0);
- cprint(n, x+2, ": 0");
- }
- i++;
- n++;
- }
- x += 10;
- }
- }
-
- cprint(LINE_HEADER+0, 64, "Test Errors");
- vv->erri.hdr_flag++;
- }
- if (flag) {
- /* Calc bits in error */
- for (i=0, n=0; i<32; i++) {
- if (vv->erri.ebits>>i & 1) {
- n++;
- }
- }
- page = vv->erri.low_addr.page;
- offset = vv->erri.low_addr.offset;
- mb = page >> 8;
- hprint(LINE_HEADER+1, 25, page);
- hprint2(LINE_HEADER+1, 33, offset, 3);
- cprint(LINE_HEADER+1, 36, " - . MB");
- dprint(LINE_HEADER+1, 39, mb, 5, 0);
- dprint(LINE_HEADER+1, 45, ((page & 0xF)*10)/16, 1, 0);
- page = vv->erri.high_addr.page;
- offset = vv->erri.high_addr.offset;
- mb = page >> 8;
- hprint(LINE_HEADER+2, 25, page);
- hprint2(LINE_HEADER+2, 33, offset, 3);
- cprint(LINE_HEADER+2, 36, " - . MB");
- dprint(LINE_HEADER+2, 39, mb, 5, 0);
- dprint(LINE_HEADER+2, 45, ((page & 0xF)*10)/16, 1, 0);
- hprint(LINE_HEADER+3, 25, vv->erri.ebits);
- dprint(LINE_HEADER+4, 25, n, 2, 1);
- dprint(LINE_HEADER+4, 34, vv->erri.min_bits, 2, 1);
- dprint(LINE_HEADER+4, 42, vv->erri.max_bits, 2, 1);
- dprint(LINE_HEADER+4, 50, vv->erri.tbits/vv->ecount, 2, 1);
- dprint(LINE_HEADER+5, 25, vv->erri.maxl, 7, 1);
- x = 28;
- for ( i=0; i < MAX_DMI_MEMDEVS;){
- n = LINE_HEADER+7;
- for (j=0; j<4; j++) {
- if (dmi_err_cnts[i] > 0) {
- dprint (n, x, dmi_err_cnts[i], 7, 1);
- }
- i++;
- n++;
- }
- x += 10;
- }
-
- for (i=0; tseq[i].msg != NULL; i++) {
- dprint(LINE_HEADER+1+i, 66, i, 2, 0);
- dprint(LINE_HEADER+1+i, 68, tseq[i].errors, 8, 0);
- }
- }
- if (vv->erri.cor_err) {
- dprint(LINE_HEADER+6, 25, vv->erri.cor_err, 8, 1);
- }
- break;
-
- case PRINTMODE_ADDRESSES:
- /* Don't display duplicate errors */
- if ((ulong)adr == (ulong)vv->erri.eadr &&
- xor == vv->erri.exor) {
- return;
- }
- if (vv->erri.hdr_flag == 0) {
- clear_scroll();
- cprint(LINE_HEADER, 0,
- "Tst Pass Failing Address Good Bad Err-Bits Count CPU");
- cprint(LINE_HEADER+1, 0,
- "--- ---- ----------------------- -------- -------- -------- ----- ----");
- vv->erri.hdr_flag++;
- }
- /* Check for keyboard input */
- check_input();
- scroll();
-
- if ( type == 2 || type == 3) {
- page = (ulong)adr;
- offset = good;
- } else {
- page = page_of(adr);
- offset = ((unsigned long)adr) & 0xFFF;
- }
- mb = page >> 8;
- dprint(vv->msg_line, 0, test+1, 3, 0);
- dprint(vv->msg_line, 4, vv->pass, 5, 0);
- hprint(vv->msg_line, 11, page);
- hprint2(vv->msg_line, 19, offset, 3);
- cprint(vv->msg_line, 22, " - . MB");
- dprint(vv->msg_line, 25, mb, 5, 0);
- dprint(vv->msg_line, 31, ((page & 0xF)*10)/16, 1, 0);
-
- if (type == 3) {
- /* ECC error */
- cprint(vv->msg_line, 36,
- bad?"corrected ": "uncorrected ");
- hprint2(vv->msg_line, 60, syn, 4);
- cprint(vv->msg_line, 68, "ECC");
- dprint(vv->msg_line, 74, chan, 2, 0);
- } else if (type == 2) {
- cprint(vv->msg_line, 36, "Parity error detected ");
- } else {
- hprint(vv->msg_line, 36, good);
- hprint(vv->msg_line, 46, bad);
- hprint(vv->msg_line, 56, xor);
- dprint(vv->msg_line, 66, vv->ecount, 5, 0);
- dprint(vv->msg_line, 74, smp_my_cpu_num(), 2,1);
- vv->erri.exor = xor;
- }
- vv->erri.eadr = (ulong)adr;
- print_err_counts();
- break;
-
- case PRINTMODE_PATTERNS:
- if (vv->erri.hdr_flag == 0) {
- clear_scroll();
- vv->erri.hdr_flag++;
- }
- /* Do not do badram patterns from test 0 or 5 */
- if (test == 0 || test == 5) {
- return;
- }
- /* Only do patterns for data errors */
- if ( type != 0) {
- return;
- }
- /* Process the address in the pattern administration */
- patnchg=insertaddress ((ulong) adr);
- if (patnchg) {
- printpatn();
- }
- break;
-
- case PRINTMODE_NONE:
- if (vv->erri.hdr_flag == 0) {
- clear_scroll();
- vv->erri.hdr_flag++;
- }
- break;
- }
-}
-
-/*
- * Print an ecc error
- */
-void print_ecc_err(unsigned long page, unsigned long offset,
- int corrected, unsigned short syndrome, int channel)
-{
- ++(vv->ecc_ecount);
- syn = syndrome;
- chan = channel;
- common_err((ulong *)page, offset, corrected, 0, 2);
-}
-
-#ifdef PARITY_MEM
-/*
- * Print a parity error message
- */
-void parity_err( unsigned long edi, unsigned long esi)
-{
- unsigned long addr;
-
- if (test == 5) {
- addr = esi;
- } else {
- addr = edi;
- }
- common_err((ulong *)addr, addr & 0xFFF, 0, 0, 3);
-}
-#endif
-
-/*
- * Print the pattern array as a LILO boot option addressing BadRAM support.
- */
-void printpatn (void)
-{
- int idx=0;
- int x;
-
- /* Check for keyboard input */
- check_input();
-
- if (vv->numpatn == 0)
- return;
-
- scroll();
-
- cprint (vv->msg_line, 0, "badram=");
- x=7;
-
- for (idx = 0; idx < vv->numpatn; idx++) {
-
- if (x > 80-22) {
- scroll();
- x=7;
- }
- cprint (vv->msg_line, x, "0x");
- hprint (vv->msg_line, x+2, vv->patn[idx].adr );
- cprint (vv->msg_line, x+10, ",0x");
- hprint (vv->msg_line, x+13, vv->patn[idx].mask);
- if (idx+1 < vv->numpatn)
- cprint (vv->msg_line, x+21, ",");
- x+=22;
- }
-}
-
-/*
- * Show progress by displaying elapsed time and update bar graphs
- */
-short spin_idx[MAX_CPUS];
-char spin[4] = {'|','/','-','\\'};
-
-void do_tick(int me)
-{
- int i, j, pct;
- ulong h, l, n, t;
- extern int mstr_cpu;
-
- if (++spin_idx[me] > 3) {
- spin_idx[me] = 0;
- }
- cplace(8, me+7, spin[spin_idx[me]]);
-
-
- /* Check for keyboard input */
- if (me == mstr_cpu) {
- check_input();
- }
- /* A barrier here holds the other CPUs until the configuration
- * changes are done */
- s_barrier();
-
- /* Only the first selected CPU does the update */
- if (me != mstr_cpu) {
- return;
- }
-
- /* FIXME only print serial error messages from the tick handler */
- if (vv->ecount) {
- print_err_counts();
- }
-
- nticks++;
- vv->total_ticks++;
-
- if (test_ticks) {
- pct = 100*nticks/test_ticks;
- if (pct > 100) {
- pct = 100;
- }
- } else {
- pct = 0;
- }
- dprint(2, COL_MID+4, pct, 3, 0);
- i = (BAR_SIZE * pct) / 100;
- while (i > vv->tptr) {
- if (vv->tptr >= BAR_SIZE) {
- break;
- }
- cprint(2, COL_MID+9+vv->tptr, "#");
- vv->tptr++;
- }
-
- if (vv->pass_ticks) {
- pct = 100*vv->total_ticks/vv->pass_ticks;
- if (pct > 100) {
- pct = 100;
- }
- } else {
- pct = 0;
- }
- dprint(1, COL_MID+4, pct, 3, 0);
- i = (BAR_SIZE * pct) / 100;
- while (i > vv->pptr) {
- if (vv->pptr >= BAR_SIZE) {
- break;
- }
- cprint(1, COL_MID+9+vv->pptr, "#");
- vv->pptr++;
- }
-
- if (vv->ecount && vv->printmode == PRINTMODE_SUMMARY) {
- /* Compute confidence score */
- pct = 0;
-
- /* If there are no errors within 1mb of start - end addresses */
- h = vv->pmap[vv->msegs - 1].end - 0x100;
- if (vv->erri.low_addr.page > 0x100 &&
- vv->erri.high_addr.page < h) {
- pct += 8;
- }
-
- /* Errors for only some tests */
- if (vv->pass) {
- for (i=0, n=0; tseq[i].msg != NULL; i++) {
- if (tseq[i].errors == 0) {
- n++;
- }
- }
- pct += n*3;
- } else {
- for (i=0, n=0; i<test; i++) {
- if (tseq[i].errors == 0) {
- n++;
- }
- }
- pct += n*2;
-
- }
-
- /* Only some bits in error */
- n = 0;
- if (vv->erri.ebits & 0xf) n++;
- if (vv->erri.ebits & 0xf0) n++;
- if (vv->erri.ebits & 0xf00) n++;
- if (vv->erri.ebits & 0xf000) n++;
- if (vv->erri.ebits & 0xf0000) n++;
- if (vv->erri.ebits & 0xf00000) n++;
- if (vv->erri.ebits & 0xf000000) n++;
- if (vv->erri.ebits & 0xf0000000) n++;
- pct += (8-n)*2;
-
- /* Adjust the score */
- pct = pct*100/22;
- /*
- if (pct > 100) {
- pct = 100;
- }
- */
- dprint(LINE_HEADER+0, 25, pct, 3, 1);
- }
-
-
- /* We can't do the elapsed time unless the rdtsc instruction
- * is supported
- */
- if (cpu_id.fid.bits.rdtsc) {
- asm __volatile__(
- "rdtsc":"=a" (l),"=d" (h));
- asm __volatile__ (
- "subl %2,%0\n\t"
- "sbbl %3,%1"
- :"=a" (l), "=d" (h)
- :"g" (vv->startl), "g" (vv->starth),
- "0" (l), "1" (h));
- t = h * ((unsigned)0xffffffff / vv->clks_msec) / 1000;
- t += (l / vv->clks_msec) / 1000;
- i = t % 60;
- j = i % 10;
-
- if(j != vv->each_sec)
- {
-
- dprint(LINE_TIME, COL_TIME+9, i % 10, 1, 0);
- dprint(LINE_TIME, COL_TIME+8, i / 10, 1, 0);
- t /= 60;
- i = t % 60;
- dprint(LINE_TIME, COL_TIME+6, i % 10, 1, 0);
- dprint(LINE_TIME, COL_TIME+5, i / 10, 1, 0);
- t /= 60;
- dprint(LINE_TIME, COL_TIME, t, 4, 0);
-
- if(vv->check_temp > 0 && !(vv->fail_safe & 4))
- {
- coretemp();
- }
- vv->each_sec = j;
- }
- }
-
- /* Poll for ECC errors */
- /*
- poll_errors();
- */
-}
diff --git a/memtest86+_old/extra.c b/memtest86+_old/extra.c
deleted file mode 100644
index ff580f2..0000000
--- a/memtest86+_old/extra.c
+++ /dev/null
@@ -1,981 +0,0 @@
-// This is the extra stuff added to the memtest+ from memtest.org
-// Code from Eric Nelson and Wee
-// (Checked without vendor-specific optimization before adding)
-/* extra.c -
- *
- * Released under version 2 of the Gnu Public License.
- *
- */
-
-#include "test.h"
-#include "screen_buffer.h"
-#include "pci.h"
-#include "extra.h"
-
-static int ctrl = -1;
-
-struct memory_controller {
- unsigned vendor;
- unsigned device;
- int worked;
- void (*change_timing)(int cas, int rcd, int rp, int ras);
-};
-
-static struct memory_controller mem_ctr[] = {
-
- /* AMD 64*/
- { 0x1022, 0x1100, 1, change_timing_amd64}, //AMD64 hypertransport link
-
- /* nVidia */
- { 0x10de, 0x01E0, 0, change_timing_nf2}, // nforce2
-
- /* Intel */
- { 0x8086, 0x2570, 0, change_timing_i875}, //Intel i848/i865
- { 0x8086, 0x2578, 0, change_timing_i875}, //Intel i875P
- { 0x8086, 0x2580, 0, change_timing_i925}, //Intel i915P/G
- { 0x8086, 0x2584, 0, change_timing_i925}, //Intel i925X
- { 0x8086, 0x2770, 0, change_timing_i925}, //Intel Lakeport
- { 0x8086, 0x3580, 0, change_timing_i852}, //Intel i852GM - i855GM/GME (But not i855PM)
-};
-
-struct drc {
- unsigned t_rwt;
- unsigned t_wrt;
- unsigned t_ref;
- unsigned t_en2t;
- unsigned t_rwqb;
- unsigned t_rct;
- unsigned t_rrd;
- unsigned t_wr;
-};
-
-static struct drc a64;
-
-void find_memctr(void) // Basically copy from the find_controller function
-{
- unsigned long vendor;
- unsigned long device;
- unsigned long a64;
- int i= 0;
- int result;
-
- result = pci_conf_read(0, 0, 0, PCI_VENDOR_ID, 2, &vendor);
- result = pci_conf_read(0, 0, 0, PCI_DEVICE_ID, 2, &device);
-
- pci_conf_read(0, 24, 0, 0x00, 4, &a64);
-
- if( a64 == 0x11001022) {
- ctrl = 0;
- return;
- }
-
- if (result == 0) {
- for(i = 1; i < sizeof(mem_ctr)/sizeof(mem_ctr[0]); i++) {
- if ((mem_ctr[i].vendor == vendor) &&
- (mem_ctr[i].device == device))
- {
- ctrl = i;
- return;
- }
- }
- }
- ctrl = -1;
-}
-
-void a64_parameter(void)
-{
-
- ulong dramtlr;
-
- if ( 0 == pci_conf_read(0, 24, 2, 0x88, 4, &dramtlr) )
- {
- a64.t_rct = 7 + ((dramtlr>>4) & 0x0F);
- a64.t_rrd = 0 + ((dramtlr>>16) & 0x7);
- a64.t_wr = 2 + ((dramtlr>>28) & 0x1);
- }
-
- if ( 0 == pci_conf_read(0, 24, 2, 0x8C, 4, &dramtlr) )
- {
- a64.t_rwt = 1 + ((dramtlr>>4) & 0x07);
- a64.t_wrt = 1 + (dramtlr & 0x1);
- a64.t_ref = 1 + ((dramtlr>>11) & 0x3);
- }
-
- if ( 0 == pci_conf_read(0, 24, 2, 0x90, 4, &dramtlr) )
- {
- a64.t_en2t = 1 + ((dramtlr>>28) & 0x1);
- a64.t_rwqb = 2 << ((dramtlr>>14) & 0x3);
- }
-}
-
-
-
-void change_timing(int cas, int rcd, int rp, int ras)
-{
- find_memctr();
- if ((ctrl == -1) || ( ctrl > sizeof(mem_ctr)/sizeof(mem_ctr[0])))
- {
- return;
- }
-
- mem_ctr[ctrl].change_timing(cas, rcd, rp, ras);
- restart();
-}
-
-void amd64_option()
-{
- int rwt=0, wrt=0, ref=0, en2t=0, rct=0, rrd=0, rwqb=0, wr = 0, flag=0;
-
- if ((ctrl == -1) || ( ctrl > sizeof(mem_ctr)/sizeof(mem_ctr[0])))
- {
- return;
- }
-
- if (mem_ctr[ctrl].worked)
- {
- a64_parameter();
- cprint(POP_Y+1, POP_X+4, "AMD64 options");
-
- cprint(POP_Y+3, POP_X+4, "(1) Rd-Wr Delay : ");
- dprint(POP_Y+3, POP_X+24, a64.t_rwt, 2, 0);
-
- cprint(POP_Y+4, POP_X+4, "(2) Wr-Rd Delay : ");
- dprint(POP_Y+4, POP_X+24, a64.t_wrt, 2, 0);
-
- cprint(POP_Y+5, POP_X+4, "(3) Rd/Wr Bypass : ");
- dprint(POP_Y+5, POP_X+24, a64.t_rwqb, 2, 0);
-
- cprint(POP_Y+6, POP_X+4, "(4) Refresh Rate : ");
- switch ( a64.t_ref)
- {
- case 1 : cprint(POP_Y+6, POP_X+23, "15.6us"); break;
- case 2 : cprint(POP_Y+6, POP_X+23, " 7.8us"); break;
- case 3 : cprint(POP_Y+6, POP_X+23, " 3.9us"); break;
- }
- cprint(POP_Y+7, POP_X+4, "(5) Command Rate :");
- dprint(POP_Y+7, POP_X+24, a64.t_en2t, 2, 0);
- cprint(POP_Y+7, POP_X+26, "T ");
-
- cprint(POP_Y+8, POP_X+4, "(6) Row Cycle Time: ");
- dprint(POP_Y+8, POP_X+24, a64.t_rct, 2, 0);
-
- cprint(POP_Y+9, POP_X+4, "(7) RAS-RAS Delay : ");
- dprint(POP_Y+9, POP_X+24, a64.t_rrd, 2, 0);
-
- cprint(POP_Y+10, POP_X+4, "(8) Write Recovery: ");
- dprint(POP_Y+10, POP_X+24, a64.t_wr, 2, 0);
-
- cprint(POP_Y+11, POP_X+4,"(0) Cancel ");
-
- while(!flag)
- {
- switch(get_key())
- {
- case 2:
- popclear();
- // read-to-write delay
- cprint(POP_Y+3, POP_X+4, "Rd-Wr delay ");
- cprint(POP_Y+4, POP_X+4, " (2 - 6 cycles)");
- cprint(POP_Y+5, POP_X+4, "Current: ");
- dprint(POP_Y+5, POP_X+14, a64.t_rwt, 4, 0);
- cprint(POP_Y+7, POP_X+4, "New: ");
- rwt = getval(POP_Y+7, POP_X+12, 0);
- amd64_tweak(rwt, wrt, ref,en2t, rct, rrd, rwqb, wr);
- break;
-
- case 3:
- popclear();
- // read-to-write delay
- cprint(POP_Y+3, POP_X+4, "Wr-Rd delay ");
- cprint(POP_Y+4, POP_X+4, " (1 - 2 cycles)");
- cprint(POP_Y+5, POP_X+4, "Current: ");
- dprint(POP_Y+5, POP_X+14, a64.t_wrt, 4, 0);
- cprint(POP_Y+7, POP_X+4, "New: ");
- wrt = getval(POP_Y+7, POP_X+12, 0);
- amd64_tweak(rwt, wrt, ref,en2t, rct, rrd, rwqb, wr);
- break;
-
- case 4:
- popclear();
- // Read write queue bypass count
- cprint(POP_Y+3, POP_X+4, "Rd/Wr bypass ");
- cprint(POP_Y+4, POP_X+4, " (2, 4 or 8 )");
- cprint(POP_Y+5, POP_X+4, "Current: ");
- dprint(POP_Y+5, POP_X+14, a64.t_rwqb, 2, 0);
- cprint(POP_Y+7, POP_X+4, "New: ");
- rwqb = getval(POP_Y+7, POP_X+11, 0);
- amd64_tweak(rwt, wrt, ref,en2t, rct, rrd, rwqb, wr);
- break;
-
- case 5:
- popclear();
- // refresh rate
- cprint(POP_Y+3, POP_X+4, "Refresh rate ");
- cprint(POP_Y+4, POP_X+4, "Current: ");
- switch ( a64.t_ref){
- case 1 : cprint(POP_Y+4, POP_X+14, "15.6us"); break;
- case 2 : cprint(POP_Y+4, POP_X+14, "7.8us "); break;
- case 3 : cprint(POP_Y+4, POP_X+14, "3.9us "); break;
- }
- cprint(POP_Y+6, POP_X+4, "New: ");
- cprint(POP_Y+7, POP_X+4, "(1) 15.6us");
- cprint(POP_Y+8, POP_X+4, "(2) 7.8us ");
- cprint(POP_Y+9, POP_X+4, "(3) 3.9us ");
- ref = getval(POP_Y+6, POP_X+11, 0);
- amd64_tweak(rwt, wrt, ref,en2t, rct, rrd, rwqb, wr);
- break;
-
- case 6:
- popclear();
- //Enable 2T command and addressing
- cprint(POP_Y+3, POP_X+4, "Command rate:");
- cprint(POP_Y+5, POP_X+4, "(1) 1T "); //only supoprted by CG revision and later
- cprint(POP_Y+6, POP_X+4, "(2) 2T ");
- en2t = getval(POP_Y+3, POP_X+22, 0);
- amd64_tweak(rwt, wrt, ref,en2t, rct, rrd, rwqb, wr);
- break;
-
- case 7:
- popclear();
- //Row cycle time
- cprint(POP_Y+3, POP_X+4, "Row cycle time: ");
- cprint(POP_Y+4, POP_X+4, " (7 - 20 cycles)");
- cprint(POP_Y+5, POP_X+4, "Current: ");
- dprint(POP_Y+5, POP_X+14, a64.t_rct, 4, 0);
- cprint(POP_Y+7, POP_X+4, "New: ");
- rct = getval(POP_Y+7, POP_X+12, 0);
- amd64_tweak(rwt, wrt, ref,en2t, rct, rrd, rwqb, wr);
- break;
-
- case 8:
- popclear();
- //Active-to-Active RAS Delay
- cprint(POP_Y+3, POP_X+4, "RAS-RAS Delay: ");
- cprint(POP_Y+4, POP_X+4, " (2 - 4 cycles)");
- cprint(POP_Y+5, POP_X+4, "Current: ");
- dprint(POP_Y+5, POP_X+14, a64.t_rrd, 2, 0);
- cprint(POP_Y+7, POP_X+4, "New: ");
- rrd = getval(POP_Y+7, POP_X+12, 0);
- amd64_tweak(rwt, wrt, ref,en2t, rct, rrd, rwqb, wr);
- break;
-
- case 9:
- popclear();
- //Active-to-Active RAS Delay
- cprint(POP_Y+3, POP_X+4, "Write Recovery: ");
- cprint(POP_Y+4, POP_X+4, " (2 - 3 cycles)");
- cprint(POP_Y+5, POP_X+4, "Current: ");
- dprint(POP_Y+5, POP_X+14, a64.t_wr, 2, 0);
- cprint(POP_Y+7, POP_X+4, "New: ");
- wr = getval(POP_Y+7, POP_X+12, 0);
- amd64_tweak(rwt, wrt, ref,en2t, rct, rrd, rwqb, wr);
- break;
-
- case 11:
- case 57:
- flag++;
- /* 0/CR - Cancel */
- break;
- }
- }
- }
-}
-
-void get_option()
-{
- int cas =0, rp=0, rcd=0, ras=0, sflag = 0 ;
-
- while(!sflag)
- {
- switch(get_key())
- {
- case 2:
- popclear();
- cas = get_cas();
- popclear();
-
- cprint(POP_Y+3, POP_X+8, "tRCD: ");
- rcd = getval(POP_Y+3, POP_X+15, 0);
- popclear();
-
- cprint(POP_Y+3, POP_X+8, "tRP: ");
- rp = getval(POP_Y+3, POP_X+15, 0);
- popclear();
-
- cprint(POP_Y+3, POP_X+8, "tRAS: ");
- ras = getval(POP_Y+3, POP_X+15, 0);
- popclear();
- change_timing(cas, rcd, rp, ras);
- break;
-
- case 3:
- popclear();
- cas = get_cas();
- change_timing(cas, 0, 0, 0);
- sflag++;
- break;
-
- case 4:
- popclear();
- cprint(POP_Y+3, POP_X+8, "tRCD: ");
- rcd =getval(POP_Y+3, POP_X+15, 0);
- change_timing(0, rcd, 0, 0);
- sflag++;
- break;
-
- case 5:
- popclear();
- cprint(POP_Y+3, POP_X+8, "tRP: ");
- rp =getval(POP_Y+3, POP_X+15, 0);
- change_timing(0, 0, rp, 0);
- sflag++;
- break;
-
- case 6:
- popclear();
- cprint(POP_Y+3, POP_X+8, "tRAS: ");
- ras =getval(POP_Y+3, POP_X+15, 0);
- change_timing(0, 0, 0, ras);
- sflag++;
- break;
-
- case 7:
- popclear();
- amd64_option();
- sflag++;
- popclear();
- break;
-
- case 8:
- break;
-
- case 11:
- case 57:
- sflag++;
- /* 0/CR - Cancel */
- break;
- }
- }
-}
-
-void get_option_1()
-{
- int rp=0, rcd=0, ras=0, sflag = 0 ;
-
- while(!sflag)
- {
- switch(get_key())
- {
- case 2:
- popclear();
- cprint(POP_Y+3, POP_X+8, "tRCD: ");
- rcd = getval(POP_Y+3, POP_X+15, 0);
- popclear();
-
- cprint(POP_Y+3, POP_X+8, "tRP: ");
- rp = getval(POP_Y+3, POP_X+15, 0);
- popclear();
-
- cprint(POP_Y+3, POP_X+8, "tRAS: ");
- ras = getval(POP_Y+3, POP_X+15, 0);
- popclear();
- change_timing(0, rcd, rp, ras);
- break;
-
- case 3:
- popclear();
- cprint(POP_Y+3, POP_X+8, "tRCD: ");
- rcd =getval(POP_Y+3, POP_X+15, 0);
- change_timing(0, rcd, 0, 0);
- break;
-
- case 4:
- popclear();
- cprint(POP_Y+3, POP_X+8, "tRP: ");
- rp =getval(POP_Y+3, POP_X+15, 0);
- change_timing(0, 0, rp, 0);
- break;
-
- case 5:
- popclear();
- cprint(POP_Y+3, POP_X+8, "tRAS: ");
- ras =getval(POP_Y+3, POP_X+15, 0);
- change_timing(0, 0, 0, ras);
- break;
-
- case 6:
- popclear();
- amd64_option();
- sflag++;
- popclear();
- break;
-
- case 7:
- break;
-
- case 11:
- case 57:
- sflag++;
- /* 0/CR - Cancel */
- break;
- }
- }
-}
-
-
-void get_menu(void)
-{
- int menu ;
-
- find_memctr();
-
- switch(ctrl)
- {
- case 0: menu = 2; break;
- case 1:
- case 2:
- case 3:
- case 4: menu = 0; break;
- case 5: menu = 1; break;
- case 6: menu = 0; break;
- default: menu = -1; break;
- }
-
- if (menu == -1)
- {
- popclear();
- }
- else if (menu == 0)
- {
- cprint(POP_Y+1, POP_X+2, "Modify Timing:");
- cprint(POP_Y+3, POP_X+5, "(1) Modify All ");
- cprint(POP_Y+4, POP_X+5, "(2) Modify tCAS ");
- cprint(POP_Y+5, POP_X+5, "(3) Modify tRCD ");
- cprint(POP_Y+6, POP_X+5, "(4) Modify tRP ");
- cprint(POP_Y+7, POP_X+5, "(5) Modify tRAS ");
- cprint(POP_Y+8, POP_X+5, "(0) Cancel");
- wait_keyup();
- get_option();
- }
- else if (menu == 1)
- {
- cprint(POP_Y+1, POP_X+2, "Modify Timing:");
- cprint(POP_Y+3, POP_X+5, "(1) Modify All ");
- cprint(POP_Y+4, POP_X+5, "(2) Modify tRCD ");
- cprint(POP_Y+5, POP_X+5, "(3) Modify tRP ");
- cprint(POP_Y+6, POP_X+5, "(4) Modify tRAS ");
- cprint(POP_Y+7, POP_X+5, "(0) Cancel");
- wait_keyup();
- get_option();
- }
- else // AMD64 special menu
- {
- cprint(POP_Y+1, POP_X+2, "Modify Timing:");
- cprint(POP_Y+3, POP_X+5, "(1) Modify All ");
- cprint(POP_Y+4, POP_X+5, "(2) Modify tRCD ");
- cprint(POP_Y+5, POP_X+5, "(3) Modify tRP ");
- cprint(POP_Y+6, POP_X+5, "(4) Modify tRAS ");
- cprint(POP_Y+7, POP_X+5, "(5) AMD64 Options");
- cprint(POP_Y+8, POP_X+5, "(0) Cancel");
- wait_keyup();
- get_option_1();
- }
-}
-
-int get_cas(void)
-{
- int i852=0, cas=0;
- ulong drc, ddr;
- long *ptr;
-
- switch(ctrl)
- {
- case 0: ddr = 1; break;
- case 1:
- case 2:
- case 3: ddr = 1; break;
- case 4:
- pci_conf_read( 0, 0, 0, 0x44, 4, &ddr);
- ddr &= 0xFFFFC000;
- ptr=(long*)(ddr+0x120);
- drc = *ptr;
-
- if ((drc & 3) == 2) ddr = 2;
- else ddr = 1;
- break;
- case 5: ddr = 2; break;
- case 6: ddr = 1; i852 = 1; break;
- default: ddr = 1;
- }
-
- if (ddr == 1)
- {
- cprint(POP_Y+3, POP_X+8, "tCAS: ");
- cprint(POP_Y+5, POP_X+8, "(1) CAS 2.5 ");
- cprint(POP_Y+6, POP_X+8, "(2) CAS 2 ");
- if(!i852) {
- cprint(POP_Y+7, POP_X+8, "(3) CAS 3 ");
- }
- cas = getval(POP_Y+3, POP_X+15, 0);
- }
- else if (ddr == 2)
- {
- cprint(POP_Y+3, POP_X+8, "tCAS: ");
- cprint(POP_Y+5, POP_X+8, "(1) CAS 4 ");
- cprint(POP_Y+6, POP_X+8, "(2) CAS 3 ");
- cprint(POP_Y+7, POP_X+8, "(3) CAS 5 ");
- cas = getval(POP_Y+3, POP_X+15, 0);
- }
- else
- {
- cas = -1;
- }
-
- popclear();
- return (cas);
-}
-
-/////////////////////////////////////////////////////////
-// here we go for the exciting timing change part... //
-/////////////////////////////////////////////////////////
-
-void change_timing_i852(int cas, int rcd, int rp, int ras) {
-
- ulong dramtlr;
- ulong int1, int2;
-
- pci_conf_read(0, 0, 1, 0x60, 4, &dramtlr);
-
- // CAS Latency (tCAS)
- int1 = dramtlr & 0xFF9F;
- if (cas == 2) { int2 = int1 ^ 0x20; }
- else if (cas == 1) { int2 = int1; }
- else { int2 = dramtlr; }
-
-
- // RAS-To-CAS (tRCD)
- int1 = int2 & 0xFFF3;
- if (rcd == 2) { int2 = int1 ^ 0x8; }
- else if (rcd == 3) { int2 = int1 ^ 0x4; }
- else if (rcd == 4) { int2 = int1; }
- // else { int2 = int2; }
-
-
- // RAS Precharge (tRP)
- int1 = int2 & 0xFFFC;
- if (rp == 2) { int2 = int1 ^ 0x2; }
- else if (rp == 3) { int2 = int1 ^ 0x1; }
- else if (rp == 4) { int2 = int1; }
- // else { int2 = int2; }
-
-
- // RAS Active to precharge (tRAS)
- int1 = int2 & 0xF9FF;
- if (ras == 5) { int2 = int1 ^ 0x0600; }
- else if (ras == 6) { int2 = int1 ^ 0x0400; }
- else if (ras == 7) { int2 = int1 ^ 0x0200; }
- else if (ras == 8) { int2 = int1; }
- // else { int2 = int2; }
-
- pci_conf_write(0, 0, 1, 0x60, 4, int2);
- __delay(500);
-}
-
-void change_timing_i925(int cas, int rcd, int rp, int ras)
-{
- ulong int1, dev0, temp;
- long *ptr;
-
- //read MMRBAR
- pci_conf_read( 0, 0, 0, 0x44, 4, &dev0);
- dev0 &= 0xFFFFC000;
-
- ptr=(long*)(dev0+0x114);
- temp = *ptr;
-
- // RAS-To-CAS (tRCD)
- int1 = temp | 0x70;
- if (rcd == 2) { temp = int1 ^ 0x70; }
- else if (rcd == 3) { temp = int1 ^ 0x60; }
- else if (rcd == 4) { temp = int1 ^ 0x50; }
- else if (rcd == 5) { temp = int1 ^ 0x40; }
- // else { temp = temp;}
-
- //RAS precharge (tRP)
- int1 = temp | 0x7;
- if (rp == 2) { temp = int1 ^ 0x7; }
- else if (rp == 3) { temp = int1 ^ 0x6; }
- else if (rp == 4) { temp = int1 ^ 0x5; }
- else if (rp == 5) { temp = int1 ^ 0x4; }
- // else { temp = temp;}
-
- if (mem_ctr[ctrl].device == 0x2770 ) // Lakeport?
- {
- // RAS Active to precharge (tRAS)
- int1 = temp | 0xF80000; // bits 23:19
- if (ras == 4) { temp = int1 ^ 0xD80000; }
- else if (ras == 5) { temp = int1 ^ 0xD00000; }
- else if (ras == 6) { temp = int1 ^ 0xC80000; }
- else if (ras == 7) { temp = int1 ^ 0xC00000; }
- else if (ras == 8) { temp = int1 ^ 0xB80000; }
- else if (ras == 9) { temp = int1 ^ 0xB00000; }
- else if (ras == 10) { temp = int1 ^ 0xA80000; }
- else if (ras == 11) { temp = int1 ^ 0xA00000; }
- else if (ras == 12) { temp = int1 ^ 0x980000; }
- else if (ras == 13) { temp = int1 ^ 0x900000; }
- else if (ras == 14) { temp = int1 ^ 0x880000; }
- else if (ras == 15) { temp = int1 ^ 0x800000; }
- // else { temp = temp;}
- }
- else
- {
- // RAS Active to precharge (tRAS)
- int1 = temp | 0xF00000; // bits 23:20
- if (ras == 4) { temp = int1 ^ 0xB00000; }
- else if (ras == 5) { temp = int1 ^ 0xA00000; }
- else if (ras == 6) { temp = int1 ^ 0x900000; }
- else if (ras == 7) { temp = int1 ^ 0x800000; }
- else if (ras == 8) { temp = int1 ^ 0x700000; }
- else if (ras == 9) { temp = int1 ^ 0x600000; }
- else if (ras == 10) { temp = int1 ^ 0x500000; }
- else if (ras == 11) { temp = int1 ^ 0x400000; }
- else if (ras == 12) { temp = int1 ^ 0x300000; }
- else if (ras == 13) { temp = int1 ^ 0x200000; }
- else if (ras == 14) { temp = int1 ^ 0x100000; }
- else if (ras == 15) { temp = int1 ^ 0x000000; }
- // else { temp = temp;}
- }
-
- // CAS Latency (tCAS)
- int1 = temp | 0x0300;
- if (cas == 1) { temp = int1 ^ 0x200; } // cas 2.5
- else if (cas == 2) { temp = int1 ^ 0x100; }
- else if (cas == 3) { temp = int1 ^ 0x300; }
- // else { temp = temp;}
-
- *ptr = temp;
- __delay(500);
- return;
-}
-
-void change_timing_Lakeport(int cas, int rcd, int rp, int ras)
-{
- ulong int1, dev0, temp;
- long *ptr;
-
- //read MMRBAR
- pci_conf_read( 0, 0, 0, 0x44, 4, &dev0);
- dev0 &= 0xFFFFC000;
-
- ptr=(long*)(dev0+0x114);
- temp = *ptr;
-
- // RAS-To-CAS (tRCD)
- int1 = temp | 0x70;
- if (rcd == 2) { temp = int1 ^ 0x70; }
- else if (rcd == 3) { temp = int1 ^ 0x60; }
- else if (rcd == 4) { temp = int1 ^ 0x50; }
- else if (rcd == 5) { temp = int1 ^ 0x40; }
- // else { temp = temp;}
-
- //RAS precharge (tRP)
- int1 = temp | 0x7;
- if (rp == 2) { temp = int1 ^ 0x7; }
- else if (rp == 3) { temp = int1 ^ 0x6; }
- else if (rp == 4) { temp = int1 ^ 0x5; }
- else if (rp == 5) { temp = int1 ^ 0x4; }
- // else { temp = temp;}
-
-
- // CAS Latency (tCAS)
- int1 = temp | 0x0300;
- if (cas == 1) { temp = int1 ^ 0x200; } // cas 2.5
- else if (cas == 2) { temp = int1 ^ 0x100; }
- else if (cas == 3) { temp = int1 ^ 0x300; }
- // else { temp = temp;}
-
- *ptr = temp;
- __delay(500);
- return;
-}
-
-void change_timing_i875(int cas, int rcd, int rp, int ras){
-
- ulong int1, dev6, temp;
- long *ptr;
-
- /* Read the MMR Base Address & Define the pointer from the BAR6 overflow register */
- pci_conf_read( 0, 6, 0, 0x10, 4, &dev6);
-
- ptr=(long*)(dev6+0x60);
-
- temp = *ptr;
-
- // RAS-To-CAS (tRCD)
- int1 = temp | 0xC;
- if (rcd == 2) { temp = int1 ^ 0x4; }
- else if (rcd == 3) { temp = int1 ^ 0x8; }
- else if (rcd == 4) { temp = int1 ^ 0xC; }
- else if (rcd == 5) { temp = int1 ^ 0xC; }
- // else { temp = temp;}
-
-
- //RAS precharge (tRP)
- int1 = temp | 0x3;
- if (rp == 2) { temp = int1 ^ 0x1; }
- else if (rp == 3) { temp = int1 ^ 0x2; }
- else if (rp == 4) { temp = int1 ^ 0x3; }
- else if (rp == 5) { temp = int1 ^ 0x3; }
- // else { temp = temp;}
-
-
- // RAS Active to precharge (tRAS)
- int1 = temp | 0x380;
- if (ras == 5) { temp = int1 ^ 0x100; }
- else if (ras == 6) { temp = int1 ^ 0x180; }
- else if (ras == 7) { temp = int1 ^ 0x200; }
- else if (ras == 8) { temp = int1 ^ 0x280; }
- else if (ras == 9) { temp = int1 ^ 0x300; }
- else if (ras == 10) { temp = int1 ^ 0x380; }
- // else { temp = temp;}
-
- // CAS Latency (tCAS)
- int1 = temp | 0x60;
- if (cas == 1) { temp = int1 ^ 0x60; } // cas 2.5
- else if (cas == 2) { temp = int1 ^ 0x40; }
- else if (cas == 3) { temp = int1 ^ 0x20; }
- // else { temp = temp; }
-
- *ptr = temp;
- __delay(500);
- return;
-}
-
-
-void change_timing_nf2(int cas, int rcd, int rp, int ras) {
-
- ulong dramtlr, dramtlr2;
- ulong int1, int2;
-
- pci_conf_read(0, 0, 1, 0x90, 4, &dramtlr);
- pci_conf_read(0, 0, 1, 0xA0, 4, &dramtlr2);
-
-
- // CAS Latency (tCAS)
- int1 = dramtlr2 | 0x0070;
- if (cas == 1) { int2 = int1 ^ 0x10; } // cas = 2.5
- else if (cas == 2) { int2 = int1 ^ 0x50; }
- else if (cas == 3) { int2 = int1 ^ 0x40; }
- else { int2 = dramtlr2; }
-
- pci_conf_write(0, 0, 1, 0xA0, 4, int2);
-
- // RAS-To-CAS (tRCD)
-
- int1 = dramtlr | 0x700000;
- if (rcd == 2) { int2 = int1 ^ 0x500000; }
- else if (rcd == 3) { int2 = int1 ^ 0x400000; }
- else if (rcd == 4) { int2 = int1 ^ 0x300000; }
- else if (rcd == 5) { int2 = int1 ^ 0x200000; }
- else if (rcd == 6) { int2 = int1 ^ 0x100000; }
- else { int2 = dramtlr;}
-
-
- // RAS Precharge (tRP)
- int1 = int2 | 0x70000000;
- if (rp == 2) { int2 = int1 ^ 0x50000000; }
- else if (rp == 3) { int2 = int1 ^ 0x40000000; }
- else if (rp == 4) { int2 = int1 ^ 0x30000000; }
- else if (rp == 5) { int2 = int1 ^ 0x20000000; }
- else if (rp == 6) { int2 = int1 ^ 0x10000000; }
- // else { int2 = int2;}
-
-
- // RAS Active to precharge (tRAS)
-
- int1 = int2 | 0x78000;
- if (ras == 4) { int2 = int1 ^ 0x58000; }
- else if (ras == 5) { int2 = int1 ^ 0x50000; }
- else if (ras == 6) { int2 = int1 ^ 0x48000; }
- else if (ras == 7) { int2 = int1 ^ 0x40000; }
- else if (ras == 8) { int2 = int1 ^ 0x38000; }
- else if (ras == 9) { int2 = int1 ^ 0x30000; }
- else if (ras == 10) { int2 = int1 ^ 0x28000; }
- else if (ras == 11) { int2 = int1 ^ 0x20000; }
- else if (ras == 12) { int2 = int1 ^ 0x18000; }
- else if (ras == 13) { int2 = int1 ^ 0x10000; }
- else if (ras == 14) { int2 = int1 ^ 0x08000; }
- // else { int2 = int2;}
-
-
- pci_conf_write(0, 0, 1, 0x90, 4, int2);
- __delay(500);
-}
-
-
-void change_timing_amd64(int cas, int rcd, int rp, int ras) {
-
- ulong dramtlr;
- ulong int1= 0x0;
-
- pci_conf_read(0, 24, 2, 0x88, 4, &dramtlr);
-
- // RAS-To-CAS (tRCD)
- int1 = dramtlr | 0x7000;
- if (rcd == 2) { dramtlr = int1 ^ 0x5000; }
- else if (rcd == 3) { dramtlr = int1 ^ 0x4000; }
- else if (rcd == 4) { dramtlr = int1 ^ 0x3000; }
- else if (rcd == 5) { dramtlr = int1 ^ 0x2000; }
- else if (rcd == 6) { dramtlr = int1 ^ 0x1000; }
- else if (rcd == 1) { dramtlr = int1 ^ 0x6000; }
- // else { dramtlr = dramtlr;}
-
-
- //RAS precharge (tRP)
- int1 = dramtlr | 0x7000000;
- if (rp == 2) { dramtlr = int1 ^ 0x5000000; }
- else if (rp == 3) { dramtlr = int1 ^ 0x4000000; }
- else if (rp == 1) { dramtlr = int1 ^ 0x6000000; }
- else if (rp == 4) { dramtlr = int1 ^ 0x3000000; }
- else if (rp == 5) { dramtlr = int1 ^ 0x2000000; }
- else if (rp == 6) { dramtlr = int1 ^ 0x1000000; }
- // else { dramtlr = dramtlr;}
-
-
- // RAS Active to precharge (tRAS)
- int1 = dramtlr | 0xF00000;
- if (ras == 5) { dramtlr = int1 ^ 0xA00000; }
- else if (ras == 6) { dramtlr = int1 ^ 0x900000; }
- else if (ras == 7) { dramtlr = int1 ^ 0x800000; }
- else if (ras == 8) { dramtlr = int1 ^ 0x700000; }
- else if (ras == 9) { dramtlr = int1 ^ 0x600000; }
- else if (ras == 10) { dramtlr = int1 ^ 0x500000; }
- else if (ras == 11) { dramtlr = int1 ^ 0x400000; }
- else if (ras == 12) { dramtlr = int1 ^ 0x300000; }
- else if (ras == 13) { dramtlr = int1 ^ 0x200000; }
- else if (ras == 14) { dramtlr = int1 ^ 0x100000; }
- // else { dramtlr = dramtlr;}
-
-
- // CAS Latency (tCAS)
- int1 = dramtlr | 0x7; // some changes will cause the system hang, tried Draminit to no avail
- if (cas == 1) { dramtlr = int1 ^ 0x2; } // cas 2.5
- else if (cas == 2) { dramtlr = int1 ^ 0x6; }
- else if (cas == 3) { dramtlr = int1 ^ 0x5; }
- else if (cas == 4) { dramtlr = int1 ^ 0x7; } //cas 1.5 on a64
- // else { dramtlr = dramtlr; }
-
-// pci_conf_read(0, 24, 2, 0x90, 4, &dramcr);// use dram init
- pci_conf_write(0, 24, 2, 0x88, 4, dramtlr);
- __delay(500);
-
-////////////////////////////////////////////////////////////////
-// trying using the draminit, but do not work
-}
-
-// copy from lib.c code to add delay to chipset timing modification
-void __delay(ulong loops)
-{
- int d0;
- __asm__ __volatile__(
- "\tjmp 1f\n"
- ".align 16\n"
- "1:\tjmp 2f\n"
- ".align 16\n"
- "2:\tdecl %0\n\tjns 2b"
- :"=&a" (d0)
- :"0" (loops));
-}
-
-void amd64_tweak(int rwt, int wrt, int ref, int en2t, int rct, int rrd, int rwqb, int wr)
-{
- ulong dramtlr;
- ulong int1= 0x0;
-
- pci_conf_read(0, 24, 2, 0x88, 4, &dramtlr);
-
- // Row Cycle time
- int1 = dramtlr | 0xF0;
- if (rct == 7 ) { dramtlr = int1 ^ 0xF0; }
- else if (rct == 8 ) { dramtlr = int1 ^ 0xE0; }
- else if (rct == 9 ) { dramtlr = int1 ^ 0xD0; }
- else if (rct == 10) { dramtlr = int1 ^ 0xC0; }
- else if (rct == 11) { dramtlr = int1 ^ 0xB0; }
- else if (rct == 12) { dramtlr = int1 ^ 0xA0; }
- else if (rct == 13) { dramtlr = int1 ^ 0x90; }
- else if (rct == 14) { dramtlr = int1 ^ 0x80; }
- else if (rct == 15) { dramtlr = int1 ^ 0x70; }
- else if (rct == 16) { dramtlr = int1 ^ 0x60; }
- else if (rct == 17) { dramtlr = int1 ^ 0x50; }
- else if (rct == 18) { dramtlr = int1 ^ 0x40; }
- else if (rct == 19) { dramtlr = int1 ^ 0x30; }
- else if (rct == 20) { dramtlr = int1 ^ 0x20; }
- // else { dramtlr = dramtlr;}
-
- //Active-avtive ras-ras delay
- int1 = dramtlr | 0x70000;
- if (rrd == 2) { dramtlr = int1 ^ 0x50000; } // 2 bus clocks
- else if (rrd == 3) { dramtlr = int1 ^ 0x40000; } // 3 bus clocks
- else if (rrd == 4) { dramtlr = int1 ^ 0x30000; } // 4 bus clocks
- // else { dramtlr = dramtlr;}
-
- //Write recovery time
- int1 = dramtlr | 0x10000000;
- if (wr == 2) { dramtlr = int1 ^ 0x10000000; } // 2 bus clocks
- else if (wr == 3) { dramtlr = int1 ^ 0x00000000; } // 3 bus clocks
- // else { dramtlr = dramtlr;}
-
- pci_conf_write(0, 24, 2, 0x88, 4, dramtlr);
- __delay(500);
- //////////////////////////////////////////////
-
- pci_conf_read(0, 24, 2, 0x8C, 4, &dramtlr);
-
- // Write-to read delay
- int1 = dramtlr | 0x1;
- if (wrt == 2) { dramtlr = int1 ^ 0x0; }
- else if (wrt == 1) { dramtlr = int1 ^ 0x1; }
- // else { dramtlr = dramtlr;}
-
- // Read-to Write delay
- int1 = dramtlr | 0x70;
- if (rwt == 1) { dramtlr = int1 ^ 0x70; }
- else if (rwt == 2) { dramtlr = int1 ^ 0x60; }
- else if (rwt == 3) { dramtlr = int1 ^ 0x50; }
- else if (rwt == 4) { dramtlr = int1 ^ 0x40; }
- else if (rwt == 5) { dramtlr = int1 ^ 0x30; }
- else if (rwt == 6) { dramtlr = int1 ^ 0x20; }
- // else { dramtlr = dramtlr;}
-
- //Refresh Rate
- int1 = dramtlr | 0x1800;
- if (ref == 1) { dramtlr = int1 ^ 0x1800; } // 15.6us
- else if (ref == 2) { dramtlr = int1 ^ 0x1000; } // 7.8us
- else if (ref == 3) { dramtlr = int1 ^ 0x0800; } // 3.9us
- // else { dramtlr = dramtlr;}
-
- pci_conf_write(0, 24, 2, 0x8c, 4, dramtlr);
- __delay(500);
- /////////////////////////////////////
-
- pci_conf_read(0, 24, 2, 0x90, 4, &dramtlr);
-
- // Enable 2t command
- int1 = dramtlr | 0x10000000;
- if (en2t == 2) { dramtlr = int1 ^ 0x00000000; } // 2T
- else if (en2t == 1) { dramtlr = int1 ^ 0x10000000; } // 1T
- // else { dramtlr = dramtlr;}
-
- // Read Write queue bypass count
- int1 = dramtlr | 0xC000;
- if (rwqb == 2) { dramtlr = int1 ^ 0xC000; }
- else if (rwqb == 4) { dramtlr = int1 ^ 0x8000; }
- else if (rwqb == 8) { dramtlr = int1 ^ 0x4000; }
- else if (rwqb == 16) { dramtlr = int1 ^ 0x0000; }
- // else { dramtlr = dramtlr;}
-
- pci_conf_write(0, 24, 2, 0x90, 4, dramtlr);
- __delay(500);
- restart();
-}
-
diff --git a/memtest86+_old/extra.h b/memtest86+_old/extra.h
deleted file mode 100644
index 9bd7045..0000000
--- a/memtest86+_old/extra.h
+++ /dev/null
@@ -1,27 +0,0 @@
-// This is the extra stuff added to the memtest+ from memtest.org
-// Code from Eric Nelson and Wee
-/* extra.c
- *
- * Released under version 2 of the Gnu Public License.
- *
- */
-
-#ifndef MEMTEST_EXTRA_H
-#define MEMTEST_EXTRA_H
-
-void change_timing(int cas, int rcd, int rp, int ras);
-void find_memctr(void);
-void disclaimer(void);
-void get_option(void);
-void get_menu(void);
-void a64_parameter(void);
-int get_cas(void);
-void change_timing_i852(int cas, int rcd, int rp, int ras);
-void change_timing_i925(int cas, int rcd, int rp, int ras);
-void change_timing_i875(int cas, int rcd, int rp, int ras);
-void change_timing_nf2(int cas, int rcd, int rp, int ras);
-void change_timing_amd64(int cas, int rcd, int rp, int ras);
-void amd64_tweak(int rwt, int wrt, int ref, int en2t, int rct, int rrd, int rwqb, int wr);
-void __delay(ulong loops);
-
-#endif /* MEMTEST_EXTRA_H */
diff --git a/memtest86+_old/head.S b/memtest86+_old/head.S
deleted file mode 100644
index d551336..0000000
--- a/memtest86+_old/head.S
+++ /dev/null
@@ -1,847 +0,0 @@
-/*
- * linux/boot/head.S
- * Copyright (C) 1991, 1992 Linus Torvalds
- */
-
-/*
- * head.S contains the 32-bit startup code.
- *
- * 1-Jan-96 Modified by Chris Brady for use as a boot/loader for MemTest-86.
- * Setup the memory management for flat non-paged linear addressing.
- * 17 May 2004 : Added X86_PWRCAP for AMD64 (Memtest86+ - Samuel D.)
- */
-
-.text
-#define __ASSEMBLY__
-#include "defs.h"
-#include "config.h"
-#include "test.h"
-
- .code32
- .globl startup_32
-startup_32:
- cld
- cli
-
- /* Ensure I have a boot_stack pointer */
- testl %esp, %esp
- jnz 0f
- movl $(LOW_TEST_ADR + _GLOBAL_OFFSET_TABLE_), %esp
- leal boot_stack_top@GOTOFF(%esp), %esp
-0:
-
- /* Load the GOT pointer */
- call 0f
-0: popl %ebx
- addl $_GLOBAL_OFFSET_TABLE_+[.-0b], %ebx
-
- /* Pick the appropriate boot_stack address */
- leal boot_stack_top@GOTOFF(%ebx), %esp
-
- /* Reload all of the segment registers */
- leal gdt@GOTOFF(%ebx), %eax
- movl %eax, 2 + gdt_descr@GOTOFF(%ebx)
- lgdt gdt_descr@GOTOFF(%ebx)
- leal flush@GOTOFF(%ebx), %eax
- pushl $KERNEL_CS
- pushl %eax
- lret
-flush: movl $KERNEL_DS, %eax
- movw %ax, %ds
- movw %ax, %es
- movw %ax, %fs
- movw %ax, %gs
- movw %ax, %ss
-
-/*
- * Zero BSS
- */
- cmpl $1, zerobss@GOTOFF(%ebx)
- jnz zerobss_done
- xorl %eax, %eax
- leal _bss@GOTOFF(%ebx), %edi
- leal _end@GOTOFF(%ebx), %ecx
- subl %edi, %ecx
-1: movl %eax, (%edi)
- addl $4, %edi
- subl $4, %ecx
- jnz 1b
- movl $0, zerobss@GOTOFF(%ebx)
-zerobss_done:
-
-/*
- * Setup an exception handler
- */
- leal idt@GOTOFF(%ebx), %edi
-
- leal vec0@GOTOFF(%ebx), %edx
- movl $(KERNEL_CS << 16),%eax
- movw %dx, %ax /* selector = 0x0010 = cs */
- movw $0x8E00, %dx /* interrupt gate - dpl=0, present */
- movl %eax, (%edi)
- movl %edx, 4(%edi)
- addl $8, %edi
-
- leal vec1@GOTOFF(%ebx),%edx
- movl $(KERNEL_CS << 16),%eax
- movw %dx,%ax /* selector = 0x0010 = cs */
- movw $0x8E00,%dx /* interrupt gate - dpl=0, present */
- movl %eax,(%edi)
- movl %edx,4(%edi)
- addl $8,%edi
-
- leal vec2@GOTOFF(%ebx),%edx
- movl $(KERNEL_CS << 16),%eax
- movw %dx,%ax /* selector = 0x0010 = cs */
- movw $0x8E00,%dx /* interrupt gate - dpl=0, present */
- movl %eax,(%edi)
- movl %edx,4(%edi)
- addl $8,%edi
-
- leal vec3@GOTOFF(%ebx),%edx
- movl $(KERNEL_CS << 16),%eax
- movw %dx,%ax /* selector = 0x0010 = cs */
- movw $0x8E00,%dx /* interrupt gate - dpl=0, present */
- movl %eax,(%edi)
- movl %edx,4(%edi)
- addl $8,%edi
-
- leal vec4@GOTOFF(%ebx),%edx
- movl $(KERNEL_CS << 16),%eax
- movw %dx,%ax /* selector = 0x0010 = cs */
- movw $0x8E00,%dx /* interrupt gate - dpl=0, present */
- movl %eax,(%edi)
- movl %edx,4(%edi)
- addl $8,%edi
-
- leal vec5@GOTOFF(%ebx),%edx
- movl $(KERNEL_CS << 16),%eax
- movw %dx,%ax /* selector = 0x0010 = cs */
- movw $0x8E00,%dx /* interrupt gate - dpl=0, present */
- movl %eax,(%edi)
- movl %edx,4(%edi)
- addl $8,%edi
-
- leal vec6@GOTOFF(%ebx),%edx
- movl $(KERNEL_CS << 16),%eax
- movw %dx,%ax /* selector = 0x0010 = cs */
- movw $0x8E00,%dx /* interrupt gate - dpl=0, present */
- movl %eax,(%edi)
- movl %edx,4(%edi)
- addl $8,%edi
-
- leal vec7@GOTOFF(%ebx),%edx
- movl $(KERNEL_CS << 16),%eax
- movw %dx,%ax /* selector = 0x0010 = cs */
- movw $0x8E00,%dx /* interrupt gate - dpl=0, present */
- movl %eax,(%edi)
- movl %edx,4(%edi)
- addl $8,%edi
-
- leal vec8@GOTOFF(%ebx),%edx
- movl $(KERNEL_CS << 16),%eax
- movw %dx,%ax /* selector = 0x0010 = cs */
- movw $0x8E00,%dx /* interrupt gate - dpl=0, present */
- movl %eax,(%edi)
- movl %edx,4(%edi)
- addl $8,%edi
-
- leal vec9@GOTOFF(%ebx),%edx
- movl $(KERNEL_CS << 16),%eax
- movw %dx,%ax /* selector = 0x0010 = cs */
- movw $0x8E00,%dx /* interrupt gate - dpl=0, present */
- movl %eax,(%edi)
- movl %edx,4(%edi)
- addl $8,%edi
-
- leal vec10@GOTOFF(%ebx),%edx
- movl $(KERNEL_CS << 16),%eax
- movw %dx,%ax /* selector = 0x0010 = cs */
- movw $0x8E00,%dx /* interrupt gate - dpl=0, present */
- movl %eax,(%edi)
- movl %edx,4(%edi)
- addl $8,%edi
-
- leal vec11@GOTOFF(%ebx),%edx
- movl $(KERNEL_CS << 16),%eax
- movw %dx,%ax /* selector = 0x0010 = cs */
- movw $0x8E00,%dx /* interrupt gate - dpl=0, present */
- movl %eax,(%edi)
- movl %edx,4(%edi)
- addl $8,%edi
-
- leal vec12@GOTOFF(%ebx),%edx
- movl $(KERNEL_CS << 16),%eax
- movw %dx,%ax /* selector = 0x0010 = cs */
- movw $0x8E00,%dx /* interrupt gate - dpl=0, present */
- movl %eax,(%edi)
- movl %edx,4(%edi)
- addl $8,%edi
-
- leal vec13@GOTOFF(%ebx),%edx
- movl $(KERNEL_CS << 16),%eax
- movw %dx,%ax /* selector = 0x0010 = cs */
- movw $0x8E00,%dx /* interrupt gate - dpl=0, present */
- movl %eax,(%edi)
- movl %edx,4(%edi)
- addl $8,%edi
-
- leal vec14@GOTOFF(%ebx),%edx
- movl $(KERNEL_CS << 16),%eax
- movw %dx,%ax /* selector = 0x0010 = cs */
- movw $0x8E00,%dx /* interrupt gate - dpl=0, present */
- movl %eax,(%edi)
- movl %edx,4(%edi)
- addl $8,%edi
-
- leal vec15@GOTOFF(%ebx),%edx
- movl $(KERNEL_CS << 16),%eax
- movw %dx,%ax /* selector = 0x0010 = cs */
- movw $0x8E00,%dx /* interrupt gate - dpl=0, present */
- movl %eax,(%edi)
- movl %edx,4(%edi)
- addl $8,%edi
-
- leal vec16@GOTOFF(%ebx),%edx
- movl $(KERNEL_CS << 16),%eax
- movw %dx,%ax /* selector = 0x0010 = cs */
- movw $0x8E00,%dx /* interrupt gate - dpl=0, present */
- movl %eax,(%edi)
- movl %edx,4(%edi)
- addl $8,%edi
-
- leal vec17@GOTOFF(%ebx),%edx
- movl $(KERNEL_CS << 16),%eax
- movw %dx,%ax /* selector = 0x0010 = cs */
- movw $0x8E00,%dx /* interrupt gate - dpl=0, present */
- movl %eax,(%edi)
- movl %edx,4(%edi)
- addl $8,%edi
-
- leal vec18@GOTOFF(%ebx),%edx
- movl $(KERNEL_CS << 16),%eax
- movw %dx,%ax /* selector = 0x0010 = cs */
- movw $0x8E00,%dx /* interrupt gate - dpl=0, present */
- movl %eax,(%edi)
- movl %edx,4(%edi)
- addl $8,%edi
-
- leal vec19@GOTOFF(%ebx),%edx
- movl $(KERNEL_CS << 16),%eax
- movw %dx,%ax /* selector = 0x0010 = cs */
- movw $0x8E00,%dx /* interrupt gate - dpl=0, present */
- movl %eax,(%edi)
- movl %edx,4(%edi)
- addl $8,%edi
-
- /* Now that it is initialized load the interrupt descriptor table */
- leal idt@GOTOFF(%ebx), %eax
- movl %eax, 2 + idt_descr@GOTOFF(%ebx)
- lidt idt_descr@GOTOFF(%ebx)
-
- leal _dl_start@GOTOFF(%ebx), %eax
- call *%eax
-
- /* Never forget to initialize the FPU ... Never ! */
- finit
-
- call test_start
-
- /* In case we return simulate an exception */
- pushfl
- pushl %cs
- call 0f
-0: pushl $0 /* error code */
- pushl $257 /* vector */
- jmp int_hand
-
-vec0:
- pushl $0 /* error code */
- pushl $0 /* vector */
- jmp int_hand
-vec1:
- pushl $0 /* error code */
- pushl $1 /* vector */
- jmp int_hand
-
-vec2:
- pushl $0 /* error code */
- pushl $2 /* vector */
- jmp int_hand
-
-vec3:
- pushl $0 /* error code */
- pushl $3 /* vector */
- jmp int_hand
-
-vec4:
- pushl $0 /* error code */
- pushl $4 /* vector */
- jmp int_hand
-
-vec5:
- pushl $0 /* error code */
- pushl $5 /* vector */
- jmp int_hand
-
-vec6:
- pushl $0 /* error code */
- pushl $6 /* vector */
- jmp int_hand
-
-vec7:
- pushl $0 /* error code */
- pushl $7 /* vector */
- jmp int_hand
-
-vec8:
- /* error code */
- pushl $8 /* vector */
- jmp int_hand
-
-vec9:
- pushl $0 /* error code */
- pushl $9 /* vector */
- jmp int_hand
-
-vec10:
- /* error code */
- pushl $10 /* vector */
- jmp int_hand
-
-vec11:
- /* error code */
- pushl $11 /* vector */
- jmp int_hand
-
-vec12:
- /* error code */
- pushl $12 /* vector */
- jmp int_hand
-
-vec13:
- /* error code */
- pushl $13 /* vector */
- jmp int_hand
-
-vec14:
- /* error code */
- pushl $14 /* vector */
- jmp int_hand
-
-vec15:
- pushl $0 /* error code */
- pushl $15 /* vector */
- jmp int_hand
-
-vec16:
- pushl $0 /* error code */
- pushl $16 /* vector */
- jmp int_hand
-
-vec17:
- /* error code */
- pushl $17 /* vector */
- jmp int_hand
-
-vec18:
- pushl $0 /* error code */
- pushl $18 /* vector */
- jmp int_hand
-
-vec19:
- pushl $0 /* error code */
- pushl $19 /* vector */
- jmp int_hand
-
-int_hand:
- pushl %eax
- pushl %ebx
- pushl %ecx
- pushl %edx
- pushl %edi
- pushl %esi
- pushl %ebp
-
- /* original boot_stack pointer */
- leal 48(%esp), %eax
- pushl %eax
- pushl %ds
- pushl %ss
- pushl %esp /* pointer to trap regs struct on the boot_stack */
- call inter
- addl $8, %esp
-
- popl %ebp
- popl %esi
- popl %edi
- popl %edx
- popl %ecx
- popl %ebx
- popl %eax
- iret
-
-/*
- * The interrupt descriptor table has room for 32 idt's
- */
-.align 4
-.word 0
-idt_descr:
- .word 20*8-1 # idt contains 32 entries
- .long 0
-
-idt:
- .fill 20,8,0 # idt is uninitialized
-
-gdt_descr:
- .word gdt_end - gdt - 1
- .long 0
-
-.align 4
-.globl gdt, gdt_end
-gdt:
- .quad 0x0000000000000000 /* NULL descriptor */
- .quad 0x0000000000000000 /* not used */
- .quad 0x00cf9b000000ffff /* 0x10 main 4gb code at 0x000000 */
- .quad 0x00cf93000000ffff /* 0x18 main 4gb data at 0x000000 */
-
- .word 0xFFFF # 16bit 64KB - (0x10000*1 = 64KB)
- .word 0 # base address = SETUPSEG
- .byte 0x00, 0x9b # code read/exec/accessed
- .byte 0x00, 0x00 # granularity = bytes
-
-
- .word 0xFFFF # 16bit 64KB - (0x10000*1 = 64KB)
- .word 0 # base address = SETUPSEG
- .byte 0x00, 0x93 # data read/write/accessed
- .byte 0x00, 0x00 # granularity = bytes
-
-gdt_end:
-
-.data
-
-.macro ptes64 start, count=64
-.quad \start + 0x0000000 + 0xE3
-.quad \start + 0x0200000 + 0xE3
-.quad \start + 0x0400000 + 0xE3
-.quad \start + 0x0600000 + 0xE3
-.quad \start + 0x0800000 + 0xE3
-.quad \start + 0x0A00000 + 0xE3
-.quad \start + 0x0C00000 + 0xE3
-.quad \start + 0x0E00000 + 0xE3
-.if \count-1
-ptes64 "(\start+0x01000000)",\count-1
-.endif
-.endm
-
-.macro maxdepth depth=1
-.if \depth-1
-maxdepth \depth-1
-.endif
-.endm
-
-maxdepth
-
-# Page Directory Tables:
-# There are 4 tables, the first two map the first 2 GB of memory. The last two are used with # PAE to map
-# the rest of memory in 2 GB segments. The last two tables are changed in vmem.c to map each segment.
-# We use 2 MB pages so only the Page Directory Table is used (no page tables).
-.balign 4096
-.globl pd0
-pd0:
- ptes64 0x0000000000000000
-
-.balign 4096
-.globl pd1
-pd1:
- ptes64 0x0000000040000000
-
-.balign 4096
-.globl pd2
-pd2:
- ptes64 0x0000000080000000
-
-.balign 4096
-.globl pd3
-pd3:
- ptes64 0x00000000C0000000
-
-# Legacy Mode Page Directory Pointer Table:
-# 4 Entries, pointing to the Page Directory Tables
-.balign 4096
-.globl pdp
-pdp:
- .long pd0 + 1
- .long 0
- .long pd1 + 1
- .long 0
- .long pd2 + 1
- .long 0
- .long pd3 + 1
- .long 0
-
-# Long Mode Page Directory Pointer Table:
-# 4 Entries, pointing to the Page Directory Tables
-.balign 4096
-lpdp:
- .long pd0 + 3
- .long 0
- .long pd1 + 3
- .long 0
- .long pd2 + 3
- .long 0
- .long pd3 + 3
- .long 0
-
-
-# The long mode level 4 page map table
-.balign 4096
-.globl pml4
-pml4:
- .long lpdp + 3
- .long 0
-.previous
-
-#define RSTART startup_32
-
- .globl query_pcbios
-query_pcbios:
- /* Save the caller save registers */
- pushl %ebx
- pushl %esi
- pushl %edi
- pushl %ebp
- call 1f
-1: popl %ebx
- addl $_GLOBAL_OFFSET_TABLE_+[.-1b], %ebx
-
- /* Compute the reloc address */
- leal RSTART@GOTOFF(%ebx), %esi
-
- /* Fixup real code pointer */
- movl %esi, %eax
- shrl $4, %eax
- movw %ax, 2 + realptr@GOTOFF(%ebx)
-
- /* Fixup protected code pointer */
- leal prot@GOTOFF(%ebx), %eax
- movl %eax, protptr@GOTOFF(%ebx)
-
- /* Compute the gdt fixup */
- movl %esi, %eax
- shll $16, %eax # Base low
-
- movl %esi, %ecx
- shrl $16, %ecx
- andl $0xff, %ecx
-
- movl %esi, %edx
- andl $0xff000000, %edx
- orl %edx, %ecx
-
- /* Fixup the gdt */
- andl $0x0000ffff, REAL_CS + 0 + gdt@GOTOFF(%ebx)
- orl %eax, REAL_CS + 0 + gdt@GOTOFF(%ebx)
- andl $0x00ffff00, REAL_CS + 4 + gdt@GOTOFF(%ebx)
- orl %ecx, REAL_CS + 4 + gdt@GOTOFF(%ebx)
- andl $0x0000ffff, REAL_DS + 0 + gdt@GOTOFF(%ebx)
- orl %eax, REAL_DS + 0 + gdt@GOTOFF(%ebx)
- andl $0x00ffff00, REAL_DS + 4 + gdt@GOTOFF(%ebx)
- orl %ecx, REAL_DS + 4 + gdt@GOTOFF(%ebx)
-
- /* Fixup the gdt_descr */
- leal gdt@GOTOFF(%ebx), %eax
- movl %eax, 2 + gdt_descr@GOTOFF(%ebx)
-
- lidt idt_real@GOTOFF(%ebx)
-
- /* Don't disable the a20 line */
-
- /* Load 16bit data segments, to ensure the segment limits are set */
- movl $REAL_DS, %eax
- movl %eax, %ds
- movl %eax, %es
- movl %eax, %ss
- movl %eax, %fs
- movl %eax, %gs
-
- /* Compute the boot_stack base */
- leal boot_stack@GOTOFF(%ebx), %ecx
- /* Compute the address of meminfo */
- leal mem_info@GOTOFF(%ebx), %edi
-
- /* switch to 16bit mode */
- ljmp $REAL_CS, $1f - RSTART
-1:
- .code16
- /* Disable Paging and protected mode */
- /* clear the PG & PE bits of CR0 */
- movl %cr0,%eax
- andl $~((1 << 31)|(1<<0)),%eax
- movl %eax,%cr0
-
- /* make intersegment jmp to flush the processor pipeline
- * and reload %cs:%eip (to clear upper 16 bits of %eip).
- */
- ljmp *(realptr - RSTART)
-real:
- /* we are in real mode now
- * set up the real mode segment registers : %ds, %ss, %es, %gs, %fs
- */
- movw %cs, %ax
- movw %ax, %ds
- movw %ax, %es
- movw %ax, %fs
- movw %ax, %gs
- movw %ax, %ss
-
- /* Adjust the boot_stack pointer */
- movl %ecx, %eax
- shrl $4, %eax
- movw %ax, %ss
- subl %ecx, %esp
-
- /* Save my base pointer */
- pushl %ebx
-
- /* Setup %ds to point to my data area */
- shrl $4, %edi
- movl %edi, %ds
-
- /* Enable interrupts or BIOS's go crazy */
- sti
-
-# Get memory size (extended mem, kB)
-
-#define SMAP 0x534d4150
-
- xorl %eax, %eax
- movl %eax, (E88)
- movl %eax, (E801)
- movl %eax, (E820NR)
-
-# Try three different memory detection schemes. First, try
-# e820h, which lets us assemble a memory map, then try e801h,
-# which returns a 32-bit memory size, and finally 88h, which
-# returns 0-64m
-
-# method E820H:
-# the memory map from hell. e820h returns memory classified into
-# a whole bunch of different types, and allows memory holes and
-# everything. We scan through this memory map and build a list
-# of the first 32 memory areas, which we return at [E820MAP].
-# This is documented at http://www.teleport.com/~acpi/acpihtml/topic245.htm
-
-meme820:
- xorl %ebx, %ebx # continuation counter
- movw $E820MAP, %di # point into the whitelist
- # so we can have the bios
- # directly write into it.
-
-jmpe820:
- movl $0x0000e820, %eax # e820, upper word zeroed
- movl $SMAP, %edx # ascii 'SMAP'
- movl $20, %ecx # size of the e820rec
- pushw %ds # data record.
- popw %es
- int $0x15 # make the call
- jc bail820 # fall to e801 if it fails
-
- cmpl $SMAP, %eax # check the return is `SMAP'
- jne bail820 # fall to e801 if it fails
-
-# cmpl $1, 16(%di) # is this usable memory?
-# jne again820
-
- # If this is usable memory, we save it by simply advancing %di by
- # sizeof(e820rec).
- #
-good820:
- movb (E820NR), %al # up to 32 entries
- cmpb $E820MAX, %al
- jnl bail820
-
- incb (E820NR)
- movw %di, %ax
- addw $E820ENTRY_SIZE, %ax
- movw %ax, %di
-again820:
- cmpl $0, %ebx # check to see if
- jne jmpe820 # %ebx is set to EOF
-bail820:
-
-
-# method E801H:
-# memory size is in 1k chunksizes, to avoid confusing loadlin.
-# we store the 0xe801 memory size in a completely different place,
-# because it will most likely be longer than 16 bits.
-
-meme801:
- stc # fix to work around buggy
- xorw %cx,%cx # BIOSes which dont clear/set
- xorw %dx,%dx # carry on pass/error of
- # e801h memory size call
- # or merely pass cx,dx though
- # without changing them.
- movw $0xe801, %ax
- int $0x15
- jc mem88
-
- cmpw $0x0, %cx # Kludge to handle BIOSes
- jne e801usecxdx # which report their extended
- cmpw $0x0, %dx # memory in AX/BX rather than
- jne e801usecxdx # CX/DX. The spec I have read
- movw %ax, %cx # seems to indicate AX/BX
- movw %bx, %dx # are more reasonable anyway...
-
-e801usecxdx:
- andl $0xffff, %edx # clear sign extend
- shll $6, %edx # and go from 64k to 1k chunks
- movl %edx, (E801) # store extended memory size
- andl $0xffff, %ecx # clear sign extend
- addl %ecx, (E801) # and add lower memory into
- # total size.
-
-# Ye Olde Traditional Methode. Returns the memory size (up to 16mb or
-# 64mb, depending on the bios) in ax.
-mem88:
-
- movb $0x88, %ah
- int $0x15
- movw %ax, (E88)
-
-#ifdef APM_OFF
-# check for APM BIOS
- movw $0x5300, %ax # APM BIOS installation check
- xorw %bx, %bx
- int $0x15
- jc done_apm_bios # error -> no APM BIOS
-
- cmpw $0x504d, %bx # check for "PM" signature
- jne done_apm_bios # no signature -> no APM BIOS
-
- movw $0x5304, %ax # Disconnect first just in case
- xorw %bx, %bx
- int $0x15 # ignore return code
-
- movw $0x5301, %ax # Real Mode connect
- xorw %bx, %bx
- int $0x15
- jc done_apm_bios # error
-
- movw $0x5308, %ax # Disable APM
- mov $0xffff, %bx
- xorw %cx, %cx
- int $0x15
-
-done_apm_bios:
-#endif
-
- /* O.k. the BIOS query is done switch back to protected mode */
- cli
-
- /* Restore my saved variables */
- popl %ebx
-
- /* Get an convinient %ds */
- movw %cs, %ax
- movw %ax, %ds
-
- /* Load the global descriptor table */
- addr32 lgdt gdt_descr - RSTART
-
- /* Turn on protected mode */
- /* Set the PE bit in CR0 */
- movl %cr0,%eax
- orl $(1<<0),%eax
- movl %eax,%cr0
-
- /* flush the prefetch queue, and relaod %cs:%eip */
- data32 ljmp *(protptr - RSTART)
-prot:
- .code32
- /* Reload other segment registers */
- movl $KERNEL_DS, %eax
- movl %eax, %ds
- movl %eax, %es
- movl %eax, %fs
- movl %eax, %gs
- movl %eax, %ss
-
- /* Adjust the boot_stack pointer */
- leal boot_stack@GOTOFF(%ebx), %eax
- addl %eax, %esp
-
- /* Restore the caller saved registers */
- popl %ebp
- popl %edi
- popl %esi
- popl %ebx
- movl $1, %eax
- ret
-
-realptr:
- .word real - RSTART
- .word 0x0000
-protptr:
- .long 0
- .long KERNEL_CS
-
-idt_real:
- .word 0x400 - 1 # idt limit ( 256 entries)
- .word 0, 0 # idt base = 0L
-
-/* _ap_trampoline_start is the entry point for cpus other than the
- * bootstrap cpu. The code between _ap_trampoline_start to
- * _ap_trampoline_protmode is copied to BootCodeStart(0x9000).
- * The ljmp after turning on CR0.PE will jump to the
- * relocatable code which usually resides at 0x10000 + _ap_trampoline_protmode.
- *
- * The trampoline code uses a temporary GDT. The entries of this temporary
- * GDT must match the first few entries of the GDT used by the relocatble
- * memtest code(see 'gdt' sybmol in this file).
- *
- */
- .globl _ap_trampoline_start
- .globl _ap_trampoline_protmode
- .code16
-_ap_trampoline_start:
- lgdt 0x0 /* will be fixed up later, see smp.c:BootAP()*/
- movl %cr0, %eax
- orl $1, %eax
- movl %eax, %cr0
- data32 ljmp $KERNEL_CS, $_ap_trampoline_protmode
-_ap_trampoline_protmode:
- .code32
- movw $KERNEL_DS, %ax
- movw %ax, %ds
- movw %ax, %es
- movw %ax, %fs
- movw %ax, %gs
- movw %ax, %ss
- movl $(LOW_TEST_ADR + _GLOBAL_OFFSET_TABLE_), %esp
- leal boot_stack_top@GOTOFF(%esp), %esp
- pushl $0
- popf
- call startup_32
- /* if we ever return, we'll just loop forever */
- cli
-2: hlt
- jmp 2b
-.data
-zerobss: .long 1
-.previous
-.data
-.balign 16
- .globl mem_info
-mem_info:
- . = . + MEMINFO_SIZE
-.previous
-.bss
-.balign 16
-boot_stack:
- .globl boot_stack
- . = . + 4096
-boot_stack_top:
- .globl boot_stack_top
-.previous
diff --git a/memtest86+_old/init.c b/memtest86+_old/init.c
deleted file mode 100644
index 32bff7f..0000000
--- a/memtest86+_old/init.c
+++ /dev/null
@@ -1,1296 +0,0 @@
-/*
- * MemTest86+ V5 Specific code (GPL V2.0)
- * By Samuel DEMEULEMEESTER, sdemeule@memtest.org
- * http://www.canardpc.com - http://www.memtest.org
- * ------------------------------------------------
- * init.c - MemTest-86 Version 3.6
- *
- * Released under version 2 of the Gnu Public License.
- * By Chris Brady
- */
-
-
-#include "stdin.h"
-#include "stddef.h"
-#include "test.h"
-#include "defs.h"
-#include "config.h"
-#include "cpuid.h"
-#include "smp.h"
-#include "io.h"
-#include "spd.h"
-#include "pci.h"
-#include "controller.h"
-
-extern struct tseq tseq[];
-extern short memsz_mode;
-extern int num_cpus;
-extern int act_cpus;
-extern int found_cpus;
-unsigned long imc_type = 0;
-extern int maxcpus;
-extern char cpu_mask[];
-extern void initialise_cpus();
-
-/* Here we store all of the cpuid data */
-extern struct cpu_ident cpu_id;
-
-int l1_cache=0, l2_cache=0, l3_cache=0;
-int tsc_invariable = 0;
-ulong extclock;
-
-ulong memspeed(ulong src, ulong len, int iter);
-static void cpu_type(void);
-static int cpuspeed(void);
-static void get_cache_size();
-static void cpu_cache_speed();
-void get_cpuid();
-int beepmode;
-extern short dmi_initialized;
-extern int dmi_err_cnts[MAX_DMI_MEMDEVS];
-
-/* Failsafe function */
-/* msec: number of ms to wait - scs: scancode expected to stop */
-/* bits: 0 = extended detection - 1: SMP - 2: Temp Check */
-/* 3: MP SMP - 4-7: RSVD */
-void failsafe(int msec, int scs)
-{
- int i;
- ulong sh, sl, l, h, t;
- unsigned char c;
- volatile char *pp;
-
- for(i=0, pp=(char *)(SCREEN_ADR+(18*160)+(18*2)+1); i<40; i++, pp+=2) {
- *pp = 0x1E;
- }
- for(i=0, pp=(char *)(SCREEN_ADR+(18*160)+(18*2)+1); i<3; i++, pp+=2) {
- *pp = 0x9E;
- }
- for(i=0, pp=(char *)(SCREEN_ADR+(18*160)+(55*2)+1); i<3; i++, pp+=2) {
- *pp = 0x9E;
- }
-
- cprint(18, 18, "==> Press F1 to enter Fail-Safe Mode <==");
-
- if(vv->fail_safe & 2)
- {
- cprint(19, 15, "==> Press F2 to force Multi-Threading (SMP) <==");
- }
-
- /* save the starting time */
- asm __volatile__
- ("rdtsc":"=a" (sl),"=d" (sh));
-
- /* loop for n seconds */
- while (1) {
- asm __volatile__(
- "rdtsc":"=a" (l),"=d" (h));
- asm __volatile__ (
- "subl %2,%0\n\t"
- "sbbl %3,%1"
- :"=a" (l), "=d" (h)
- :"g" (sl), "g" (sh),
- "0" (l), "1" (h));
-
- t = h * ((unsigned)0xffffffff / vv->clks_msec);
- t += (l / vv->clks_msec);
-
- /* Is the time up? */
- if (t >= msec) { break; }
-
- /* Is expected Scan code pressed? */
- c = get_key();
- c &= 0x7f;
-
- /* F1 */
- if(c == scs) { vv->fail_safe |= 1; break; }
-
- /* F2 */
- if(c == scs+1)
- {
- vv->fail_safe ^= 2;
- break;
-
- }
-
- /* F3 */
- if(c == scs+2)
- {
- if(vv->fail_safe & 2) { vv->fail_safe ^= 2; }
- vv->fail_safe |= 8;
- break;
- }
- }
-
- cprint(18, 18, " ");
- cprint(19, 15, " ");
-
- for(i=0, pp=(char *)(SCREEN_ADR+(18*160)+(18*2)+1); i<40; i++, pp+=2) {
- *pp = 0x17;
- }
-}
-
-static void display_init(void)
-{
- int i;
- volatile char *pp;
-
- /* Set HW cursor out of screen boundaries */
- __outb(0x0F, 0x03D4);
- __outb(0xFF, 0x03D5);
-
- __outb(0x0E, 0x03D4);
- __outb(0xFF, 0x03D5);
-
-
- serial_echo_init();
- serial_echo_print("INE_SCROLL;24r"); /* Set scroll area row 7-23 */
- serial_echo_print(""); /* Clear Screen */
- serial_echo_print("");
- serial_echo_print("");
- serial_echo_print("");
-
- /* Clear screen & set background to blue */
- for(i=0, pp=(char *)(SCREEN_ADR); i<80*24; i++) {
- *pp++ = ' ';
- *pp++ = 0x17;
- }
-
- /* Make the name background green */
- for(i=0, pp=(char *)(SCREEN_ADR+1); i<TITLE_WIDTH; i++, pp+=2) {
- *pp = 0x20;
- }
- cprint(0, 0, " Memtest86 5.31b ");
-
- /* Set Blinking "+" */
- for(i=0, pp=(char *)(SCREEN_ADR+1); i<2; i++, pp+=30) {
- *pp = 0xA4;
- }
- cprint(0, 15, "+");
-
- /* Do reverse video for the bottom display line */
- for(i=0, pp=(char *)(SCREEN_ADR+1+(24 * 160)); i<80; i++, pp+=2) {
- *pp = 0x71;
- }
-
- serial_echo_print("");
-}
-
-/*
- * Initialize test, setup screen and find out how much memory there is.
- */
-void init(void)
-{
- int i;
-
- outb(0x8, 0x3f2); /* Kill Floppy Motor */
-
- /* Turn on cache */
- set_cache(1);
-
- /* Setup the display */
- display_init();
-
- cprint(5, 60, "| Time: 0:00:00");
- cprint(1, COL_MID,"Pass %");
- cprint(2, COL_MID,"Test %");
- cprint(3, COL_MID,"Test #");
- cprint(4, COL_MID,"Testing: ");
- cprint(5, COL_MID,"Pattern: ");
- cprint(1, 0, "CLK: (32b Mode)");
- cprint(2, 0, "L1 Cache: Unknown ");
- cprint(3, 0, "L2 Cache: Unknown ");
- cprint(4, 0, "L3 Cache: None ");
- cprint(5, 0, "Memory : ");
- cprint(6, 0, "------------------------------------------------------------------------------");
- cprint(7, 0, "Core#:");
- cprint(8, 0, "State:");
- cprint(9, 0, "Cores: Active / Total (Run: All) | Pass: 0 Errors: 0 ");
- cprint(10, 0, "------------------------------------------------------------------------------");
-
- /*
- for(i=0, pp=(char *)(SCREEN_ADR+(5*160)+(53*2)+1); i<20; i++, pp+=2) {
- *pp = 0x92;
- }
-
- for(i=0, pp=(char *)(SCREEN_ADR+0*160+1); i<80; i++, pp+=2) {
- *pp = 0x47;
- }
- */
-
- cprint(7, 39, "| Chipset : Unknown");
- cprint(8, 39, "| Memory Type : Unknown");
-
- for(i=0; i < 6; i++) {
- cprint(i, COL_MID-2, "| ");
- }
-
- footer();
-
- aprint(5, 10, vv->test_pages);
-
- vv->pass = 0;
- vv->msg_line = 0;
- vv->ecount = 0;
- vv->ecc_ecount = 0;
- vv->testsel = -1;
- vv->msg_line = LINE_SCROLL-1;
- vv->scroll_start = vv->msg_line * 160;
- vv->erri.low_addr.page = 0x7fffffff;
- vv->erri.low_addr.offset = 0xfff;
- vv->erri.high_addr.page = 0;
- vv->erri.high_addr.offset = 0;
- vv->erri.min_bits = 32;
- vv->erri.max_bits = 0;
- vv->erri.min_bits = 32;
- vv->erri.max_bits = 0;
- vv->erri.maxl = 0;
- vv->erri.cor_err = 0;
- vv->erri.ebits = 0;
- vv->erri.hdr_flag = 0;
- vv->erri.tbits = 0;
- for (i=0; tseq[i].msg != NULL; i++) {
- tseq[i].errors = 0;
- }
- if (dmi_initialized) {
- for (i=0; i < MAX_DMI_MEMDEVS; i++){
- if (dmi_err_cnts[i] > 0) {
- dmi_err_cnts[i] = 0;
- }
- }
- }
-
- /* setup beep mode */
- beepmode = BEEP_MODE;
-
- /* Get the cpu and cache information */
- get_cpuid();
-
- /* setup pci */
- pci_init();
-
- get_cache_size();
-
- cpu_type();
-
- cpu_cache_speed();
-
- /* Check fail safe */
- failsafe(5000, 0x3B);
-
- /* Initalize SMP */
- initialise_cpus();
-
- for (i = 0; i <num_cpus; i++) {
- dprint(7, i+7, i%10, 1, 0);
- cprint(8, i+7, "S");
- }
-
- dprint(9, 19, num_cpus, 2, 0);
-
- if((vv->fail_safe & 3) == 2)
- {
- cprint(LINE_CPU,9, "(SMP: Disabled)");
- cprint(LINE_RAM,9, "Running...");
- }
- // dprint(10, 5, found_cpus, 2, 0);
-
- /* Find Memory Specs */
- if(vv->fail_safe & 1)
- {
- cprint(LINE_CPU, COL_SPEC, " **** FAIL SAFE **** FAIL SAFE **** ");
- cprint(LINE_RAM, COL_SPEC, " No detection, same reliability ");
- } else {
- find_controller();
- get_spd_spec();
- if(num_cpus <= 16 && !(vv->fail_safe & 4)) { coretemp(); }
- }
-
- if(vv->check_temp > 0 && !(vv->fail_safe & 4))
- {
- cprint(LINE_CPU, 26, "| CPU Temp");
- cprint(LINE_CPU+1, 26, "| øC");
- }
-
- beep(600);
- beep(1000);
-
- /* Record the start time */
- asm __volatile__ ("rdtsc":"=a" (vv->startl),"=d" (vv->starth));
- vv->snapl = vv->startl;
- vv->snaph = vv->starth;
- if (l1_cache == 0) { l1_cache = 64; }
- if (l2_cache == 0) { l1_cache = 512; }
- vv->printmode=PRINTMODE_ADDRESSES;
- vv->numpatn=0;
-}
-
-/* Get cache sizes for most AMD and Intel CPUs, exceptions for old CPUs are
- * handled in CPU detection */
-void get_cache_size()
-{
- int i, j, n, size;
- unsigned int v[4];
- unsigned char *dp = (unsigned char *)v;
- struct cpuid4_eax *eax = (struct cpuid4_eax *)&v[0];
- struct cpuid4_ebx *ebx = (struct cpuid4_ebx *)&v[1];
- struct cpuid4_ecx *ecx = (struct cpuid4_ecx *)&v[2];
-
- switch(cpu_id.vend_id.char_array[0]) {
- /* AMD Processors */
- case 'A':
- //l1_cache = cpu_id.cache_info.amd.l1_i_sz;
- l1_cache = cpu_id.cache_info.amd.l1_d_sz;
- l2_cache = cpu_id.cache_info.amd.l2_sz;
- l3_cache = cpu_id.cache_info.amd.l3_sz;
- l3_cache *= 512;
- break;
- case 'G':
- /* Intel Processors */
- l1_cache = 0;
- l2_cache = 0;
- l3_cache = 0;
-
- /* Use CPUID(4) if it is available */
- if (cpu_id.max_cpuid > 3) {
-
- /* figure out how many cache leaves */
- n = -1;
- do
- {
- ++n;
- /* Do cpuid(4) loop to find out num_cache_leaves */
- cpuid_count(4, n, &v[0], &v[1], &v[2], &v[3]);
- } while ((eax->ctype) != 0);
-
- /* loop through all of the leaves */
- for (i=0; i<n; i++)
- {
- cpuid_count(4, i, &v[0], &v[1], &v[2], &v[3]);
-
- /* Check for a valid cache type */
- if (eax->ctype == 1 || eax->ctype == 3)
- {
-
- /* Compute the cache size */
- size = (ecx->number_of_sets + 1) *
- (ebx->coherency_line_size + 1) *
- (ebx->physical_line_partition + 1) *
- (ebx->ways_of_associativity + 1);
- size /= 1024;
-
- switch (eax->level)
- {
- case 1:
- l1_cache += size;
- break;
- case 2:
- l2_cache += size;
- break;
- case 3:
- l3_cache += size;
- break;
- }
- }
- }
- return;
- }
-
- /* No CPUID(4) so we use the older CPUID(2) method */
- /* Get number of times to iterate */
- cpuid(2, &v[0], &v[1], &v[2], &v[3]);
- n = v[0] & 0xff;
- for (i=0 ; i<n ; i++) {
- cpuid(2, &v[0], &v[1], &v[2], &v[3]);
-
- /* If bit 31 is set, this is an unknown format */
- for (j=0 ; j<3 ; j++) {
- if (v[j] & (1 << 31)) {
- v[j] = 0;
- }
- }
-
- /* Byte 0 is level count, not a descriptor */
- for (j = 1 ; j < 16 ; j++) {
- switch(dp[j]) {
- case 0x6:
- case 0xa:
- case 0x66:
- l1_cache += 8;
- break;
- case 0x8:
- case 0xc:
- case 0xd:
- case 0x60:
- case 0x67:
- l1_cache += 16;
- break;
- case 0xe:
- l1_cache += 24;
- break;
- case 0x9:
- case 0x2c:
- case 0x30:
- case 0x68:
- l1_cache += 32;
- break;
- case 0x39:
- case 0x3b:
- case 0x41:
- case 0x79:
- l2_cache += 128;
- break;
- case 0x3a:
- l2_cache += 192;
- break;
- case 0x21:
- case 0x3c:
- case 0x3f:
- case 0x42:
- case 0x7a:
- case 0x82:
- l2_cache += 256;
- break;
- case 0x3d:
- l2_cache += 384;
- break;
- case 0x3e:
- case 0x43:
- case 0x7b:
- case 0x7f:
- case 0x80:
- case 0x83:
- case 0x86:
- l2_cache += 512;
- break;
- case 0x44:
- case 0x78:
- case 0x7c:
- case 0x84:
- case 0x87:
- l2_cache += 1024;
- break;
- case 0x45:
- case 0x7d:
- case 0x85:
- l2_cache += 2048;
- break;
- case 0x48:
- l2_cache += 3072;
- break;
- case 0x4e:
- l2_cache += 6144;
- break;
- case 0x23:
- case 0xd0:
- l3_cache += 512;
- break;
- case 0xd1:
- case 0xd6:
- l3_cache += 1024;
- break;
- case 0x25:
- case 0xd2:
- case 0xd7:
- case 0xdc:
- case 0xe2:
- l3_cache += 2048;
- break;
- case 0x29:
- case 0x46:
- case 0x49:
- case 0xd8:
- case 0xdd:
- case 0xe3:
- l3_cache += 4096;
- break;
- case 0x4a:
- l3_cache += 6144;
- break;
- case 0x47:
- case 0x4b:
- case 0xde:
- case 0xe4:
- l3_cache += 8192;
- break;
- case 0x4c:
- case 0xea:
- l3_cache += 12288;
- break;
- case 0x4d:
- l3_cache += 16384;
- break;
- case 0xeb:
- l3_cache += 18432;
- break;
- case 0xec:
- l3_cache += 24576;
- break;
- } /* end switch */
- } /* end for 1-16 */
- } /* end for 0 - n */
- }
-}
-
-/*
- * Find IMC type and set global variables accordingly
- */
-void detect_imc(void)
-{
- // Check AMD IMC
- if(cpu_id.vend_id.char_array[0] == 'A' && cpu_id.vers.bits.family == 0xF)
- {
- switch(cpu_id.vers.bits.extendedFamily)
- {
- case 0x0:
- imc_type = 0x0100; // Old K8
- break;
- case 0x1:
- case 0x2:
- imc_type = 0x0101; // K10 (Family 10h & 11h)
- break;
- case 0x3:
- imc_type = 0x0102; // A-Series APU (Family 12h)
- break;
- case 0x5:
- imc_type = 0x0103; // C- / E- / Z- Series APU (Family 14h)
- break;
- case 0x6:
- imc_type = 0x0104; // FX Series (Family 15h)
- break;
- case 0x7:
- imc_type = 0x0105; // Kabini & related (Family 16h)
- break;
- }
- return;
- }
-
- // Check Intel IMC
- if(cpu_id.vend_id.char_array[0] == 'G' && cpu_id.vers.bits.family == 6 && cpu_id.vers.bits.extendedModel)
- {
- switch(cpu_id.vers.bits.model)
- {
- case 0x5:
- if(cpu_id.vers.bits.extendedModel == 2) { imc_type = 0x0003; } // Core i3/i5 1st Gen 45 nm (NHM)
- if(cpu_id.vers.bits.extendedModel == 3) { vv->fail_safe |= 4; } // Atom Clover Trail
- if(cpu_id.vers.bits.extendedModel == 4) { imc_type = 0x0007; } // HSW-ULT
- break;
- case 0x6:
- if(cpu_id.vers.bits.extendedModel == 3) {
- imc_type = 0x0009; // Atom Cedar Trail
- vv->fail_safe |= 4; // Disable Core temp
- }
- break;
- case 0xA:
- switch(cpu_id.vers.bits.extendedModel)
- {
- case 0x1:
- imc_type = 0x0001; // Core i7 1st Gen 45 nm (NHME)
- break;
- case 0x2:
- imc_type = 0x0004; // Core 2nd Gen (SNB)
- break;
- case 0x3:
- imc_type = 0x0006; // Core 3nd Gen (IVB)
- break;
- }
- break;
- case 0xC:
- switch(cpu_id.vers.bits.extendedModel)
- {
- case 0x1:
- if(cpu_id.vers.bits.stepping > 9) { imc_type = 0x0008; } // Atom PineView
- vv->fail_safe |= 4; // Disable Core temp
- break;
- case 0x2:
- imc_type = 0x0002; // Core i7 1st Gen 32 nm (WMR)
- break;
- case 0x3:
- imc_type = 0x0007; // Core 4nd Gen (HSW)
- break;
- }
- break;
- case 0xD:
- imc_type = 0x0005; // SNB-E
- break;
- case 0xE:
- imc_type = 0x0001; // Core i7 1st Gen 45 nm (NHM)
- break;
- }
-
- if(imc_type) { tsc_invariable = 1; }
- return;
- }
-}
-
-void smp_default_mode(void)
-{
- int i, result;
- char *cpupsn = cpu_id.brand_id.char_array;
- char *disabledcpu[] = { "Opteron", "Xeon", "EPYC", "Genuine Intel" };
-
- for(i = 0; i < 3; i++)
- {
- result = mt86_strstr(cpupsn , disabledcpu[i]);
- if(result != -1) { vv->fail_safe |= 0b10; }
- }
-
- // For 5.01 release, SMP disabled by defualt by config.h toggle
- if(CONSERVATIVE_SMP) { vv->fail_safe |= 0b10; }
-
-}
-
-/*
- * Find CPU type
- */
-void cpu_type(void)
-{
- /* If we can get a brand string use it, and we are done */
- if (cpu_id.max_xcpuid >= 0x80000004) {
- cprint(0, COL_MID, cpu_id.brand_id.char_array);
- //If we have a brand string, maybe we have an IMC. Check that.
- detect_imc();
- smp_default_mode();
- return;
- }
-
- /* The brand string is not available so we need to figure out
- * CPU what we have */
- switch(cpu_id.vend_id.char_array[0]) {
- /* AMD Processors */
- case 'A':
- switch(cpu_id.vers.bits.family) {
- case 4:
- switch(cpu_id.vers.bits.model) {
- case 3:
- cprint(0, COL_MID, "AMD 486DX2");
- break;
- case 7:
- cprint(0, COL_MID, "AMD 486DX2-WB");
- break;
- case 8:
- cprint(0, COL_MID, "AMD 486DX4");
- break;
- case 9:
- cprint(0, COL_MID, "AMD 486DX4-WB");
- break;
- case 14:
- cprint(0, COL_MID, "AMD 5x86-WT");
- break;
- case 15:
- cprint(0, COL_MID, "AMD 5x86-WB");
- break;
- }
- /* Since we can't get CPU speed or cache info return */
- return;
- case 5:
- switch(cpu_id.vers.bits.model) {
- case 0:
- case 1:
- case 2:
- case 3:
- cprint(0, COL_MID, "AMD K5");
- l1_cache = 8;
- break;
- case 6:
- case 7:
- cprint(0, COL_MID, "AMD K6");
- break;
- case 8:
- cprint(0, COL_MID, "AMD K6-2");
- break;
- case 9:
- cprint(0, COL_MID, "AMD K6-III");
- break;
- case 13:
- cprint(0, COL_MID, "AMD K6-III+");
- break;
- }
- break;
- case 6:
-
- switch(cpu_id.vers.bits.model) {
- case 1:
- cprint(0, COL_MID, "AMD Athlon (0.25)");
- break;
- case 2:
- case 4:
- cprint(0, COL_MID, "AMD Athlon (0.18)");
- break;
- case 6:
- if (l2_cache == 64) {
- cprint(0, COL_MID, "AMD Duron (0.18)");
- } else {
- cprint(0, COL_MID, "Athlon XP (0.18)");
- }
- break;
- case 8:
- case 10:
- if (l2_cache == 64) {
- cprint(0, COL_MID, "AMD Duron (0.13)");
- } else {
- cprint(0, COL_MID, "Athlon XP (0.13)");
- }
- break;
- case 3:
- case 7:
- cprint(0, COL_MID, "AMD Duron");
- /* Duron stepping 0 CPUID for L2 is broken */
- /* (AMD errata T13)*/
- if (cpu_id.vers.bits.stepping == 0) { /* stepping 0 */
- /* Hard code the right L2 size */
- l2_cache = 64;
- } else {
- }
- break;
- }
- break;
-
- /* All AMD family values >= 10 have the Brand ID
- * feature so we don't need to find the CPU type */
- }
- break;
-
- /* Intel or Transmeta Processors */
- case 'G':
- if ( cpu_id.vend_id.char_array[7] == 'T' ) { /* GenuineTMx86 */
- if (cpu_id.vers.bits.family == 5) {
- cprint(0, COL_MID, "TM 5x00");
- } else if (cpu_id.vers.bits.family == 15) {
- cprint(0, COL_MID, "TM 8x00");
- }
- l1_cache = cpu_id.cache_info.ch[3] + cpu_id.cache_info.ch[7];
- l2_cache = (cpu_id.cache_info.ch[11]*256) + cpu_id.cache_info.ch[10];
- } else { /* GenuineIntel */
- if (cpu_id.vers.bits.family == 4) {
- switch(cpu_id.vers.bits.model) {
- case 0:
- case 1:
- cprint(0, COL_MID, "Intel 486DX");
- break;
- case 2:
- cprint(0, COL_MID, "Intel 486SX");
- break;
- case 3:
- cprint(0, COL_MID, "Intel 486DX2");
- break;
- case 4:
- cprint(0, COL_MID, "Intel 486SL");
- break;
- case 5:
- cprint(0, COL_MID, "Intel 486SX2");
- break;
- case 7:
- cprint(0, COL_MID, "Intel 486DX2-WB");
- break;
- case 8:
- cprint(0, COL_MID, "Intel 486DX4");
- break;
- case 9:
- cprint(0, COL_MID, "Intel 486DX4-WB");
- break;
- }
- /* Since we can't get CPU speed or cache info return */
- return;
- }
-
-
- switch(cpu_id.vers.bits.family) {
- case 5:
- switch(cpu_id.vers.bits.model) {
- case 0:
- case 1:
- case 2:
- case 3:
- case 7:
- cprint(0, COL_MID, "Pentium");
- if (l1_cache == 0) {
- l1_cache = 8;
- }
- break;
- case 4:
- case 8:
- cprint(0, COL_MID, "Pentium-MMX");
- if (l1_cache == 0) {
- l1_cache = 16;
- }
- break;
- }
- break;
- case 6:
- switch(cpu_id.vers.bits.model) {
- case 0:
- case 1:
- cprint(0, COL_MID, "Pentium Pro");
- break;
- case 3:
- case 4:
- cprint(0, COL_MID, "Pentium II");
- break;
- case 5:
- if (l2_cache == 0) {
- cprint(0, COL_MID, "Celeron");
- } else {
- cprint(0, COL_MID, "Pentium II");
- }
- break;
- case 6:
- if (l2_cache == 128) {
- cprint(0, COL_MID, "Celeron");
- } else {
- cprint(0, COL_MID, "Pentium II");
- }
- }
- break;
- case 7:
- case 8:
- case 11:
- if (l2_cache == 128) {
- cprint(0, COL_MID, "Celeron");
- } else {
- cprint(0, COL_MID, "Pentium III");
- }
- break;
- case 9:
- if (l2_cache == 512) {
- cprint(0, COL_MID, "Celeron M (0.13)");
- } else {
- cprint(0, COL_MID, "Pentium M (0.13)");
- }
- break;
- case 10:
- cprint(0, COL_MID, "Pentium III Xeon");
- break;
- case 12:
- l1_cache = 24;
- cprint(0, COL_MID, "Atom (0.045)");
- break;
- case 13:
- if (l2_cache == 1024) {
- cprint(0, COL_MID, "Celeron M (0.09)");
- } else {
- cprint(0, COL_MID, "Pentium M (0.09)");
- }
- break;
- case 14:
- cprint(0, COL_MID, "Intel Core");
- break;
- case 15:
- if (l2_cache == 1024) {
- cprint(0, COL_MID, "Pentium E");
- } else {
- cprint(0, COL_MID, "Intel Core 2");
- }
- break;
- }
- break;
- case 15:
- switch(cpu_id.vers.bits.model) {
- case 0:
- case 1:
- case 2:
- if (l2_cache == 128) {
- cprint(0, COL_MID, "Celeron");
- } else {
- cprint(0, COL_MID, "Pentium 4");
- }
- break;
- case 3:
- case 4:
- if (l2_cache == 256) {
- cprint(0, COL_MID, "Celeron (0.09)");
- } else {
- cprint(0, COL_MID, "Pentium 4 (0.09)");
- }
- break;
- case 6:
- cprint(0, COL_MID, "Pentium D (65nm)");
- break;
- default:
- cprint(0, COL_MID, "Unknown Intel");
- break;
- break;
- }
-
- }
- break;
-
- /* VIA/Cyrix/Centaur Processors with CPUID */
- case 'C':
- if ( cpu_id.vend_id.char_array[1] == 'e' ) { /* CentaurHauls */
- l1_cache = cpu_id.cache_info.ch[3] + cpu_id.cache_info.ch[7];
- l2_cache = cpu_id.cache_info.ch[11];
- switch(cpu_id.vers.bits.family){
- case 5:
- cprint(0, COL_MID, "Centaur 5x86");
- break;
- case 6: // VIA C3
- switch(cpu_id.vers.bits.model){
- default:
- if (cpu_id.vers.bits.stepping < 8) {
- cprint(0, COL_MID, "VIA C3 Samuel2");
- } else {
- cprint(0, COL_MID, "VIA C3 Eden");
- }
- break;
- case 10:
- cprint(0, COL_MID, "VIA C7 (C5J)");
- l1_cache = 64;
- l2_cache = 128;
- break;
- case 13:
- cprint(0, COL_MID, "VIA C7 (C5R)");
- l1_cache = 64;
- l2_cache = 128;
- break;
- case 15:
- cprint(0, COL_MID, "VIA Isaiah (CN)");
- l1_cache = 64;
- l2_cache = 128;
- break;
- }
- }
- } else { /* CyrixInstead */
- switch(cpu_id.vers.bits.family) {
- case 5:
- switch(cpu_id.vers.bits.model) {
- case 0:
- cprint(0, COL_MID, "Cyrix 6x86MX/MII");
- break;
- case 4:
- cprint(0, COL_MID, "Cyrix GXm");
- break;
- }
- return;
-
- case 6: // VIA C3
- switch(cpu_id.vers.bits.model) {
- case 6:
- cprint(0, COL_MID, "Cyrix III");
- break;
- case 7:
- if (cpu_id.vers.bits.stepping < 8) {
- cprint(0, COL_MID, "VIA C3 Samuel2");
- } else {
- cprint(0, COL_MID, "VIA C3 Ezra-T");
- }
- break;
- case 8:
- cprint(0, COL_MID, "VIA C3 Ezra-T");
- break;
- case 9:
- cprint(0, COL_MID, "VIA C3 Nehemiah");
- break;
- }
- // L1 = L2 = 64 KB from Cyrix III to Nehemiah
- l1_cache = 64;
- l2_cache = 64;
- break;
- }
- }
- break;
- /* Unknown processor */
- default:
- /* Make a guess at the family */
- switch(cpu_id.vers.bits.family) {
- case 5:
- cprint(0, COL_MID, "586");
- case 6:
- cprint(0, COL_MID, "686");
- default:
- cprint(0, COL_MID, "Unidentified Processor");
- }
- }
-}
-
-#define STEST_ADDR 0x100000 /* Measure memory speed starting at 1MB */
-
-/* Measure and display CPU and cache sizes and speeds */
-void cpu_cache_speed()
-{
- int i, off = 4;
- ulong speed;
-
-
- /* Print CPU speed */
- if ((speed = cpuspeed()) > 0) {
- if (speed < 999499) {
- speed += 50; /* for rounding */
- cprint(1, off, " . MHz");
- dprint(1, off+1, speed/1000, 3, 1);
- dprint(1, off+5, (speed/100)%10, 1, 0);
- } else {
- speed += 500; /* for rounding */
- cprint(1, off, " MHz");
- dprint(1, off, speed/1000, 5, 0);
- }
- extclock = speed;
- }
-
- /* Print out L1 cache info */
- /* To measure L1 cache speed we use a block size that is 1/4th */
- /* of the total L1 cache size since half of it is for instructions */
- if (l1_cache) {
- cprint(2, 0, "L1 Cache: K ");
- dprint(2, 11, l1_cache, 3, 0);
- if ((speed=memspeed(STEST_ADDR, (l1_cache/2)*1024, 200))) {
- cprint(2, 16, " MB/s");
- dprint(2, 16, speed, 6, 0);
- }
- }
-
- /* Print out L2 cache info */
- /* We measure the L2 cache speed by using a block size that is */
- /* the size of the L1 cache. We have to fudge if the L1 */
- /* cache is bigger than the L2 */
- if (l2_cache) {
- cprint(3, 0, "L2 Cache: K ");
- dprint(3, 10, l2_cache, 4, 0);
-
- if (l2_cache < l1_cache) {
- i = l1_cache / 4 + l2_cache / 4;
- } else {
- i = l1_cache;
- }
- if ((speed=memspeed(STEST_ADDR, i*1024, 200))) {
- cprint(3, 16, " MB/s");
- dprint(3, 16, speed, 6, 0);
- }
- }
- /* Print out L3 cache info */
- /* We measure the L3 cache speed by using a block size that is */
- /* 2X the size of the L2 cache. */
-
- if (l3_cache)
- {
- cprint(4, 0, "L3 Cache: K ");
- aprint(4, 10, l3_cache/4);
- //dprint(4, 10, l3_cache, 4, 0);
-
- i = l2_cache*2;
-
- if ((speed=memspeed(STEST_ADDR, i*1024, 150))) {
- cprint(4, 16, " MB/s");
- dprint(4, 16, speed, 6, 0);
- }
- }
-}
-
-/* Measure and display memory speed, multitasked using all CPUs */
-ulong spd[MAX_CPUS];
-void get_mem_speed(int me, int ncpus)
-{
- int i;
- ulong speed=0;
-
- /* Determine memory speed. To find the memory speed we use
- * A block size that is the sum of all the L1, L2 & L3 caches
- * in all cpus * 6 */
- i = (l3_cache + l2_cache + l1_cache) * 4;
-
- /* Make sure that we have enough memory to do the test */
- /* If not use all we have */
- if ((1 + (i * 2)) > (vv->plim_upper << 2)) {
- i = ((vv->plim_upper <<2) - 1) / 2;
- }
-
- speed = memspeed(STEST_ADDR, i * 1024, 100);
- cprint(5, 16, " MB/s");
- dprint(5, 16, speed, 6, 0);
-
-}
-
-/* #define TICKS 5 * 11832 (count = 6376)*/
-/* #define TICKS (65536 - 12752) */
-#define TICKS 59659 /* 50 ms */
-
-/* Returns CPU clock in khz */
-ulong stlow, sthigh;
-static int cpuspeed(void)
-{
- int loops;
- ulong end_low, end_high;
-
- if (cpu_id.fid.bits.rdtsc == 0 ) {
- return(-1);
- }
-
- /* Setup timer */
- outb((inb(0x61) & ~0x02) | 0x01, 0x61);
- outb(0xb0, 0x43);
- outb(TICKS & 0xff, 0x42);
- outb(TICKS >> 8, 0x42);
-
- asm __volatile__ ("rdtsc":"=a" (stlow),"=d" (sthigh));
-
- loops = 0;
- do {
- loops++;
- } while ((inb(0x61) & 0x20) == 0);
-
- asm __volatile__ (
- "rdtsc\n\t" \
- "subl stlow,%%eax\n\t" \
- "sbbl sthigh,%%edx\n\t" \
- :"=a" (end_low), "=d" (end_high)
- );
-
- /* Make sure we have a credible result */
- if (loops < 4 || end_low < 50000) {
- return(-1);
- }
- vv->clks_msec = end_low/50;
-
- if (tsc_invariable) end_low = correct_tsc(end_low);
-
- return(vv->clks_msec);
-}
-
-/* Measure cache speed by copying a block of memory. */
-/* Returned value is kbytes/second */
-ulong memspeed(ulong src, ulong len, int iter)
-{
- int i;
- ulong dst, wlen;
- ulong st_low, st_high;
- ulong end_low, end_high;
- ulong cal_low, cal_high;
-
- if (cpu_id.fid.bits.rdtsc == 0 ) {
- return(-1);
- }
- if (len == 0) return(-2);
-
- dst = src + len;
- wlen = len / 4; /* Length is bytes */
-
- /* Calibrate the overhead with a zero word copy */
- asm __volatile__ ("rdtsc":"=a" (st_low),"=d" (st_high));
- for (i=0; i<iter; i++) {
- asm __volatile__ (
- "movl %0,%%esi\n\t" \
- "movl %1,%%edi\n\t" \
- "movl %2,%%ecx\n\t" \
- "cld\n\t" \
- "rep\n\t" \
- "movsl\n\t" \
- :: "g" (src), "g" (dst), "g" (0)
- : "esi", "edi", "ecx"
- );
- }
- asm __volatile__ ("rdtsc":"=a" (cal_low),"=d" (cal_high));
-
- /* Compute the overhead time */
- asm __volatile__ (
- "subl %2,%0\n\t"
- "sbbl %3,%1"
- :"=a" (cal_low), "=d" (cal_high)
- :"g" (st_low), "g" (st_high),
- "0" (cal_low), "1" (cal_high)
- );
-
-
- /* Now measure the speed */
- /* Do the first copy to prime the cache */
- asm __volatile__ (
- "movl %0,%%esi\n\t" \
- "movl %1,%%edi\n\t" \
- "movl %2,%%ecx\n\t" \
- "cld\n\t" \
- "rep\n\t" \
- "movsl\n\t" \
- :: "g" (src), "g" (dst), "g" (wlen)
- : "esi", "edi", "ecx"
- );
- asm __volatile__ ("rdtsc":"=a" (st_low),"=d" (st_high));
- for (i=0; i<iter; i++) {
- asm __volatile__ (
- "movl %0,%%esi\n\t" \
- "movl %1,%%edi\n\t" \
- "movl %2,%%ecx\n\t" \
- "cld\n\t" \
- "rep\n\t" \
- "movsl\n\t" \
- :: "g" (src), "g" (dst), "g" (wlen)
- : "esi", "edi", "ecx"
- );
- }
- asm __volatile__ ("rdtsc":"=a" (end_low),"=d" (end_high));
-
- /* Compute the elapsed time */
- asm __volatile__ (
- "subl %2,%0\n\t"
- "sbbl %3,%1"
- :"=a" (end_low), "=d" (end_high)
- :"g" (st_low), "g" (st_high),
- "0" (end_low), "1" (end_high)
- );
- /* Subtract the overhead time */
- asm __volatile__ (
- "subl %2,%0\n\t"
- "sbbl %3,%1"
- :"=a" (end_low), "=d" (end_high)
- :"g" (cal_low), "g" (cal_high),
- "0" (end_low), "1" (end_high)
- );
-
- /* Make sure that the result fits in 32 bits */
- //hprint(11,40,end_high);
- if (end_high) {
- return(-3);
- }
- end_low /= 2;
-
- /* Convert to clocks/KB */
- end_low /= len;
- end_low *= 1024;
- end_low /= iter;
- if (end_low == 0) {
- return(-4);
- }
-
- /* Convert to kbytes/sec */
-
- if (tsc_invariable) end_low = correct_tsc(end_low);
-
- return((vv->clks_msec)/end_low);
-}
-
-#define rdmsr(msr,val1,val2) \
- __asm__ __volatile__("rdmsr" \
- : "=a" (val1), "=d" (val2) \
- : "c" (msr))
-
-
-ulong correct_tsc(ulong el_org)
-{
- float coef_now, coef_max;
- int msr_lo, msr_hi, is_xe;
-
- rdmsr(0x198, msr_lo, msr_hi);
- is_xe = (msr_lo >> 31) & 0x1;
-
- if(is_xe){
- rdmsr(0x198, msr_lo, msr_hi);
- coef_max = ((msr_hi >> 8) & 0x1F);
- if ((msr_hi >> 14) & 0x1) { coef_max = coef_max + 0.5f; }
- } else {
- rdmsr(0x17, msr_lo, msr_hi);
- coef_max = ((msr_lo >> 8) & 0x1F);
- if ((msr_lo >> 14) & 0x1) { coef_max = coef_max + 0.5f; }
- }
-
- if(cpu_id.fid.bits.eist) {
- rdmsr(0x198, msr_lo, msr_hi);
- coef_now = ((msr_lo >> 8) & 0x1F);
- if ((msr_lo >> 14) & 0x1) { coef_now = coef_now + 0.5f; }
- } else {
- rdmsr(0x2A, msr_lo, msr_hi);
- coef_now = (msr_lo >> 22) & 0x1F;
- }
- if(coef_max && coef_now) {
- el_org = (ulong)(el_org * coef_now / coef_max);
- }
- return el_org;
-}
-
diff --git a/memtest86+_old/io.h b/memtest86+_old/io.h
deleted file mode 100644
index ae70dcf..0000000
--- a/memtest86+_old/io.h
+++ /dev/null
@@ -1,133 +0,0 @@
-#ifndef _ASM_IO_H
-#define _ASM_IO_H
-
-/*
- * This file contains the definitions for the x86 IO instructions
- * inb/inw/inl/outb/outw/outl and the "string versions" of the same
- * (insb/insw/insl/outsb/outsw/outsl). You can also use "pausing"
- * versions of the single-IO instructions (inb_p/inw_p/..).
- *
- * This file is not meant to be obfuscating: it's just complicated
- * to (a) handle it all in a way that makes gcc able to optimize it
- * as well as possible and (b) trying to avoid writing the same thing
- * over and over again with slight variations and possibly making a
- * mistake somewhere.
- */
-
-#ifdef SLOW_IO_BY_JUMPING
-#define __SLOW_DOWN_IO __asm__ __volatile__("jmp 1f\n1:\tjmp 1f\n1:")
-#else
-#define __SLOW_DOWN_IO __asm__ __volatile__("outb %al,$0x80")
-#endif
-
-#ifdef REALLY_SLOW_IO
-#define SLOW_DOWN_IO { __SLOW_DOWN_IO; __SLOW_DOWN_IO; __SLOW_DOWN_IO; __SLOW_DOWN_IO; }
-#else
-#define SLOW_DOWN_IO __SLOW_DOWN_IO
-#endif
-
-/*
- * Talk about misusing macros..
- */
-
-#define __OUT1(s,x) \
-static inline void __out##s(unsigned x value, unsigned short port) {
-
-#define __OUT2(s,s1,s2) \
-__asm__ __volatile__ ("out" #s " %" s1 "0,%" s2 "1"
-
-#define __OUT(s,s1,x) \
-__OUT1(s,x) __OUT2(s,s1,"w") : : "a" (value), "d" (port)); } \
-__OUT1(s##c,x) __OUT2(s,s1,"") : : "a" (value), "id" (port)); } \
-__OUT1(s##_p,x) __OUT2(s,s1,"w") : : "a" (value), "d" (port)); SLOW_DOWN_IO; } \
-__OUT1(s##c_p,x) __OUT2(s,s1,"") : : "a" (value), "id" (port)); SLOW_DOWN_IO; }
-
-#define __IN1(s) \
-static inline RETURN_TYPE __in##s(unsigned short port) { RETURN_TYPE _v;
-
-#define __IN2(s,s1,s2) \
-__asm__ __volatile__ ("in" #s " %" s2 "1,%" s1 "0"
-
-#define __IN(s,s1,i...) \
-__IN1(s) __IN2(s,s1,"w") : "=a" (_v) : "d" (port) ,##i ); return _v; } \
-__IN1(s##c) __IN2(s,s1,"") : "=a" (_v) : "id" (port) ,##i ); return _v; } \
-__IN1(s##_p) __IN2(s,s1,"w") : "=a" (_v) : "d" (port) ,##i ); SLOW_DOWN_IO; return _v; } \
-__IN1(s##c_p) __IN2(s,s1,"") : "=a" (_v) : "id" (port) ,##i ); SLOW_DOWN_IO; return _v; }
-
-#define __OUTS(s) \
-static inline void outs##s(unsigned short port, const void * addr, unsigned long count) \
-{ __asm__ __volatile__ ("cld ; rep ; outs" #s \
-: "=S" (addr), "=c" (count) : "d" (port),"0" (addr),"1" (count)); }
-
-#define RETURN_TYPE unsigned char
-/* __IN(b,"b","0" (0)) */
-__IN(b,"")
-#undef RETURN_TYPE
-#define RETURN_TYPE unsigned short
-/* __IN(w,"w","0" (0)) */
-__IN(w,"")
-#undef RETURN_TYPE
-#define RETURN_TYPE unsigned int
-__IN(l,"")
-#undef RETURN_TYPE
-
-__OUT(b,"b",char)
-__OUT(w,"w",short)
-__OUT(l,,int)
-
-__OUTS(b)
-__OUTS(w)
-__OUTS(l)
-
-/*
- * Note that due to the way __builtin_constant_p() works, you
- * - can't use it inside a inline function (it will never be true)
- * - you don't have to worry about side effects within the __builtin..
- */
-#define outb(val,port) \
-((__builtin_constant_p((port)) && (port) < 256) ? \
- __outbc((val),(port)) : \
- __outb((val),(port)))
-
-#define inb(port) \
-((__builtin_constant_p((port)) && (port) < 256) ? \
- __inbc(port) : \
- __inb(port))
-
-
-#define outw(val,port) \
-((__builtin_constant_p((port)) && (port) < 256) ? \
- __outwc((val),(port)) : \
- __outw((val),(port)))
-
-#define inw(port) \
-((__builtin_constant_p((port)) && (port) < 256) ? \
- __inwc(port) : \
- __inw(port))
-
-
-#define outl(val,port) \
-((__builtin_constant_p((port)) && (port) < 256) ? \
- __outlc((val),(port)) : \
- __outl((val),(port)))
-
-#define inl(port) \
-((__builtin_constant_p((port)) && (port) < 256) ? \
- __inlc(port) : \
- __inl(port))
-#endif
-
-static __inline void
-outb_p (unsigned char __value, unsigned short int __port )
-{
- __asm__ __volatile__ ("outb %b0,%w1\noutb %%al,$0x80": :"a" (__value),
- "Nd" (__port));
-}
-
-static __inline unsigned char
-inb_p (unsigned short int __port)
-{
- unsigned char _v;
- __asm__ __volatile__ ("inb %w1,%0\noutb %%al,$0x80":"=a" (_v):"Nd" (__port));
- return _v;
-} \ No newline at end of file
diff --git a/memtest86+_old/jedec_id.h b/memtest86+_old/jedec_id.h
deleted file mode 100644
index 240876c..0000000
--- a/memtest86+_old/jedec_id.h
+++ /dev/null
@@ -1,985 +0,0 @@
-/* MemTest86+ V5 Specific code (GPL V2.0)
- * By Samuel DEMEULEMEESTER, sdemeule@memtest.org
- * http://www.canardpc.com - http://www.memtest.org
- * ------------------------------------------------
- * Based on JEDEC JEP106-AG - January 2012
- */
-
-struct spd_jedec_manufacturer {
- unsigned cont_code;
- unsigned hex_byte;
- char *name;
-};
-
-static struct spd_jedec_manufacturer jep106[] =
- {
- { 0, 0x01, "AMD"},
- { 0, 0x02, "AMI"},
- { 0, 0x83, "Fairchild"},
- { 0, 0x04, "Fujitsu"},
- // { 0, 0x85, "GTE"},
- { 0, 0x86, "Harris"},
- { 0, 0x07, "Hitachi"},
- { 0, 0x08, "Inmos"},
- { 0, 0x89, "Intel"},
- { 0, 0x8a, "I.T.T."},
- { 0, 0x0b, "Intersil"},
- { 0, 0x8c, "Monolithic Memories"},
- { 0, 0x0d, "Mostek"},
- { 0, 0x0e, "Freescale"},
- { 0, 0x8f, "National"},
- { 0, 0x10, "NEC"},
- { 0, 0x91, "RCA"},
- { 0, 0x92, "Raytheon"},
- { 0, 0x13, "Conexant"},
- // { 0, 0x94, "Seeq"},
- { 0, 0x15, "NXP"},
- { 0, 0x16, "Synertek"},
- { 0, 0x97, "Texas Instruments"},
- { 0, 0x98, "Toshiba"},
- { 0, 0x19, "Xicor"},
- { 0, 0x1a, "Zilog"},
- // { 0, 0x9b, "Eurotechnique"},
- { 0, 0x1c, "Mitsubishi"},
- { 0, 0x9d, "Lucent (AT&T)"},
- // { 0, 0x9e, "Exel"},
- { 0, 0x1f, "Atmel"},
- { 0, 0x20, "SGS/Thomson"},
- // { 0, 0xa1, "Lattice Semi."},
- { 0, 0xa2, "NCR"},
- // { 0, 0x23, "Wafer Scale Integration"},
- { 0, 0xa4, "IBM"},
- { 0, 0x25, "Tristar"},
- // { 0, 0x26, "Visic"},
- { 0, 0xa7, "Intl. CMOS Technology"},
- // { 0, 0xa8, "SSSI"},
- { 0, 0x29, "MicrochipTechnology"},
- // { 0, 0x2a, "Ricoh"},
- // { 0, 0xab, "VLSI"},
- { 0, 0x2c, "Micron"},
- { 0, 0xad, "Hynix"},
- { 0, 0xae, "OKI Semiconductor"},
- // { 0, 0x2f, "ACTEL"},
- { 0, 0xb0, "Sharp"},
- { 0, 0x31, "Catalyst"},
- { 0, 0x32, "Panasonic"},
- { 0, 0xb3, "IDT"},
- { 0, 0x34, "Cypress"},
- { 0, 0xb5, "DEC"},
- { 0, 0xb6, "LSI Logic"},
- // { 0, 0x37, "Zarlink (Plessey)"},
- { 0, 0x38, "UTMC"},
- // { 0, 0xb9, "Thinking Machine"},
- { 0, 0xba, "Thomson CSF"},
- // { 0, 0x3b, "Integrated CMOS (Vertex)"},
- // { 0, 0xbc, "Honeywell"},
- { 0, 0x3d, "Tektronix"},
- // { 0, 0x3e, "Oracle"},
- // { 0, 0xbf, "Silicon Storage Technology"},
- { 0, 0x40, "ProMos/Mosel"},
- { 0, 0xc1, "Infineon"},
- // { 0, 0xc2, "Macronix"},
- { 0, 0x43, "Xerox"},
- // { 0, 0xc4, "Plus Logic"},
- { 0, 0x45, "SanDisk"},
- // { 0, 0x46, "Elan Circuit Tech."},
- // { 0, 0xc7, "European Silicon Str."},
- { 0, 0xc8, "Apple Computer"},
- { 0, 0x49, "Xilinx"},
- { 0, 0x4a, "Compaq"},
- // { 0, 0xcb, "Protocol Engines"},
- // { 0, 0x4c, "SCI"},
- { 0, 0xcd, "Seiko Instruments"},
- { 0, 0xce, "Samsung"},
- // { 0, 0x4f, "I3 Design System"},
- // { 0, 0xd0, "Klic"},
- // { 0, 0x51, "Crosspoint Solutions"},
- // { 0, 0x52, "Alliance Semiconductor"},
- // { 0, 0xd3, "Tandem"},
- { 0, 0x54, "Hewlett-Packard"},
- { 0, 0xd5, "Integrated Silicon Solutions"},
- // { 0, 0xd6, "Brooktree"},
- // { 0, 0x57, "New Media"},
- // { 0, 0x58, "MHS Electronic"},
- // { 0, 0xd9, "Performance Semi."},
- { 0, 0xda, "Winbond Electronic"},
- // { 0, 0x5b, "Kawasaki Steel"},
- // { 0, 0xdc, "Bright Micro"},
- // { 0, 0x5d, "TECMAR"},
- { 0, 0x5e, "Exar"},
- // { 0, 0xdf, "PCMCIA"},
- { 0, 0xe0, "LG"},
- // { 0, 0x61, "Northern Telecom"},
- { 0, 0x62, "Sanyo"},
- // { 0, 0xe3, "Array Microsystems"},
- // { 0, 0x64, "Crystal Semiconductor"},
- { 0, 0xe5, "Analog Devices"},
- // { 0, 0xe6, "PMC-Sierra"},
- // { 0, 0x67, "Asparix"},
- // { 0, 0x68, "Convex Computer"},
- // { 0, 0xe9, "Quality Semiconductor"},
- // { 0, 0xea, "Nimbus Technology"},
- // { 0, 0x6b, "Transwitch"},
- // { 0, 0xec, "Micronas (ITT Intermetall)"},
- { 0, 0x6d, "Cannon"},
- // { 0, 0x6e, "Altera"},
- // { 0, 0xef, "NEXCOM"},
- // { 0, 0x70, "QUALCOMM"},
- { 0, 0xf1, "Sony"},
- // { 0, 0xf2, "Cray Research"},
- // { 0, 0x73, "AMS(Austria Micro)"},
- // { 0, 0xf4, "Vitesse"},
- // { 0, 0x75, "Aster Electronics"},
- // { 0, 0x76, "Bay Networks (Synoptic)"},
- // { 0, 0xf7, "Zentrum/ZMD"},
- // { 0, 0xf8, "TRW"},
- // { 0, 0x79, "Thesys"},
- // { 0, 0x7a, "Solbourne Computer"},
- { 0, 0xfb, "Allied-Signal"},
- { 0, 0x7c, "Dialog"},
- { 0, 0xfd, "Media Vision"},
- // { 0, 0xfe, "Numonyx"},
- { 1, 0x01, "Cirrus Logic"},
- { 1, 0x02, "National Instruments"},
- // { 1, 0x83, "ILC Data Device"},
- // { 1, 0x04, "Alcatel Mietec"},
- // { 1, 0x85, "Micro Linear"},
- // { 1, 0x86, "Univ. of NC"},
- // { 1, 0x07, "JTAG Technologies"},
- // { 1, 0x08, "BAE Systems (Loral)"},
- // { 1, 0x89, "Nchip"},
- // { 1, 0x8a, "Galileo Tech"},
- // { 1, 0x0b, "Bestlink Systems"},
- // { 1, 0x8c, "Graychip"},
- // { 1, 0x0d, "GENNUM"},
- // { 1, 0x0e, "VideoLogic"},
- // { 1, 0x8f, "Robert Bosch"},
- // { 1, 0x10, "Chip Express"},
- { 1, 0x91, "DATARAM"},
- // { 1, 0x92, "United Microelectronics Corp."},
- // { 1, 0x13, "TCSI"},
- { 1, 0x94, "Smart Modular"},
- // { 1, 0x15, "Hughes Aircraft"},
- // { 1, 0x16, "Lanstar Semiconductor"},
- // { 1, 0x97, "Qlogic"},
- { 1, 0x98, "Kingston"},
- // { 1, 0x19, "Music Semi"},
- // { 1, 0x1a, "Ericsson Components"},
- // { 1, 0x9b, "SpaSE"},
- // { 1, 0x1c, "Eon Silicon Devices"},
- // { 1, 0x9d, "Programmable Micro Corp"},
- // { 1, 0x9e, "DoD"},
- // { 1, 0x1f, "Integ. Memories Tech."},
- // { 1, 0x20, "Corollary"},
- // { 1, 0xa1, "Dallas Semiconductor"},
- // { 1, 0xa2, "Omnivision"},
- // { 1, 0x23, "EIV(Switzerland)"},
- // { 1, 0xa4, "Novatel Wireless"},
- // { 1, 0x25, "Zarlink (Mitel)"},
- // { 1, 0x26, "Clearpoint"},
- // { 1, 0xa7, "Cabletron"},
- // { 1, 0xa8, "STEC (Silicon Tech)"},
- // { 1, 0x29, "Vanguard"},
- // { 1, 0x2a, "Hagiwara Sys-Com"},
- // { 1, 0xab, "Vantis"},
- // { 1, 0x2c, "Celestica"},
- // { 1, 0xad, "Century"},
- // { 1, 0xae, "Hal Computers"},
- // { 1, 0x2f, "Rohm Company"},
- // { 1, 0xb0, "Juniper Networks"},
- // { 1, 0x31, "Libit Signal Processing"},
- { 1, 0x32, "Mushkin"},
- // { 1, 0xb3, "Tundra Semiconductor"},
- { 1, 0x34, "Adaptec"},
- // { 1, 0xb5, "LightSpeed Semi."},
- // { 1, 0xb6, "ZSP Corp."},
- // { 1, 0x37, "AMIC Technology"},
- // { 1, 0x38, "Adobe Systems"},
- // { 1, 0xb9, "Dynachip"},
- { 1, 0xba, "PNY"},
- // { 1, 0x3b, "Newport Digital"},
- // { 1, 0xbc, "MMC Networks"},
- // { 1, 0x3d, "T Square"},
- // { 1, 0x3e, "Seiko Epson"},
- // { 1, 0xbf, "Broadcom"},
- // { 1, 0x40, "Viking Components"},
- // { 1, 0xc1, "V3 Semiconductor"},
- // { 1, 0xc2, "Flextronics (Orbit Semiconductor)"},
- // { 1, 0x43, "Suwa Electronics"},
- { 1, 0xc4, "Transmeta"},
- { 1, 0x45, "Micron CMS"},
- // { 1, 0x46, "American Computer & Digital Components"},
- // { 1, 0xc7, "Enhance 3000"},
- { 1, 0xc8, "Tower Semiconductor"},
- // { 1, 0x49, "CPU Design"},
- // { 1, 0x4a, "Price Point"},
- { 1, 0xcb, "Maxim Integrated Product"},
- // { 1, 0x4c, "Tellabs"},
- // { 1, 0xcd, "Centaur Technology"},
- { 1, 0xce, "Unigen"},
- { 1, 0x4f, "Transcend"},
- { 1, 0xd0, "Memory Card"},
- // { 1, 0x51, "CKD"},
- // { 1, 0x52, "Capital Instruments"},
- // { 1, 0xd3, "Aica Kogyo"},
- // { 1, 0x54, "Linvex Technology"},
- { 1, 0xd5, "MSC"},
- // { 1, 0xd6, "AKM Company"},
- // { 1, 0x57, "Dynamem"},
- // { 1, 0x58, "NERA ASA"},
- // { 1, 0xd9, "GSI Technology"},
- { 1, 0xda, "Dane-Elec"},
- // { 1, 0x5b, "Acorn Computers"},
- // { 1, 0xdc, "Lara Technology"},
- // { 1, 0x5d, "Oak Technology"},
- { 1, 0x5e, "Itec Memory"},
- // { 1, 0xdf, "Tanisys Technology"},
- // { 1, 0xe0, "Truevision"},
- { 1, 0x61, "Wintec"},
- // { 1, 0x62, "Super PC Memory"},
- // { 1, 0xe3, "MGV Memory"},
- // { 1, 0x64, "Galvantech"},
- // { 1, 0xe5, "Gadzoox Networks"},
- // { 1, 0xe6, "Multi Dimensional Cons."},
- // { 1, 0x67, "GateField"},
- { 1, 0x68, "Integrated Memory System"},
- // { 1, 0xe9, "Triscend"},
- // { 1, 0xea, "XaQti"},
- // { 1, 0x6b, "Goldenram"},
- // { 1, 0xec, "Clear Logic"},
- // { 1, 0x6d, "Cimaron Communications"},
- // { 1, 0x6e, "Nippon Steel Semi. Corp."},
- // { 1, 0xef, "Advantage Memory"},
- // { 1, 0x70, "AMCC"},
- { 1, 0xf1, "LeCroy"},
- // { 1, 0xf2, "Yamaha"},
- // { 1, 0x73, "Digital Microwave"},
- // { 1, 0xf4, "NetLogic Microsystems"},
- // { 1, 0x75, "MIMOS Semiconductor"},
- // { 1, 0x76, "Advanced Fibre"},
- // { 1, 0xf7, "BF Goodrich Data."},
- // { 1, 0xf8, "Epigram"},
- // { 1, 0x79, "Acbel Polytech"},
- { 1, 0x7a, "Apacer Technology"},
- // { 1, 0xfb, "Admor Memory"},
- { 1, 0x7c, "FOXCONN"},
- // { 1, 0xfd, "Quadratics Superconductor"},
- // { 1, 0xfe, "3COM"},
- // { 2, 0x01, "Camintonn"},
- // { 2, 0x02, "ISOA"},
- // { 2, 0x83, "Agate Semiconductor"},
- // { 2, 0x04, "ADMtek"},
- // { 2, 0x85, "HYPERTEC"},
- // { 2, 0x86, "Adhoc Technologies"},
- // { 2, 0x07, "MOSAID Technologies"},
- // { 2, 0x08, "Ardent Technologies"},
- // { 2, 0x89, "Switchcore"},
- // { 2, 0x8a, "Cisco Systems"},
- // { 2, 0x0b, "Allayer Technologies"},
- // { 2, 0x8c, "WorkX AG (Wichman)"},
- // { 2, 0x0d, "Oasis Semiconductor"},
- // { 2, 0x0e, "Novanet Semiconductor"},
- // { 2, 0x8f, "E-M Solutions"},
- // { 2, 0x10, "Power General"},
- // { 2, 0x91, "Advanced Hardware Arch."},
- // { 2, 0x92, "Inova Semiconductors"},
- // { 2, 0x13, "Telocity"},
- // { 2, 0x94, "Delkin Devices"},
- // { 2, 0x15, "Symagery Microsystems"},
- // { 2, 0x16, "C-Port"},
- // { 2, 0x97, "SiberCore Technologies"},
- // { 2, 0x98, "Southland Microsystems"},
- // { 2, 0x19, "Malleable Technologies"},
- // { 2, 0x1a, "Kendin Communications"},
- // { 2, 0x9b, "Great Technology Microcomputer"},
- // { 2, 0x1c, "Sanmina"},
- // { 2, 0x9d, "HADCO"},
- { 2, 0x9e, "Corsair"},
- // { 2, 0x1f, "Actrans System"},
- // { 2, 0x20, "ALPHA Technologies"},
- // { 2, 0xa1, "Silicon Laboratories (Cygnal)"},
- // { 2, 0xa2, "Artesyn Technologies"},
- // { 2, 0x23, "Align Manufacturing"},
- // { 2, 0xa4, "Peregrine Semiconductor"},
- // { 2, 0x25, "Chameleon Systems"},
- // { 2, 0x26, "Aplus Flash Technology"},
- { 2, 0xa7, "MIPS Technologies"},
- // { 2, 0xa8, "Chrysalis ITS"},
- // { 2, 0x29, "ADTEC"},
- { 2, 0x2a, "Kentron Technologies"},
- // { 2, 0xab, "Win Technologies"},
- // { 2, 0x2c, "Tachyon Semiconductor (ASIC)"},
- // { 2, 0xad, "Extreme Packet Devices"},
- // { 2, 0xae, "RF Micro Devices"},
- { 2, 0x2f, "Siemens AG"},
- // { 2, 0xb0, "Sarnoff"},
- // { 2, 0x31, "Itautec SA"},
- // { 2, 0x32, "Radiata"},
- // { 2, 0xb3, "Benchmark Elect. (AVEX)"},
- // { 2, 0x34, "Legend"},
- { 2, 0xb5, "SpecTek"},
- // { 2, 0xb6, "Hi/fn"},
- // { 2, 0x37, "Enikia"},
- // { 2, 0x38, "SwitchOn Networks"},
- // { 2, 0xb9, "AANetcom"},
- // { 2, 0xba, "Micro Memory Bank"},
- { 2, 0x3b, "ESS Technology"},
- // { 2, 0xbc, "Virata"},
- // { 2, 0x3d, "Excess Bandwidth"},
- // { 2, 0x3e, "West Bay Semiconductor"},
- // { 2, 0xbf, "DSP Group"},
- // { 2, 0x40, "Newport Communications"},
- // { 2, 0xc1, "Chip2Chip"},
- // { 2, 0xc2, "Phobos"},
- // { 2, 0x43, "Intellitech"},
- // { 2, 0xc4, "Nordic VLSI ASA"},
- // { 2, 0x45, "Ishoni Networks"},
- // { 2, 0x46, "Silicon Spice"},
- // { 2, 0xc7, "Alchemy Semiconductor"},
- { 2, 0xc8, "Agilent Technologies"},
- // { 2, 0x49, "Centillium Communications"},
- // { 2, 0x4a, "W.L. Gore"},
- // { 2, 0xcb, "HanBit Electronics"},
- // { 2, 0x4c, "GlobeSpan"},
- // { 2, 0xcd, "Element 14"},
- // { 2, 0xce, "Pycon"},
- // { 2, 0x4f, "Saifun Semiconductors"},
- // { 2, 0xd0, "Sibyte,"},
- // { 2, 0x51, "MetaLink Technologies"},
- // { 2, 0x52, "Feiya Technology"},
- // { 2, 0xd3, "I & C Technology"},
- // { 2, 0x54, "Shikatronics"},
- // { 2, 0xd5, "Elektrobit"},
- // { 2, 0xd6, "Megic"},
- // { 2, 0x57, "Com-Tier"},
- // { 2, 0x58, "Malaysia Micro Solutions"},
- // { 2, 0xd9, "Hyperchip"},
- // { 2, 0xda, "Gemstone Communications"},
- // { 2, 0x5b, "Anadigm (Anadyne)"},
- // { 2, 0xdc, "3ParData"},
- // { 2, 0x5d, "Mellanox Technologies"},
- // { 2, 0x5e, "Tenx Technologies"},
- // { 2, 0xdf, "Helix AG"},
- // { 2, 0xe0, "Domosys"},
- // { 2, 0x61, "Skyup Technology"},
- // { 2, 0x62, "HiNT"},
- // { 2, 0xe3, "Chiaro"},
- { 2, 0x64, "MDT"},
- // { 2, 0xe5, "Exbit Technology A/S"},
- // { 2, 0xe6, "Integrated Technology Express"},
- // { 2, 0x67, "AVED Memory"},
- // { 2, 0x68, "Legerity"},
- // { 2, 0xe9, "Jasmine Networks"},
- // { 2, 0xea, "Caspian Networks"},
- // { 2, 0x6b, "nCUBE"},
- // { 2, 0xec, "Silicon Access Networks"},
- // { 2, 0x6d, "FDK"},
- // { 2, 0x6e, "High Bandwidth Access"},
- // { 2, 0xef, "MultiLink Technology"},
- // { 2, 0x70, "BRECIS"},
- // { 2, 0xf1, "World Wide Packets"},
- // { 2, 0xf2, "APW"},
- // { 2, 0x73, "Chicory Systems"},
- // { 2, 0xf4, "Xstream Logic"},
- // { 2, 0x75, "Fast-Chip"},
- // { 2, 0x76, "Zucotto Wireless"},
- // { 2, 0xf7, "Realchip"},
- // { 2, 0xf8, "Galaxy Power"},
- // { 2, 0x79, "eSilicon"},
- // { 2, 0x7a, "Morphics Technology"},
- // { 2, 0xfb, "Accelerant Networks"},
- // { 2, 0x7c, "Silicon Wave"},
- // { 2, 0xfd, "SandCraft"},
- { 2, 0xfe, "Elpida"},
- // { 3, 0x01, "Solectron"},
- { 3, 0x02, "Optosys Technologies"},
- { 3, 0x83, "Buffalo"},
- // { 3, 0x04, "TriMedia Technologies"},
- // { 3, 0x85, "Cyan Technologies"},
- // { 3, 0x86, "Global Locate"},
- // { 3, 0x07, "Optillion"},
- // { 3, 0x08, "Terago Communications"},
- // { 3, 0x89, "Ikanos Communications"},
- { 3, 0x8a, "Princeton"},
- { 3, 0x0b, "Nanya"},
- // { 3, 0x8c, "Elite Flash Storage"},
- // { 3, 0x0d, "Mysticom"},
- // { 3, 0x0e, "LightSand Communications"},
- { 3, 0x8f, "ATI"},
- // { 3, 0x10, "Agere Systems"},
- // { 3, 0x91, "NeoMagic"},
- // { 3, 0x92, "AuroraNetics"},
- // { 3, 0x13, "Golden Empire"},
- { 3, 0x94, "Mushkin"},
- // { 3, 0x15, "Tioga Technologies"},
- { 3, 0x16, "Netlist"},
- // { 3, 0x97, "TeraLogic"},
- // { 3, 0x98, "Cicada Semiconductor"},
- { 3, 0x19, "Centon"},
- { 3, 0x1a, "Tyco Electronics"},
- // { 3, 0x9b, "Magis Works"},
- // { 3, 0x1c, "Zettacom"},
- // { 3, 0x9d, "Cogency Semiconductor"},
- // { 3, 0x9e, "Chipcon AS"},
- // { 3, 0x1f, "Aspex Technology"},
- // { 3, 0x20, "F5 Networks"},
- // { 3, 0xa1, "Programmable Silicon Solutions"},
- // { 3, 0xa2, "ChipWrights"},
- // { 3, 0x23, "Acorn Networks"},
- // { 3, 0xa4, "Quicklogic"},
- { 3, 0x25, "Kingmax"},
- // { 3, 0x26, "BOPS"},
- // { 3, 0xa7, "Flasys"},
- // { 3, 0xa8, "BitBlitz Communications"},
- { 3, 0x29, "eMemory Technology"},
- // { 3, 0x2a, "Procket Networks"},
- // { 3, 0xab, "Purple Ray"},
- // { 3, 0x2c, "Trebia Networks"},
- // { 3, 0xad, "Delta Electronics"},
- // { 3, 0xae, "Onex Communications"},
- // { 3, 0x2f, "Ample Communications"},
- { 3, 0xb0, "Memory Experts"},
- // { 3, 0x31, "Astute Networks"},
- // { 3, 0x32, "Azanda Network Devices"},
- // { 3, 0xb3, "Dibcom"},
- // { 3, 0x34, "Tekmos"},
- // { 3, 0xb5, "API NetWorks"},
- // { 3, 0xb6, "Bay Microsystems"},
- // { 3, 0x37, "Firecron"},
- // { 3, 0x38, "Resonext Communications"},
- // { 3, 0xb9, "Tachys Technologies"},
- // { 3, 0xba, "Equator Technology"},
- // { 3, 0x3b, "Concept Computer"},
- // { 3, 0xbc, "SILCOM"},
- // { 3, 0x3d, "3Dlabs"},
- // { 3, 0x3e, "c’t Magazine"},
- // { 3, 0xbf, "Sanera Systems"},
- // { 3, 0x40, "Silicon Packets"},
- { 3, 0xc1, "Viasystems Group"},
- { 3, 0xc2, "Simtek"},
- // { 3, 0x43, "Semicon Devices Singapore"},
- // { 3, 0xc4, "Satron Handelsges"},
- // { 3, 0x45, "Improv Systems"},
- // { 3, 0x46, "INDUSYS"},
- // { 3, 0xc7, "Corrent"},
- // { 3, 0xc8, "Infrant Technologies"},
- // { 3, 0x49, "Ritek Corp"},
- // { 3, 0x4a, "empowerTel Networks"},
- // { 3, 0xcb, "Hypertec"},
- // { 3, 0x4c, "Cavium Networks"},
- { 3, 0xcd, "PLX Technology"},
- // { 3, 0xce, "Massana Design"},
- // { 3, 0x4f, "Intrinsity"},
- // { 3, 0xd0, "Valence Semiconductor"},
- // { 3, 0x51, "Terawave Communications"},
- // { 3, 0x52, "IceFyre Semiconductor"},
- // { 3, 0xd3, "Primarion"},
- // { 3, 0x54, "Picochip Designs"},
- // { 3, 0xd5, "Silverback Systems"},
- { 3, 0xd6, "Jade Star"},
- // { 3, 0x57, "Pijnenburg Securealink"},
- { 3, 0x58, "takeMS"},
- // { 3, 0xd9, "Cambridge Silicon Radio"},
- { 3, 0xda, "Swissbit"},
- // { 3, 0x5b, "Nazomi Communications"},
- // { 3, 0xdc, "eWave System"},
- // { 3, 0x5d, "Rockwell Collins"},
- // { 3, 0x5e, "Picocel (Paion)"},
- // { 3, 0xdf, "Alphamosaic"},
- // { 3, 0xe0, "Sandburst"},
- // { 3, 0x61, "SiCon Video"},
- // { 3, 0x62, "NanoAmp Solutions"},
- // { 3, 0xe3, "Ericsson Technology"},
- // { 3, 0x64, "PrairieComm"},
- { 3, 0xe5, "Mitac International"},
- // { 3, 0xe6, "Layer N Networks"},
- // { 3, 0x67, "MtekVision (Atsana)"},
- // { 3, 0x68, "Allegro Networks"},
- // { 3, 0xe9, "Marvell Semiconductors"},
- // { 3, 0xea, "Netergy Microelectronic"},
- { 3, 0x6b, "nVidia"},
- // { 3, 0xec, "Internet Machines"},
- // { 3, 0x6d, "Peak Electronics"},
- // { 3, 0x6e, "Litchfield Communication"},
- { 3, 0xef, "Accton"},
- // { 3, 0x70, "Teradiant Networks"},
- // { 3, 0xf1, "Scaleo Chip"},
- // { 3, 0xf2, "Cortina Systems"},
- { 3, 0x73, "RAM Components"},
- // { 3, 0xf4, "Raqia Networks"},
- // { 3, 0x75, "ClearSpeed"},
- // { 3, 0x76, "Matsushita Battery"},
- // { 3, 0xf7, "Xelerated"},
- // { 3, 0xf8, "SimpleTech"},
- { 3, 0x79, "Utron"},
- // { 3, 0x7a, "Astec International"},
- // { 3, 0xfb, "AVM"},
- // { 3, 0x7c, "Redux Communications"},
- // { 3, 0xfd, "Dot Hill Systems"},
- { 3, 0xfe, "TeraChip"},
- { 4, 0x01, "T-RAM"},
- // { 4, 0x02, "Innovics Wireless"},
- // { 4, 0x83, "Teknovus"},
- // { 4, 0x04, "KeyEye Communications"},
- // { 4, 0x85, "Runcom Technologies"},
- // { 4, 0x86, "RedSwitch"},
- // { 4, 0x07, "Dotcast"},
- { 4, 0x08, "Silicon Mountain Memory"},
- // { 4, 0x89, "Signia Technologies"},
- // { 4, 0x8a, "Pixim"},
- // { 4, 0x0b, "Galazar Networks"},
- // { 4, 0x8c, "White Electronic Designs"},
- // { 4, 0x0d, "Patriot Scientific"},
- // { 4, 0x0e, "Neoaxiom"},
- // { 4, 0x8f, "3Y Power Technology"},
- { 4, 0x10, "Scaleo Chip"},
- // { 4, 0x91, "Potentia Power Systems"},
- // { 4, 0x92, "C-guys"},
- // { 4, 0x13, "Digital Communications Technology"},
- // { 4, 0x94, "Silicon-Based Technology"},
- // { 4, 0x15, "Fulcrum Microsystems"},
- // { 4, 0x16, "Positivo Informatica"},
- // { 4, 0x97, "XIOtech"},
- // { 4, 0x98, "PortalPlayer"},
- // { 4, 0x19, "Zhiying Software"},
- // { 4, 0x1a, "ParkerVision"},
- // { 4, 0x9b, "Phonex Broadband"},
- // { 4, 0x1c, "Skyworks Solutions"},
- // { 4, 0x9d, "Entropic Communications"},
- // { 4, 0x9e, "Pacific Force Technology"},
- // { 4, 0x1f, "Zensys A/S"},
- // { 4, 0x20, "Legend Silicon Corp."},
- // { 4, 0xa1, "Sci-worx"},
- // { 4, 0xa2, "SMSC (Standard Microsystems)"},
- { 4, 0x23, "Renesas"},
- // { 4, 0xa4, "Raza Microelectronics"},
- // { 4, 0x25, "Phyworks"},
- // { 4, 0x26, "MediaTek"},
- // { 4, 0xa7, "Non-cents Productions"},
- // { 4, 0xa8, "US Modular"},
- // { 4, 0x29, "Wintegra"},
- // { 4, 0x2a, "Mathstar"},
- // { 4, 0xab, "StarCore"},
- // { 4, 0x2c, "Oplus Technologies"},
- // { 4, 0xad, "Mindspeed"},
- // { 4, 0xae, "Just Young Computer"},
- // { 4, 0x2f, "Radia Communications"},
- { 4, 0xb0, "OCZ"},
- // { 4, 0x31, "Emuzed"},
- // { 4, 0x32, "LOGIC Devices"},
- // { 4, 0xb3, "Inphi"},
- // { 4, 0x34, "Quake Technologies"},
- // { 4, 0xb5, "Vixel"},
- // { 4, 0xb6, "SolusTek"},
- // { 4, 0x37, "Kongsberg Maritime"},
- // { 4, 0x38, "Faraday Technology"},
- { 4, 0xb9, "Altium"},
- // { 4, 0xba, "Insyte"},
- { 4, 0x3b, "ARM"},
- // { 4, 0xbc, "DigiVision"},
- // { 4, 0x3d, "Vativ Technologies"},
- // { 4, 0x3e, "Endicott Interconnect Technologies"},
- { 4, 0xbf, "Pericom"},
- // { 4, 0x40, "Bandspeed"},
- // { 4, 0xc1, "LeWiz Communications"},
- // { 4, 0xc2, "CPU Technology"},
- { 4, 0x43, "Ramaxel"},
- // { 4, 0xc4, "DSP Group"},
- // { 4, 0x45, "Axis Communications"},
- { 4, 0x46, "Legacy Electronics"},
- // { 4, 0xc7, "Chrontel"},
- // { 4, 0xc8, "Powerchip Semiconductor"},
- // { 4, 0x49, "MobilEye Technologies"},
- { 4, 0x4a, "Excel Semiconductor"},
- { 4, 0xcb, "A-DATA"},
- // { 4, 0x4c, "VirtualDigm"},
- { 4, 0xcd, "G.Skill"},
- // { 4, 0xce, "Quanta Computer"},
- // { 4, 0x4f, "Yield Microelectronics"},
- // { 4, 0xd0, "Afa Technologies"},
- { 4, 0x51, "Kingbox"},
- // { 4, 0x52, "Ceva"},
- // { 4, 0xd3, "iStor Networks"},
- // { 4, 0x54, "Advance Modules"},
- { 4, 0xd5, "Microsoft"},
- // { 4, 0xd6, "Open-Silicon"},
- // { 4, 0x57, "Goal Semiconductor"},
- // { 4, 0x58, "ARC International"},
- { 4, 0xd9, "Simmtec"},
- // { 4, 0xda, "Metanoia"},
- // { 4, 0x5b, "Key Stream"},
- // { 4, 0xdc, "Lowrance Electronics"},
- // { 4, 0x5d, "Adimos"},
- // { 4, 0x5e, "SiGe Semiconductor"},
- // { 4, 0xdf, "Fodus Communications"},
- // { 4, 0xe0, "Credence Systems Corp."},
- // { 4, 0x61, "Genesis Microchip"},
- // { 4, 0x62, "Vihana"},
- // { 4, 0xe3, "WIS Technologies"},
- // { 4, 0x64, "GateChange Technologies"},
- // { 4, 0xe5, "High Density Devices AS"},
- // { 4, 0xe6, "Synopsys"},
- // { 4, 0x67, "Gigaram"},
- // { 4, 0x68, "Enigma Semiconductor"},
- // { 4, 0xe9, "Century Micro"},
- // { 4, 0xea, "Icera Semiconductor"},
- // { 4, 0x6b, "Mediaworks Integrated Systems"},
- // { 4, 0xec, "O’Neil Product Development"},
- // { 4, 0x6d, "Supreme Top Technology"},
- // { 4, 0x6e, "MicroDisplay"},
- { 4, 0xef, "Team Group"},
- // { 4, 0x70, "Sinett"},
- { 4, 0xf1, "Toshiba"},
- // { 4, 0xf2, "Tensilica"},
- // { 4, 0x73, "SiRF Technology"},
- // { 4, 0xf4, "Bacoc"},
- // { 4, 0x75, "SMaL Camera Technologies"},
- { 4, 0x76, "Thomson SC"},
- // { 4, 0xf7, "Airgo Networks"},
- // { 4, 0xf8, "Wisair"},
- // { 4, 0x79, "SigmaTel"},
- // { 4, 0x7a, "Arkados"},
- // { 4, 0xfb, "Compete IT KG"},
- // { 4, 0x7c, "Eudar Technology"},
- // { 4, 0xfd, "Focus Enhancements"},
- // { 4, 0xfe, "Xyratex"},
- // { 5, 0x01, "Specular Networks"},
- { 5, 0x02, "Patriot Memory"},
- // { 5, 0x83, "U-Chip Technology Corp."},
- // { 5, 0x04, "Silicon Optix"},
- // { 5, 0x85, "Greenfield Networks"},
- { 5, 0x86, "CompuRAM"},
- // { 5, 0x07, "Stargen"},
- // { 5, 0x08, "NetCell"},
- // { 5, 0x89, "Excalibrus Technologies"},
- // { 5, 0x8a, "SCM Microsystems"},
- // { 5, 0x0b, "Xsigo Systems"},
- // { 5, 0x8c, "CHIPS & Systems"},
- // { 5, 0x0d, "Tier"},
- // { 5, 0x0e, "CWRL Labs"},
- // { 5, 0x8f, "Teradici"},
- // { 5, 0x10, "Gigaram"},
- // { 5, 0x91, "g2 Microsystems"},
- // { 5, 0x92, "PowerFlash Semiconductor"},
- // { 5, 0x13, "P.A. Semi"},
- { 5, 0x94, "NovaTech"},
- // { 5, 0x15, "c2 Microsystems"},
- // { 5, 0x16, "Level5 Networks"},
- { 5, 0x97, "COS Memory"},
- // { 5, 0x98, "Innovasic Semiconductor"},
- // { 5, 0x19, "02IC"},
- // { 5, 0x1a, "Tabula"},
- { 5, 0x9b, "Crucial"},
- // { 5, 0x1c, "Chelsio Communications"},
- // { 5, 0x9d, "Solarflare Communications"},
- // { 5, 0x9e, "Xambala"},
- // { 5, 0x1f, "EADS Astrium"},
- // { 5, 0x20, "Terra Semiconductor"},
- // { 5, 0xa1, "Imaging Works"},
- // { 5, 0xa2, "Astute Networks"},
- // { 5, 0x23, "Tzero"},
- // { 5, 0xa4, "Emulex"},
- // { 5, 0x25, "Power-One"},
- // { 5, 0x26, "Pulse~LINK"},
- // { 5, 0xa7, "Hon Hai Precision Industry"},
- // { 5, 0xa8, "White Rock Networks"},
- // { 5, 0x29, "Telegent Systems USA"},
- // { 5, 0x2a, "Atrua Technologies"},
- // { 5, 0xab, "Acbel Polytech"},
- // { 5, 0x2c, "eRide"},
- { 5, 0xad, "ULi"},
- // { 5, 0xae, "Magnum Semiconductor"},
- // { 5, 0x2f, "neoOne Technology"},
- // { 5, 0xb0, "Connex Technology"},
- // { 5, 0x31, "Stream Processors"},
- // { 5, 0x32, "Focus Enhancements"},
- // { 5, 0xb3, "Telecis Wireless"},
- // { 5, 0x34, "uNav Microelectronics"},
- // { 5, 0xb5, "Tarari"},
- // { 5, 0xb6, "Ambric"},
- // { 5, 0x37, "Newport Media"},
- // { 5, 0x38, "VMTS"},
- // { 5, 0xb9, "Enuclia Semiconductor"},
- // { 5, 0xba, "Virtium Technology"},
- // { 5, 0x3b, "Solid State System"},
- // { 5, 0xbc, "Kian Tech LLC"},
- // { 5, 0x3d, "Artimi"},
- { 5, 0x3e, "PQI"},
- // { 5, 0xbf, "Avago Technologies"},
- // { 5, 0x40, "ADTechnology"},
- { 5, 0xc1, "Sigma Designs"},
- // { 5, 0xc2, "SiCortex"},
- // { 5, 0x43, "Ventura Technology Group"},
- // { 5, 0xc4, "eASIC"},
- // { 5, 0x45, "M.H.S. SAS"},
- { 5, 0x46, "MSI"},
- // { 5, 0xc7, "Rapport"},
- // { 5, 0xc8, "Makway International"},
- // { 5, 0x49, "Broad Reach Engineering"},
- // { 5, 0x4a, "Semiconductor Mfg Intl Corp"},
- // { 5, 0xcb, "SiConnect"},
- // { 5, 0x4c, "FCI USA"},
- // { 5, 0xcd, "Validity Sensors"},
- // { 5, 0xce, "Coney Technology"},
- // { 5, 0x4f, "Spans Logic"},
- // { 5, 0xd0, "Neterion"},
- { 5, 0x51, "Qimonda"},
- // { 5, 0x52, "New Japan Radio"},
- // { 5, 0xd3, "Velogix"},
- // { 5, 0x54, "Montalvo Systems"},
- // { 5, 0xd5, "iVivity"},
- { 5, 0xd6, "Walton Chaintech"},
- { 5, 0x57, "AENEON"},
- // { 5, 0x58, "Lorom Industrial"},
- // { 5, 0xd9, "Radiospire Networks"},
- // { 5, 0xda, "Sensio Technologies"},
- // { 5, 0x5b, "Nethra Imaging"},
- { 5, 0xdc, "Hexon"},
- // { 5, 0x5d, "CompuStocx (CSX)"},
- // { 5, 0x5e, "Methode Electronics"},
- // { 5, 0xdf, "Connect One"},
- // { 5, 0xe0, "Opulan Technologies"},
- // { 5, 0x61, "Septentrio NV"},
- { 5, 0x62, "Goldenmars"},
- { 5, 0xe3, "Kreton"},
- // { 5, 0x64, "Cochlear"},
- // { 5, 0xe5, "Altair Semiconductor"},
- // { 5, 0xe6, "NetEffect"},
- // { 5, 0x67, "Spansion"},
- // { 5, 0x68, "Taiwan Semiconductor Mfg"},
- // { 5, 0xe9, "Emphany Systems"},
- // { 5, 0xea, "ApaceWave Technologies"},
- // { 5, 0x6b, "Mobilygen"},
- // { 5, 0xec, "Tego"},
- // { 5, 0x6d, "Cswitch"},
- // { 5, 0x6e, "Haier (Beijing) IC Design"},
- // { 5, 0xef, "MetaRAM"},
- // { 5, 0x70, "Axel Electronics"},
- // { 5, 0xf1, "Tilera"},
- // { 5, 0xf2, "Aquantia"},
- // { 5, 0x73, "Vivace Semiconductor"},
- // { 5, 0xf4, "Redpine Signals"},
- // { 5, 0x75, "Octalica"},
- // { 5, 0x76, "InterDigital Communications"},
- { 5, 0xf7, "Avant Technology"},
- { 5, 0xf8, "Asrock"},
- // { 5, 0x79, "Availink"},
- // { 5, 0x7a, "Quartics"},
- // { 5, 0xfb, "Element CXI"},
- // { 5, 0x7c, "Innovaciones Microelectronicas"},
- // { 5, 0xfd, "VeriSilicon Microelectronics"},
- // { 5, 0xfe, "W5 Networks"},
- // { 6, 0x01, "MOVEKING"},
- // { 6, 0x02, "Mavrix Technology"},
- // { 6, 0x83, "CellGuide"},
- // { 6, 0x04, "Faraday Technology"},
- // { 6, 0x85, "Diablo Technologies"},
- // { 6, 0x86, "Jennic"},
- // { 6, 0x07, "Octasic"},
- { 6, 0x08, "Molex"},
- // { 6, 0x89, "3Leaf Networks"},
- // { 6, 0x8a, "Bright Micron Technology"},
- // { 6, 0x0b, "Netxen"},
- // { 6, 0x8c, "NextWave Broadband"},
- // { 6, 0x0d, "DisplayLink"},
- // { 6, 0x0e, "ZMOS Technology"},
- // { 6, 0x8f, "Tec-Hill"},
- // { 6, 0x10, "Multigig"},
- // { 6, 0x91, "Amimon"},
- // { 6, 0x92, "Euphonic Technologies"},
- // { 6, 0x13, "BRN Phoenix"},
- // { 6, 0x94, "InSilica"},
- // { 6, 0x15, "Ember"},
- { 6, 0x16, "Avexir"},
- // { 6, 0x97, "Echelon"},
- // { 6, 0x98, "Edgewater Computer Systems"},
- // { 6, 0x19, "XMOS Semiconductor"},
- // { 6, 0x1a, "GENUSION"},
- { 6, 0x9b, "Memory Corp NV"},
- // { 6, 0x1c, "SiliconBlue Technologies"},
- // { 6, 0x9d, "Rambus"},
- // { 6, 0x9e, "Andes Technology"},
- // { 6, 0x1f, "Coronis Systems"},
- // { 6, 0x20, "Achronix Semiconductor"},
- // { 6, 0xa1, "Siano Mobile Silicon"},
- // { 6, 0xa2, "Semtech"},
- // { 6, 0x23, "Pixelworks"},
- // { 6, 0xa4, "Gaisler Research AB"},
- // { 6, 0x25, "Teranetics"},
- // { 6, 0x26, "Toppan Printing"},
- // { 6, 0xa7, "Kingxcon"},
- { 6, 0xa8, "SiS"},
- // { 6, 0x29, "I-O Data Device"},
- // { 6, 0x2a, "NDS Americas"},
- // { 6, 0xab, "Solomon Systech Limited"},
- // { 6, 0x2c, "On Demand Microelectronics"},
- // { 6, 0xad, "Amicus Wireless"},
- // { 6, 0xae, "SMARDTV SNC"},
- // { 6, 0x2f, "Comsys Communication"},
- // { 6, 0xb0, "Movidia"},
- // { 6, 0x31, "Javad GNSS"},
- // { 6, 0x32, "Montage Technology Group"},
- { 6, 0xb3, "Trident"},
- { 6, 0x34, "Super Talent"},
- // { 6, 0xb5, "Optichron"},
- // { 6, 0xb6, "Future Waves UK"},
- // { 6, 0x37, "SiBEAM"},
- // { 6, 0x38, "Inicore,"},
- // { 6, 0xb9, "Virident Systems"},
- // { 6, 0xba, "M2000"},
- // { 6, 0x3b, "ZeroG Wireless"},
- { 6, 0xbc, "Gingle"},
- // { 6, 0x3d, "Space Micro"},
- // { 6, 0x3e, "Wilocity"},
- // { 6, 0xbf, "Novafora, Ic."},
- // { 6, 0x40, "iKoa"},
- { 6, 0xc1, "ASint"},
- { 6, 0xc2, "Ramtron"},
- // { 6, 0x43, "Plato Networks"},
- // { 6, 0xc4, "IPtronics AS"},
- // { 6, 0x45, "Infinite-Memories"},
- // { 6, 0x46, "Parade Technologies"},
- // { 6, 0xc7, "Dune Networks"},
- // { 6, 0xc8, "GigaDevice Semiconductor"},
- // { 6, 0x49, "Modu"},
- // { 6, 0x4a, "CEITEC"},
- // { 6, 0xcb, "Northrop Grumman"},
- // { 6, 0x4c, "XRONET"},
- // { 6, 0xcd, "Sicon Semiconductor AB"},
- // { 6, 0xce, "Atla Electronics"},
- { 6, 0x4f, "TOPRAM"},
- // { 6, 0xd0, "Silego Technology"},
- { 6, 0x51, "Kinglife"},
- // { 6, 0x52, "Ability Industries"},
- // { 6, 0xd3, "Silicon Power Computer & Communications"},
- // { 6, 0x54, "Augusta Technology"},
- // { 6, 0xd5, "Nantronics Semiconductors"},
- // { 6, 0xd6, "Hilscher Gesellschaft"},
- // { 6, 0x57, "Quixant"},
- // { 6, 0x58, "Percello"},
- // { 6, 0xd9, "NextIO"},
- // { 6, 0xda, "Scanimetrics"},
- // { 6, 0x5b, "FS-Semi Company"},
- // { 6, 0xdc, "Infinera"},
- { 6, 0x5d, "SandForce"},
- { 6, 0x5e, "Lexar Media"},
- // { 6, 0xdf, "Teradyne"},
- { 6, 0xe0, "Memory Exchange Corp."},
- // { 6, 0x61, "Suzhou Smartek Electronics"},
- { 6, 0x62, "Avantium"},
- // { 6, 0xe3, "ATP Electronics"},
- // { 6, 0x64, "Valens Semiconductor"},
- // { 6, 0xe5, "Agate Logic"},
- // { 6, 0xe6, "Netronome"},
- // { 6, 0x67, "Zenverge"},
- // { 6, 0x68, "N-trig"},
- // { 6, 0xe9, "SanMax Technologies"},
- // { 6, 0xea, "Contour Semiconductor"},
- { 6, 0x6b, "TwinMOS"},
- { 6, 0xec, "Silicon Systems"},
- // { 6, 0x6d, "V-Color Technology"},
- // { 6, 0x6e, "Certicom"},
- // { 6, 0xef, "JSC ICC Milandr"},
- // { 6, 0x70, "PhotoFast Global"},
- { 6, 0xf1, "InnoDisk"},
- { 6, 0xf2, "Muscle Power"},
- // { 6, 0x73, "Energy Micro"},
- // { 6, 0xf4, "Innofidei"},
- // { 6, 0x75, "CopperGate Communications"},
- // { 6, 0x76, "Holtek Semiconductor"},
- // { 6, 0xf7, "Myson Century"},
- // { 6, 0xf8, "FIDELIX"},
- // { 6, 0x79, "Red Digital Cinema"},
- // { 6, 0x7a, "Densbits Technology"},
- // { 6, 0xfb, "Zempro"},
- // { 6, 0x7c, "MoSys"},
- // { 6, 0xfd, "Provigent"},
- // { 6, 0xfe, "Triad Semiconductor"},
- // { 8, 0x01, "Siklu Communication"},
- // { 8, 0x02, "A Force Manufacturing"},
- { 8, 0x83, "Strontium"},
- // { 8, 0x04, "Abilis Systems"},
- // { 8, 0x85, "Siglead"},
- // { 8, 0x86, "Ubicom"},
- // { 8, 0x07, "Unifosa"},
- // { 8, 0x08, "Stretch"},
- // { 8, 0x89, "Lantiq Deutschland"},
- // { 8, 0x8a, "Visipro."},
- { 8, 0x0b, "EKMemory"},
- // { 8, 0x8c, "Microelectronics Institute ZTE"},
- // { 8, 0x0d, "Cognovo"},
- // { 8, 0x0e, "Carry Technology"},
- { 8, 0x8f, "Nokia"},
- { 8, 0x10, "King Tiger"},
- // { 8, 0x91, "Sierra Wireless"},
- { 8, 0x92, "HT Micron"},
- { 8, 0x13, "Albatron"},
- // { 8, 0x94, "Leica Geosystems AG"},
- // { 8, 0x15, "BroadLight"},
- // { 8, 0x16, "AEXEA"},
- // { 8, 0x97, "ClariPhy Communications"},
- // { 8, 0x98, "Green Plug"},
- // { 8, 0x19, "Design Art Networks"},
- // { 8, 0x1a, "Mach Xtreme Technology"},
- // { 8, 0x9b, "ATO Solutions"},
- // { 8, 0x1c, "Ramsta"},
- // { 8, 0x9d, "Greenliant Systems"},
- // { 8, 0x9e, "Teikon"},
- // { 8, 0x1f, "Antec Hadron"},
- // { 8, 0x20, "NavCom Technology"},
- // { 8, 0xa1, "Shanghai Fudan Microelectronics"},
- // { 8, 0xa2, "Calxeda"},
- // { 8, 0x23, "JSC EDC Electronics"},
- // { 8, 0xa4, "Kandit Technology"},
- // { 8, 0x25, "Ramos Technology"},
- // { 8, 0x26, "Goldenmars Technology"},
- // { 8, 0xa7, "XeL Technology"},
- // { 8, 0xa8, "Newzone"},
- { 8, 0x29, "MercyPower"},
- // { 8, 0x2a, "Nanjing Yihuo Technology."},
- // { 8, 0xab, "Nethra Imaging"},
- // { 8, 0x2c, "SiTel Semiconductor BV"},
- // { 8, 0xad, "SolidGear"},
- { 8, 0xae, "Topower"},
- // { 8, 0x2f, "Wilocity"},
- // { 8, 0xb0, "Profichip"},
- // { 8, 0x31, "Gerad Technologies"},
- { 8, 0x32, "Ritek"},
- // { 8, 0xb3, "Gomos Technology Limited"},
- { 8, 0x34, "Memoright"},
- // { 8, 0xb5, "D-Broad"},
- // { 8, 0xb6, "HiSilicon Technologies"},
- // { 8, 0x37, "Syndiant ."},
- // { 8, 0x38, "Enverv"},
- // { 8, 0xb9, "Cognex"},
- // { 8, 0xba, "Xinnova Technology"},
- { 8, 0x3b, "Ultron"},
- // { 8, 0xbc, "Concord Idea"},
- // { 8, 0x3d, "AIM"},
- // { 8, 0x3e, "Lifetime Memory Products"},
- // { 8, 0xbf, "Ramsway"},
- // { 8, 0x40, "Recore Systems B.V."},
- // { 8, 0xc1, "Haotian Jinshibo Science Tech"},
- // { 8, 0xc2, "Being Advanced Memory"},
- // { 8, 0x43, "Adesto Technologies"},
- // { 8, 0xc4, "Giantec Semiconductor"},
- // { 8, 0x45, "HMD Electronics AG"},
- // { 8, 0x46, "Gloway International (HK)"},
- // { 8, 0xc7, "Kingcore"},
- // { 8, 0xc8, "Anucell Technology Holding"},
- // { 8, 0x49, "Accord Software & Systems Pvt."},
- // { 8, 0x4a, "Active-Semi"},
- // { 8, 0xcb, "Denso"},
- // { 8, 0x4c, "TLSI"},
- // { 8, 0xcd, "Shenzhen Daling Electronic"},
- // { 8, 0xce, "Mustang"},
- // { 8, 0x4f, "Orca Systems"},
- // { 8, 0xd0, "Passif Semiconductor"},
- // { 8, 0x51, "GigaDevice Semiconductor (Beijing)"},
- // { 8, 0x52, "Memphis Electronic"},
- // { 8, 0xd3, "Beckhoff Automation"},
- // { 8, 0x54, "Harmony Semiconductor Corp"},
- // { 8, 0xd5, "Air Computers SRL"},
- { 8, 0xd6, "TMT Memory"},
- { 9, 0xff, ""}
- };
diff --git a/memtest86+_old/lib.c b/memtest86+_old/lib.c
deleted file mode 100644
index 64da2b7..0000000
--- a/memtest86+_old/lib.c
+++ /dev/null
@@ -1,1199 +0,0 @@
-/* lib.c - MemTest-86 Version 3.4
- *
- * Released under version 2 of the Gnu Public License.
- * By Chris Brady
- */
-#include "io.h"
-#include "serial.h"
-#include "test.h"
-#include "config.h"
-#include "screen_buffer.h"
-#include "stdint.h"
-#include "cpuid.h"
-#include "smp.h"
-
-
-int slock = 0, lsr = 0;
-short serial_cons = SERIAL_CONSOLE_DEFAULT;
-#if SERIAL_TTY != 0 && SERIAL_TTY != 1
-#error Bad SERIAL_TTY. Only ttyS0 and ttyS1 are supported.
-#endif
-short serial_tty = SERIAL_TTY;
-const short serial_base_ports[] = {0x3f8, 0x2f8};
-
-#if ((115200%SERIAL_BAUD_RATE) != 0)
-#error Bad default baud rate
-#endif
-int serial_baud_rate = SERIAL_BAUD_RATE;
-unsigned char serial_parity = 0;
-unsigned char serial_bits = 8;
-
-struct ascii_map_str {
- int ascii;
- int keycode;
-};
-
-void reboot(void)
-{
-
- /* tell the BIOS to do a cold start */
- *((unsigned short *)0x472) = 0x0;
-
- while(1)
- {
- outb(0xFE, 0x64);
- outb(0x02, 0xcf9); /* reset that doesn't rely on the keyboard controller */
- outb(0x04, 0xcf9);
- outb(0x0E, 0xcf9);
- }
-}
-
-int mt86_strlen(char * string){
- int i=0;
- while(*string++){i++;};
- return i;
-}
-
-int mt86_strstr(char *haystack, char * needle)
-{
- int i=0,j=0;
- int here=0;
- while(1){
- if(needle[i]==haystack[j])
- {
- if(here==0)
- here=j;
- i++;j++;
- if(i>=mt86_strlen(needle))
- {
- return here;
- }
- if(j>=mt86_strlen(haystack))
- {
- return -1;
- }
- } else {
- j++;i=0;here=0;
- }
- }
-}
-
-int mt86_memcmp(const void *s1, const void *s2, ulong count)
-{
- const unsigned char *src1 = s1, *src2 = s2;
- int i;
- for(i = 0; i < count; i++) {
- if (src1[i] != src2[i]) {
- return (int)src1[i] - (int)src2[i];
- }
- }
- return 0;
-}
-
-int mt86_strncmp(const char *s1, const char *s2, ulong n) {
- signed char res = 0;
- while (n) {
- res = *s1 - *s2;
- if (res != 0)
- return res;
- if (*s1 == '\0')
- return 0;
- ++s1, ++s2;
- --n;
- }
- return res;
-}
-
-void *mt86_memmove(void *dest, const void *src, ulong n)
-{
- long i;
- char *d = (char *)dest, *s = (char *)src;
-
- /* If src == dest do nothing */
- if (dest < src) {
- for(i = 0; i < n; i++) {
- d[i] = s[i];
- }
- }
- else if (dest > src) {
- for(i = n -1; i >= 0; i--) {
- d[i] = s[i];
- }
- }
- return dest;
-}
-
-char toupper(char c)
-{
- if (c >= 'a' && c <= 'z')
- return c + 'A' -'a';
- else
- return c;
-}
-
-int mt86_isdigit(char c)
-{
- return c >= '0' && c <= '9';
-}
-
-int isxdigit(char c)
-{
- return mt86_isdigit(c) || (toupper(c) >= 'A' && toupper(c) <= 'F'); }
-
-unsigned long simple_strtoul(const char *cp, char **endp, unsigned int base) {
- unsigned long result = 0, value;
-
- if (!base) {
- base = 10;
- if (*cp == '0') {
- base = 8;
- cp++;
- if (toupper(*cp) == 'X' && isxdigit(cp[1])) {
- cp++;
- base = 16;
- }
- }
- } else if (base == 16) {
- if (cp[0] == '0' && toupper(cp[1]) == 'X')
- cp += 2;
- }
- while (isxdigit(*cp) &&
- (value = mt86_isdigit(*cp) ? *cp-'0' : toupper(*cp)-'A'+10) < base) {
- result = result*base + value;
- cp++;
- }
- if (endp)
- *endp = (char *)cp;
- return result;
-}
-
-/*
- * Scroll the error message area of the screen as needed
- * Starts at line LINE_SCROLL and ends at line 23
- */
-void scroll(void)
-{
- int i, j;
- char *s, tmp;
-
- /* Only scroll if at the bottom of the screen */
- if (vv->msg_line < 23) {
- vv->msg_line++;
- } else {
- /* If scroll lock is on, loop till it is cleared */
- while (slock) {
- check_input();
- }
- for (i=LINE_SCROLL; i<23; i++) {
- s = (char *)(SCREEN_ADR + ((i+1) * 160));
- for (j=0; j<160; j+=2, s+=2) {
- *(s-160) = *s;
- tmp = get_scrn_buf(i+1, j/2);
- set_scrn_buf(i, j/2, tmp);
- }
- }
- /* Clear the newly opened line */
- s = (char *)(SCREEN_ADR + (23 * 160));
- for (j=0; j<80; j++) {
- *s = ' ';
- set_scrn_buf(23, j, ' ');
- s += 2;
- }
- tty_print_region(LINE_SCROLL, 0, 23, 79);
- }
-}
-
-/*
- * Clear scroll region
- */
-void clear_scroll(void)
-{
- int i;
- char *s;
-
- s = (char*)(SCREEN_ADR+LINE_HEADER*160);
- for(i=0; i<80*(24-LINE_HEADER); i++) {
- *s++ = ' ';
- *s++ = 0x17;
- }
-}
-
-/*
- * Place a single character on screen
- */
-void cplace(int y, int x, const char c)
-{
- char *dptr;
-
- dptr = (char *)(SCREEN_ADR + (160*y) + (2*x));
- *dptr = c;
-}
-
-/*
- * Print characters on screen
- */
-void cprint(int y, int x, const char *text)
-{
- register int i;
- char *dptr;
-
- dptr = (char *)(SCREEN_ADR + (160*y) + (2*x));
- for (i=0; text[i]; i++) {
- *dptr = text[i];
- dptr += 2;
- }
- tty_print_line(y, x, text);
-}
-
-void itoa(char s[], int n)
-{
- int i, sign;
-
- if((sign = n) < 0)
- n = -n;
- i=0;
- do {
- s[i++] = n % 10 + '0';
- } while ((n /= 10) > 0);
- if(sign < 0)
- s[i++] = '-';
- s[i] = '\0';
- reverse(s);
-}
-
-void reverse(char s[])
-{
- int c, i, j;
- for(j = 0; s[j] != 0; j++)
- ;
-
- for(i=0, j = j - 1; i < j; i++, j--) {
- c = s[i];
- s[i] = s[j];
- s[j] = c;
- }
-}
-void memcpy (void *dst, void *src, int len)
-{
- char *s = (char*)src;
- char *d = (char*)dst;
- int i;
-
- if (len <= 0) {
- return;
- }
- for (i = 0 ; i < len; i++) {
- *d++ = *s++;
- }
-}
-
-/*
- * Print a people friendly address
- */
-void aprint(int y, int x, ulong page)
-{
- /* page is in multiples of 4K */
- if ((page << 2) < 9999) {
- dprint(y, x, page << 2, 4, 0);
- cprint(y, x+4, "K");
- }
- else if ((page >>8) < 9999) {
- dprint(y, x, (page + (1 << 7)) >> 8, 4, 0);
- cprint(y, x+4, "M");
- }
- else if ((page >>18) < 9999) {
- dprint(y, x, (page + (1 << 17)) >> 18, 4, 0);
- cprint(y, x+4, "G");
- }
- else {
- dprint(y, x, (page + (1 << 27)) >> 28, 4, 0);
- cprint(y, x+4, "T");
- }
-}
-
-/*
- * Print a decimal number on screen
- */
-void dprint(int y, int x, ulong val, int len, int right)
-{
- ulong j, k;
- int i, flag=0;
- char buf[18];
-
- if (val > 999999999 || len > 9) {
- return;
- }
- for(i=0, j=1; i<len-1; i++) {
- j *= 10;
- }
- if (!right) {
- for (i=0; j>0; j/=10) {
- k = val/j;
- if (k > 9) {
- j *= 100;
- continue;
- }
- if (flag || k || j == 1) {
- buf[i++] = k + '0';
- flag++;
- } else {
- buf[i++] = ' ';
- }
- val -= k * j;
- }
- } else {
- for(i=0; i<len; j/=10) {
- if (j) {
- k = val/j;
- if (k > 9) {
- j *= 100;
- len++;
- continue;
- }
- if (k == 0 && flag == 0) {
- continue;
- }
- buf[i++] = k + '0';
- val -= k * j;
- } else {
- if (flag == 0 && i < len-1) {
- buf[i++] = '0';
- } else {
- buf[i++] = ' ';
- }
- }
- flag++;
- }
- }
- buf[i] = 0;
- cprint(y,x,buf);
-}
-
-/*
- * Print a hex number on screen at least digits long
- */
-void hprint2(int y,int x, unsigned long val, int digits)
-{
- unsigned long j;
- int i, idx, flag = 0;
- char buf[18];
-
- for (i=0, idx=0; i<8; i++) {
- j = val >> (28 - (4 * i));
- j &= 0xf;
- if (j < 10) {
- if (flag || j || i == 7) {
- buf[idx++] = j + '0';
- flag++;
- } else {
- buf[idx++] = '0';
- }
- } else {
- buf[idx++] = j + 'a' - 10;
- flag++;
- }
- }
- if (digits > 8) {
- digits = 8;
- }
- if (flag > digits) {
- digits = flag;
- }
- buf[idx] = 0;
- cprint(y,x,buf + (idx - digits));
-}
-
-/*
- * Print a hex number on screen exactly digits long
- */
-void hprint3(int y,int x, unsigned long val, int digits)
-{
- unsigned long j;
- int i, idx, flag = 0;
- char buf[18];
-
- for (i=0, idx=0; i<digits; i++) {
- j = 0xf & val;
- val /= 16;
-
- if (j < 10) {
- if (flag || j || i == 7) {
- buf[digits - ++idx] = j + '0';
- flag++;
- } else {
- buf[digits - ++idx] = '0';
- }
- } else {
- buf[digits - ++idx] = j + 'a' - 10;
- flag++;
- }
- }
- buf[idx] = 0;
- cprint(y,x,buf);
-}
-
-/*
- * Print a hex number on screen
- */
-void hprint(int y, int x, unsigned long val)
-{
- return hprint2(y, x, val, 8);
-}
-
-/*
- * Print an address in 0000m0000k0000 notation
- */
-void xprint(int y,int x, ulong val)
-{
- ulong j;
-
- j = (val & 0xffc00000) >> 20;
- dprint(y, x, j, 4, 0);
- cprint(y, x+4, "m");
- j = (val & 0xffc00) >> 10;
- dprint(y, x+5, j, 4, 0);
- cprint(y, x+9, "k");
- j = val & 0x3ff;
- dprint(y, x+10, j, 4, 0);
-}
-
-char *codes[] = {
- " Divide",
- " Debug",
- " NMI",
- " Brkpnt",
- "Overflow",
- " Bound",
- " Inv_Op",
- " No_Math",
- "Double_Fault",
- "Seg_Over",
- " Inv_TSS",
- " Seg_NP",
- "Stack_Fault",
- "Gen_Prot",
- "Page_Fault",
- " Resvd",
- " FPE",
- "Alignment",
- " Mch_Chk",
- "SIMD FPE"
-};
-
-struct eregs {
- ulong ss;
- ulong ds;
- ulong esp;
- ulong ebp;
- ulong esi;
- ulong edi;
- ulong edx;
- ulong ecx;
- ulong ebx;
- ulong eax;
- ulong vect;
- ulong code;
- ulong eip;
- ulong cs;
- ulong eflag;
-};
-
-/* Handle an interrupt */
-void inter(struct eregs *trap_regs)
-{
- int i, line;
- unsigned char *pp;
- ulong address = 0;
- int my_cpu_num = smp_my_cpu_num();
-
- /* Get the page fault address */
- if (trap_regs->vect == 14) {
- __asm__("movl %%cr2,%0":"=r" (address));
- }
-#ifdef PARITY_MEM
-
- /* Check for a parity error */
- if (trap_regs->vect == 2) {
- parity_err(trap_regs->edi, trap_regs->esi);
- return;
- }
-#endif
-
- /* clear scrolling region */
- pp=(unsigned char *)(SCREEN_ADR+(2*80*(LINE_SCROLL-2)));
- for(i=0; i<2*80*(24-LINE_SCROLL-2); i++, pp+=2) {
- *pp = ' ';
- }
- line = LINE_SCROLL-2;
-
- cprint(line, 0, "Unexpected Interrupt - Halting CPU");
- dprint(line, COL_MID + 4, my_cpu_num, 2, 1);
- cprint(line+2, 0, " Type: ");
- if (trap_regs->vect <= 19) {
- cprint(line+2, 7, codes[trap_regs->vect]);
- } else {
- hprint(line+2, 7, trap_regs->vect);
- }
- cprint(line+3, 0, " PC: ");
- hprint(line+3, 7, trap_regs->eip);
- cprint(line+4, 0, " CS: ");
- hprint(line+4, 7, trap_regs->cs);
- cprint(line+5, 0, "Eflag: ");
- hprint(line+5, 7, trap_regs->eflag);
- cprint(line+6, 0, " Code: ");
- hprint(line+6, 7, trap_regs->code);
- cprint(line+7, 0, " DS: ");
- hprint(line+7, 7, trap_regs->ds);
- cprint(line+8, 0, " SS: ");
- hprint(line+8, 7, trap_regs->ss);
- if (trap_regs->vect == 14) {
- /* Page fault address */
- cprint(line+7, 0, " Addr: ");
- hprint(line+7, 7, address);
- }
-
- cprint(line+2, 20, "eax: ");
- hprint(line+2, 25, trap_regs->eax);
- cprint(line+3, 20, "ebx: ");
- hprint(line+3, 25, trap_regs->ebx);
- cprint(line+4, 20, "ecx: ");
- hprint(line+4, 25, trap_regs->ecx);
- cprint(line+5, 20, "edx: ");
- hprint(line+5, 25, trap_regs->edx);
- cprint(line+6, 20, "edi: ");
- hprint(line+6, 25, trap_regs->edi);
- cprint(line+7, 20, "esi: ");
- hprint(line+7, 25, trap_regs->esi);
- cprint(line+8, 20, "ebp: ");
- hprint(line+8, 25, trap_regs->ebp);
- cprint(line+9, 20, "esp: ");
- hprint(line+9, 25, trap_regs->esp);
-
- cprint(line+1, 38, "Stack:");
- for (i=0; i<10; i++) {
- hprint(line+2+i, 38, trap_regs->esp+(4*i));
- hprint(line+2+i, 47, *(ulong*)(trap_regs->esp+(4*i)));
- hprint(line+2+i, 57, trap_regs->esp+(4*(i+10)));
- hprint(line+2+i, 66, *(ulong*)(trap_regs->esp+(4*(i+10))));
- }
-
- cprint(line+11, 0, "CS:EIP: ");
- pp = (unsigned char *)trap_regs->eip;
- for(i = 0; i < 9; i++) {
- hprint2(line+11, 8+(3*i), pp[i], 2);
- }
-
- while(1) {
- check_input();
- }
-}
-
-void set_cache(int val)
-{
- switch(val) {
- case 0:
- cache_off();
- break;
- case 1:
- cache_on();
- break;
- }
-}
-
-int get_key() {
- int c;
-
- c = inb(0x64);
- if ((c & 1) == 0) {
- if (serial_cons) {
- int comstat;
- comstat = serial_echo_inb(UART_LSR);
- if (comstat & UART_LSR_DR) {
- c = serial_echo_inb(UART_RX);
- /* Pressing '.' has same effect as 'c'
- on a keyboard.
- Oct 056 Dec 46 Hex 2E Ascii .
- */
- return (ascii_to_keycode(c));
- }
- }
- return(0);
- }
- c = inb(0x60);
- return((c));
-}
-
-void check_input(void)
-{
- unsigned char c;
-
- if ((c = get_key())) {
- switch(c & 0x7f) {
- case 1:
- /* "ESC" key was pressed, bail out. */
- cprint(LINE_RANGE, COL_MID+23, "Halting... ");
- reboot();
- break;
- case 46:
- /* c - Configure */
- get_config();
- break;
- case 28:
- /* CR - clear scroll lock */
- slock = 0;
- footer();
- break;
- case 57:
- /* SP - set scroll lock */
- slock = 1;
- footer();
- break;
- case 0x26:
- /* ^L/L - redraw the display */
- tty_print_screen();
- break;
- }
- }
-}
-
-void footer()
-{
- cprint(24, 0, "(ESC)exit (c)configuration (SP)scroll_lock (CR)scroll_unlock");
- if (slock) {
- cprint(24, 74, "Locked");
- } else {
- cprint(24, 74, " ");
- }
-}
-
-ulong getval(int x, int y, int result_shift)
-{
- unsigned long val;
- int done;
- int c;
- int i, n;
- int base;
- int shift;
- char buf[16];
-
- for(i = 0; i < sizeof(buf)/sizeof(buf[0]); i++ ) {
- buf[i] = ' ';
- }
- buf[sizeof(buf)/sizeof(buf[0]) -1] = '\0';
-
- wait_keyup();
- done = 0;
- n = 0;
- base = 10;
- while(!done) {
- /* Read a new character and process it */
- c = get_key();
- switch(c) {
- case 0x26: /* ^L/L - redraw the display */
- tty_print_screen();
- break;
- case 0x1c: /* CR */
- /* If something has been entered we are done */
- if(n) done = 1;
- break;
- case 0x19: /* p */ buf[n] = 'p'; break;
- case 0x22: /* g */ buf[n] = 'g'; break;
- case 0x32: /* m */ buf[n] = 'm'; break;
- case 0x25: /* k */ buf[n] = 'k'; break;
- case 0x2d: /* x */
- /* Only allow 'x' after an initial 0 */
- if (n == 1 && (buf[0] == '0')) {
- buf[n] = 'x';
- }
- break;
- case 0x0e: /* BS */
- if (n > 0) {
- n -= 1;
- buf[n] = ' ';
- }
- break;
- /* Don't allow entering a number not in our current base */
- case 0x0B: if (base >= 1) buf[n] = '0'; break;
- case 0x02: if (base >= 2) buf[n] = '1'; break;
- case 0x03: if (base >= 3) buf[n] = '2'; break;
- case 0x04: if (base >= 4) buf[n] = '3'; break;
- case 0x05: if (base >= 5) buf[n] = '4'; break;
- case 0x06: if (base >= 6) buf[n] = '5'; break;
- case 0x07: if (base >= 7) buf[n] = '6'; break;
- case 0x08: if (base >= 8) buf[n] = '7'; break;
- case 0x09: if (base >= 9) buf[n] = '8'; break;
- case 0x0A: if (base >= 10) buf[n] = '9'; break;
- case 0x1e: if (base >= 11) buf[n] = 'a'; break;
- case 0x30: if (base >= 12) buf[n] = 'b'; break;
- case 0x2e: if (base >= 13) buf[n] = 'c'; break;
- case 0x20: if (base >= 14) buf[n] = 'd'; break;
- case 0x12: if (base >= 15) buf[n] = 'e'; break;
- case 0x21: if (base >= 16) buf[n] = 'f'; break;
- default:
- break;
- }
- /* Don't allow anything to be entered after a suffix */
- if (n > 0 && (
- (buf[n-1] == 'p') || (buf[n-1] == 'g') ||
- (buf[n-1] == 'm') || (buf[n-1] == 'k'))) {
- buf[n] = ' ';
- }
- /* If we have entered a character increment n */
- if (buf[n] != ' ') {
- n++;
- }
- buf[n] = ' ';
- /* Print the current number */
- cprint(x, y, buf);
-
- /* Find the base we are entering numbers in */
- base = 10;
- if ((buf[0] == '0') && (buf[1] == 'x')) {
- base = 16;
- }
- else if (buf[0] == '0') {
- base = 8;
- }
- }
- /* Compute our current shift */
- shift = 0;
- switch(buf[n-1]) {
- case 'g': /* gig */ shift = 30; break;
- case 'm': /* meg */ shift = 20; break;
- case 'p': /* page */ shift = 12; break;
- case 'k': /* kilo */ shift = 10; break;
- }
- shift -= result_shift;
-
- /* Compute our current value */
- val = simple_strtoul(buf, 0, base);
- if (shift > 0) {
- if (shift >= 32) {
- val = 0xffffffff;
- } else {
- val <<= shift;
- }
- } else {
- if (-shift >= 32) {
- val = 0;
- }
- else {
- val >>= -shift;
- }
- }
- return val;
-}
-
-void ttyprint(int y, int x, const char *p)
-{
- static char sx[3];
- static char sy[3];
-
- sx[0]='\0';
- sy[0]='\0';
- x++; y++;
- itoa(sx, x);
- itoa(sy, y);
- serial_echo_print("[");
- serial_echo_print(sy);
- serial_echo_print(";");
- serial_echo_print(sx);
- serial_echo_print("H");
- serial_echo_print(p);
-}
-
-void serial_echo_init(void)
-{
- int comstat, serial_div;
- unsigned char lcr;
-
- /* read the Divisor Latch */
- comstat = serial_echo_inb(UART_LCR);
- serial_echo_outb(comstat | UART_LCR_DLAB, UART_LCR);
- /*hi =*/ serial_echo_inb(UART_DLM);
- /*lo =*/ serial_echo_inb(UART_DLL);
- serial_echo_outb(comstat, UART_LCR);
-
- /* now do hardwired init */
- lcr = serial_parity | (serial_bits - 5);
- serial_echo_outb(lcr, UART_LCR); /* No parity, 8 data bits, 1 stop */
- serial_div = 115200 / serial_baud_rate;
- serial_echo_outb(0x80|lcr, UART_LCR); /* Access divisor latch */
- serial_echo_outb(serial_div & 0xff, UART_DLL); /* baud rate divisor */
- serial_echo_outb((serial_div >> 8) & 0xff, UART_DLM);
- serial_echo_outb(lcr, UART_LCR); /* Done with divisor */
-
- /* Prior to disabling interrupts, read the LSR and RBR
- * registers */
- comstat = serial_echo_inb(UART_LSR); /* COM? LSR */
- comstat = serial_echo_inb(UART_RX); /* COM? RBR */
- serial_echo_outb(0x00, UART_IER); /* Disable all interrupts */
-
- clear_screen_buf();
-
- return;
-}
-
-/*
- * Get_number of digits
- */
-int getnum(ulong val)
-{
- int len = 0;
- int i = 1;
-
- while(i <= val)
- {
- len++;
- i *= 10;
- }
-
- return len;
-
-}
-
-
-void serial_echo_print(const char *p)
-{
- if (!serial_cons) {
- return;
- }
- /* Now, do each character */
- while (*p) {
- WAIT_FOR_XMITR;
-
- /* Send the character out. */
- serial_echo_outb(*p, UART_TX);
- if(*p==10) {
- WAIT_FOR_XMITR;
- serial_echo_outb(13, UART_TX);
- }
- p++;
- }
-}
-
-/* Except for multi-character key sequences this mapping
- * table is complete. So it should not need to be updated
- * when new keys are searched for. However the key handling
- * should really be turned around and only in get_key should
- * we worry about the exact keycode that was pressed. Everywhere
- * else we should switch on the character...
- */
-struct ascii_map_str ser_map[] =
- /*ascii keycode ascii keycode*/
- {
- /* Special cases come first so I can leave
- * their ``normal'' mapping in the table,
- * without it being activated.
- */
- { 27, 0x01}, /* ^[/ESC -> ESC */
- { 127, 0x0e}, /* DEL -> BS */
- { 8, 0x0e}, /* ^H/BS -> BS */
- { 10, 0x1c}, /* ^L/NL -> CR */
- { 13, 0x1c}, /* ^M/CR -> CR */
- { 9, 0x0f}, /* ^I/TAB -> TAB */
- { 19, 0x39}, /* ^S -> SP */
- { 17, 28}, /* ^Q -> CR */
-
- { ' ', 0x39}, /* SP -> SP */
- { 'a', 0x1e},
- { 'A', 0x1e},
- { 1, 0x1e}, /* ^A -> A */
- { 'b', 0x30},
- { 'B', 0x30},
- { 2, 0x30}, /* ^B -> B */
- { 'c', 0x2e},
- { 'C', 0x2e},
- { 3, 0x2e}, /* ^C -> C */
- { 'd', 0x20},
- { 'D', 0x20},
- { 4, 0x20}, /* ^D -> D */
- { 'e', 0x12},
- { 'E', 0x12},
- { 5, 0x12}, /* ^E -> E */
- { 'f', 0x21},
- { 'F', 0x21},
- { 6, 0x21}, /* ^F -> F */
- { 'g', 0x22},
- { 'G', 0x22},
- { 7, 0x22}, /* ^G -> G */
- { 'h', 0x23},
- { 'H', 0x23},
- { 8, 0x23}, /* ^H -> H */
- { 'i', 0x17},
- { 'I', 0x17},
- { 9, 0x17}, /* ^I -> I */
- { 'j', 0x24},
- { 'J', 0x24},
- { 10, 0x24}, /* ^J -> J */
- { 'k', 0x25},
- { 'K', 0x25},
- { 11, 0x25}, /* ^K -> K */
- { 'l', 0x26},
- { 'L', 0x26},
- { 12, 0x26}, /* ^L -> L */
- { 'm', 0x32},
- { 'M', 0x32},
- { 13, 0x32}, /* ^M -> M */
- { 'n', 0x31},
- { 'N', 0x31},
- { 14, 0x31}, /* ^N -> N */
- { 'o', 0x18},
- { 'O', 0x18},
- { 15, 0x18}, /* ^O -> O */
- { 'p', 0x19},
- { 'P', 0x19},
- { 16, 0x19}, /* ^P -> P */
- { 'q', 0x10},
- { 'Q', 0x10},
- { 17, 0x10}, /* ^Q -> Q */
- { 'r', 0x13},
- { 'R', 0x13},
- { 18, 0x13}, /* ^R -> R */
- { 's', 0x1f},
- { 'S', 0x1f},
- { 19, 0x1f}, /* ^S -> S */
- { 't', 0x14},
- { 'T', 0x14},
- { 20, 0x14}, /* ^T -> T */
- { 'u', 0x16},
- { 'U', 0x16},
- { 21, 0x16}, /* ^U -> U */
- { 'v', 0x2f},
- { 'V', 0x2f},
- { 22, 0x2f}, /* ^V -> V */
- { 'w', 0x11},
- { 'W', 0x11},
- { 23, 0x11}, /* ^W -> W */
- { 'x', 0x2d},
- { 'X', 0x2d},
- { 24, 0x2d}, /* ^X -> X */
- { 'y', 0x15},
- { 'Y', 0x15},
- { 25, 0x15}, /* ^Y -> Y */
- { 'z', 0x2c},
- { 'Z', 0x2c},
- { 26, 0x2c}, /* ^Z -> Z */
- { '-', 0x0c},
- { '_', 0x0c},
- { 31, 0x0c}, /* ^_ -> _ */
- { '=', 0x0c},
- { '+', 0x0c},
- { '[', 0x1a},
- { '{', 0x1a},
- { 27, 0x1a}, /* ^[ -> [ */
- { ']', 0x1b},
- { '}', 0x1b},
- { 29, 0x1b}, /* ^] -> ] */
- { ';', 0x27},
- { ':', 0x27},
- { '\'', 0x28},
- { '"', 0x28},
- { '`', 0x29},
- { '~', 0x29},
- { '\\', 0x2b},
- { '|', 0x2b},
- { 28, 0x2b}, /* ^\ -> \ */
- { ',', 0x33},
- { '<', 0x33},
- { '.', 0x34},
- { '>', 0x34},
- { '/', 0x35},
- { '?', 0x35},
- { '1', 0x02},
- { '!', 0x02},
- { '2', 0x03},
- { '@', 0x03},
- { '3', 0x04},
- { '#', 0x04},
- { '4', 0x05},
- { '$', 0x05},
- { '5', 0x06},
- { '%', 0x06},
- { '6', 0x07},
- { '^', 0x07},
- { 30, 0x07}, /* ^^ -> 6 */
- { '7', 0x08},
- { '&', 0x08},
- { '8', 0x09},
- { '*', 0x09},
- { '9', 0x0a},
- { '(', 0x0a},
- { '0', 0x0b},
- { ')', 0x0b},
- { 0, 0}
- };
-
-/*
- * Given an ascii character, return the keycode
- *
- * Uses ser_map definition above.
- *
- * It would be more efficient to use an array of 255 characters
- * and directly index into it.
- */
-int ascii_to_keycode (int in)
-{
- struct ascii_map_str *p;
- for (p = ser_map; p->ascii; p++) {
- if (in ==p->ascii)
- return p->keycode;
- }
- return 0;
-}
-
-/*
- * Call this when you want to wait for the user to lift the
- * finger off of a key. It is a noop if you are using a
- * serial console.
- */
-void wait_keyup( void ) {
- /* Check to see if someone lifted the keyboard key */
- while (1) {
- if ((get_key() & 0x80) != 0) {
- return;
- }
- /* Trying to simulate waiting for a key release with
- * the serial port is to nasty to let live.
- * In particular some menus don't even display until
- * you release the key that caused to to get there.
- * With the serial port this results in double pressing
- * or something worse for just about every key.
- */
- if (serial_cons) {
- return;
- }
- }
-}
-
-/*
- * Handles "console=<param>" command line option
- *
- * Examples of accepted params:
- * ttyS0
- * ttyS1
- * ttyS0,115200
- * ttyS0,9600e8
- */
-void serial_console_setup(char *param)
-{
- char *option, *end;
- unsigned long tty;
- unsigned long baud_rate;
- unsigned char parity, bits;
-
- if (mt86_strncmp(param, "ttyS", 4))
- return; /* not a serial port */
-
- param += 4;
-
- tty = simple_strtoul(param, &option, 10);
-
- if (option == param)
- return; /* there were no digits */
-
- if (tty > 1)
- return; /* only ttyS0 and ttyS1 supported */
-
- if (*option == '\0' || *option == ' ')
- goto save_tty; /* no options given, just ttyS? */
-
- if (*option != ',')
- return; /* missing the comma separator */
-
- /* baud rate must follow */
- option++;
- baud_rate = simple_strtoul(option, &end, 10);
-
- if (end == option)
- return; /* no baudrate after comma */
-
- if (baud_rate == 0 || (115200 % baud_rate) != 0)
- return; /* wrong baud rate */
-
- if (*end == '\0' || *end == ' ')
- goto save_baud_rate; /* no more options given */
-
- switch (toupper(*end)) {
- case 'N':
- parity = 0;
- break;
- case 'O':
- parity = UART_LCR_PARITY;
- break;
- case 'E':
- parity = UART_LCR_PARITY | UART_LCR_EPAR;
- break;
- default:
- /* Unknown parity */
- return;
- }
-
- end++;
- if (*end == '\0' || *end == ' ')
- goto save_parity;
-
- /* word length (bits) */
- if (*end < '7' || *end > '8')
- return; /* invalid number of bits */
-
- bits = *end - '0';
-
- end++;
-
- if (*end != '\0' || *end != ' ')
- return; /* garbage at the end */
-
- serial_bits = bits;
- save_parity:
- serial_parity = parity;
- save_baud_rate:
- serial_baud_rate = (int) baud_rate;
- save_tty:
- serial_tty = (short) tty;
- serial_cons = 1;
-}
-
-/* Get a comma seperated list of numbers */
-void get_list(int x, int y, int len, char *buf)
-{
- int c, n = 0;
-
- len--;
- wait_keyup();
- while(1) {
- /* Read a new character and process it */
- c = get_key();
- switch(c) {
- case 0x1c: /* CR */
- /* If something has been entered we are done */
- if(n) {
- buf[n] = 0;
- return;
- }
- break;
- case 0x0e: /* BS */
- if (n > 0) {
- n -= 1;
- buf[n] = ' ';
- }
- break;
- case 0x0B: buf[n++] = '0'; break;
- case 0x02: buf[n++] = '1'; break;
- case 0x03: buf[n++] = '2'; break;
- case 0x04: buf[n++] = '3'; break;
- case 0x05: buf[n++] = '4'; break;
- case 0x06: buf[n++] = '5'; break;
- case 0x07: buf[n++] = '6'; break;
- case 0x08: buf[n++] = '7'; break;
- case 0x09: buf[n++] = '8'; break;
- case 0x0a: buf[n++] = '9'; break;
- case 0x33: buf[n++] = ','; break;
- }
- cprint(x, y, buf);
- if (n >= len) {
- buf[n] = 0;
- return;
- }
- }
-}
diff --git a/memtest86+_old/linuxbios.c b/memtest86+_old/linuxbios.c
deleted file mode 100644
index 4804b31..0000000
--- a/memtest86+_old/linuxbios.c
+++ /dev/null
@@ -1,165 +0,0 @@
-#include "linuxbios_tables.h"
-#include "test.h"
-
-static unsigned long ip_compute_csum(void *addr, unsigned long length)
-{
- uint16_t *ptr;
- unsigned long sum;
- unsigned long len;
- unsigned long laddr;
- /* compute an ip style checksum */
- laddr = (unsigned long )addr;
- sum = 0;
- if (laddr & 1) {
- uint16_t buffer;
- unsigned char *ptr;
- /* copy the first byte into a 2 byte buffer.
- * This way automatically handles the endian question
- * of which byte (low or high) the last byte goes in.
- */
- buffer = 0;
- ptr = addr;
- mt86_memmove(&buffer, ptr, 1);
- sum += buffer;
- if (sum > 0xFFFF)
- sum -= 0xFFFF;
- length -= 1;
- addr = ptr +1;
-
- }
- len = length >> 1;
- ptr = addr;
- while (len--) {
- sum += *(ptr++);
- if (sum > 0xFFFF)
- sum -= 0xFFFF;
- }
- addr = ptr;
- if (length & 1) {
- uint16_t buffer;
- unsigned char *ptr;
- /* copy the last byte into a 2 byte buffer.
- * This way automatically handles the endian question
- * of which byte (low or high) the last byte goes in.
- */
- buffer = 0;
- ptr = addr;
- mt86_memmove(&buffer, ptr, 1);
- sum += buffer;
- if (sum > 0xFFFF)
- sum -= 0xFFFF;
- }
- return (~sum) & 0xFFFF;
-
-}
-
-#define for_each_lbrec(head, rec) \
- for(rec = (struct lb_record *)(((char *)head) + sizeof(*head)); \
- (((char *)rec) < (((char *)head) + sizeof(*head) + head->table_bytes)) && \
- (rec->size >= 1) && \
- ((((char *)rec) + rec->size) <= (((char *)head) + sizeof(*head) + head->table_bytes)); \
- rec = (struct lb_record *)(((char *)rec) + rec->size))
-
-
-static int count_lb_records(struct lb_header *head)
-{
- struct lb_record *rec;
- int count;
- count = 0;
- for_each_lbrec(head, rec) {
- count++;
- }
- return count;
-}
-
-static struct lb_header * __find_lb_table(unsigned long start, unsigned long end)
-{
- unsigned long addr;
- /* For now be stupid.... */
- for(addr = start; addr < end; addr += 16) {
- struct lb_header *head = (struct lb_header *)addr;
- struct lb_record *recs = (struct lb_record *)(addr + sizeof(*head));
- if (mt86_memcmp(head->signature, "LBIO", 4) != 0)
- continue;
- if (head->header_bytes != sizeof(*head))
- continue;
- if (ip_compute_csum((unsigned char *)head, sizeof(*head)) != 0)
- continue;
- if (ip_compute_csum((unsigned char *)recs, head->table_bytes)
- != head->table_checksum)
- continue;
- if (count_lb_records(head) != head->table_entries)
- continue;
- return head;
- };
- return 0;
-}
-
-static struct lb_header * find_lb_table(void)
-{
- struct lb_header *head;
- head = 0;
- if (!head) {
- /* First try at address 0 */
- head = __find_lb_table(0x00000, 0x1000);
- }
- if (!head) {
- /* Then try at address 0xf0000 */
- head = __find_lb_table(0xf0000, 0x100000);
- }
- return head;
-}
-
-int query_linuxbios(void)
-{
- struct lb_header *head;
- struct lb_record *rec;
- struct lb_memory *mem;
- struct lb_forward *forward;
- int i, entries;
-
- head = find_lb_table();
- if (!head) {
- return 0;
- }
-
- /* coreboot also can forward the table to the high tables area. */
- rec = (struct lb_record *)(((char *)head) + sizeof(*head));
- if (rec->tag == LB_TAG_FORWARD) {
- forward = (struct lb_forward *)rec;
- head = (struct lb_header *)(unsigned long)(forward->forward);
- if (!head) { return 0; }
- }
-
- mem = 0;
- for_each_lbrec(head, rec) {
- if (rec->tag == LB_TAG_MEMORY) {
- mem = (struct lb_memory *)rec;
- break;
- }
- }
- if (!mem) {
- return 1;
- }
- entries = (mem->size - sizeof(*mem))/sizeof(mem->map[0]);
- if (entries == 0)
- return 1;
- mem_info.e820_nr = 0;
- for(i = 0; i < entries; i++) {
- unsigned long long start;
- unsigned long long size;
- unsigned long type;
- if (i >= E820MAX) {
- break;
- }
- start = mem->map[i].start;
- size = mem->map[i].size;
- type = (mem->map[i].type == LB_MEM_RAM)?E820_RAM: E820_RESERVED;
- mem_info.e820[mem_info.e820_nr].addr = start;
- mem_info.e820[mem_info.e820_nr].size = size;
- mem_info.e820[mem_info.e820_nr].type = type;
- mem_info.e820_nr++;
- }
- return 1;
-}
-
diff --git a/memtest86+_old/linuxbios_tables.h b/memtest86+_old/linuxbios_tables.h
deleted file mode 100644
index 38f2038..0000000
--- a/memtest86+_old/linuxbios_tables.h
+++ /dev/null
@@ -1,89 +0,0 @@
-#ifndef LINUXBIOS_TABLES_H
-#define LINUXBIOS_TABLES_H
-
-#include "stdint.h"
-
-/* The linuxbios table information is for conveying information
- * from the firmware to the loaded OS image. Primarily this
- * is expected to be information that cannot be discovered by
- * other means, such as quering the hardware directly.
- *
- * All of the information should be Position Independent Data.
- * That is it should be safe to relocated any of the information
- * without it's meaning/correctnes changing. For table that
- * can reasonably be used on multiple architectures the data
- * size should be fixed. This should ease the transition between
- * 32 bit and 64 bit architectures etc.
- *
- * The completeness test for the information in this table is:
- * - Can all of the hardware be detected?
- * - Are the per motherboard constants available?
- * - Is there enough to allow a kernel to run that was written before
- * a particular motherboard is constructed? (Assuming the kernel
- * has drivers for all of the hardware but it does not have
- * assumptions on how the hardware is connected together).
- *
- * With this test it should be straight forward to determine if a
- * table entry is required or not. This should remove much of the
- * long term compatibility burden as table entries which are
- * irrelevant or have been replaced by better alternatives may be
- * dropped. Of course it is polite and expidite to include extra
- * table entries and be backwards compatible, but it is not required.
- */
-
-
-struct lb_header
-{
- uint8_t signature[4]; /* LBIO */
- uint32_t header_bytes;
- uint32_t header_checksum;
- uint32_t table_bytes;
- uint32_t table_checksum;
- uint32_t table_entries;
-};
-
-/* Every entry in the boot enviroment list will correspond to a boot
- * info record. Encoding both type and size. The type is obviously
- * so you can tell what it is. The size allows you to skip that
- * boot enviroment record if you don't know what it easy. This allows
- * forward compatibility with records not yet defined.
- */
-struct lb_record {
- uint32_t tag; /* tag ID */
- uint32_t size; /* size of record (in bytes) */
-};
-
-#define LB_TAG_UNUSED 0x0000
-
-#define LB_TAG_MEMORY 0x0001
-#define LB_TAG_FORWARD 0x0011
-
-struct lb_memory_range {
- uint64_t start;
- uint64_t size;
- uint32_t type;
-#define LB_MEM_RAM 1
-#define LB_MEM_RESERVED 2
-
-};
-
-struct lb_memory {
- uint32_t tag;
- uint32_t size;
- struct lb_memory_range map[0];
-};
-
-#define LB_TAG_HWRPB 0x0002
-struct lb_hwrpb {
- uint32_t tag;
- uint32_t size;
- uint64_t hwrpb;
-};
-
-struct lb_forward {
- uint32_t tag;
- uint32_t size;
- uint64_t forward;
-};
-
-#endif /* LINUXBIOS_TABLES_H */
diff --git a/memtest86+_old/main.c b/memtest86+_old/main.c
deleted file mode 100644
index d0c9289..0000000
--- a/memtest86+_old/main.c
+++ /dev/null
@@ -1,1299 +0,0 @@
-/*
- * MemTest86+ V5 Specific code (GPL V2.0)
- * By Samuel DEMEULEMEESTER, sdemeule@memtest.org
- * http://www.canardpc.com - http://www.memtest.org
- * ------------------------------------------------
- * main.c - MemTest-86 Version 3.5
- *
- * Released under version 2 of the Gnu Public License.
- * By Chris Brady
- */
-
-#include "stdint.h"
-#include "stddef.h"
-#include "test.h"
-#include "defs.h"
-#include "cpuid.h"
-#include "smp.h"
-#include "config.h"
-#undef TEST_TIMES
-#define DEFTESTS 9
-#define FIRST_DIVISER 3
-
-/* The main stack is allocated during boot time. The stack size should
- * preferably be a multiple of page size(4Kbytes)
- */
-
-extern struct cpu_ident cpu_id;
-extern char toupper(char c);
-extern int isxdigit(char c);
-extern void reboot();
-extern void bzero();
-extern void smp_set_ordinal(int me, int ord);
-extern int smp_my_ord_num(int me);
-extern int smp_ord_to_cpu(int me);
-extern void get_cpuid();
-extern void initialise_cpus();
-extern ulong rand(int cpu);
-extern void get_mem_speed(int cpu, int ncpus);
-extern void rand_seed(unsigned int seed1, unsigned int seed2, int cpu);
-extern struct barrier_s *barr;
-extern int num_cpus;
-extern int act_cpus;
-
-static int find_ticks_for_test(int test);
-void find_ticks_for_pass(void);
-int find_chunks(int test);
-static void test_setup(void);
-static int compute_segments(struct pmap map, int cpu);
-int do_test(int ord);
-struct tseq tseq[] =
- {
- {1, -1, 0, 6, 0, "[Address test, walking ones, no cache] "},
- {1, -1, 1, 6, 0, "[Address test, own address Sequential] "},
- {1, 32, 2, 6, 0, "[Address test, own address Parallel] "},
- {1, 32, 3, 6, 0, "[Moving inversions, 1s & 0s Parallel] "},
- {1, 32, 5, 3, 0, "[Moving inversions, 8 bit pattern] "},
- {1, 32, 6, 30, 0, "[Moving inversions, random pattern] "},
- {1, 32, 7, 81, 0, "[Block move] "},
- {1, 1, 8, 3, 0, "[Moving inversions, 32 bit pattern] "},
- {1, 32, 9, 48, 0, "[Random number sequence] "},
- {1, 32, 10, 6, 0, "[Modulo 20, Random pattern] "},
- {1, 1, 11, 240, 0, "[Bit fade test, 2 patterns] "},
- {1, 0, 0, 0, 0, NULL}
-};
-
-volatile int mstr_cpu;
-volatile int run_cpus;
-volatile int cpu_ord=0;
-int maxcpus=MAX_CPUS;
-volatile short cpu_sel;
-volatile short cpu_mode;
-char cpu_mask[MAX_CPUS];
-long bin_mask=0xffffffff;
-short onepass;
-volatile short btflag = 0;
-volatile int test;
-short restart_flag;
-uint8_t volatile stacks[MAX_CPUS][STACKSIZE_BYTES];
-int bitf_seq = 0;
-char cmdline_parsed = 0;
-struct vars variables = {};
-struct vars * const vv = &variables;
-volatile int bail;
-int nticks;
-int test_ticks;
-volatile int segs; /* number of entries in vv->map[]
- (Why not be a member of vars then?) */
-static int ltest;
-static int pass_flag = 0;
-volatile short start_seq = 0;
-static int c_iter;
-ulong high_test_adr;
-volatile static int window;
-volatile static unsigned long win_next;
-volatile static ulong win0_start; /* Start test address for window 0 */
-volatile static ulong win1_end; /* End address for relocation */
-volatile static struct pmap winx; /* Window struct for mapping windows */
-
-/* Find the next selected test to run */
-void next_test()
-{
- test++;
- while (tseq[test].sel == 0 && tseq[test].cpu_sel != 0) {
- test++;
- }
-
- if (tseq[test].cpu_sel == 0) {
- /* We hit the end of the list so we completed a pass */
- pass_flag++;
- /* Find the next test to run, start searching from 0 */
- test = 0;
- while (tseq[test].sel == 0 && tseq[test].cpu_sel != 0) {
- test++;
- }
- }
-}
-
-/* Set default values for all parameters */
-void set_defaults()
-{
- int i;
-
- if (start_seq == 2) {
- /* This is a restart so we reset everything */
- onepass = 0;
- i = 0;
- while (tseq[i].cpu_sel) {
- tseq[i].sel = 1;
- i++;
- }
- test = 0;
- if (tseq[0].sel == 0) {
- next_test();
- }
- }
- ltest = -1;
- win_next = 0;
- window = 0;
- bail = 0;
- cpu_mode = CPM_ALL;
- cpu_sel = 0;
- vv->printmode=PRINTMODE_ADDRESSES;
- vv->numpatn=0;
- vv->plim_lower = 0;
- vv->plim_upper = vv->pmap[vv->msegs-1].end;
- vv->pass = 0;
- vv->msg_line = 0;
- vv->ecount = 0;
- vv->ecc_ecount = 0;
- vv->msg_line = LINE_SCROLL-1;
- vv->scroll_start = vv->msg_line * 160;
- vv->debugging = 0;
- vv->erri.low_addr.page = 0x7fffffff;
- vv->erri.low_addr.offset = 0xfff;
- vv->erri.high_addr.page = 0;
- vv->erri.high_addr.offset = 0;
- vv->erri.min_bits = 32;
- vv->erri.max_bits = 0;
- vv->erri.min_bits = 32;
- vv->erri.max_bits = 0;
- vv->erri.maxl = 0;
- vv->erri.cor_err = 0;
- vv->erri.ebits = 0;
- vv->erri.hdr_flag = 0;
- vv->erri.tbits = 0;
- for (i=0; tseq[i].msg != NULL; i++) {
- tseq[i].errors = 0;
- }
- restart_flag = 0;
- tseq[10].sel = 0;
-}
-
-/* Boot trace function */
-short tidx = 25;
-void btrace(int me, int line, char *msg, int wait, long v1, long v2)
-{
- int y, x;
-
- /* Is tracing turned on? */
- if (btflag == 0) return;
-
- spin_lock(&barr->mutex);
- y = tidx%13;
- x = tidx/13*40;
- cplace(y+11, x+1, ' ');
- if (++tidx > 25) {
- tidx = 0;
- }
- y = tidx%13;
- x = tidx/13*40;
-
- cplace(y+11, x+1, '>');
- dprint(y+11, x+2, me, 2, 0);
- dprint(y+11, x+5, line, 4, 0);
- cprint(y+11, x+10, msg);
- hprint(y+11, x+22, v1);
- hprint(y+11, x+31, v2);
- if (wait) {
- wait_keyup();
- }
- spin_unlock(&barr->mutex);
-}
-
-/* Relocate the test to a new address. Be careful to not overlap! */
-static void run_at(unsigned long addr, int cpu)
-{
- ulong *ja = (ulong *)(addr + startup_32 - _start);
-
- /* CPU 0, Copy memtest86+ code */
- if (cpu == 0) {
- mt86_memmove((void *)addr, &_start, _end - _start);
- }
-
- /* Wait for the copy */
- barrier();
-
- /* We use a lock to insure that only one CPU at a time jumps to
- * the new code. Some of the startup stuff is not thread safe! */
- spin_lock(&barr->mutex);
-
- /* Jump to the start address */
- goto *ja;
-}
-
-/* Switch from the boot stack to the main stack. First the main stack
- * is allocated, then the contents of the boot stack are copied, then
- * ESP is adjusted to point to the new stack.
- */
-static void
-switch_to_main_stack(unsigned cpu_num)
-{
- extern uintptr_t boot_stack;
- extern uintptr_t boot_stack_top;
- uintptr_t *src, *dst;
- int offs;
- uint8_t * stackAddr, *stackTop;
-
- stackAddr = (uint8_t *) &stacks[cpu_num][0];
-
- stackTop = stackAddr + STACKSIZE_BYTES;
-
- src = (uintptr_t*)&boot_stack_top;
- dst = (uintptr_t*)stackTop;
- do {
- src--; dst--;
- *dst = *src;
- } while ((uintptr_t *)src > (uintptr_t *)&boot_stack);
-
- offs = (uint8_t *)&boot_stack_top - stackTop;
- __asm__ __volatile__ (
- "subl %%eax, %%esp"
- : /*no output*/
- : "a" (offs) : "memory"
- );
-}
-
-/* command line passing using the 'old' boot protocol */
-#define MK_PTR(seg,off) ((void*)(((unsigned long)(seg) << 4) + (off)))
-#define OLD_CL_MAGIC_ADDR ((unsigned short*) MK_PTR(INITSEG,0x20))
-#define OLD_CL_MAGIC 0xA33F
-#define OLD_CL_OFFSET_ADDR ((unsigned short*) MK_PTR(INITSEG,0x22))
-
-static void parse_command_line(void)
-{
- long simple_strtoul(char *cmd, char *ptr, int base);
- char *cp, dummy;
- int i, j, k;
-
- if (cmdline_parsed)
- return;
-
- /* Fill in the cpu mask array with the default */
- for (i=0; i<MAX_CPUS; i++) {
- cpu_mask[i] = 1;
- }
-
- if (*OLD_CL_MAGIC_ADDR != OLD_CL_MAGIC)
- return;
-
- unsigned short offset = *OLD_CL_OFFSET_ADDR;
- cp = MK_PTR(INITSEG, offset);
-
- /* skip leading spaces */
- while (*cp == ' ')
- cp++;
-
- while (*cp) {
- if (!mt86_strncmp(cp, "console=", 8)) {
- cp += 8;
- serial_console_setup(cp);
- }
- /* Enable boot trace? */
- if (!mt86_strncmp(cp, "btrace", 6)) {
- cp += 6;
- btflag++;
- }
- /* Limit number of CPUs */
- if (!mt86_strncmp(cp, "maxcpus=", 8)) {
- cp += 8;
- maxcpus=(int)simple_strtoul(cp, &dummy, 10);
- }
- /* Run one pass and exit if there are no errors */
- if (!mt86_strncmp(cp, "onepass", 7)) {
- cp += 7;
- onepass++;
- }
- /* Setup a list of tests to run */
- if (!mt86_strncmp(cp, "tstlist=", 8)) {
- cp += 8;
- /* Clear all of the tests first */
- k = 0;
- while (tseq[k].cpu_sel) {
- tseq[k].sel = 0;
- k++;
- }
-
- /* Now enable all of the tests in the list */
- j = 0;
- while(*cp && mt86_isdigit(*cp)) {
- i = *cp-'0';
- j = j*10 + i;
- cp++;
- if (*cp == ',' || !mt86_isdigit(*cp)) {
- if (j < k) {
- tseq[j].sel = 1;
- }
- if (*cp != ',') break;
- j = 0;
- cp++;
- }
- }
- }
- /* Set a CPU mask to select CPU's to use for testing */
- if (!mt86_strncmp(cp, "cpumask=", 8)) {
- cp += 8;
- if (cp[0] == '0' && toupper(cp[1]) == 'X') cp += 2;
- while (*cp && *cp != ' ' && isxdigit(*cp)) {
- i = mt86_isdigit(*cp) ? *cp-'0' : toupper(*cp)-'A'+10;
- bin_mask = bin_mask * 16 + i;
- cp++;
- }
- /* Force CPU zero to always be selected */
- bin_mask |= 1;
- for (i=0; i<32; i++) {
- if (((bin_mask>>i) & 1) == 0) {
- cpu_mask[i] = 0;
- }
- }
- }
- /* go to the next parameter */
- while (*cp && *cp != ' ') cp++;
- while (*cp == ' ') cp++;
- }
-
- cmdline_parsed = 1;
-}
-
-void clear_screen()
-{
- int i;
- char *pp;
-
- /* Clear screen & set background to blue */
- for(i=0, pp=(char *)(SCREEN_ADR); i<80*25; i++) {
- *pp++ = ' ';
- *pp++ = 0x17;
- }
- if (btflag) {
- cprint(1, 0, "Boot Trace Enabled");
- cprint(1, 0, "Press any key to advance to next trace point");
- cprint(9, 1,"CPU Line Message Param #1 Param #2 CPU Line Message Param #1 Param #2");
- cprint(10,1,"--- ---- ----------- -------- -------- --- ---- ----------- -------- --------");
- }
-
-}
-
-/* Test entry point. We get here on startup and also whenever
- * we relocate. */
-void test_start(void)
-{
- int my_cpu_num, my_cpu_ord, run;
-
- /* If this is the first time here we are CPU 0 */
- if (start_seq == 0) {
- my_cpu_num = 0;
- } else {
- my_cpu_num = smp_my_cpu_num();
- }
- /* First thing, switch to main stack */
- switch_to_main_stack(my_cpu_num);
-
- /* First time (for this CPU) initialization */
- if (start_seq < 2) {
-
- /* These steps are only done by the boot cpu */
- if (my_cpu_num == 0) {
- my_cpu_ord = cpu_ord++;
- smp_set_ordinal(my_cpu_num, my_cpu_ord);
- parse_command_line();
- clear_screen();
- /* Initialize the barrier so the lock in btrace will work.
- * Will get redone later when we know how many CPUs we have */
- barrier_init(1);
- btrace(my_cpu_num, __LINE__, "Begin ", 1, 0, 0);
- /* Find memory size */
- mem_size(); /* must be called before initialise_cpus(); */
- /* Fill in the CPUID table */
- get_cpuid();
- /* Startup the other CPUs */
- start_seq = 1;
- //initialise_cpus();
- btrace(my_cpu_num, __LINE__, "BeforeInit", 1, 0, 0);
- /* Draw the screen and get system information */
- init();
-
- /* Set defaults and initialize variables */
- set_defaults();
-
- /* Setup base address for testing, 1 MB */
- win0_start = 0x100;
-
- /* Set relocation address to 32Mb if there is enough
- * memory. Otherwise set it to 3Mb */
- /* Large reloc addr allows for more testing overlap */
- if ((ulong)vv->pmap[vv->msegs-1].end > 0x2f00) {
- high_test_adr = 0x2000000;
- } else {
- high_test_adr = 0x300000;
- }
- win1_end = (high_test_adr >> 12);
-
- /* Adjust the map to not test the page at 939k,
- * reserved for locks */
- vv->pmap[0].end--;
-
- find_ticks_for_pass();
- } else {
- /* APs only, Register the APs */
- btrace(my_cpu_num, __LINE__, "AP_Start ", 0, my_cpu_num,
- cpu_ord);
- smp_ap_booted(my_cpu_num);
- /* Asign a sequential CPU ordinal to each active cpu */
- spin_lock(&barr->mutex);
- my_cpu_ord = cpu_ord++;
- smp_set_ordinal(my_cpu_num, my_cpu_ord);
- spin_unlock(&barr->mutex);
- btrace(my_cpu_num, __LINE__, "AP_Done ", 0, my_cpu_num,
- my_cpu_ord);
- }
-
- } else {
- /* Unlock after a relocation */
- spin_unlock(&barr->mutex);
- /* Get the CPU ordinal since it is lost during relocation */
- my_cpu_ord = smp_my_ord_num(my_cpu_num);
- btrace(my_cpu_num, __LINE__, "Reloc_Done",0,my_cpu_num,my_cpu_ord);
- }
-
- /* A barrier to insure that all of the CPUs are done with startup */
- barrier();
- btrace(my_cpu_num, __LINE__, "1st Barr ", 1, my_cpu_num, my_cpu_ord);
-
-
- /* Setup Memory Management and measure memory speed, we do it here
- * because we need all of the available CPUs */
- if (start_seq < 2) {
-
- /* Enable floating point processing */
- if (cpu_id.fid.bits.fpu)
- __asm__ __volatile__
- (
- "movl %%cr0, %%eax\n\t"
- "andl $0x7, %%eax\n\t"
- "movl %%eax, %%cr0\n\t"
- : :
- : "ax"
- );
- if (cpu_id.fid.bits.sse)
- __asm__ __volatile__
- (
- "movl %%cr4, %%eax\n\t"
- "orl $0x00000200, %%eax\n\t"
- "movl %%eax, %%cr4\n\t"
- : :
- : "ax"
- );
-
- btrace(my_cpu_num, __LINE__, "Mem Mgmnt ",
- 1, cpu_id.fid.bits.pae, cpu_id.fid.bits.lm);
- /* Setup memory management modes */
- /* If we have PAE, turn it on */
- if (cpu_id.fid.bits.pae == 1) {
- __asm__ __volatile__
- (
- "movl %%cr4, %%eax\n\t"
- "orl $0x00000020, %%eax\n\t"
- "movl %%eax, %%cr4\n\t"
- : :
- : "ax"
- );
- cprint(LINE_TITLE+1, COL_MODE, "(PAE Mode)");
- }
- /* If this is a 64 CPU enable long mode */
- if (cpu_id.fid.bits.lm == 1) {
- __asm__ __volatile__
- (
- "movl $0xc0000080, %%ecx\n\t"
- "rdmsr\n\t"
- "orl $0x00000100, %%eax\n\t"
- "wrmsr\n\t"
- : :
- : "ax", "cx"
- );
- cprint(LINE_TITLE+1, COL_MODE, "(X64 Mode)");
- }
- /* Get the memory Speed with all CPUs */
- get_mem_speed(my_cpu_num, num_cpus);
- }
-
- /* Set the initialized flag only after all of the CPU's have
- * Reached the barrier. This insures that relocation has
- * been completed for each CPU. */
- btrace(my_cpu_num, __LINE__, "Start Done", 1, 0, 0);
- start_seq = 2;
-
- /* Loop through all tests */
- while (1) {
- /* If the restart flag is set all initial params */
- if (restart_flag) {
- set_defaults();
- continue;
- }
- /* Skip single CPU tests if we are using only one CPU */
- if (tseq[test].cpu_sel == -1 &&
- (num_cpus == 1 || cpu_mode != CPM_ALL)) {
- test++;
- continue;
- }
-
- test_setup();
-
- /* Loop through all possible windows */
- while (win_next <= ((ulong)vv->pmap[vv->msegs-1].end + WIN_SZ_PAGES)) {
-
- /* Main scheduling barrier */
- cprint(8, my_cpu_num+7, "W");
- btrace(my_cpu_num, __LINE__, "Sched_Barr", 1,window,win_next);
- barrier();
-
- /* Don't go over the 8TB PAE limit */
- if (win_next > MAX_MEM_PAGES) {
- break;
- }
-
- /* For the bit fade test, #11, we cannot relocate so bump the
- * window to 1 */
- if (tseq[test].pat == 11 && window == 0) {
- window = 1;
- }
-
- /* Relocate if required */
- if (window != 0 && (ulong)&_start != LOW_TEST_ADR) {
- btrace(my_cpu_num, __LINE__, "Sched_RelL", 1,0,0);
- run_at(LOW_TEST_ADR, my_cpu_num);
- }
- if (window == 0 && vv->plim_lower >= win0_start) {
- window++;
- }
- if (window == 0 && (ulong)&_start == LOW_TEST_ADR) {
- btrace(my_cpu_num, __LINE__, "Sched_RelH", 1,0,0);
- run_at(high_test_adr, my_cpu_num);
- }
-
- /* Decide which CPU(s) to use */
- btrace(my_cpu_num, __LINE__, "Sched_CPU0",1,cpu_sel,
- tseq[test].cpu_sel);
- run = 1;
- switch(cpu_mode) {
- case CPM_RROBIN:
- case CPM_SEQ:
- /* Select a single CPU */
- if (my_cpu_ord == cpu_sel) {
- mstr_cpu = cpu_sel;
- run_cpus = 1;
- } else {
- run = 0;
- }
- break;
- case CPM_ALL:
- /* Use all CPUs */
- if (tseq[test].cpu_sel == -1) {
- /* Round robin through all of the CPUs */
- if (my_cpu_ord == cpu_sel) {
- mstr_cpu = cpu_sel;
- run_cpus = 1;
- } else {
- run = 0;
- }
- } else {
- /* Use the number of CPUs specified by the test,
- * Starting with zero */
- if (my_cpu_ord >= tseq[test].cpu_sel) {
- run = 0;
- }
- /* Set the master CPU to the highest CPU number
- * that has been selected */
- if (act_cpus < tseq[test].cpu_sel) {
- mstr_cpu = act_cpus-1;
- run_cpus = act_cpus;
- } else {
- mstr_cpu = tseq[test].cpu_sel-1;
- run_cpus = tseq[test].cpu_sel;
- }
- }
- }
- btrace(my_cpu_num, __LINE__, "Sched_CPU1",1,run_cpus,run);
- barrier();
- dprint(9, 7, run_cpus, 2, 0);
-
- /* Setup a sub barrier for only the selected CPUs */
- if (my_cpu_ord == mstr_cpu) {
- s_barrier_init(run_cpus);
- }
-
- /* Make sure the the sub barrier is ready before proceeding */
- barrier();
-
- /* Not selected CPUs go back to the scheduling barrier */
- if (run == 0 ) {
- continue;
- }
- cprint(8, my_cpu_num+7, "-");
- btrace(my_cpu_num, __LINE__, "Sched_Win0",1,window,win_next);
-
- if (my_cpu_ord == mstr_cpu) {
- switch (window) {
- /* Special case for relocation */
- case 0:
- winx.start = 0;
- winx.end = win1_end;
- window++;
- break;
- /* Special case for first segment */
- case 1:
- winx.start = win0_start;
- winx.end = WIN_SZ_PAGES;
- win_next += WIN_SZ_PAGES;
- window++;
- break;
- /* For all other windows */
- default:
- winx.start = win_next;
- win_next += WIN_SZ_PAGES;
- winx.end = win_next;
- }
- btrace(my_cpu_num,__LINE__,"Sched_Win1",1,winx.start,
- winx.end);
-
- /* Find the memory areas to test */
- segs = compute_segments(winx, my_cpu_num);
- }
- s_barrier();
- btrace(my_cpu_num,__LINE__,"Sched_Win2",1,segs,
- vv->map[0].pbase_addr);
-
- if (segs == 0) {
- /* No memory in this window so skip it */
- continue;
- }
-
- /* map in the window... */
- if (map_page(vv->map[0].pbase_addr) < 0) {
- /* Either there is no PAE or we are at the PAE limit */
- break;
- }
-
- btrace(my_cpu_num, __LINE__, "Strt_Test ",1,my_cpu_num,
- my_cpu_ord);
- do_test(my_cpu_ord);
- btrace(my_cpu_num, __LINE__, "End_Test ",1,my_cpu_num,
- my_cpu_ord);
-
- paging_off();
-
- } /* End of window loop */
-
- s_barrier();
- btrace(my_cpu_num, __LINE__, "End_Win ",1,test, window);
-
- /* Setup for the next set of windows */
- win_next = 0;
- window = 0;
- bail = 0;
-
- /* Only the master CPU does the end of test housekeeping */
- if (my_cpu_ord != mstr_cpu) {
- continue;
- }
-
- /* Special handling for the bit fade test #11 */
- if (tseq[test].pat == 11 && bitf_seq != 6) {
- /* Keep going until the sequence is complete. */
- bitf_seq++;
- continue;
- } else {
- bitf_seq = 0;
- }
-
- /* Select advancement of CPUs and next test */
- switch(cpu_mode) {
- case CPM_RROBIN:
- if (++cpu_sel >= act_cpus) {
- cpu_sel = 0;
- }
- next_test();
- break;
- case CPM_SEQ:
- if (++cpu_sel >= act_cpus) {
- cpu_sel = 0;
- next_test();
- }
- break;
- case CPM_ALL:
- if (tseq[test].cpu_sel == -1)
- {
- /* Do the same test for each CPU */
- if (++cpu_sel >= act_cpus)
- {
- cpu_sel = 0;
- next_test();
- } else {
- continue;
- }
- } else {
- next_test();
- }
- } //????
- btrace(my_cpu_num, __LINE__, "Next_CPU ",1,cpu_sel,test);
-
- /* If this was the last test then we finished a pass */
- if (pass_flag)
- {
- pass_flag = 0;
-
- vv->pass++;
-
- dprint(LINE_INFO, 49, vv->pass, 5, 0);
- find_ticks_for_pass();
- ltest = -1;
-
- if (vv->ecount == 0)
- {
- /* If onepass is enabled and we did not get any errors
- * reboot to exit the test */
- if (onepass) { reboot(); }
- if (!btflag)
- cprint(LINE_MSG, COL_MSG-8,
- "** Pass complete, no errors, press Esc to exit **");
- if(BEEP_END_NO_ERROR)
- {
- beep(1000);
- beep(2000);
- beep(1000);
- beep(2000);
- }
- }
- }
-
- bail=0;
- } /* End test loop */
-}
-
-void test_setup()
-{
- static int ltest = -1;
-
- /* See if a specific test has been selected */
- if (vv->testsel >= 0) {
- test = vv->testsel;
- }
-
- /* Only do the setup if this is a new test */
- if (test == ltest) {
- return;
- }
- ltest = test;
-
- /* Now setup the test parameters based on the current test number */
- if (vv->pass == 0) {
- /* Reduce iterations for first pass */
- c_iter = tseq[test].iter/FIRST_DIVISER;
- } else {
- c_iter = tseq[test].iter;
- }
-
- /* Set the number of iterations. We only do half of the iterations */
- /* on the first pass */
- //dprint(LINE_INFO, 28, c_iter, 3, 0);
- test_ticks = find_ticks_for_test(test);
- nticks = 0;
- vv->tptr = 0;
-
- cprint(LINE_PAT, COL_PAT, " ");
- cprint(LINE_PAT, COL_PAT-3, " ");
- dprint(LINE_TST, COL_MID+6, tseq[test].pat, 2, 1);
- cprint(LINE_TST, COL_MID+9, tseq[test].msg);
- cprint(2, COL_MID+8, " ");
-}
-
-/* A couple static variables for when all cpus share the same pattern */
-static ulong sp1, sp2;
-
-int do_test(int my_ord)
-{
- int i=0, j=0;
- static int bitf_sleep;
- unsigned long p0=0, p1=0, p2=0;
-
- if (my_ord == mstr_cpu) {
- if ((ulong)&_start > LOW_TEST_ADR) {
- /* Relocated so we need to test all selected lower memory */
- vv->map[0].start = mapping(vv->plim_lower);
-
- /* Good 'ol Legacy USB_WAR */
- if (vv->map[0].start < (ulong*)0x500)
- {
- vv->map[0].start = (ulong*)0x500;
- }
-
- cprint(LINE_PAT, COL_MID+25, " R");
- } else {
- cprint(LINE_PAT, COL_MID+25, " ");
- }
-
- /* Update display of memory segments being tested */
- p0 = page_of(vv->map[0].start);
- p1 = page_of(vv->map[segs-1].end);
- aprint(LINE_RANGE, COL_MID+9, p0);
- cprint(LINE_RANGE, COL_MID+14, " - ");
- aprint(LINE_RANGE, COL_MID+17, p1);
- aprint(LINE_RANGE, COL_MID+25, p1-p0);
- cprint(LINE_RANGE, COL_MID+30, " of ");
- aprint(LINE_RANGE, COL_MID+34, vv->selected_pages);
- }
-
- switch(tseq[test].pat) {
-
- /* do the testing according to the selected pattern */
-
- case 0: /* Address test, walking ones (test #0) */
- /* Run with cache turned off */
- set_cache(0);
- addr_tst1(my_ord);
- set_cache(1);
- BAILOUT;
- break;
-
- case 1:
- case 2: /* Address test, own address (test #1, 2) */
- addr_tst2(my_ord);
- BAILOUT;
- break;
-
- case 3:
- case 4: /* Moving inversions, all ones and zeros (tests #3, 4) */
- p1 = 0;
- p2 = ~p1;
- s_barrier();
- movinv1(c_iter,p1,p2,my_ord);
- BAILOUT;
-
- /* Switch patterns */
- s_barrier();
- movinv1(c_iter,p2,p1,my_ord);
- BAILOUT;
- break;
-
- case 5: /* Moving inversions, 8 bit walking ones and zeros (test #5) */
- p0 = 0x80;
- for (i=0; i<8; i++, p0=p0>>1) {
- p1 = p0 | (p0<<8) | (p0<<16) | (p0<<24);
- p2 = ~p1;
- s_barrier();
- movinv1(c_iter,p1,p2, my_ord);
- BAILOUT;
-
- /* Switch patterns */
- s_barrier();
- movinv1(c_iter,p2,p1, my_ord);
- BAILOUT;
- }
- break;
-
- case 6: /* Random Data (test #6) */
- /* Seed the random number generator */
- if (my_ord == mstr_cpu) {
- if (cpu_id.fid.bits.rdtsc) {
- asm __volatile__ ("rdtsc":"=a" (sp1),"=d" (sp2));
- } else {
- sp1 = 521288629 + vv->pass;
- sp2 = 362436069 - vv->pass;
- }
- rand_seed(sp1, sp2, 0);
- }
-
- s_barrier();
- for (i=0; i < c_iter; i++) {
- if (my_ord == mstr_cpu) {
- sp1 = rand(0);
- sp2 = ~p1;
- }
- s_barrier();
- movinv1(2,sp1,sp2, my_ord);
- BAILOUT;
- }
- break;
-
-
- case 7: /* Block move (test #7) */
- block_move(c_iter, my_ord);
- BAILOUT;
- break;
-
- case 8: /* Moving inversions, 32 bit shifting pattern (test #8) */
- for (i=0, p1=1; p1; p1=p1<<1, i++) {
- s_barrier();
- movinv32(c_iter,p1, 1, 0x80000000, 0, i, my_ord);
- { BAILOUT }
- s_barrier();
- movinv32(c_iter,~p1, 0xfffffffe,
- 0x7fffffff, 1, i, my_ord);
- { BAILOUT }
- }
- break;
-
- case 9: /* Random Data Sequence (test #9) */
- for (i=0; i < c_iter; i++) {
- s_barrier();
- movinvr(my_ord);
- BAILOUT;
- }
- break;
-
- case 10: /* Modulo 20 check, Random pattern (test #10) */
- for (j=0; j<c_iter; j++) {
- p1 = rand(0);
- for (i=0; i<MOD_SZ; i++) {
- p2 = ~p1;
- s_barrier();
- modtst(i, 2, p1, p2, my_ord);
- BAILOUT;
-
- /* Switch patterns */
- s_barrier();
- modtst(i, 2, p2, p1, my_ord);
- BAILOUT;
- }
- }
- break;
-
- case 11: /* Bit fade test, fill (test #11) */
- /* Use a sequence to process all windows for each stage */
- switch(bitf_seq) {
- case 0: /* Fill all of memory 0's */
- bit_fade_fill(0, my_ord);
- bitf_sleep = 1;
- break;
- case 1: /* Sleep for the specified time */
- /* Only sleep once */
- if (bitf_sleep) {
- sleep(c_iter, 1, my_ord, 0);
- bitf_sleep = 0;
- }
- break;
- case 2: /* Now check all of memory for changes */
- bit_fade_chk(0, my_ord);
- break;
- case 3: /* Fill all of memory 1's */
- bit_fade_fill(-1, my_ord);
- bitf_sleep = 1;
- break;
- case 4: /* Sleep for the specified time */
- /* Only sleep once */
- if (bitf_sleep) {
- sleep(c_iter, 1, my_ord, 0);
- bitf_sleep = 0;
- }
- break;
- case 5: /* Now check all of memory for changes */
- bit_fade_chk(-1, my_ord);
- break;
- }
- BAILOUT;
- break;
-
- case 90: /* Modulo 20 check, all ones and zeros (unused) */
- p1=0;
- for (i=0; i<MOD_SZ; i++) {
- p2 = ~p1;
- modtst(i, c_iter, p1, p2, my_ord);
- BAILOUT;
-
- /* Switch patterns */
- p2 = p1;
- p1 = ~p2;
- modtst(i, c_iter, p1,p2, my_ord);
- BAILOUT;
- }
- break;
-
- case 91: /* Modulo 20 check, 8 bit pattern (unused) */
- p0 = 0x80;
- for (j=0; j<8; j++, p0=p0>>1) {
- p1 = p0 | (p0<<8) | (p0<<16) | (p0<<24);
- for (i=0; i<MOD_SZ; i++) {
- p2 = ~p1;
- modtst(i, c_iter, p1, p2, my_ord);
- BAILOUT;
-
- /* Switch patterns */
- p2 = p1;
- p1 = ~p2;
- modtst(i, c_iter, p1, p2, my_ord);
- BAILOUT;
- }
- }
- break;
- }
- return(0);
-}
-
-/* Compute number of SPINSZ_DWORDS chunks being tested */
-int find_chunks(int tst)
-{
- int i, j, sg, wmax, ch;
- struct pmap twin={0,0};
- unsigned long wnxt = WIN_SZ_PAGES;
- unsigned long len;
-
- wmax = MAX_MEM_PAGES/WIN_SZ_PAGES+2; /* The number of 2 GB segments +2 */
- /* Compute the number of SPINSZ_DWORDS memory segments */
- ch = 0;
- for(j = 0; j < wmax; j++) {
- /* special case for relocation */
- if (j == 0) {
- twin.start = 0;
- twin.end = win1_end;
- }
-
- /* special case for first 2 GB */
- if (j == 1) {
- twin.start = win0_start;
- twin.end = WIN_SZ_PAGES;
- }
-
- /* For all other windows */
- if (j > 1) {
- twin.start = wnxt;
- wnxt += WIN_SZ_PAGES;
- twin.end = wnxt;
- }
-
- /* Find the memory areas I am going to test */
- sg = compute_segments(twin, -1);
- for(i = 0; i < sg; i++) {
- len = vv->map[i].end - vv->map[i].start;
-
- if (cpu_mode == CPM_ALL && num_cpus > 1) {
- switch(tseq[tst].pat) {
- case 2:
- case 4:
- case 5:
- case 6:
- case 9:
- case 10:
- len /= act_cpus;
- break;
- case 7:
- case 8:
- len /= act_cpus;
- break;
- }
- }
- ch += (len + SPINSZ_DWORDS -1)/SPINSZ_DWORDS;
- }
- }
- return(ch);
-}
-
-/* Compute the total number of ticks per pass */
-void find_ticks_for_pass(void)
-{
- int i;
-
- vv->pptr = 0;
- vv->pass_ticks = 0;
- vv->total_ticks = 0;
- cprint(1, COL_MID+8, " ");
- i = 0;
- while (tseq[i].cpu_sel != 0) {
- /* Skip tests 2 and 4 if we are using 1 cpu */
- if (act_cpus == 1 && (i == 2 || i == 4)) {
- i++;
- continue;
- }
- vv->pass_ticks += find_ticks_for_test(i);
- i++;
- }
-}
-
-static int find_ticks_for_test(int tst)
-{
- int ticks=0, iter, ch;
-
- if (tseq[tst].sel == 0) {
- return(0);
- }
-
- /* Determine the number of SPINSZ chunks for this test */
- ch = find_chunks(tst);
-
- /* Set the number of iterations. We only do 1/2 of the iterations */
- /* on the first pass */
- if (vv->pass == 0) {
- iter = tseq[tst].iter/FIRST_DIVISER;
- } else {
- iter = tseq[tst].iter;
- }
-
- switch(tseq[tst].pat) {
- case 0: /* Address test, walking ones */
- ticks = ch;
- break;
- case 1: /* Address test, own address */
- case 2:
- ticks = ch * 2;
- break;
- case 3: /* Moving inversions, all ones and zeros */
- case 4: {
- const int each_movinv1 = ch * (1 + 2 * iter); // each movinv1()
- ticks = 2 * each_movinv1; // which we call twice
- break;
- }
- case 5: { /* Moving inversions, 8 bit walking ones and zeros */
- const int each_movinv1 = ch * (1 + 2 * iter); // same as above
- ticks = 16 * each_movinv1; // but here we call it 16x
- break;
- }
- case 6: { /* Random Data */
- const int each_movinv1 = ch * 5; // movinv1() does only 5 ticks here
- ticks = iter * each_movinv1; // and we call it 'iter' times.
- break;
- }
- case 7: /* Block move */
- ticks = ch * (2 + iter);
- break;
- case 8: { /* Moving inversions, 32 bit shifting pattern */
- const int each_movinv32 = ch * (1 + 2 * iter); // Each movinv32()
- ticks = each_movinv32 * 64; // We call it 64x
- break;
- }
- case 9: { /* Random Data Sequence */
- const int each_movinvr = 3 * ch; // Each movinvr() ticks 3*ch times
- ticks = each_movinvr * iter; // We call it iter times
- break;
- }
- case 10: { /* Modulo 20 check, Random pattern */
- const int each_modtst = ch * 4;
- ticks = iter * MOD_SZ * each_modtst;
- break;
- }
- case 11: { /* Bit fade test */
- // Each call to bit_fade_fill() and bit_fade_chk() ticks ch times.
- const int each_bit_fade_fill = ch;
- const int each_bit_fade_chk = ch;
- // We call each twice: fill 0s, check, fill 1s, check.
- const int loop_ticks = 2 * each_bit_fade_chk + 2 * each_bit_fade_fill;
- // We also sleep for '2*iter' seconds and tick once per second
- const int sleep_ticks = iter * 2;
- ticks = loop_ticks + sleep_ticks;
- break;
- }
- case 90: { /* Modulo 20 check, all ones and zeros (unused) */
- const int each_modtst = ch * (2 + iter);
- ticks = each_modtst * 2 * MOD_SZ;
- break;
- }
- case 91: { /* Modulo 20 check, 8 bit pattern (unused) */
- const int each_modtst = ch * (2 + iter);
- ticks = each_modtst * 2 * MOD_SZ * 8;
- break;
- }
- default:
- ASSERT(0);
- break;
- }
- if (cpu_mode == CPM_SEQ || tseq[tst].cpu_sel == -1) {
- ticks *= act_cpus;
- }
- return ticks;
-}
-
-static int compute_segments(struct pmap win, int me)
-{
- unsigned long wstart, wend;
- int i, sg;
-
- /* Compute the window I am testing memory in */
- wstart = win.start;
- wend = win.end;
- sg = 0;
-
- /* Now reduce my window to the area of memory I want to test */
- if (wstart < vv->plim_lower) {
- wstart = vv->plim_lower;
- }
- if (wend > vv->plim_upper) {
- wend = vv->plim_upper;
- }
- if (wstart >= wend) {
- return(0);
- }
- /* List the segments being tested */
- for (i=0; i< vv->msegs; i++) {
- unsigned long start, end;
- start = vv->pmap[i].start;
- end = vv->pmap[i].end;
- if (start <= wstart) {
- start = wstart;
- }
- if (end >= wend) {
- end = wend;
- }
-#if 0
- cprint(LINE_SCROLL+(2*i), 0, " (");
- hprint(LINE_SCROLL+(2*i), 2, start);
- cprint(LINE_SCROLL+(2*i), 10, ", ");
- hprint(LINE_SCROLL+(2*i), 12, end);
- cprint(LINE_SCROLL+(2*i), 20, ") ");
-
- cprint(LINE_SCROLL+(2*i), 22, "r(");
- hprint(LINE_SCROLL+(2*i), 24, wstart);
- cprint(LINE_SCROLL+(2*i), 32, ", ");
- hprint(LINE_SCROLL+(2*i), 34, wend);
- cprint(LINE_SCROLL+(2*i), 42, ") ");
-
- cprint(LINE_SCROLL+(2*i), 44, "p(");
- hprint(LINE_SCROLL+(2*i), 46, vv->plim_lower);
- cprint(LINE_SCROLL+(2*i), 54, ", ");
- hprint(LINE_SCROLL+(2*i), 56, vv->plim_upper);
- cprint(LINE_SCROLL+(2*i), 64, ") ");
-
- cprint(LINE_SCROLL+(2*i+1), 0, "w(");
- hprint(LINE_SCROLL+(2*i+1), 2, win.start);
- cprint(LINE_SCROLL+(2*i+1), 10, ", ");
- hprint(LINE_SCROLL+(2*i+1), 12, win.end);
- cprint(LINE_SCROLL+(2*i+1), 20, ") ");
-
- cprint(LINE_SCROLL+(2*i+1), 22, "m(");
- hprint(LINE_SCROLL+(2*i+1), 24, vv->pmap[i].start);
- cprint(LINE_SCROLL+(2*i+1), 32, ", ");
- hprint(LINE_SCROLL+(2*i+1), 34, vv->pmap[i].end);
- cprint(LINE_SCROLL+(2*i+1), 42, ") ");
-
- cprint(LINE_SCROLL+(2*i+1), 44, "i=");
- hprint(LINE_SCROLL+(2*i+1), 46, i);
-
- cprint(LINE_SCROLL+(2*i+2), 0,
- " "
- " ");
- cprint(LINE_SCROLL+(2*i+3), 0,
- " "
- " ");
-#endif
- if ((start < end) && (start < wend) && (end > wstart)) {
- vv->map[sg].pbase_addr = start;
- vv->map[sg].start = mapping(start);
- vv->map[sg].end = emapping(end);
-#if 0
- hprint(LINE_SCROLL+(sg+1), 0, sg);
- hprint(LINE_SCROLL+(sg+1), 12, vv->map[sg].pbase_addr);
- hprint(LINE_SCROLL+(sg+1), 22, start);
- hprint(LINE_SCROLL+(sg+1), 32, end);
- hprint(LINE_SCROLL+(sg+1), 42, mapping(start));
- hprint(LINE_SCROLL+(sg+1), 52, emapping(end));
- cprint(LINE_SCROLL+(sg+2), 0,
- " "
- " ");
-#endif
-#if 0
- cprint(LINE_SCROLL+(2*i+1), 54, ", sg=");
- hprint(LINE_SCROLL+(2*i+1), 59, sg);
-#endif
- sg++;
- }
- }
- return (sg);
-}
-
diff --git a/memtest86+_old/major_version b/memtest86+_old/major_version
deleted file mode 100644
index c6aaf52..0000000
--- a/memtest86+_old/major_version
+++ /dev/null
@@ -1 +0,0 @@
-4.99
diff --git a/memtest86+_old/make_buildnum.sh b/memtest86+_old/make_buildnum.sh
deleted file mode 100755
index 93927cd..0000000
--- a/memtest86+_old/make_buildnum.sh
+++ /dev/null
@@ -1,20 +0,0 @@
-#!sh
-# FILE: make_buildnum.sh
-version="`sed 's/^ *//' major_version`"
-old="`sed 's/^ *//' build.number` +1"
-echo $old | bc > build.number.temp
-mv build.number.temp build.number
-#versión..
-echo "$version`sed 's/^ *//' build.number` - `date`" > version.number
-#header
-echo "#ifndef BUILD_NUMBER_STR" > build_number.h
-echo "#define BUILD_NUMBER_STR \"`sed 's/^ *//' build.number`\"" >> build_number.h
-echo "#endif" >> build_number.h
-
-echo "#ifndef VERSION_STR" >> build_number.h
-echo "#define VERSION_STR \"$version`sed 's/^ *//' build.number` - `date`\"" >> build_number.h
-echo "#endif" >> build_number.h
-
-echo "#ifndef VERSION_STR_SHORT" >> build_number.h
-echo "#define VERSION_STR_SHORT \"$version`sed 's/^ *//' build.number`\"" >> build_number.h
-echo "#endif" >> build_number.h
diff --git a/memtest86+_old/makedos.sh b/memtest86+_old/makedos.sh
deleted file mode 100755
index adeb29d..0000000
--- a/memtest86+_old/makedos.sh
+++ /dev/null
@@ -1,10 +0,0 @@
-#!/bin/bash
-
-if [ -f memtest.bin ]
-then
-CSIZE="$(awk 'NR==16' mt86+_loader.asm | awk '{print $2}')";
-NSIZE="$(ls -l memtest.bin | awk '{print $5}')";
-sed "s/$CSIZE/$NSIZE/" mt86+_loader.asm > mt86+_loader.asm.new;
-mv mt86+_loader.asm.new mt86+_loader.asm;
-nasm mt86+_loader.asm;
-fi
diff --git a/memtest86+_old/makeiso.sh b/memtest86+_old/makeiso.sh
deleted file mode 100755
index d6b329e..0000000
--- a/memtest86+_old/makeiso.sh
+++ /dev/null
@@ -1,45 +0,0 @@
-#!/bin/sh
-
-# check to see if the correct tools are installed
-for X in wc genisoimage
-do
- if [ "$(which $X)" = "" ]; then
- echo "makeiso.sh error: $X is not in your path." >&2
- exit 1
- elif [ ! -x $(which $X) ]; then
- echo "makeiso.sh error: $X is not executable." >&2
- exit 1
- fi
-done
-
-#check to see if memtest.bin is present
-if [ ! -w memtest.bin ]; then
- echo "makeiso.sh error: cannot find memtest.bin, did you compile it?" >&2
- exit 1
-fi
-
-
-# enlarge the size of memtest.bin
-SIZE=$(wc -c memtest.bin | awk '{print $1}')
-FILL=$((1474560 - $SIZE))
-dd if=/dev/zero of=fill.tmp bs=$FILL count=1
-cat memtest.bin fill.tmp > memtest.img
-rm -f fill.tmp
-
-echo "Generating iso image ..."
-
-mkdir "cd"
-mkdir "cd/boot"
-mv memtest.img cd/boot
-cd cd
-
-# Create the cd.README
-echo -e "There is nothing to do here\r\r\nMemtest86+ is located on the bootsector of this CD\r\r\n" > README.TXT
-echo -e "Just boot from this CD and Memtest86+ will launch" >> README.TXT
-
-genisoimage -A "MKISOFS 1.1.2" -p "Memtest86+ 5.31b" -publisher "Samuel D. <memtest@memtest.org>" -b boot/memtest.img -c boot/boot.catalog -V "MT531" -o memtest.iso .
-mv memtest.iso ../mt531b.iso
-cd ..
-rm -rf cd
-
-echo "Done! Memtest86+ 5.31b ISO is mt501.iso"
diff --git a/memtest86+_old/memsize.c b/memtest86+_old/memsize.c
deleted file mode 100644
index 84230d5..0000000
--- a/memtest86+_old/memsize.c
+++ /dev/null
@@ -1,346 +0,0 @@
-/* memsize.c - MemTest-86 Version 3.3
- *
- * Released under version 2 of the Gnu Public License.
- * By Chris Brady
- */
-
-#include "test.h"
-#include "defs.h"
-#include "config.h"
-
-short e820_nr = 0;
-short memsz_mode = SZ_MODE_BIOS;
-
-static ulong alt_mem_k = 0;
-static ulong ext_mem_k = 0;
-static struct e820entry e820[E820MAX];
-
-static void sort_pmap(void);
-static void memsize_820(void);
-static void memsize_801(void);
-static int sanitize_e820_map(struct e820entry *orig_map, struct e820entry *new_bios, short old_nr);
-static void memsize_linuxbios();
-
-/*
- * Find out how much memory there is.
- */
-#pragma GCC push_options
-#pragma GCC optimize ("O0")
-void mem_size(void)
-{
- int i = 0, flag = 0;
- vv->test_pages = 0;
-
- /* Get the memory size from the BIOS */
- /* Determine the memory map */
-
- if (query_linuxbios()) {
- flag = 1;
- } else if (query_pcbios()) {
- flag = 2;
- }
-
- /* On the first time thru only */
- /* Make a copy of the memory info table so that we can re-evaluate */
- /* The memory map later */
- if (e820_nr == 0 && alt_mem_k == 0 && ext_mem_k == 0) {
- ext_mem_k = mem_info.e88_mem_k;
- alt_mem_k = mem_info.e801_mem_k;
- e820_nr = mem_info.e820_nr;
- for (i=0; i< mem_info.e820_nr; i++) {
- e820[i].addr = mem_info.e820[i].addr;
- e820[i].size = mem_info.e820[i].size;
- e820[i].type = mem_info.e820[i].type;
- }
- }
- if (flag == 1) {
- memsize_linuxbios();
- } else if (flag == 2) {
- memsize_820();
- }
-
- /* Guarantee that pmap entries are in ascending order */
- sort_pmap();
- vv->plim_lower = 0;
- vv->plim_upper = vv->pmap[vv->msegs-1].end;
-
- adj_mem();
-}
-#pragma GCC pop_options
-
-static void sort_pmap(void)
-{
- int i, j;
- /* Do an insertion sort on the pmap, on an already sorted
- * list this should be a O(1) algorithm.
- */
- for(i = 0; i < vv->msegs; i++) {
- /* Find where to insert the current element */
- for(j = i -1; j >= 0; j--) {
- if (vv->pmap[i].start > vv->pmap[j].start) {
- j++;
- break;
- }
- }
- /* Insert the current element */
- if (i != j) {
- struct pmap temp;
- temp = vv->pmap[i];
- mt86_memmove(&vv->pmap[j], &vv->pmap[j+1],
- (i -j)* sizeof(temp));
- vv->pmap[j] = temp;
- }
- }
-}
-static void memsize_linuxbios(void)
-{
- int i, n;
- /* Build the memory map for testing */
- n = 0;
- for (i=0; i < e820_nr; i++) {
- unsigned long long end;
-
- if (e820[i].type != E820_RAM) {
- continue;
- }
- end = e820[i].addr;
- end += e820[i].size;
- vv->pmap[n].start = (e820[i].addr + 4095) >> 12;
- vv->pmap[n].end = end >> 12;
- vv->test_pages += vv->pmap[n].end - vv->pmap[n].start;
- n++;
- }
- vv->msegs = n;
-}
-static void memsize_820()
-{
- int i, n, nr;
- struct e820entry nm[E820MAX];
- unsigned long long start;
- unsigned long long end;
-
- /* Clean up, adjust and copy the BIOS-supplied E820-map. */
- nr = sanitize_e820_map(e820, nm, e820_nr);
-
- /* If there is not a good 820 map use the BIOS 801/88 info */
- if (nr < 1 || nr > E820MAX) {
- memsize_801();
- return;
- }
-
- /* Build the memory map for testing */
- n = 0;
- for (i=0; i<nr; i++) {
- if (nm[i].type == E820_RAM || nm[i].type == E820_ACPI) {
- start = nm[i].addr;
- end = start + nm[i].size;
-
- /* Don't ever use memory between 640 and 1024k */
- if (start > RES_START && start < RES_END) {
- if (end < RES_END) {
- continue;
- }
- start = RES_END;
- }
- if (end > RES_START && end < RES_END) {
- end = RES_START;
- }
- vv->pmap[n].start = (start + 4095) >> 12;
- vv->pmap[n].end = end >> 12;
- vv->test_pages += vv->pmap[n].end - vv->pmap[n].start;
- n++;
-#if 0
- int epmap = 0;
- int lpmap = 0;
- if(n > 12) { epmap = 34; lpmap = -12; }
- hprint (11+n+lpmap,0+epmap,vv->pmap[n-1].start);
- hprint (11+n+lpmap,10+epmap,vv->pmap[n-1].end);
- hprint (11+n+lpmap,20+epmap,vv->pmap[n-1].end - vv->pmap[n-1].start);
- dprint (11+n+lpmap,30+epmap,nm[i].type,0,0);
-#endif
- }
- }
- vv->msegs = n;
-}
-
-static void memsize_801(void)
-{
- ulong mem_size;
-
- /* compare results from 88 and 801 methods and take the greater */
- /* These sizes are for extended memory in 1k units. */
-
- if (alt_mem_k < ext_mem_k) {
- mem_size = ext_mem_k;
- } else {
- mem_size = alt_mem_k;
- }
- /* First we map in the first 640k */
- vv->pmap[0].start = 0;
- vv->pmap[0].end = RES_START >> 12;
- vv->test_pages = RES_START >> 12;
-
- /* Now the extended memory */
- vv->pmap[1].start = (RES_END + 4095) >> 12;
- vv->pmap[1].end = (mem_size + 1024) >> 2;
- vv->test_pages += mem_size >> 2;
- vv->msegs = 2;
-}
-
-/*
- * Sanitize the BIOS e820 map.
- *
- * Some e820 responses include overlapping entries. The following
- * replaces the original e820 map with a new one, removing overlaps.
- *
- */
-static int sanitize_e820_map(struct e820entry *orig_map, struct e820entry *new_bios,
- short old_nr)
-{
- struct change_member {
- struct e820entry *pbios; /* pointer to original bios entry */
- unsigned long long addr; /* address for this change point */
- };
- struct change_member change_point_list[2*E820MAX];
- struct change_member *change_point[2*E820MAX];
- struct e820entry *overlap_list[E820MAX];
- struct e820entry biosmap[E820MAX];
- struct change_member *change_tmp;
- ulong current_type, last_type;
- unsigned long long last_addr;
- int chgidx, still_changing;
- int overlap_entries;
- int new_bios_entry;
- int i;
-
- /*
- Visually we're performing the following (1,2,3,4 = memory types)...
- Sample memory map (w/overlaps):
- ____22__________________
- ______________________4_
- ____1111________________
- _44_____________________
- 11111111________________
- ____________________33__
- ___________44___________
- __________33333_________
- ______________22________
- ___________________2222_
- _________111111111______
- _____________________11_
- _________________4______
-
- Sanitized equivalent (no overlap):
- 1_______________________
- _44_____________________
- ___1____________________
- ____22__________________
- ______11________________
- _________1______________
- __________3_____________
- ___________44___________
- _____________33_________
- _______________2________
- ________________1_______
- _________________4______
- ___________________2____
- ____________________33__
- ______________________4_
- */
- /* First make a copy of the map */
- for (i=0; i<old_nr; i++) {
- biosmap[i].addr = orig_map[i].addr;
- biosmap[i].size = orig_map[i].size;
- biosmap[i].type = orig_map[i].type;
- }
-
- /* bail out if we find any unreasonable addresses in bios map */
- for (i=0; i<old_nr; i++) {
- if (biosmap[i].addr + biosmap[i].size < biosmap[i].addr)
- return 0;
- }
-
- /* create pointers for initial change-point information (for sorting) */
- for (i=0; i < 2*old_nr; i++)
- change_point[i] = &change_point_list[i];
-
- /* record all known change-points (starting and ending addresses) */
- chgidx = 0;
- for (i=0; i < old_nr; i++) {
- change_point[chgidx]->addr = biosmap[i].addr;
- change_point[chgidx++]->pbios = &biosmap[i];
- change_point[chgidx]->addr = biosmap[i].addr + biosmap[i].size;
- change_point[chgidx++]->pbios = &biosmap[i];
- }
-
- /* sort change-point list by memory addresses (low -> high) */
- still_changing = 1;
- while (still_changing) {
- still_changing = 0;
- for (i=1; i < 2*old_nr; i++) {
- /* if <current_addr> > <last_addr>, swap */
- /* or, if current=<start_addr> & last=<end_addr>, swap */
- if ((change_point[i]->addr < change_point[i-1]->addr) ||
- ((change_point[i]->addr == change_point[i-1]->addr) &&
- (change_point[i]->addr == change_point[i]->pbios->addr) &&
- (change_point[i-1]->addr != change_point[i-1]->pbios->addr))
- )
- {
- change_tmp = change_point[i];
- change_point[i] = change_point[i-1];
- change_point[i-1] = change_tmp;
- still_changing=1;
- }
- }
- }
-
- /* create a new bios memory map, removing overlaps */
- overlap_entries=0; /* number of entries in the overlap table */
- new_bios_entry=0; /* index for creating new bios map entries */
- last_type = 0; /* start with undefined memory type */
- last_addr = 0; /* start with 0 as last starting address */
- /* loop through change-points, determining affect on the new bios map */
- for (chgidx=0; chgidx < 2*old_nr; chgidx++)
- {
- /* keep track of all overlapping bios entries */
- if (change_point[chgidx]->addr == change_point[chgidx]->pbios->addr)
- {
- /* add map entry to overlap list (> 1 entry implies an overlap) */
- overlap_list[overlap_entries++]=change_point[chgidx]->pbios;
- }
- else
- {
- /* remove entry from list (order independent, so swap with last) */
- for (i=0; i<overlap_entries; i++)
- {
- if (overlap_list[i] == change_point[chgidx]->pbios)
- overlap_list[i] = overlap_list[overlap_entries-1];
- }
- overlap_entries--;
- }
- /* if there are overlapping entries, decide which "type" to use */
- /* (larger value takes precedence -- 1=usable, 2,3,4,4+=unusable) */
- current_type = 0;
- for (i=0; i<overlap_entries; i++)
- if (overlap_list[i]->type > current_type)
- current_type = overlap_list[i]->type;
- /* continue building up new bios map based on this information */
- if (current_type != last_type) {
- if (last_type != 0) {
- new_bios[new_bios_entry].size =
- change_point[chgidx]->addr - last_addr;
- /* move forward only if the new size was non-zero */
- if (new_bios[new_bios_entry].size != 0)
- if (++new_bios_entry >= E820MAX)
- break; /* no more space left for new bios entries */
- }
- if (current_type != 0) {
- new_bios[new_bios_entry].addr = change_point[chgidx]->addr;
- new_bios[new_bios_entry].type = current_type;
- last_addr=change_point[chgidx]->addr;
- }
- last_type = current_type;
- }
- }
- return(new_bios_entry);
-}
diff --git a/memtest86+_old/memtest.bin.lds b/memtest86+_old/memtest.bin.lds
deleted file mode 100644
index 702cdb1..0000000
--- a/memtest86+_old/memtest.bin.lds
+++ /dev/null
@@ -1,15 +0,0 @@
-OUTPUT_FORMAT("binary")
-OUTPUT_ARCH("i386")
-
-ENTRY(_main);
-SECTIONS {
- . = 0;
- .bootsect : { *(.bootsect) }
- .setup : { *(.setup) }
- .memtest : {
- _start = . ;
- *(.data)
- _end = . ;
- }
- _syssize = (_end - _start + 15) >> 4;
-}
diff --git a/memtest86+_old/memtest.lds b/memtest86+_old/memtest.lds
deleted file mode 100644
index bbb190a..0000000
--- a/memtest86+_old/memtest.lds
+++ /dev/null
@@ -1,11 +0,0 @@
-OUTPUT_FORMAT("elf32-i386");
-OUTPUT_ARCH(i386);
-
-ENTRY(_start);
-SECTIONS {
- . = 0x10000;
- _start = . ;
- .data : {
- *(.data)
- }
-}
diff --git a/memtest86+_old/memtest_shared.lds b/memtest86+_old/memtest_shared.lds
deleted file mode 100644
index 603f012..0000000
--- a/memtest86+_old/memtest_shared.lds
+++ /dev/null
@@ -1,53 +0,0 @@
-OUTPUT_FORMAT("elf32-i386");
-OUTPUT_ARCH(i386);
-
-ENTRY(startup_32);
-SECTIONS {
- . = 0;
- .text : {
- _start = .;
- *(.text)
- *(.text.*)
- *(.plt)
- _etext = . ;
- } = 0x9090
- .rodata : {
- *(.rodata)
- *(.rodata.*)
- }
- .dynsym : { *(.dynsym) }
- .dynstr : { *(.dynstr) }
- .hash : { *(.hash) }
- .gnu.hash : { *(.gnu.hash) }
- .dynamic : { *(.dynamic) }
-
- .rel.text : { *(.rel.text .rel.text.*) }
- .rel.rodata : { *(.rel.rodata .rel.rodata.*) }
- .rel.data : { *(.rel.data .rel.data.*) }
- .rel.got : { *(.rel.got .rel.got.*) }
- .rel.plt : { *(.rel.plt .rel.plt.*) }
-
- . = ALIGN(4);
- .data : {
- _data = .;
- *(.data)
- *(.data.*)
- }
- .got : {
- *(.got.plt)
- *(.got)
- _edata = . ;
- }
- . = ALIGN(4);
- .bss : {
- _bss = .;
- *(.dynbss)
- *(.bss)
- *(.bss.*)
- *(COMMON)
- /* _end must be at least 256 byte aligned */
- . = ALIGN(256);
- _end = .;
- }
- /DISCARD/ : { *(*) }
-}
diff --git a/memtest86+_old/msr.h b/memtest86+_old/msr.h
deleted file mode 100644
index af873a0..0000000
--- a/memtest86+_old/msr.h
+++ /dev/null
@@ -1,145 +0,0 @@
-#ifndef __ASM_MSR_H
-#define __ASM_MSR_H
-
-/*
- * Access to machine-specific registers (available on 586 and better only)
- * Note: the rd* operations modify the parameters directly (without using
- * pointer indirection), this allows gcc to optimize better
- */
-
-#define __FIXUP_ALIGN ".align 8"
-#define __FIXUP_WORD ".quad"
-#define EFAULT 14 /* Bad address */
-
-#define rdmsr(msr,val1,val2) \
- __asm__ __volatile__("rdmsr" \
- : "=a" (val1), "=d" (val2) \
- : "c" (msr) : "edi")
-
-/*
-#define rdmsr_safe(msr,val1,val2) ({\
- int _rc; \
- __asm__ __volatile__( \
- "1: rdmsr\n2:\n" \
- ".section .fixup,\"ax\"\n" \
- "3: movl %5,%2\n; jmp 2b\n" \
- ".previous\n" \
- ".section __ex_table,\"a\"\n" \
- " "__FIXUP_ALIGN"\n" \
- ".previous\n" \
- : "=a" (val1), "=d" (val2), "=&r" (_rc) \
- : "c" (msr), "2" (0), "i" (-EFAULT)); \
- _rc; })
-*/
-
-#define wrmsr(msr,val1,val2) \
- __asm__ __volatile__("wrmsr" \
- : /* no outputs */ \
- : "c" (msr), "a" (val1), "d" (val2))
-
-#define rdtsc(low,high) \
- __asm__ __volatile__("rdtsc" : "=a" (low), "=d" (high))
-
-#define rdtscl(low) \
- __asm__ __volatile__("rdtsc" : "=a" (low) : : "edx")
-
-#define rdtscll(val) \
- __asm__ __volatile__("rdtsc" : "=A" (val))
-
-#define write_tsc(val1,val2) wrmsr(0x10, val1, val2)
-
-#define rdpmc(counter,low,high) \
- __asm__ __volatile__("rdpmc" \
- : "=a" (low), "=d" (high) \
- : "c" (counter))
-
-/* symbolic names for some interesting MSRs */
-/* Intel defined MSRs. */
-#define MSR_IA32_P5_MC_ADDR 0
-#define MSR_IA32_P5_MC_TYPE 1
-#define MSR_IA32_PLATFORM_ID 0x17
-#define MSR_IA32_EBL_CR_POWERON 0x2a
-
-#define MSR_IA32_APICBASE 0x1b
-#define MSR_IA32_APICBASE_BSP (1<<8)
-#define MSR_IA32_APICBASE_ENABLE (1<<11)
-#define MSR_IA32_APICBASE_BASE (0xfffff<<12)
-
-#define MSR_IA32_UCODE_WRITE 0x79
-#define MSR_IA32_UCODE_REV 0x8b
-
-#define MSR_IA32_BBL_CR_CTL 0x119
-
-#define MSR_IA32_MCG_CAP 0x179
-#define MSR_IA32_MCG_STATUS 0x17a
-#define MSR_IA32_MCG_CTL 0x17b
-
-#define MSR_IA32_THERM_CONTROL 0x19a
-#define MSR_IA32_THERM_INTERRUPT 0x19b
-#define MSR_IA32_THERM_STATUS 0x19c
-#define MSR_IA32_MISC_ENABLE 0x1a0
-#define MSR_IA32_TEMPERATURE_TARGET 0x1a2
-
-#define MSR_IA32_DEBUGCTLMSR 0x1d9
-#define MSR_IA32_LASTBRANCHFROMIP 0x1db
-#define MSR_IA32_LASTBRANCHTOIP 0x1dc
-#define MSR_IA32_LASTINTFROMIP 0x1dd
-#define MSR_IA32_LASTINTTOIP 0x1de
-
-#define MSR_IA32_MC0_CTL 0x400
-#define MSR_IA32_MC0_STATUS 0x401
-#define MSR_IA32_MC0_ADDR 0x402
-#define MSR_IA32_MC0_MISC 0x403
-
-#define MSR_P6_PERFCTR0 0xc1
-#define MSR_P6_PERFCTR1 0xc2
-#define MSR_P6_EVNTSEL0 0x186
-#define MSR_P6_EVNTSEL1 0x187
-
-#define MSR_IA32_PERF_STATUS 0x198
-#define MSR_IA32_PERF_CTL 0x199
-
-/* AMD Defined MSRs */
-#define MSR_K6_EFER 0xC0000080
-#define MSR_K6_STAR 0xC0000081
-#define MSR_K6_WHCR 0xC0000082
-#define MSR_K6_UWCCR 0xC0000085
-#define MSR_K6_EPMR 0xC0000086
-#define MSR_K6_PSOR 0xC0000087
-#define MSR_K6_PFIR 0xC0000088
-
-#define MSR_K7_EVNTSEL0 0xC0010000
-#define MSR_K7_PERFCTR0 0xC0010004
-#define MSR_K7_HWCR 0xC0010015
-#define MSR_K7_CLK_CTL 0xC001001b
-#define MSR_K7_FID_VID_CTL 0xC0010041
-#define MSR_K7_VID_STATUS 0xC0010042
-
-/* Centaur-Hauls/IDT defined MSRs. */
-#define MSR_IDT_FCR1 0x107
-#define MSR_IDT_FCR2 0x108
-#define MSR_IDT_FCR3 0x109
-#define MSR_IDT_FCR4 0x10a
-
-#define MSR_IDT_MCR0 0x110
-#define MSR_IDT_MCR1 0x111
-#define MSR_IDT_MCR2 0x112
-#define MSR_IDT_MCR3 0x113
-#define MSR_IDT_MCR4 0x114
-#define MSR_IDT_MCR5 0x115
-#define MSR_IDT_MCR6 0x116
-#define MSR_IDT_MCR7 0x117
-#define MSR_IDT_MCR_CTRL 0x120
-
-/* VIA Cyrix defined MSRs*/
-#define MSR_VIA_FCR 0x1107
-#define MSR_VIA_LONGHAUL 0x110a
-#define MSR_VIA_BCR2 0x1147
-
-/* Transmeta defined MSRs */
-#define MSR_TMTA_LONGRUN_CTRL 0x80868010
-#define MSR_TMTA_LONGRUN_FLAGS 0x80868011
-#define MSR_TMTA_LRTI_READOUT 0x80868018
-#define MSR_TMTA_LRTI_VOLT_MHZ 0x8086801a
-
-#endif /* __ASM_MSR_H */
diff --git a/memtest86+_old/mt86+_loader b/memtest86+_old/mt86+_loader
deleted file mode 100644
index 030ea1a..0000000
--- a/memtest86+_old/mt86+_loader
+++ /dev/null
Binary files differ
diff --git a/memtest86+_old/mt86+_loader.asm b/memtest86+_old/mt86+_loader.asm
deleted file mode 100644
index 8472262..0000000
--- a/memtest86+_old/mt86+_loader.asm
+++ /dev/null
@@ -1,231 +0,0 @@
-; A loader for www.memtest.org images, by Eric Auer 2003.
-; This assumes that the image starts with the boot sector,
-; which has the size of setup.S in sectors in a byte at offset
-; 1f1h (497). Further, I assume setup.S directly after the boot
-; sector and the actual memtest head.S after setup.S ...
-
-; This version is derived from memtestL loader, which loads
-; memtest.bin from a separate file. This version is meant to
-; be used like (DOS / Unix variants):
-; copy /b memteste.bin + memtest.bin memtest.exe
-; cat memteste.bin memtest.bin > memtest.exe
-; The good thing is that you get a single file which can be
-; compressed, for example with http://upx.sf.net/ (UPX).
-
-%define fullsize (150024 + buffer - exeh)
- ; 150024 is the size of memtest86+ V5.01, adjust as needed!
-
-%define stacksize 2048
-%define stackpara ((stacksize + 15) / 16)
-
- ; the trick is that NASM believes the header would be part
- ; of the loaded image, so we "org 20h bytes too early" to fix:
- org 0e0h ; NASM thinks after header we have 100h
- ; which is what we want it to think.
-
-exeh: db "MZ"
- dw fullsize % 512 ; how much to load from
- dw (fullsize + 511) / 512 ; .exe to RAM
- dw 0 ; no relocations used
- dw 2 ; header size is 2 * 16 bytes
- dw stackpara ; minimum heap is 128 * 16 bytes, for stack
- dw stackpara ; we do not need more heap either
- dw (fullsize + 15) / 16 ; SS is after file
- ; segment offsets are relative to PSPseg+10h
- ; initial DS and ES point to PSPseg, and file
- ; except headers is loaded to PSPseg+10h.
-
- dw stacksize-4 ; initial SP value
- dw 0 ; no checksum
- dw 100h ; initial IP
- dw -10h ; initial CS relative to PSPseg+10h
- dw 0 ; no relocation table, "offset 0 in file"
- dw 0 ; this is not an overlay
- db "MEMT" ; padding to a multiple of 16 bytes
-
- ; loaded part begins here (set CS so that IP is 100h here)
-
-start: ; entry point ; if you use obj + linker, use "..start:"
- mov ah, 01h
- mov bh, 00h
- mov cx, 2000h
- int 10h
-
- mov ax,cs ; ***
- mov ds,ax ; ***
- mov es,ax ; ***
-
- ; test if we have 386 or better:
- pushf ; save flags
- xor ax,ax
- push ax
- popf ; try to clear all bits
- pushf
- pop ax
- and ax,0f000h
- cmp ax,0f000h
- jz noinst1 ; 4 msb stuck to 1: 808x or 80186
- mov ax,0f000h
- push ax
- popf ; try to set 4 msb
- pushf
- pop ax
- test ax,0f000h
- jz noinst1 ; 4 msb stuck to 0: 80286
- popf ; restore flags
- jmp short found386
-
-noinst1:
- popf ; restore flags
- mov dx,need386
- jmp generror
-
-
-found386: ; now test if the system is in real mode:
- smsw ax ; MSW is the low half of CR0
- ; (smsw is not priv'd, unlike mov eax,cr0)
- test al,1 ; if the PE (protected mode) flag on?
-%ifndef DEBUG ; ignore findings in debug mode
- jnz foundprotected
-%endif
- jmp foundreal
-
-foundprotected:
- mov dx,noreal
- jmp generror
-
-; ------------
-
-need386 db "Sorry, you need at least a 386 CPU to use Memtest86+."
- db 13,10,"$"
-noreal db "You cannot run Memtest86+ if the system already is in"
- db " protected mode.",13,10,"$"
-
-; ------------
-
-generror: ; generic error exit
- push cs
- pop ds
- push cs
- pop es
- mov ah,9
- int 21h
- mov ax,4c01h
- int 21h
-
-; ------------
-
-foundreal:
- mov cx,buffer+15
- shr cx,4 ; buffer offset in paragraphs
- mov ax,cs
- add ax,cx ; buffer offset in paragraphs
- ; now AX is the buffer segment
- mov [cs:bufsetup+2],ax ; far pointer to boot sector now
- mov cx,20h ; size of boot sector in paragraphs
- add [cs:bufsetup+2],cx ; far pointer to setup now
- movzx eax,ax
- shl eax,4 ; linear buffer offset
- mov [cs:buflinear],eax
-
-findpoint: ; now patch the loader!
- mov al,[buffer+1f1h] ; size of setup.S in sectors
- ; should be 4 ...
- inc al ; the boot sector itself
- movzx eax,al
- shl eax,9 ; log 2 of sector size
- add [cs:buflinear],eax ; linear address of head.S now
- mov ax,[buffer+251h] ; should be jmp far dword (ofs, seg)
- cmp ax,0ea66h
- jz foundpatch
-patchbug: ; could not patch the jump
- mov dx,nopatch
- jmp generror
-
-gdtbug:
- mov dx,nogdt
- jmp generror
-
-foundpatch:
- mov eax,[cs:buflinear]
- mov [buffer+253h],eax ; patch the protected mode entry jump
- ; (offset only - segment selector unchanged: flat linear CS)
-
-findgdt:
- mov eax,[cs:buffer+20ch] ; should be lgdt offset
- and eax,00ffffffh
- cmp eax,0016010fh ; lgdt ...
- jnz gdtbug
-
- mov ax,[cs:buffer+20fh] ; GDTR contents pointer
- mov bx,ax
- mov eax,[cs:buffer+200h+bx+2] ; GDT linear offset
- and eax,1ffh ; assume GDT in first sector of setup.S
- ; *** WARNING: this is needed because setup.S contains
- ; *** HARDCODED offset of setup.S on linear 90200h, which
- ; *** is 90000h + bootsect.S ... flaw in Memtest86!
-
- mov cx,[cs:bufsetup+2] ; setup.S segment
- movzx ecx,cx
- shl ecx,4 ; linear setup.S address
- add eax,ecx ; fixed GDT linear offset
- mov [cs:buffer+200h+bx+2],eax ; patch it
-
- ;mov dx,trying
- ;mov ah,9
- ;int 21h
-
- ;xor ax,ax
- ;int 16h ; wait for a keypress from the user
-
- mov ax,[cs:bufsetup+2] ; setup segment
- mov ds,ax ; set nice data segments for setup.S ...
- mov es,ax
- xor ax,ax
- mov fs,ax
- mov gs,ax
-
- cli
- lss sp,[cs:newstack] ; stack in first 64k now!
- movzx esp,sp ; ensure 16bit stack pointer
- ; Memtest86 head.S assumes that it can just turn SS to
- ; linear. This would put the stack at 0:200h or so for us
- ; if we fail to move the stack around ...
-
-%ifdef DEBUG
- mov ebp,[cs:buflinear] ; will show up in debugging logs
- mov esi,[cs:bufsetup] ; will show up in debugging logs
-%endif
-
- jmp far [cs:bufsetup]
- ; setup.S will enable the A20 (ignoring HIMEM, just using
- ; the classic 8042 programming trick) and turn on protected
- ; mode. Then it will jump to head.S, which luckily can run
- ; from any offset inside the linear 4 GB CS ...
-
-; ------------
-
-buflinear dd 0 ; linear address of head.S entry point
-bufsetup dw 0,0 ; far pointer to setup.S entry point
-
-newstack dw 03fch,0 ; beware, stack will overwrite IDT.
-
-; ------------
-
-nopatch db "jmp far dword not found at setup.S offset 37h,",13,10
- db "(file offset 237h is not 66h, 0eah)",13,10
- db "please adjust and recompile memtestl...",13,10,"$"
-
-nogdt db "lgdt [...] not found at setup.S offset 0ch,",13,10
- db "(file offset 20ch is not 0fh, 01h, 16h)",13,10
- db "please adjust and recompile memtestl...",13,10,"$"
-
-trying db "Now trying to start Memtest86...",13,10
- db "You have to reboot to leave Memtest86 again.",13,10
- db "Press a key to go on.",13,10,"$"
-
-; ------------
-
- align 16
-buffer: ; a label pointing to where in the file memtest.bin will be.
-
diff --git a/memtest86+_old/patn.c b/memtest86+_old/patn.c
deleted file mode 100644
index fabd2ea..0000000
--- a/memtest86+_old/patn.c
+++ /dev/null
@@ -1,144 +0,0 @@
-/* Pattern extension for memtest86
- *
- * Generates patterns for the Linux kernel's BadRAM extension that avoids
- * allocation of faulty pages.
- *
- * Released under version 2 of the Gnu Public License.
- *
- * By Rick van Rein, vanrein@zonnet.nl
- * ----------------------------------------------------
- * MemTest86+ V1.60 Specific code (GPL V2.0)
- * By Samuel DEMEULEMEESTER, sdemeule@memtest.org
- * http://www.x86-secret.com - http://www.memtest.org
- */
-
-
-#include "test.h"
-
-
-/*
- * DEFAULT_MASK covers a longword, since that is the testing granularity.
- */
-#define DEFAULT_MASK ((~0L) << 2)
-
-
-/* extern struct vars *v; */
-
-
-/* What it does:
- * - Keep track of a number of BadRAM patterns in an array;
- * - Combine new faulty addresses with it whenever possible;
- * - Keep masks as selective as possible by minimising resulting faults;
- * - Print a new pattern only when the pattern array is changed.
- */
-
-#define COMBINE_MASK(a,b,c,d) ((a & b & c & d) | (~a & b & ~c & d))
-
-/* Combine two adr/mask pairs to one adr/mask pair.
- */
-void combine (ulong adr1, ulong mask1, ulong adr2, ulong mask2,
- ulong *adr, ulong *mask) {
-
- *mask = COMBINE_MASK (adr1, mask1, adr2, mask2);
-
- *adr = adr1 | adr2;
- *adr &= *mask; // Normalise, no fundamental need for this
-}
-
-/* Count the number of addresses covered with a mask.
- */
-ulong addresses (ulong mask) {
- ulong ctr=1;
- int i=32;
- while (i-- > 0) {
- if (! (mask & 1)) {
- ctr += ctr;
- }
- mask >>= 1;
- }
- return ctr;
-}
-
-/* Count how much more addresses would be covered by adr1/mask1 when combined
- * with adr2/mask2.
- */
-ulong combicost (ulong adr1, ulong mask1, ulong adr2, ulong mask2) {
- ulong cost1=addresses (mask1);
- ulong tmp, mask;
- combine (adr1, mask1, adr2, mask2, &tmp, &mask);
- return addresses (mask) - cost1;
-}
-
-/* Find the cheapest array index to extend with the given adr/mask pair.
- * Return -1 if nothing below the given minimum cost can be found.
- */
-int cheapindex (ulong adr1, ulong mask1, ulong mincost) {
- int i=vv->numpatn;
- int idx=-1;
- while (i-- > 0) {
- ulong tmpcost=combicost(vv->patn[i].adr, vv->patn[i].mask, adr1, mask1);
- if (tmpcost < mincost) {
- mincost=tmpcost;
- idx=i;
- }
- }
- return idx;
-}
-
-/* Try to find a relocation index for idx if it costs nothing.
- * Return -1 if no such index exists.
- */
-int relocateidx (int idx) {
- ulong adr =vv->patn[idx].adr;
- ulong mask=vv->patn[idx].mask;
- int new;
- vv->patn[idx].adr ^= ~0L; // Never select idx
- new=cheapindex (adr, mask, 1+addresses (mask));
- vv->patn[idx].adr = adr;
- return new;
-}
-
-/* Relocate the given index idx only if free of charge.
- * This is useful to combine to `neighbouring' sections to integrate.
- * Inspired on the Buddy memalloc principle in the Linux kernel.
- */
-void relocateiffree (int idx) {
- int newidx=relocateidx (idx);
- if (newidx>=0) {
- ulong cadr, cmask;
- combine (vv->patn [newidx].adr, vv->patn[newidx].mask,
- vv->patn [ idx].adr, vv->patn[ idx].mask,
- &cadr, &cmask);
- vv->patn[newidx].adr =cadr;
- vv->patn[newidx].mask=cmask;
- if (idx < --vv->numpatn) {
- vv->patn[idx].adr =vv->patn[vv->numpatn].adr;
- vv->patn[idx].mask=vv->patn[vv->numpatn].mask;
- }
- relocateiffree (newidx);
- }
-}
-
-/* Insert a single faulty address in the pattern array.
- * Return 1 only if the array was changed.
- */
-int insertaddress (ulong adr) {
- if (cheapindex (adr, DEFAULT_MASK, 1L) != -1)
- return 0;
-
- if (vv->numpatn < BADRAM_MAXPATNS) {
- vv->patn[vv->numpatn].adr =adr;
- vv->patn[vv->numpatn].mask=DEFAULT_MASK;
- vv->numpatn++;
- relocateiffree (vv->numpatn-1);
- } else {
- int idx=cheapindex (adr, DEFAULT_MASK, ~0L);
- ulong cadr, cmask;
- combine (vv->patn [idx].adr, vv->patn[idx].mask,
- adr, DEFAULT_MASK, &cadr, &cmask);
- vv->patn[idx].adr =cadr;
- vv->patn[idx].mask=cmask;
- relocateiffree (idx);
- }
- return 1;
-}
diff --git a/memtest86+_old/pci.c b/memtest86+_old/pci.c
deleted file mode 100644
index 075a07f..0000000
--- a/memtest86+_old/pci.c
+++ /dev/null
@@ -1,177 +0,0 @@
-/* pci.c - MemTest-86 Version 3.2
- *
- * Released under version 2 of the Gnu Public License.
- * By Chris Brady
- * ----------------------------------------------------
- * MemTest86+ V5.00 Specific code (GPL V2.0)
- * By Samuel DEMEULEMEESTER, sdemeule@memtest.org
- * http://www.x86-secret.com - http://www.memtest.org
- */
-
-#include "io.h"
-#include "pci.h"
-#include "test.h"
-#include "stdint.h"
-#include "cpuid.h"
-
-#define PCI_CONF_TYPE_NONE 0
-#define PCI_CONF_TYPE_1 1
-#define PCI_CONF_TYPE_2 2
-
-extern struct cpu_ident cpu_id;
-
-static unsigned char pci_conf_type = PCI_CONF_TYPE_NONE;
-
-#define PCI_CONF1_ADDRESS(bus, dev, fn, reg) \
- (0x80000000 | (bus << 16) | (dev << 11) | (fn << 8) | (reg & ~3))
-
-#define PCI_CONF2_ADDRESS(dev, reg) (unsigned short)(0xC000 | (dev << 8) | reg)
-
-#define PCI_CONF3_ADDRESS(bus, dev, fn, reg) \
- (0x80000000 | (((reg >> 8) & 0xF) << 24) | (bus << 16) | ((dev & 0x1F) << 11) | (fn << 8) | (reg & 0xFF))
-
-int pci_conf_read(unsigned bus, unsigned dev, unsigned fn, unsigned reg, unsigned len, unsigned long *value)
-{
- int result;
-
- if (!value || (bus > 255) || (dev > 31) || (fn > 7) || (reg > 255 && pci_conf_type != PCI_CONF_TYPE_1))
- return -1;
-
- result = -1;
- switch(pci_conf_type) {
- case PCI_CONF_TYPE_1:
- if(reg < 256){
- outl(PCI_CONF1_ADDRESS(bus, dev, fn, reg), 0xCF8);
- }else{
- outl(PCI_CONF3_ADDRESS(bus, dev, fn, reg), 0xCF8);
- }
- switch(len) {
- case 1: *value = inb(0xCFC + (reg & 3)); result = 0; break;
- case 2: *value = inw(0xCFC + (reg & 2)); result = 0; break;
- case 4: *value = inl(0xCFC); result = 0; break;
- }
- break;
- case PCI_CONF_TYPE_2:
- outb(0xF0 | (fn << 1), 0xCF8);
- outb(bus, 0xCFA);
-
- switch(len) {
- case 1: *value = inb(PCI_CONF2_ADDRESS(dev, reg)); result = 0; break;
- case 2: *value = inw(PCI_CONF2_ADDRESS(dev, reg)); result = 0; break;
- case 4: *value = inl(PCI_CONF2_ADDRESS(dev, reg)); result = 0; break;
- }
- outb(0, 0xCF8);
- break;
- }
- return result;
-}
-
-int pci_conf_write(unsigned bus, unsigned dev, unsigned fn, unsigned reg, unsigned len, unsigned long value)
-{
- int result;
-
- if (!value || (bus > 255) || (dev > 31) || (fn > 7) || (reg > 255 && pci_conf_type != PCI_CONF_TYPE_1))
- return -1;
-
- result = -1;
-
- switch(pci_conf_type)
- {
- case PCI_CONF_TYPE_1:
- if(reg < 256){
- outl(PCI_CONF1_ADDRESS(bus, dev, fn, reg), 0xCF8);
- }else{
- outl(PCI_CONF3_ADDRESS(bus, dev, fn, reg), 0xCF8);
- }
- switch(len) {
- case 1: outb(value, 0xCFC + (reg & 3)); result = 0; break;
- case 2: outw(value, 0xCFC + (reg & 2)); result = 0; break;
- case 4: outl(value, 0xCFC); result = 0; break;
- }
- break;
- case PCI_CONF_TYPE_2:
- outb(0xF0 | (fn << 1), 0xCF8);
- outb(bus, 0xCFA);
-
- switch(len) {
- case 1: outb(value, PCI_CONF2_ADDRESS(dev, reg)); result = 0; break;
- case 2: outw(value, PCI_CONF2_ADDRESS(dev, reg)); result = 0; break;
- case 4: outl(value, PCI_CONF2_ADDRESS(dev, reg)); result = 0; break;
- }
- outb(0, 0xCF8);
- break;
- }
- return result;
-}
-
-static int pci_sanity_check(void)
-{
- unsigned long value;
- int result;
- /* Do a trivial check to make certain we can see a host bridge.
- * There are reportedly some buggy chipsets from intel and
- * compaq where this test does not work, I will worry about
- * that when we support them.
- */
- result = pci_conf_read(0, 0, 0, PCI_CLASS_DEVICE, 2, &value);
- if (result == 0) {
- result = -1;
- if (value == PCI_CLASS_BRIDGE_HOST) {
- result = 0;
- }
- }
- return result;
-}
-
-static int pci_check_direct(void)
-{
- unsigned char tmpCFB;
- unsigned int tmpCF8;
-
- if (cpu_id.vend_id.char_array[0] == 'A' && cpu_id.vers.bits.family == 0xF) {
- pci_conf_type = PCI_CONF_TYPE_1;
- return 0;
- } else {
- /* Check if configuration type 1 works. */
- pci_conf_type = PCI_CONF_TYPE_1;
- tmpCFB = inb(0xCFB);
- outb(0x01, 0xCFB);
- tmpCF8 = inl(0xCF8);
- outl(0x80000000, 0xCF8);
- if ((inl(0xCF8) == 0x80000000) && (pci_sanity_check() == 0)) {
- outl(tmpCF8, 0xCF8);
- outb(tmpCFB, 0xCFB);
- return 0;
- }
- outl(tmpCF8, 0xCF8);
-
- /* Check if configuration type 2 works. */
-
- pci_conf_type = PCI_CONF_TYPE_2;
- outb(0x00, 0xCFB);
- outb(0x00, 0xCF8);
- outb(0x00, 0xCFA);
- if (inb(0xCF8) == 0x00 && inb(0xCFA) == 0x00 && (pci_sanity_check() == 0)) {
- outb(tmpCFB, 0xCFB);
- return 0;
-
- }
-
- outb(tmpCFB, 0xCFB);
-
- /* Nothing worked return an error */
- pci_conf_type = PCI_CONF_TYPE_NONE;
- return -1;
-
- }
-}
-
-int pci_init(void)
-{
- int result;
- /* For now just make certain we can directly
- * use the pci functions.
- */
- result = pci_check_direct();
- return result;
-}
diff --git a/memtest86+_old/pci.h b/memtest86+_old/pci.h
deleted file mode 100644
index f21c478..0000000
--- a/memtest86+_old/pci.h
+++ /dev/null
@@ -1,96 +0,0 @@
-#ifndef MEMTEST_PCI_H
-#define MEMTEST_PCI_H
-
-int pci_conf_read(unsigned bus, unsigned dev, unsigned fn, unsigned reg,
- unsigned len, unsigned long *value);
-int pci_conf_write(unsigned bus, unsigned dev, unsigned fn, unsigned reg,
- unsigned len, unsigned long value);
-int pci_init(void);
-
-#define MAKE_PCIE_ADDRESS(bus, device, function) (((bus) & 0xFF)<<20) | (((device) & 0x1F)<<15) | (((function) & 0x7)<<12)
-
-/*
- * Under PCI, each device has 256 bytes of configuration address space,
- * of which the first 64 bytes are standardized as follows:
- */
-#define PCI_VENDOR_ID 0x00 /* 16 bits */
-#define PCI_DEVICE_ID 0x02 /* 16 bits */
-#define PCI_COMMAND 0x04 /* 16 bits */
-#define PCI_COMMAND_IO 0x1 /* Enable response in I/O space */
-#define PCI_COMMAND_MEMORY 0x2 /* Enable response in Memory space */
-#define PCI_COMMAND_MASTER 0x4 /* Enable bus mastering */
-#define PCI_COMMAND_SPECIAL 0x8 /* Enable response to special cycles */
-#define PCI_COMMAND_INVALIDATE 0x10 /* Use memory write and invalidate */
-#define PCI_COMMAND_VGA_PALETTE 0x20 /* Enable palette snooping */
-#define PCI_COMMAND_PARITY 0x40 /* Enable parity checking */
-#define PCI_COMMAND_WAIT 0x80 /* Enable address/data stepping */
-#define PCI_COMMAND_SERR 0x100 /* Enable SERR */
-#define PCI_COMMAND_FAST_BACK 0x200 /* Enable back-to-back writes */
-
-#define PCI_STATUS 0x06 /* 16 bits */
-#define PCI_STATUS_CAP_LIST 0x10 /* Support Capability List */
-#define PCI_STATUS_66MHZ 0x20 /* Support 66 Mhz PCI 2.1 bus */
-#define PCI_STATUS_UDF 0x40 /* Support User Definable Features [obsolete] */
-#define PCI_STATUS_FAST_BACK 0x80 /* Accept fast-back to back */
-#define PCI_STATUS_PARITY 0x100 /* Detected parity error */
-#define PCI_STATUS_DEVSEL_MASK 0x600 /* DEVSEL timing */
-#define PCI_STATUS_DEVSEL_FAST 0x000
-#define PCI_STATUS_DEVSEL_MEDIUM 0x200
-#define PCI_STATUS_DEVSEL_SLOW 0x400
-#define PCI_STATUS_SIG_TARGET_ABORT 0x800 /* Set on target abort */
-#define PCI_STATUS_REC_TARGET_ABORT 0x1000 /* Master ack of " */
-#define PCI_STATUS_REC_MASTER_ABORT 0x2000 /* Set on master abort */
-#define PCI_STATUS_SIG_SYSTEM_ERROR 0x4000 /* Set when we drive SERR */
-#define PCI_STATUS_DETECTED_PARITY 0x8000 /* Set on parity error */
-
-#define PCI_CLASS_REVISION 0x08 /* High 24 bits are class, low 8
- revision */
-#define PCI_REVISION_ID 0x08 /* Revision ID */
-#define PCI_CLASS_PROG 0x09 /* Reg. Level Programming Interface */
-#define PCI_CLASS_DEVICE 0x0a /* Device class */
-
-#define PCI_CACHE_LINE_SIZE 0x0c /* 8 bits */
-#define PCI_LATENCY_TIMER 0x0d /* 8 bits */
-#define PCI_HEADER_TYPE 0x0e /* 8 bits */
-#define PCI_HEADER_TYPE_NORMAL 0
-#define PCI_HEADER_TYPE_BRIDGE 1
-#define PCI_HEADER_TYPE_CARDBUS 2
-
-#define PCI_BIST 0x0f /* 8 bits */
-#define PCI_BIST_CODE_MASK 0x0f /* Return result */
-#define PCI_BIST_START 0x40 /* 1 to start BIST, 2 secs or less */
-#define PCI_BIST_CAPABLE 0x80 /* 1 if BIST capable */
-
-/*
- * Base addresses specify locations in memory or I/O space.
- * Decoded size can be determined by writing a value of
- * 0xffffffff to the register, and reading it back. Only
- * 1 bits are decoded.
- */
-#define PCI_BASE_ADDRESS_0 0x10 /* 32 bits */
-#define PCI_BASE_ADDRESS_1 0x14 /* 32 bits [htype 0,1 only] */
-#define PCI_BASE_ADDRESS_2 0x18 /* 32 bits [htype 0 only] */
-#define PCI_BASE_ADDRESS_3 0x1c /* 32 bits */
-#define PCI_BASE_ADDRESS_4 0x20 /* 32 bits */
-#define PCI_BASE_ADDRESS_5 0x24 /* 32 bits */
-#define PCI_BASE_ADDRESS_SPACE 0x01 /* 0 = memory, 1 = I/O */
-#define PCI_BASE_ADDRESS_SPACE_IO 0x01
-#define PCI_BASE_ADDRESS_SPACE_MEMORY 0x00
-#define PCI_BASE_ADDRESS_MEM_TYPE_MASK 0x06
-#define PCI_BASE_ADDRESS_MEM_TYPE_32 0x00 /* 32 bit address */
-#define PCI_BASE_ADDRESS_MEM_TYPE_1M 0x02 /* Below 1M [obsolete] */
-#define PCI_BASE_ADDRESS_MEM_TYPE_64 0x04 /* 64 bit address */
-#define PCI_BASE_ADDRESS_MEM_PREFETCH 0x08 /* prefetchable? */
-#define PCI_BASE_ADDRESS_MEM_MASK (~0x0fUL)
-#define PCI_BASE_ADDRESS_IO_MASK (~0x03UL)
-/* bit 1 is reserved if address_space = 1 */
-
-
-/* Device classes and subclasses */
-#define PCI_CLASS_NOT_DEFINED 0x0000
-#define PCI_CLASS_NOT_DEFINED_VGA 0x0001
-
-#define PCI_BASE_CLASS_BRIDGE 0x06
-#define PCI_CLASS_BRIDGE_HOST 0x0600
-
-#endif /* MEMTEST_PCI_H */
diff --git a/memtest86+_old/precomp.bin b/memtest86+_old/precomp.bin
deleted file mode 100755
index 5738e08..0000000
--- a/memtest86+_old/precomp.bin
+++ /dev/null
Binary files differ
diff --git a/memtest86+_old/random.c b/memtest86+_old/random.c
deleted file mode 100644
index 69dd140..0000000
--- a/memtest86+_old/random.c
+++ /dev/null
@@ -1,38 +0,0 @@
-/******************************************************************/
-/* Random number generator */
-/* concatenation of following two 16-bit multiply with carry generators */
-/* x(n)=a*x(n-1)+carry mod 2^16 and y(n)=b*y(n-1)+carry mod 2^16, */
-/* number and carry packed within the same 32 bit integer. */
-/******************************************************************/
-#include "stdint.h"
-#include "cpuid.h"
-#include "smp.h"
-
-/* Keep a separate seed for each CPU */
-/* Space the seeds by at least a cache line or performance suffers big time! */
-static unsigned int SEED_X[MAX_CPUS*16];
-static unsigned int SEED_Y[MAX_CPUS*16];
-
-unsigned long rand (int cpu)
-{
- static unsigned int a = 18000, b = 30903;
- int me;
-
- me = cpu*16;
-
- SEED_X[me] = a*(SEED_X[me]&65535) + (SEED_X[me]>>16);
- SEED_Y[me] = b*(SEED_Y[me]&65535) + (SEED_Y[me]>>16);
-
- return ((SEED_X[me]<<16) + (SEED_Y[me]&65535));
-}
-
-
-void rand_seed( unsigned int seed1, unsigned int seed2, int cpu)
-{
- int me;
-
- me = cpu*16;
- SEED_X[me] = seed1;
- SEED_Y[me] = seed2;
-}
-
diff --git a/memtest86+_old/reloc.c b/memtest86+_old/reloc.c
deleted file mode 100644
index bde268f..0000000
--- a/memtest86+_old/reloc.c
+++ /dev/null
@@ -1,268 +0,0 @@
-/* reloc.c - MemTest-86 Version 3.3
- *
- * Released under version 2 of the Gnu Public License.
- * By Eric Biederman
- */
-
-#include "stddef.h"
-#include "stdint.h"
-#include "elf.h"
-
-#define __ELF_NATIVE_CLASS 32
-#define ELF_MACHINE_NO_RELA 1
-
-/* We use this macro to refer to ELF types independent of the native wordsize.
- `ElfW(TYPE)' is used in place of `Elf32_TYPE' or `Elf64_TYPE'. */
-#define ElfW(type) _ElfW (Elf, __ELF_NATIVE_CLASS, type)
-#define _ElfW(e,w,t) _ElfW_1 (e, w, _##t)
-#define _ElfW_1(e,w,t) e##w##t
-#define ELFW(type) _ElfW (ELF, __ELF_NATIVE_CLASS, type)
-
-static inline void __attribute__ ((unused))
-fail_assert(unsigned line_num, unsigned code) {
- // Put line num in low bits of %edx and a sentinel in the high bits.
- line_num |= 0xEEEC0000; // eek!
- asm __volatile__ ("movl %%edx, %%edx"
- : "=d"(line_num), "=c" (code)
- : "d" (line_num), "c" (code));
-
- // Now observe %edx in a virtual machine's debugger.
- // Have a nice day.
- while(1) {}
-}
-
-// TODO(jcoiner): It would be nice to try to print a message here,
-// even though we don't have function calls yet, maybe we can write
-// to the screen before going into our infinite loop.
-#define assert(expr, code) do { \
- if (!(expr)) { fail_assert(__LINE__, code); } \
- } while(0)
-
-/* This #define produces dynamic linking inline functions for
- bootstrap relocation instead of general-purpose relocation. */
-#define RTLD_BOOTSTRAP
-
-struct link_map {
- ElfW(Addr) l_addr; /* Current load address */
- ElfW(Addr) ll_addr; /* Last load address */
- ElfW(Dyn) *l_ld;
- /* Indexed pointers to dynamic section.
- [0,DT_NUM) are indexed by the processor-independent tags.
- [DT_NUM,DT_NUM+DT_PROCNUM) are indexed by the tag minus DT_LOPROC.
- [DT_NUM+DT_PROCNUM,
- DT_NUM+DT_PROCNUM+DT_EXTRANUM)
- are indexed by DT_EXTRATAGIDX(tagvalue) (see <elf.h>). */
- ElfW(Dyn) *l_info[DT_NUM + DT_PROCNUM + DT_EXTRANUM];
-};
-
-/* Return the link-time address of _DYNAMIC. Conveniently, this is the
- first element of the GOT. This must be inlined in a function which
- uses global data. */
-static inline Elf32_Addr __attribute__ ((unused))
-elf_machine_dynamic(void) {
- register Elf32_Addr *got asm ("%ebx");
- return *got;
-}
-
-/* Return the run-time load address of the shared object. */
-static inline Elf32_Addr __attribute__ ((unused))
-elf_machine_load_address(void) {
- Elf32_Addr addr;
- asm volatile ("leal _start@GOTOFF(%%ebx), %0\n"
- : "=r" (addr) : : "cc");
- return addr;
-}
-
-/* Perform the relocation specified by RELOC and SYM (which is fully resolved).
- MAP is the object containing the reloc. */
-static inline void
-elf_machine_rel(struct link_map *map, const Elf32_Rel *reloc,
- const Elf32_Sym *sym, Elf32_Addr *const reloc_addr) {
- Elf32_Addr ls_addr, s_addr;
- Elf32_Addr value;
- if (ELF32_R_TYPE (reloc->r_info) == R_386_RELATIVE)
- {
- *reloc_addr += map->l_addr - map->ll_addr;
- return;
- }
- if (ELF32_R_TYPE(reloc->r_info) == R_386_NONE) {
- return;
- }
- value = sym->st_value;
- /* Every section except the undefined section has a base of map->l_addr */
- ls_addr = sym->st_shndx == SHN_UNDEF ? 0 : map->ll_addr;
- s_addr = sym->st_shndx == SHN_UNDEF ? 0 : map->l_addr;
-
- switch (ELF32_R_TYPE (reloc->r_info))
- {
- case R_386_COPY: {
- /* Roll memcpy by hand as we don't have function calls yet. */
- unsigned char *dest, *src;
- long i;
- dest = (unsigned char *)reloc_addr;
- src = (unsigned char *)(value + s_addr);
- for(i = 0; i < sym->st_size; i++) {
- dest[i] = src[i];
- }
- break;
- }
- case R_386_GLOB_DAT:
- *reloc_addr = s_addr + value;
- break;
- case R_386_JMP_SLOT:
- *reloc_addr = s_addr + value;
- break;
- case R_386_32:
- if (map->ll_addr == 0) {
- *reloc_addr += value;
- }
- *reloc_addr += s_addr - ls_addr;
- break;
- case R_386_PC32:
- if (map->ll_addr == 0) {
- *reloc_addr += value - reloc->r_offset;
- }
- *reloc_addr += (s_addr - map->l_addr) - (ls_addr - map->ll_addr);
- break;
- default:
- assert (! "unexpected dynamic reloc type", 0);
- break;
- }
-}
-
-/* Read the dynamic section at DYN and fill in INFO with indices DT_*. */
-
-static inline void __attribute__ ((unused))
-elf_get_dynamic_info(ElfW(Dyn) *dyn, ElfW(Addr) l_addr,
- ElfW(Dyn) *info[DT_NUM + DT_PROCNUM + DT_EXTRANUM]) {
- if (! dyn)
- return;
-
- while (dyn->d_tag != DT_NULL) {
- if (dyn->d_tag < DT_NUM)
- info[dyn->d_tag] = dyn;
- else if (dyn->d_tag >= DT_LOPROC &&
- dyn->d_tag < DT_LOPROC + DT_PROCNUM)
- info[dyn->d_tag - DT_LOPROC + DT_NUM] = dyn;
- else if ((Elf32_Word) DT_EXTRATAGIDX (dyn->d_tag) < DT_EXTRANUM)
- info[DT_EXTRATAGIDX (dyn->d_tag) + DT_NUM + DT_PROCNUM] = dyn;
-#if 0
- else {
- // JPC this is failing, BOZO!
- // Not surprising, there are a bunch of sections we don't
- // handle and which modern ELF relocation code in glibc
- // will handle and relocate. Bah.
- assert (! "bad dynamic tag", dyn->d_tag);
- }
-#endif
- ++dyn;
- }
-
- if (info[DT_PLTGOT] != NULL)
- info[DT_PLTGOT]->d_un.d_ptr += l_addr;
- if (info[DT_STRTAB] != NULL)
- info[DT_STRTAB]->d_un.d_ptr += l_addr;
- if (info[DT_SYMTAB] != NULL)
- info[DT_SYMTAB]->d_un.d_ptr += l_addr;
-#if ! ELF_MACHINE_NO_RELA
- if (info[DT_RELA] != NULL) {
- assert (info[DT_RELAENT]->d_un.d_val == sizeof (ElfW(Rela)), 0);
- info[DT_RELA]->d_un.d_ptr += l_addr;
- }
-#endif
-#if ! ELF_MACHINE_NO_REL
- if (info[DT_REL] != NULL) {
- assert (info[DT_RELENT]->d_un.d_val == sizeof (ElfW(Rel)), 0);
- info[DT_REL]->d_un.d_ptr += l_addr;
- }
-#endif
- if (info[DT_PLTREL] != NULL) {
-#if ELF_MACHINE_NO_RELA
- assert (info[DT_PLTREL]->d_un.d_val == DT_REL, 0);
-#elif ELF_MACHINE_NO_REL
- assert (info[DT_PLTREL]->d_un.d_val == DT_RELA, 0);
-#else
- assert (info[DT_PLTREL]->d_un.d_val == DT_REL
- || info[DT_PLTREL]->d_un.d_val == DT_RELA, 0);
-#endif
- }
- if (info[DT_JMPREL] != NULL)
- info[DT_JMPREL]->d_un.d_ptr += l_addr;
-}
-
-/* Perform the relocations in MAP on the running program image as specified
- by RELTAG, SZTAG. If LAZY is nonzero, this is the first pass on PLT
- relocations; they should be set up to call _dl_runtime_resolve, rather
- than fully resolved now. */
-
-static inline void
-elf_dynamic_do_rel(struct link_map *map,
- ElfW(Addr) reladdr, ElfW(Addr) relsize) {
- const ElfW(Rel) *r = (const void *) reladdr;
- const ElfW(Rel) *end = (const void *) (reladdr + relsize);
-
- const ElfW(Sym) *const symtab =
- (const void *) map->l_info[DT_SYMTAB]->d_un.d_ptr;
-
- for (; r < end; ++r) {
- elf_machine_rel (map, r, &symtab[ELFW(R_SYM) (r->r_info)],
- (void *) (map->l_addr + r->r_offset));
- }
-}
-
-void _dl_start(void) {
- static Elf32_Addr last_load_address = 0;
- struct link_map map;
- size_t cnt;
-
- /* Partly clean the `map' structure up. Don't use `memset'
- since it might nor be built in or inlined and we cannot make function
- calls at this point. */
- for (cnt = 0; cnt < sizeof(map.l_info) / sizeof(map.l_info[0]); ++cnt) {
- map.l_info[cnt] = 0;
- }
-
- /* Get the last load address */
- map.ll_addr = last_load_address;
-
- /* Figure out the run-time load address of the dynamic linker itself. */
- last_load_address = map.l_addr = elf_machine_load_address();
-
- /* Read our own dynamic section and fill in the info array. */
- map.l_ld = (void *)map.l_addr + elf_machine_dynamic();
-
- elf_get_dynamic_info (map.l_ld, map.l_addr - map.ll_addr, map.l_info);
-
- /* Relocate ourselves so we can do normal function calls and
- * data access using the global offset table.
- */
-#if !ELF_MACHINE_NO_REL
- elf_dynamic_do_rel(&map,
- map.l_info[DT_REL]->d_un.d_ptr,
- map.l_info[DT_RELSZ]->d_un.d_val);
- if (map.l_info[DT_PLTREL]->d_un.d_val == DT_REL) {
- elf_dynamic_do_rel(&map,
- map.l_info[DT_JMPREL]->d_un.d_ptr,
- map.l_info[DT_PLTRELSZ]->d_un.d_val);
- }
-#endif
-
-#if !ELF_MACHINE_NO_RELA
- elf_dynamic_do_rela(&map,
- map.l_info[DT_RELA]->d_un.d_ptr,
- map.l_info[DT_RELASZ]->d_un.d_val);
- if (map.l_info[DT_PLTREL]->d_un.d_val == DT_RELA) {
- elf_dynamic_do_rela(&map,
- map.l_info[DT_JMPREL]->d_un.d_ptr,
- map.l_info[DT_PLTRELSZ]->d_un.d_val);
- }
-#endif
-
- /* Now life is sane; we can call functions and access global data.
- Set up to use the operating system facilities, and find out from
- the operating system's program loader where to find the program
- header table in core. Put the rest of _dl_start into a separate
- function, that way the compiler cannot put accesses to the GOT
- before ELF_DYNAMIC_RELOCATE. */
- return;
-}
diff --git a/memtest86+_old/screen_buffer.c b/memtest86+_old/screen_buffer.c
deleted file mode 100644
index f9e01be..0000000
--- a/memtest86+_old/screen_buffer.c
+++ /dev/null
@@ -1,127 +0,0 @@
-/* screen_buffer.c - MemTest-86 Version 3.3
- *
- * Released under version 2 of the Gnu Public License.
- * By Jani Averbach, Jaa@iki.fi, 2001
- */
-
-#include "test.h"
-#include "screen_buffer.h"
-
-#define SCREEN_X 80
-#define SCREEN_Y 25
-#define Y_SIZE SCREEN_Y
-/*
- * X-size should by one of by screen size,
- * so that there is room for ending '\0'
- */
-#define X_SIZE SCREEN_X+1
-
-static char screen_buf[Y_SIZE][X_SIZE];
-
-#ifdef SCRN_DEBUG
-
-char *padding = "12345678901234567890123456789012345678901234567890123456789012345678901234567890";
-
-#define CHECK_BOUNDS(y,x) do {if (y < 0 || Y_SIZE <= y || x < 0 || X_SIZE <= x) print_error("out of index");}while(0)
-
-#else /* ! SCRN_DEBUG */
-
-#define CHECK_BOUNDS(y,x)
-
-#endif /* SCRN_DEBUG */
-
-char
-get_scrn_buf(const int y,
- const int x)
-{
- CHECK_BOUNDS(y,x);
- return screen_buf[y][x];
-}
-
-
-void
-set_scrn_buf(const int y,
- const int x,
- const char val)
-{
- CHECK_BOUNDS(y,x);
- screen_buf[y][x] = val;
-}
-
-void clear_screen_buf()
-{
- int y, x;
-
- for (y=0; y < SCREEN_Y; ++y){
- for (x=0; x < SCREEN_X; ++x){
- CHECK_BOUNDS(y,x);
- screen_buf[y][x] = ' ';
- }
- CHECK_BOUNDS(y,SCREEN_X);
- screen_buf[y][SCREEN_X] = '\0';
- }
-}
-
-void tty_print_region(const int pi_top,
- const int pi_left,
- const int pi_bottom,
- const int pi_right)
-{
- int y;
- char tmp;
-
- for (y=pi_top; y < pi_bottom; ++y){
- CHECK_BOUNDS(y, pi_right);
-
- tmp = screen_buf[y][pi_right];
- screen_buf[y][pi_right] = '\0';
-
- CHECK_BOUNDS(y, pi_left);
- ttyprint(y, pi_left, &(screen_buf[y][pi_left]));
-
- screen_buf[y][pi_right] = tmp;
- }
-}
-
-void tty_print_line(
- int y, int x, const char *text)
-{
- for(; *text && (x < SCREEN_X); x++, text++) {
- if (*text != screen_buf[y][x]) {
- break;
- }
- }
- /* If there is nothing to do return */
- if (*text == '\0') {
- return;
- }
- ttyprint(y, x, text);
- for(; *text && (x < SCREEN_X); x++, text++) {
- screen_buf[y][x] = *text;
- }
-}
-
-
-void tty_print_screen(void)
-{
-#ifdef SCRN_DEBUG
- int i;
-
- for (i=0; i < SCREEN_Y; ++i)
- ttyprint(i,0, padding);
-#endif /* SCRN_DEBUG */
-
- tty_print_region(0, 0, SCREEN_Y, SCREEN_X);
-}
-
-void print_error(char *pstr)
-{
-
-#ifdef SCRN_DEBUG
- ttyprint(0,0, padding);
-#endif /* SCRN_DEBUG */
-
- ttyprint(0,35, pstr);
-
- while(1);
-}
diff --git a/memtest86+_old/screen_buffer.h b/memtest86+_old/screen_buffer.h
deleted file mode 100644
index 8ceba03..0000000
--- a/memtest86+_old/screen_buffer.h
+++ /dev/null
@@ -1,20 +0,0 @@
-/* --*- C -*--
- *
- * By Jani Averbach, Jaa@iki.fi, 2001
- *
- * Released under version 2 of the Gnu Public License.
- *
- */
-#ifndef SCREEN_BUFFER_H_1D10F83B_INCLUDED
-#define SCREEN_BUFFER_H_1D10F83B_INCLUDED
-
-#include "config.h"
-
-char get_scrn_buf(const int y, const int x);
-void set_scrn_buf(const int y, const int x, const char val);
-void clear_screen_buf(void);
-void tty_print_region(const int pi_top,const int pi_left, const int pi_bottom,const int pi_right);
-void tty_print_line(int y, int x, const char *text);
-void tty_print_screen(void);
-void print_error(char *pstr);
-#endif /* SCREEN_BUFFER_H_1D10F83B_INCLUDED */
diff --git a/memtest86+_old/self_test.c b/memtest86+_old/self_test.c
deleted file mode 100644
index 975ec40..0000000
--- a/memtest86+_old/self_test.c
+++ /dev/null
@@ -1,209 +0,0 @@
-/* Usermode self-test.
- *
- * This is a unit test for memtest86+ itself,
- * not a standalone usermode memory tester. Sorry.
- *
- * It covers the main test routines in test.c, allows running them
- * in a debugger or adding printfs as needed.
- *
- * It does not cover:
- * - SMP functionality. There's no fundamental obstacle
- * to this, it's just not here yet.
- * - Every .c file. Some of them do things that will be
- * difficult to test in user mode (eg set page tables)
- * without some refactoring.
- */
-
-#ifdef NDEBUG
- #error "Someone disabled asserts, but we want asserts for the self test."
-#endif
-#include <assert.h>
-#include <stdio.h>
-#include <stdlib.h>
-#include <string.h>
-
-#include "stdint.h"
-#include "cpuid.h"
-#include "test.h"
-
-/* Provide alternate versions of the globals */
-volatile int run_cpus = 1;
-volatile int bail = 0;
-volatile int segs = 0;
-struct vars variables;
-struct vars* const vv = &variables;
-// Self-test only supports single CPU (ordinal 0) for now:
-volatile int mstr_cpu = 0;
-
-void assert_fail(const char* file, int line_no) {
- printf("Failing assert at %s:%d\n", file, line_no);
- assert(0);
-}
-
-void do_tick(int me) {}
-void hprint(int y, int x, ulong val) {}
-void cprint(int y,int x, const char *s) {}
-void dprint(int y,int x,ulong val,int len, int right) {}
-void s_barrier() {} // No SMP support in selftest yet
-
-// Selftest doesn't have error injection yet, and thus, we
-// never expect to detect any error. Fail an assert in these
-// error-reporting routines:
-void ad_err1(ulong *adr1, ulong *adr2, ulong good, ulong bad) {
- assert(0);
-}
-void ad_err2(ulong *adr, ulong bad) {
- assert(0);
-}
-void mt86_error(ulong* adr, ulong good, ulong bad) {
- assert(0);
-}
-
-typedef struct {
- ulong* va;
- ulong len_dw;
-} foreach_chunk;
-
-#define MAX_CHUNK 16
-
-typedef struct {
- foreach_chunk chunks[MAX_CHUNK];
- int index;
-} foreach_ctx;
-
-void record_chunks(ulong* va, ulong len_dw, const void* vctx) {
- foreach_ctx* ctx = (foreach_ctx*)vctx;
-
- ctx->chunks[ctx->index].va = va;
- ctx->chunks[ctx->index].len_dw = len_dw;
- ctx->index++;
-}
-
-void foreach_tests() {
- foreach_ctx ctx;
- const int me = 0;
-
- // mapped segment is 3G to 4G exact
- memset(&ctx, 0, sizeof(ctx));
- foreach_segment((ulong*)0xc0000000,
- (ulong*)0xfffffffc, me, &ctx, record_chunks);
-
- assert(ctx.index == 4);
- assert(ctx.chunks[0].va == (ulong*)0xc0000000);
- assert(ctx.chunks[0].len_dw == SPINSZ_DWORDS);
- assert(ctx.chunks[1].va == (ulong*)0xd0000000);
- assert(ctx.chunks[1].len_dw == SPINSZ_DWORDS);
- assert(ctx.chunks[2].va == (ulong*)0xe0000000);
- assert(ctx.chunks[2].len_dw == SPINSZ_DWORDS);
- assert(ctx.chunks[3].va == (ulong*)0xf0000000);
- assert(ctx.chunks[3].len_dw == SPINSZ_DWORDS);
-
- // mapped segment is 256 bytes, 128 byte aligned
- memset(&ctx, 0, sizeof(ctx));
- foreach_segment((ulong*)0xc0000080,
- (ulong*)0xc000017c, me, &ctx, record_chunks);
- assert(ctx.index == 1);
- assert(ctx.chunks[0].va == (ulong*)0xc0000080);
- assert(ctx.chunks[0].len_dw == 64);
-
- // mapped segment starts a bit below 3.75G
- // and goes up to the 4G boundary
- memset(&ctx, 0, sizeof(ctx));
- foreach_segment((ulong*)0xeffff800,
- (ulong*)0xfffffffc, me, &ctx, record_chunks);
- assert(ctx.index == 2);
- assert(ctx.chunks[0].va == (ulong*)0xeffff800);
- assert(ctx.chunks[0].len_dw == SPINSZ_DWORDS);
- assert(ctx.chunks[1].va == (ulong*)0xfffff800);
- assert(ctx.chunks[1].len_dw == 0x200);
-
- // mapped segment is 0 to 32M
- memset(&ctx, 0, sizeof(ctx));
- foreach_segment((ulong*)0x0,
- (ulong*)0x1fffffc, me, &ctx, record_chunks);
- assert(ctx.index == 1);
- assert(ctx.chunks[0].va == (ulong*)0x0);
- assert(ctx.chunks[0].len_dw == 0x800000);
-}
-
-int main() {
- memset(&variables, 0, sizeof(variables));
- vv->debugging = 1;
-
- get_cpuid();
-
- // add a non-power-of-2 pad to the size, so things don't line
- // up too nicely. Chose 508 because it's not 512.
- const int kTestSizeDwords = SPINSZ_DWORDS * 2 + 508;
-
- // Allocate an extra cache line on each end, where we'll
- // write a sentinel pattern to detect overflow or underflow:
- const int kRawBufSizeDwords = kTestSizeDwords + 32;
-
- segs = 1;
- ulong raw_start = (ulong)malloc(kRawBufSizeDwords * sizeof(ulong));
- ulong raw_end = raw_start + kRawBufSizeDwords * sizeof(ulong);
-
- // align to a cache line:
- if (raw_start & 0x3f) {
- raw_start &= ~0x3f;
- raw_start += 0x40;
- }
- // align to a cache line:
- if (raw_end & 0x3f) {
- raw_end &= ~0x3f;
- }
-
- const int kSentinelBytes = 48;
- ulong start = raw_start + kSentinelBytes; // exclude low sentinel
- ulong end = raw_end - kSentinelBytes; // exclude high sentinel
-
- // setup sentinels
- memset((ulong*)raw_start, 'z', kSentinelBytes);
- memset((ulong*)end, 'z', kSentinelBytes);
-
- vv->map[0].start = (ulong*)start;
- vv->map[0].end = ((ulong*)end) - 1; // map.end points to xxxxxfc
-
- const int iter = 2;
- const int me = 0; // cpu ordinal
-
- foreach_tests();
-
- // TEST 0
- addr_tst1(me);
-
- // TEST 1, 2
- addr_tst2(me);
-
- // TEST 3, 4, 5, 6
- const ulong pat = 0x112211ee;
- movinv1(iter, pat, ~pat, 0);
-
- // TEST 7
- block_move(iter, me);
-
- // TEST 8
- movinv32(iter, 0x2, 0x1, 0x80000000, 0, 1, me);
-
- // TEST 9
- movinvr(me);
-
- // TEST 10
- modtst(2, 1, 0x5555aaaa, 0xaaaa5555, me);
-
- // TEST 11
- bit_fade_fill(0xdeadbeef, me);
- bit_fade_chk(0xdeadbeef, me);
-
-
- // Check sentinels, they should not have been overwritten. Do this last.
- for (int j=0; j<kSentinelBytes; j++) {
- assert(((char*)raw_start)[j] == 'z');
- assert(((char*)end)[j] == 'z');
- }
-
- printf("All self-tests PASS.\n");
-
- return 0;
-}
diff --git a/memtest86+_old/serial.h b/memtest86+_old/serial.h
deleted file mode 100644
index bbdfa9c..0000000
--- a/memtest86+_old/serial.h
+++ /dev/null
@@ -1,162 +0,0 @@
-/*
- * include/linux/serial.h
- *
- * Copyright (C) 1992, 1994 by Theodore Ts'o.
- *
- * Redistribution of this file is permitted under the terms of the GNU
- * Public License (GPL)
- *
- * These are the UART port assignments, expressed as offsets from the base
- * register. These assignments should hold for any serial port based on
- * a 8250, 16450, or 16550(A).
- */
-
-#ifndef _LINUX_SERIAL_REG_H
-#define _LINUX_SERIAL_REG_H
-
-#define UART_RX 0 /* In: Receive buffer (DLAB=0) */
-#define UART_TX 0 /* Out: Transmit buffer (DLAB=0) */
-#define UART_DLL 0 /* Out: Divisor Latch Low (DLAB=1) */
-#define UART_DLM 1 /* Out: Divisor Latch High (DLAB=1) */
-#define UART_IER 1 /* Out: Interrupt Enable Register */
-#define UART_IIR 2 /* In: Interrupt ID Register */
-#define UART_FCR 2 /* Out: FIFO Control Register */
-#define UART_EFR 2 /* I/O: Extended Features Register */
- /* (DLAB=1, 16C660 only) */
-#define UART_LCR 3 /* Out: Line Control Register */
-#define UART_MCR 4 /* Out: Modem Control Register */
-#define UART_LSR 5 /* In: Line Status Register */
-#define UART_MSR 6 /* In: Modem Status Register */
-#define UART_SCR 7 /* I/O: Scratch Register */
-
-
-
-/*
- * These are the definitions for the FIFO Control Register
- * (16650 only)
- */
-#define UART_FCR_ENABLE_FIFO 0x01 /* Enable the FIFO */
-#define UART_FCR_CLEAR_RCVR 0x02 /* Clear the RCVR FIFO */
-#define UART_FCR_CLEAR_XMIT 0x04 /* Clear the XMIT FIFO */
-#define UART_FCR_DMA_SELECT 0x08 /* For DMA applications */
-#define UART_FCR_TRIGGER_MASK 0xC0 /* Mask for the FIFO trigger range */
-#define UART_FCR_TRIGGER_1 0x00 /* Mask for trigger set at 1 */
-#define UART_FCR_TRIGGER_4 0x40 /* Mask for trigger set at 4 */
-#define UART_FCR_TRIGGER_8 0x80 /* Mask for trigger set at 8 */
-#define UART_FCR_TRIGGER_14 0xC0 /* Mask for trigger set at 14 */
-/* 16650 redefinitions */
-#define UART_FCR6_R_TRIGGER_8 0x00 /* Mask for receive trigger set at 1 */
-#define UART_FCR6_R_TRIGGER_16 0x40 /* Mask for receive trigger set at 4 */
-#define UART_FCR6_R_TRIGGER_24 0x80 /* Mask for receive trigger set at 8 */
-#define UART_FCR6_R_TRIGGER_28 0xC0 /* Mask for receive trigger set at 14 */
-#define UART_FCR6_T_TRIGGER_16 0x00 /* Mask for transmit trigger set at 16 */
-#define UART_FCR6_T_TRIGGER_8 0x10 /* Mask for transmit trigger set at 8 */
-#define UART_FCR6_T_TRIGGER_24 0x20 /* Mask for transmit trigger set at 24 */
-#define UART_FCR6_T_TRIGGER_30 0x30 /* Mask for transmit trigger set at 30 */
-
-/*
- * These are the definitions for the Line Control Register
- *
- * Note: if the word length is 5 bits (UART_LCR_WLEN5), then setting
- * UART_LCR_STOP will select 1.5 stop bits, not 2 stop bits.
- */
-#define UART_LCR_DLAB 0x80 /* Divisor latch access bit */
-#define UART_LCR_SBC 0x40 /* Set break control */
-#define UART_LCR_SPAR 0x20 /* Stick parity (?) */
-#define UART_LCR_EPAR 0x10 /* Even parity select */
-#define UART_LCR_PARITY 0x08 /* Parity Enable */
-#define UART_LCR_STOP 0x04 /* Stop bits: 0=1 stop bit, 1= 2 stop bits */
-#define UART_LCR_WLEN5 0x00 /* Wordlength: 5 bits */
-#define UART_LCR_WLEN6 0x01 /* Wordlength: 6 bits */
-#define UART_LCR_WLEN7 0x02 /* Wordlength: 7 bits */
-#define UART_LCR_WLEN8 0x03 /* Wordlength: 8 bits */
-
-/*
- * These are the definitions for the Line Status Register
- */
-#define UART_LSR_TEMT 0x40 /* Transmitter empty */
-#define UART_LSR_THRE 0x20 /* Transmit-hold-register empty */
-#define UART_LSR_BI 0x10 /* Break interrupt indicator */
-#define UART_LSR_FE 0x08 /* Frame error indicator */
-#define UART_LSR_PE 0x04 /* Parity error indicator */
-#define UART_LSR_OE 0x02 /* Overrun error indicator */
-#define UART_LSR_DR 0x01 /* Receiver data ready */
-
-/*
- * These are the definitions for the Interrupt Identification Register
- */
-#define UART_IIR_NO_INT 0x01 /* No interrupts pending */
-#define UART_IIR_ID 0x06 /* Mask for the interrupt ID */
-
-#define UART_IIR_MSI 0x00 /* Modem status interrupt */
-#define UART_IIR_THRI 0x02 /* Transmitter holding register empty */
-#define UART_IIR_RDI 0x04 /* Receiver data interrupt */
-#define UART_IIR_RLSI 0x06 /* Receiver line status interrupt */
-
-/*
- * These are the definitions for the Interrupt Enable Register
- */
-#define UART_IER_MSI 0x08 /* Enable Modem status interrupt */
-#define UART_IER_RLSI 0x04 /* Enable receiver line status interrupt */
-#define UART_IER_THRI 0x02 /* Enable Transmitter holding register int. */
-#define UART_IER_RDI 0x01 /* Enable receiver data interrupt */
-
-/*
- * These are the definitions for the Modem Control Register
- */
-#define UART_MCR_LOOP 0x10 /* Enable loopback test mode */
-#define UART_MCR_OUT2 0x08 /* Out2 complement */
-#define UART_MCR_OUT1 0x04 /* Out1 complement */
-#define UART_MCR_RTS 0x02 /* RTS complement */
-#define UART_MCR_DTR 0x01 /* DTR complement */
-
-/*
- * These are the definitions for the Modem Status Register
- */
-#define UART_MSR_DCD 0x80 /* Data Carrier Detect */
-#define UART_MSR_RI 0x40 /* Ring Indicator */
-#define UART_MSR_DSR 0x20 /* Data Set Ready */
-#define UART_MSR_CTS 0x10 /* Clear to Send */
-#define UART_MSR_DDCD 0x08 /* Delta DCD */
-#define UART_MSR_TERI 0x04 /* Trailing edge ring indicator */
-#define UART_MSR_DDSR 0x02 /* Delta DSR */
-#define UART_MSR_DCTS 0x01 /* Delta CTS */
-#define UART_MSR_ANY_DELTA 0x0F /* Any of the delta bits! */
-
-/*
- * These are the definitions for the Extended Features Register
- * (StarTech 16C660 only, when DLAB=1)
- */
-#define UART_EFR_CTS 0x80 /* CTS flow control */
-#define UART_EFR_RTS 0x40 /* RTS flow control */
-#define UART_EFR_SCD 0x20 /* Special character detect */
-#define UART_EFR_ENI 0x10 /* Enhanced Interrupt */
-/*
- * the low four bits control software flow control
- */
-
-#define serial_echo_outb(v,a) outb((v),(a)+serial_base_ports[serial_tty])
-#define serial_echo_inb(a) inb((a)+serial_base_ports[serial_tty])
-#define BOTH_EMPTY (UART_LSR_TEMT | UART_LSR_THRE)
-/* Wait for transmitter & holding register to empty */
-#define WAIT_FOR_XMITR \
- do { \
- lsr = serial_echo_inb(UART_LSR); \
- } while ((lsr & BOTH_EMPTY) != BOTH_EMPTY)
-
-#if 0
-static inline void serial_echo(int ch)
-{
- int lsr;
- WAIT_FOR_XMITR;
- serial_echo_outb(ch, UART_TX);
-}
-static inline void serial_debug(int ch)
-{
- serial_echo(ch);
- serial_echo('\r');
- serial_echo('\n');
-}
-#endif
-#endif /* _LINUX_SERIAL_REG_H */
-
diff --git a/memtest86+_old/setup.S b/memtest86+_old/setup.S
deleted file mode 100644
index f80875b..0000000
--- a/memtest86+_old/setup.S
+++ /dev/null
@@ -1,154 +0,0 @@
-/*
- * setup.s is responsible for getting the system data from the BIOS,
- * and putting them into the appropriate places in system memory.
- * both setup.s and system has been loaded by the bootblock.
- *
- * 1-Jan-96 Modified by Chris Brady for use as a boot/loader for memtest-86.
- */
-
-#define __ASSEMBLY__
-#include "defs.h"
-
-.code16
-.section ".setup", "ax", @progbits
-.globl start
-start:
-# ok, the read went well
-# now we want to move to protected mode ...
-
-
- cli # no interrupts allowed #
- movb $0x80, %al # disable NMI for the bootup sequence
- outb %al, $0x70
-
-# The system will move itself to its rightful place.
-# reload the segment registers and the stack since the
-# APs also execute this code
-#ljmp $INITSEG, $(reload - start + 0x200)
-reload:
- movw $INITSEG, %ax
- movw %ax, %ds
- movw %ax, %es
- movw %ax, %fs
- movw %ax, %ss # reset the stack to INITSEG:0x4000-12.
- movw %dx, %sp
- push %cs
- pop %ds
- lidt idt_48 - start # load idt with 0,0
- lgdt gdt_48 - start # load gdt with whatever appropriate
-
-# that was painless, now we enable A20
-# start from grub-a20.patch
- /*
- * try to switch gateA20 using PORT92, the "Fast A20 and Init"
- * register
- */
- mov $0x92, %dx
- inb %dx, %al
- /* skip the port92 code if it's unimplemented (read returns 0xff) */
- cmpb $0xff, %al
- jz alt_a20_done
-
- /* set or clear bit1, the ALT_A20_GATE bit */
- movb 4(%esp), %ah
- testb %ah, %ah
- jz alt_a20_cont1
- orb $2, %al
- jmp alt_a20_cont2
-alt_a20_cont1:
- and $0xfd, %al
-
- /* clear the INIT_NOW bit; don't accidently reset the machine */
-alt_a20_cont2:
- and $0xfe, %al
- outb %al, %dx
-
-alt_a20_done:
-# end from grub-a20.patch
-
- call empty_8042
-
- movb $0xD1, %al # command write
- outb %al, $0x64
- call empty_8042
-
- movb $0xDF, %al # A20 on
- outb %al, $0x60
- call empty_8042
-
-/*
- * Note that the short jump isn't strictly needed, althought there are
- * reasons why it might be a good idea. It won't hurt in any case.
- */
- movw $0x0001, %ax # protected mode (PE) bit
- lmsw %ax # This is it#
- jmp flush_instr
-flush_instr:
- movw $KERNEL_DS, %ax
- movw %ax, %ds
- movw %ax, %es
- movw %ax, %ss
- movw %ax, %fs
- movw %ax, %gs
-
-data32 ljmp $KERNEL_CS, $(TSTLOAD <<4) # jmp offset 2000 of segment 0x10 (cs)
-
-/*
- * This routine checks that the keyboard command queue is empty
- * (after emptying the output buffers)
- *
- * No timeout is used - if this hangs there is something wrong with
- * the machine, and we probably couldn't proceed anyway.
- */
-empty_8042:
- call delay
- inb $0x64, %al # 8042 status port
- cmpb $0xff, %al # from grub-a20-patch, skip if not impl
- jz empty_8042_ret
- testb $1, %al # output buffer?
- jz no_output
- call delay
- inb $0x60, %al # read it
- jmp empty_8042
-
-no_output:
- testb $2, %al # is input buffer full?
- jnz empty_8042 # yes - loop
-empty_8042_ret:
- ret
-#
-# Delay is needed after doing i/o
-#
-delay:
- .word 0x00eb # jmp $+2
- ret
-
-gdt:
- .word 0,0,0,0 # dummy
-
- .word 0,0,0,0 # unused
-
- .word 0x7FFF # limit 128mb
- .word 0x0000 # base address=0
- .word 0x9A00 # code read/exec
- .word 0x00C0 # granularity=4096, 386
-
- .word 0x7FFF # limit 128mb
- .word 0x0000 # base address=0
- .word 0x9200 # data read/write
- .word 0x00C0 # granularity=4096, 386
-
-idt_48:
- .word 0 # idt limit=0
- .long 0 # idt base=0L
-
-gdt_48:
- .word 0x800 # gdt limit=2048, 256 GDT entries
- .word 512+gdt - start,0x9 # gdt base = 0X9xxxx
-
-msg1:
- .asciz "Setup.S\r\n"
-
- /* Pad setup to the proper size */
- .org (SETUPSECS*512)
-
diff --git a/memtest86+_old/smp.c b/memtest86+_old/smp.c
deleted file mode 100644
index c101c36..0000000
--- a/memtest86+_old/smp.c
+++ /dev/null
@@ -1,692 +0,0 @@
-/*
- * MemTest86+ V5 Specific code (GPL V2.0)
- * By Samuel DEMEULEMEESTER, sdemeule@memtest.org
- * http://www.canardpc.com - http://www.memtest.org
- * ------------------------------------------------
- * smp.c - MemTest-86 Version 3.5
- *
- * Released under version 2 of the Gnu Public License.
- * By Chris Brady
- */
-
-#include "stddef.h"
-#include "stdint.h"
-#include "cpuid.h"
-#include "smp.h"
-#include "test.h"
-
-#define DELAY_FACTOR 1
-unsigned num_cpus = 1; // There is at least one cpu, the BSP
-int act_cpus;
-unsigned found_cpus = 0;
-
-extern void memcpy(void *dst, void *src , int len);
-extern void test_start(void);
-extern int run_cpus;
-extern int maxcpus;
-extern char cpu_mask[];
-extern struct cpu_ident cpu_id;
-
-struct barrier_s *barr;
-
-void smp_find_cpus();
-
-void barrier_init(int max)
-{
- /* Set the adddress of the barrier structure */
- barr = (struct barrier_s *)0x9ff00;
- barr->lck.slock = 1;
- barr->mutex.slock = 1;
- barr->maxproc = max;
- barr->count = max;
- barr->st1.slock = 1;
- barr->st2.slock = 0;
-}
-
-void s_barrier_init(int max)
-{
- barr->s_lck.slock = 1;
- barr->s_maxproc = max;
- barr->s_count = max;
- barr->s_st1.slock = 1;
- barr->s_st2.slock = 0;
-}
-
-void barrier()
-{
- if (num_cpus == 1 || vv->fail_safe & 3) {
- return;
- }
- spin_wait(&barr->st1); /* Wait if the barrier is active */
- spin_lock(&barr->lck); /* Get lock for barr struct */
- if (--barr->count == 0) { /* Last process? */
- barr->st1.slock = 0; /* Hold up any processes re-entering */
- barr->st2.slock = 1; /* Release the other processes */
- barr->count++;
- spin_unlock(&barr->lck);
- } else {
- spin_unlock(&barr->lck);
- spin_wait(&barr->st2); /* wait for peers to arrive */
- spin_lock(&barr->lck);
- if (++barr->count == barr->maxproc) {
- barr->st1.slock = 1;
- barr->st2.slock = 0;
- }
- spin_unlock(&barr->lck);
- }
-}
-
-void s_barrier()
-{
- if (run_cpus == 1 || vv->fail_safe & 3) {
- return;
- }
- spin_wait(&barr->s_st1); /* Wait if the barrier is active */
- spin_lock(&barr->s_lck); /* Get lock for barr struct */
- if (--barr->s_count == 0) { /* Last process? */
- barr->s_st1.slock = 0; /* Hold up any processes re-entering */
- barr->s_st2.slock = 1; /* Release the other processes */
- barr->s_count++;
- spin_unlock(&barr->s_lck);
- } else {
- spin_unlock(&barr->s_lck);
- spin_wait(&barr->s_st2); /* wait for peers to arrive */
- spin_lock(&barr->s_lck);
- if (++barr->s_count == barr->s_maxproc) {
- barr->s_st1.slock = 1;
- barr->s_st2.slock = 0;
- }
- spin_unlock(&barr->s_lck);
- }
-}
-
-typedef struct {
- bool started;
-} ap_info_t;
-
-volatile apic_register_t *APIC = NULL;
-/* CPU number to APIC ID mapping table. CPU 0 is the BSP. */
-static unsigned cpu_num_to_apic_id[MAX_CPUS];
-volatile ap_info_t AP[MAX_CPUS];
-
-void PUT_MEM16(uintptr_t addr, uint16_t val)
-{
- *((volatile uint16_t *)addr) = val;
-}
-
-void PUT_MEM32(uintptr_t addr, uint32_t val)
-{
- *((volatile uint32_t *)addr) = val;
-}
-
-static void inline
-APIC_WRITE(unsigned reg, uint32_t val)
-{
- APIC[reg][0] = val;
-}
-
-static inline uint32_t
-APIC_READ(unsigned reg)
-{
- return APIC[reg][0];
-}
-
-
-static void
-SEND_IPI(unsigned apic_id, unsigned trigger, unsigned level, unsigned mode,
- uint8_t vector)
-{
- uint32_t v;
-
- v = APIC_READ(APICR_ICRHI) & 0x00ffffff;
- APIC_WRITE(APICR_ICRHI, v | (apic_id << 24));
-
- v = APIC_READ(APICR_ICRLO) & ~0xcdfff;
- v |= (APIC_DEST_DEST << APIC_ICRLO_DEST_OFFSET)
- | (trigger << APIC_ICRLO_TRIGGER_OFFSET)
- | (level << APIC_ICRLO_LEVEL_OFFSET)
- | (mode << APIC_ICRLO_DELMODE_OFFSET)
- | (vector);
- APIC_WRITE(APICR_ICRLO, v);
-}
-
-
-// Silly way of busywaiting, but we don't have a timer
-void delay(unsigned us)
-{
- unsigned freq = 1000; // in MHz, assume 1GHz CPU speed
- uint64_t cycles = us * freq;
- uint64_t t0 = RDTSC();
- uint64_t t1;
- volatile unsigned k;
-
- do {
- for (k = 0; k < 1000; k++) continue;
- t1 = RDTSC();
- } while (t1 - t0 < cycles);
-}
-
-static inline void
-memset (volatile void *dst,
- char value,
- int len)
-{
- int i;
- for (i = 0 ; i < len ; i++ ) {
- *((char *) dst + i) = value;
- }
-}
-void initialise_cpus(void)
-{
- int i;
-
- act_cpus = 0;
-
- if (maxcpus > 1) {
- smp_find_cpus();
- /* The total number of CPUs may be limited */
- if (num_cpus > maxcpus) {
- num_cpus = maxcpus;
- }
- /* Determine how many cpus have been selected */
- for(i = 0; i < num_cpus; i++) {
- if (cpu_mask[i]) {
- act_cpus++;
- }
- }
- } else {
- act_cpus = found_cpus = num_cpus = 1;
- }
-
- /* Initialize the barrier before starting AP's */
- barrier_init(act_cpus);
-
- /* let the BSP initialise the APs. */
- for(i = 1; i < num_cpus; i++) {
- /* Only start this CPU if it is selected by the mask */
- if (cpu_mask[i]) {
- smp_boot_ap(i);
- }
- }
-
-}
-void kick_cpu(unsigned cpu_num)
-{
- unsigned num_sipi, apic_id;
- apic_id = cpu_num_to_apic_id[cpu_num];
-
- // clear the APIC ESR register
- APIC_WRITE(APICR_ESR, 0);
- APIC_READ(APICR_ESR);
-
- // asserting the INIT IPI
- SEND_IPI(apic_id, APIC_TRIGGER_LEVEL, 1, APIC_DELMODE_INIT, 0);
- delay(100000 / DELAY_FACTOR);
-
- // de-assert the INIT IPI
- SEND_IPI(apic_id, APIC_TRIGGER_LEVEL, 0, APIC_DELMODE_INIT, 0);
-
- for (num_sipi = 0; num_sipi < 2; num_sipi++) {
- unsigned timeout;
- bool send_pending;
- unsigned err;
-
- APIC_WRITE(APICR_ESR, 0);
-
- SEND_IPI(apic_id, 0, 0, APIC_DELMODE_STARTUP, (unsigned)startup_32 >> 12);
-
- timeout = 0;
- do {
- delay(10);
- timeout++;
- send_pending = (APIC_READ(APICR_ICRLO) & APIC_ICRLO_STATUS_MASK) != 0;
- } while (send_pending && timeout < 1000);
-
- if (send_pending) {
- cprint(LINE_STATUS+3, 0, "SMP: STARTUP IPI was never sent");
- }
-
- delay(100000 / DELAY_FACTOR);
-
- err = APIC_READ(APICR_ESR) & 0xef;
- if (err) {
- cprint(LINE_STATUS+3, 0, "SMP: After STARTUP IPI: err = 0x");
- hprint(LINE_STATUS+3, COL_MID, err);
- }
- }
-}
-
-// These memory locations are used for the trampoline code and data.
-
-#define BOOTCODESTART 0x9000
-#define GDTPOINTERADDR 0x9100
-#define GDTADDR 0x9110
-
-void boot_ap(unsigned cpu_num)
-{
- unsigned num_sipi, apic_id;
- extern uint8_t gdt;
- extern uint8_t _ap_trampoline_start;
- extern uint8_t _ap_trampoline_protmode;
- unsigned len = &_ap_trampoline_protmode - &_ap_trampoline_start;
- apic_id = cpu_num_to_apic_id[cpu_num];
-
-
- memcpy((uint8_t*)BOOTCODESTART, &_ap_trampoline_start, len);
-
- // Fixup the LGDT instruction to point to GDT pointer.
- PUT_MEM16(BOOTCODESTART + 3, GDTPOINTERADDR);
-
- // Copy a pointer to the temporary GDT to addr GDTPOINTERADDR.
- // The temporary gdt is at addr GDTADDR
- PUT_MEM16(GDTPOINTERADDR, 4 * 8);
- PUT_MEM32(GDTPOINTERADDR + 2, GDTADDR);
-
- // Copy the first 4 gdt entries from the currently used GDT to the
- // temporary GDT.
- memcpy((uint8_t *)GDTADDR, &gdt, 32);
-
- // clear the APIC ESR register
- APIC_WRITE(APICR_ESR, 0);
- APIC_READ(APICR_ESR);
-
- // asserting the INIT IPI
- SEND_IPI(apic_id, APIC_TRIGGER_LEVEL, 1, APIC_DELMODE_INIT, 0);
- delay(100000 / DELAY_FACTOR);
-
- // de-assert the INIT IPI
- SEND_IPI(apic_id, APIC_TRIGGER_LEVEL, 0, APIC_DELMODE_INIT, 0);
-
- for (num_sipi = 0; num_sipi < 2; num_sipi++) {
- unsigned timeout;
- bool send_pending;
- unsigned err;
-
- APIC_WRITE(APICR_ESR, 0);
-
- SEND_IPI(apic_id, 0, 0, APIC_DELMODE_STARTUP, BOOTCODESTART >> 12);
-
- timeout = 0;
- do {
- delay(10);
- timeout++;
- send_pending = (APIC_READ(APICR_ICRLO) & APIC_ICRLO_STATUS_MASK) != 0;
- } while (send_pending && timeout < 1000);
-
- if (send_pending) {
- cprint(LINE_STATUS+3, 0, "SMP: STARTUP IPI was never sent");
- }
-
- delay(100000 / DELAY_FACTOR);
-
- err = APIC_READ(APICR_ESR) & 0xef;
- if (err) {
- cprint(LINE_STATUS+3, 0, "SMP: After STARTUP IPI: err = 0x");
- hprint(LINE_STATUS+3, COL_MID, err);
- }
- }
-}
-
-static int checksum(unsigned char *mp, int len)
-{
- int sum = 0;
-
- while (len--) {
- sum += *mp++;
- }
- return (sum & 0xFF);
-}
-
-/* Parse an MP config table for CPU information */
-bool read_mp_config_table(uintptr_t addr)
-{
- mp_config_table_header_t *mpc = (mp_config_table_header_t*)addr;
- uint8_t *tab_entry_ptr;
- uint8_t *mpc_table_end;
-
- if (mpc->signature != MPCSignature) {
- return FALSE;
- }
- if (checksum((unsigned char*)mpc, mpc->length) != 0) {
- return FALSE;
- }
-
- /* FIXME: the uintptr_t cast here works around a compilation problem on
- * AMD64, but it ignores the real problem, which is that lapic_addr
- * is only 32 bits. Maybe that's OK, but it should be investigated.
- */
- APIC = (volatile apic_register_t*)(uintptr_t)mpc->lapic_addr;
-
- tab_entry_ptr = ((uint8_t*)mpc) + sizeof(mp_config_table_header_t);
- mpc_table_end = ((uint8_t*)mpc) + mpc->length;
-
- while (tab_entry_ptr < mpc_table_end) {
- switch (*tab_entry_ptr) {
- case MP_PROCESSOR: {
- mp_processor_entry_t *pe = (mp_processor_entry_t*)tab_entry_ptr;
-
- if (pe->cpu_flag & CPU_BOOTPROCESSOR) {
- // BSP is CPU 0
- cpu_num_to_apic_id[0] = pe->apic_id;
- } else if (num_cpus < MAX_CPUS) {
- cpu_num_to_apic_id[num_cpus] = pe->apic_id;
- num_cpus++;
- }
- found_cpus++;
-
- // we cannot handle non-local 82489DX apics
- if ((pe->apic_ver & 0xf0) != 0x10) {
- return 0;
- }
-
- tab_entry_ptr += sizeof(mp_processor_entry_t);
- break;
- }
- case MP_BUS: {
- tab_entry_ptr += sizeof(mp_bus_entry_t);
- break;
- }
- case MP_IOAPIC: {
- tab_entry_ptr += sizeof(mp_io_apic_entry_t);
- break;
- }
- case MP_INTSRC:
- tab_entry_ptr += sizeof(mp_interrupt_entry_t);
- break;
- case MP_LINTSRC:
- tab_entry_ptr += sizeof(mp_local_interrupt_entry_t);
- break;
- default:
- return FALSE;
- }
- }
- return TRUE;
-}
-
-/* Search for a Floating Pointer structure */
-floating_pointer_struct_t *
-scan_for_floating_ptr_struct(uintptr_t addr, uint32_t length)
-{
- floating_pointer_struct_t *fp;
- uintptr_t end = addr + length;
-
-
- while ((uintptr_t)addr < end) {
- fp = (floating_pointer_struct_t*)addr;
- if (*(unsigned int *)addr == FPSignature && fp->length == 1 && checksum((unsigned char*)addr, 16) == 0 && ((fp->spec_rev == 1) || (fp->spec_rev == 4))) {
- return fp;
- }
- addr += 4;
- }
- return NULL;
-}
-
-/* Search for a Root System Descriptor Pointer */
-rsdp_t *scan_for_rsdp(uintptr_t addr, uint32_t length)
-{
- rsdp_t *rp;
- uintptr_t end = addr + length;
-
-
- while ((uintptr_t)addr < end) {
- rp = (rsdp_t*)addr;
- if (*(unsigned int *)addr == RSDPSignature &&
- checksum((unsigned char*)addr, rp->length) == 0) {
- return rp;
- }
- addr += 4;
- }
- return NULL;
-}
-
-/* Parse a MADT table for processor entries */
-int parse_madt(uintptr_t addr) {
-
- mp_config_table_header_t *mpc = (mp_config_table_header_t*)addr;
- uint8_t *tab_entry_ptr;
- uint8_t *mpc_table_end;
-
- if (checksum((unsigned char*)mpc, mpc->length) != 0) {
- return FALSE;
- }
-
- APIC = (volatile apic_register_t*)(uintptr_t)mpc->lapic_addr;
-
- tab_entry_ptr = ((uint8_t*)mpc) + sizeof(mp_config_table_header_t);
- mpc_table_end = ((uint8_t*)mpc) + mpc->length;
- while (tab_entry_ptr < mpc_table_end) {
-
- madt_processor_entry_t *pe = (madt_processor_entry_t*)tab_entry_ptr;
- if (pe->type == MP_PROCESSOR) {
- if (pe->enabled) {
- if (num_cpus < MAX_CPUS) {
- cpu_num_to_apic_id[num_cpus] = pe->apic_id;
-
- /* the first CPU is the BSP, don't increment */
- if (found_cpus) {
- num_cpus++;
- }
- }
- found_cpus++;
- }
- }
- tab_entry_ptr += pe->length;
- }
- return TRUE;
-}
-
-/* This is where we search for SMP information in the following order
- * look for a floating MP pointer
- * found:
- * check for a default configuration
- * found:
- * setup config, return
- * check for a MP config table
- * found:
- * validate:
- * good:
- * parse the MP config table
- * good:
- * setup config, return
- *
- * find & validate ACPI RSDP (Root System Descriptor Pointer)
- * found:
- * find & validate RSDT (Root System Descriptor Table)
- * found:
- * find & validate MSDT
- * found:
- * parse the MADT table
- * good:
- * setup config, return
- */
-void smp_find_cpus()
-{
- floating_pointer_struct_t *fp;
- rsdp_t *rp;
- rsdt_t *rt;
- uint8_t *tab_ptr, *tab_end;
- unsigned int *ptr;
- unsigned int uiptr;
-
- if(vv->fail_safe & 3) { return; }
-
- memset(&AP, 0, sizeof AP);
-
- if(vv->fail_safe & 8)
- {
- // Search for the Floating MP structure pointer
- fp = scan_for_floating_ptr_struct(0x0, 0x400);
- if (fp == NULL) {
- fp = scan_for_floating_ptr_struct(639*0x400, 0x400);
- }
- if (fp == NULL) {
- fp = scan_for_floating_ptr_struct(0xf0000, 0x10000);
- }
- if (fp == NULL) {
- // Search the BIOS ESDS area
- unsigned int address = *(unsigned short *)0x40E;
- address <<= 4;
- if (address) {
- fp = scan_for_floating_ptr_struct(address, 0x400);
- }
- }
-
- if (fp != NULL) {
- // We have a floating MP pointer
- // Is this a default configuration?
-
- if (fp->feature[0] > 0 && fp->feature[0] <=7) {
- // This is a default config so plug in the numbers
- num_cpus = 2;
- APIC = (volatile apic_register_t*)0xFEE00000;
- cpu_num_to_apic_id[0] = 0;
- cpu_num_to_apic_id[1] = 1;
- return;
- }
-
- // Do we have a pointer to a MP configuration table?
- if ( fp->phys_addr != 0) {
- if (read_mp_config_table(fp->phys_addr)) {
- // Found a good MP table, done
- return;
- }
- }
- }
- }
-
-
- /* No MP table so far, try to find an ACPI MADT table
- * We try to use the MP table first since there is no way to distinguish
- * real cores from hyper-threads in the MADT */
-
- /* Search for the RSDP */
- rp = scan_for_rsdp(0xE0000, 0x20000);
- if (rp == NULL) {
- /* Search the BIOS ESDS area */
- unsigned int address = *(unsigned short *)0x40E;
- address <<= 4;
- if (address) {
- rp = scan_for_rsdp(address, 0x400);
- }
- }
-
- if (rp == NULL) {
- /* RSDP not found, give up */
- return;
- }
-
- /* Found the RSDP, now get either the RSDT or XSDT */
- if (rp->revision >= 2) {
- rt = (rsdt_t *)rp->xrsdt[0];
-
- if (rt == 0) {
- return;
- }
- // Validate the XSDT
- if (*(unsigned int *)rt != XSDTSignature) {
- return;
- }
- if ( checksum((unsigned char*)rt, rt->length) != 0) {
- return;
- }
-
- } else {
- rt = (rsdt_t *)rp->rsdt;
- if (rt == 0) {
- return;
- }
- /* Validate the RSDT */
- if (*(unsigned int *)rt != RSDTSignature) {
- return;
- }
- if ( checksum((unsigned char*)rt, rt->length) != 0) {
- return;
- }
- }
-
- /* Scan the RSDT or XSDT for a pointer to the MADT */
- tab_ptr = ((uint8_t*)rt) + sizeof(rsdt_t);
- tab_end = ((uint8_t*)rt) + rt->length;
-
- while (tab_ptr < tab_end) {
-
- uiptr = *((unsigned int *)tab_ptr);
- ptr = (unsigned int *)uiptr;
-
- /* Check for the MADT signature */
- if (ptr && *ptr == MADTSignature) {
- /* Found it, now parse it */
- if (parse_madt((uintptr_t)ptr)) {
- return;
- }
- }
- tab_ptr += 4;
- }
-}
-
-unsigned my_apic_id()
-{
- return (APIC[APICR_ID][0]) >> 24;
-}
-
-void smp_ap_booted(unsigned cpu_num)
-{
- AP[cpu_num].started = TRUE;
-}
-
-void smp_boot_ap(unsigned cpu_num)
-{
- unsigned timeout;
-
- boot_ap(cpu_num);
- timeout = 0;
- do {
- delay(1000 / DELAY_FACTOR);
- timeout++;
- } while (!AP[cpu_num].started && timeout < 100000 / DELAY_FACTOR);
-
- if (!AP[cpu_num].started) {
- cprint(LINE_STATUS+3, 0, "SMP: Boot timeout for");
- dprint(LINE_STATUS+3, COL_MID, cpu_num,2,1);
- cprint(LINE_STATUS+3, 26, "Turning off SMP");
- }
-}
-
-unsigned smp_my_cpu_num()
-{
- unsigned apicid = my_apic_id();
- unsigned i;
-
- for (i = 0; i < MAX_CPUS; i++) {
- if (apicid == cpu_num_to_apic_id[i]) {
- break;
- }
- }
- if (i == MAX_CPUS) {
- i = 0;
- }
- return i;
-}
-
-/* A set of simple functions used to preserve assigned CPU ordinals since
- * they are lost after relocation (the stack is reloaded).
- */
-int num_to_ord[MAX_CPUS];
-void smp_set_ordinal(int me, int ord)
-{
- num_to_ord[me] = ord;
-}
-
-int smp_my_ord_num(int me)
-{
- return num_to_ord[me];
-}
-
-int smp_ord_to_cpu(int me)
-{
- int i;
- for (i=0; i<MAX_CPUS; i++) {
- if (num_to_ord[i] == me) return i;
- }
- return -1;
-}
diff --git a/memtest86+_old/smp.h b/memtest86+_old/smp.h
deleted file mode 100644
index 5d07ce7..0000000
--- a/memtest86+_old/smp.h
+++ /dev/null
@@ -1,366 +0,0 @@
-/* **********************************************************
- * Copyright 2002 VMware, Inc. All rights reserved. -- VMware Confidential
- * **********************************************************/
-
-
-#ifndef _SMP_H_
-#define _SMP_H_
-#include "stdint.h"
-#include "defs.h"
-#define MAX_CPUS 32
-
-#define FPSignature ('_' | ('M' << 8) | ('P' << 16) | ('_' << 24))
-
-typedef struct {
- uint32_t signature; // "_MP_"
- uint32_t phys_addr;
- uint8_t length;
- uint8_t spec_rev;
- uint8_t checksum;
- uint8_t feature[5];
-} floating_pointer_struct_t;
-
-#define MPCSignature ('P' | ('C' << 8) | ('M' << 16) | ('P' << 24))
-typedef struct {
- uint32_t signature; // "PCMP"
- uint16_t length;
- uint8_t spec_rev;
- uint8_t checksum;
- char oem[8];
- char productid[12];
- uint32_t oem_ptr;
- uint16_t oem_size;
- uint16_t oem_count;
- uint32_t lapic_addr;
- uint32_t reserved;
-} mp_config_table_header_t;
-
-/* Followed by entries */
-
-#define MP_PROCESSOR 0
-#define MP_BUS 1
-#define MP_IOAPIC 2
-#define MP_INTSRC 3
-#define MP_LINTSRC 4
-
-typedef struct {
- uint8_t type; /* MP_PROCESSOR */
- uint8_t apic_id; /* Local APIC number */
- uint8_t apic_ver; /* Its versions */
- uint8_t cpu_flag;
-#define CPU_ENABLED 1 /* Processor is available */
-#define CPU_BOOTPROCESSOR 2 /* Processor is the BP */
- uint32_t cpu_signature;
-#define CPU_STEPPING_MASK 0x0F
-#define CPU_MODEL_MASK 0xF0
-#define CPU_FAMILY_MASK 0xF00
- uint32_t featureflag; /* CPUID feature value */
- uint32_t reserved[2];
-} mp_processor_entry_t;
-
-typedef struct {
- uint8_t type; // has value MP_BUS
- uint8_t busid;
- char bustype[6];
-} mp_bus_entry_t;
-
-/* We don't understand the others */
-
-typedef struct {
- uint8_t type; // set to MP_IOAPIC
- uint8_t apicid;
- uint8_t apicver;
- uint8_t flags;
-#define MPC_APIC_USABLE 0x01
- uint32_t apicaddr;
-} mp_io_apic_entry_t;
-
-
-typedef struct {
- uint8_t type;
- uint8_t irqtype;
- uint16_t irqflag;
- uint8_t srcbus;
- uint8_t srcbusirq;
- uint8_t dstapic;
- uint8_t dstirq;
-} mp_interrupt_entry_t;
-
-#define MP_INT_VECTORED 0
-#define MP_INT_NMI 1
-#define MP_INT_SMI 2
-#define MP_INT_EXTINT 3
-
-#define MP_IRQDIR_DEFAULT 0
-#define MP_IRQDIR_HIGH 1
-#define MP_IRQDIR_LOW 3
-
-
-typedef struct {
- uint8_t type;
- uint8_t irqtype;
- uint16_t irqflag;
- uint8_t srcbusid;
- uint8_t srcbusirq;
- uint8_t destapic;
-#define MP_APIC_ALL 0xFF
- uint8_t destapiclint;
-} mp_local_interrupt_entry_t;
-
-#define RSDPSignature ('R' | ('S' << 8) | ('D' << 16) | (' ' << 24))
-typedef struct {
- char signature[8]; // "RSD "
- uint8_t checksum;
- char oemid[6];
- uint8_t revision;
- uint32_t rsdt;
- uint32_t length;
- uint32_t xrsdt[2];
- uint8_t xsum;
-} rsdp_t;
-
-#define RSDTSignature ('R' | ('S' << 8) | ('D' << 16) | ('T' << 24))
-#define XSDTSignature ('X' | ('S' << 8) | ('D' << 16) | ('T' << 24))
-typedef struct {
- char signature[4]; // "RSDT"
- uint32_t length;
- uint8_t revision;
- uint8_t checksum;
- char oemid[18];
- char cid[4];
- char cver[4];
-} rsdt_t;
-
-#define MADTSignature ('A' | ('P' << 8) | ('I' << 16) | ('C' << 24))
-typedef struct {
- uint8_t type;
- uint8_t length;
- uint8_t acpi_id;
- uint8_t apic_id; /* Local APIC number */
- uint32_t enabled;
-} madt_processor_entry_t;
-
-/* APIC definitions */
-/*
- * APIC registers
- */
-#define APICR_ID 0x02
-#define APICR_ESR 0x28
-#define APICR_ICRLO 0x30
-#define APICR_ICRHI 0x31
-
-/* APIC destination shorthands */
-#define APIC_DEST_DEST 0
-#define APIC_DEST_LOCAL 1
-#define APIC_DEST_ALL_INC 2
-#define APIC_DEST_ALL_EXC 3
-
-/* APIC IPI Command Register format */
-#define APIC_ICRHI_RESERVED 0x00ffffff
-#define APIC_ICRHI_DEST_MASK 0xff000000
-#define APIC_ICRHI_DEST_OFFSET 24
-
-#define APIC_ICRLO_RESERVED 0xfff32000
-#define APIC_ICRLO_DEST_MASK 0x000c0000
-#define APIC_ICRLO_DEST_OFFSET 18
-#define APIC_ICRLO_TRIGGER_MASK 0x00008000
-#define APIC_ICRLO_TRIGGER_OFFSET 15
-#define APIC_ICRLO_LEVEL_MASK 0x00004000
-#define APIC_ICRLO_LEVEL_OFFSET 14
-#define APIC_ICRLO_STATUS_MASK 0x00001000
-#define APIC_ICRLO_STATUS_OFFSET 12
-#define APIC_ICRLO_DESTMODE_MASK 0x00000800
-#define APIC_ICRLO_DESTMODE_OFFSET 11
-#define APIC_ICRLO_DELMODE_MASK 0x00000700
-#define APIC_ICRLO_DELMODE_OFFSET 8
-#define APIC_ICRLO_VECTOR_MASK 0x000000ff
-#define APIC_ICRLO_VECTOR_OFFSET 0
-
-/* APIC trigger types (edge/level) */
-#define APIC_TRIGGER_EDGE 0
-#define APIC_TRIGGER_LEVEL 1
-
-/* APIC delivery modes */
-#define APIC_DELMODE_FIXED 0
-#define APIC_DELMODE_LOWEST 1
-#define APIC_DELMODE_SMI 2
-#define APIC_DELMODE_NMI 4
-#define APIC_DELMODE_INIT 5
-#define APIC_DELMODE_STARTUP 6
-#define APIC_DELMODE_EXTINT 7
-typedef uint32_t apic_register_t[4];
-
-extern volatile apic_register_t *APIC;
-
-unsigned smp_my_cpu_num();
-
-void smp_init_bsp(void);
-void smp_init_aps(void);
-
-void smp_boot_ap(unsigned cpu_num);
-void smp_ap_booted(unsigned cpu_num);
-
-typedef struct {
- unsigned int slock;
-} spinlock_t;
-
-struct barrier_s
-{
- spinlock_t mutex;
- spinlock_t lck;
- int maxproc;
- volatile int count;
- spinlock_t st1;
- spinlock_t st2;
- spinlock_t s_lck;
- int s_maxproc;
- volatile int s_count;
- spinlock_t s_st1;
- spinlock_t s_st2;
-};
-
-void barrier();
-void s_barrier();
-void barrier_init(int max);
-void s_barrier_init(int max);
-
-static inline void
-__GET_CPUID(int ax, uint32_t *regs)
-{
- __asm__ __volatile__("\t"
- /* save ebx in case -fPIC is being used */
- "push %%ebx; cpuid; mov %%ebx, %%edi; pop %%ebx"
- : "=a" (regs[0]), "=D" (regs[1]), "=c" (regs[2]), "=d" (regs[3])
- : "a" (ax)
- : "memory"
- );
-}
-
-#define GET_CPUID(_ax,_bx,_cx,_dx) { \
- uint32_t regs[4]; \
- __GET_CPUID(_ax,regs); \
- _ax = regs[0]; \
- _bx = regs[1]; \
- _cx = regs[2]; \
- _dx = regs[3]; \
-}
-
-/*
- * Checked against the Intel manual and GCC --hpreg
- *
- * volatile because the tsc always changes without the compiler knowing it.
- */
-static inline uint64_t
-RDTSC(void)
-{
- uint64_t tim;
-
- __asm__ __volatile__(
- "rdtsc"
- : "=A" (tim)
- );
-
- return tim;
-}
-
-static inline uint64_t __GET_MSR(int cx)
-{
- uint64_t msr;
-
- __asm__ __volatile__(
- "rdmsr"
- : "=A" (msr)
- : "c" (cx)
- );
-
- return msr;
-}
-
-#define __GCC_OUT(s, s2, port, val) do { \
- __asm__( \
- "out" #s " %" #s2 "1, %w0" \
- : \
- : "Nd" (port), "a" (val) \
- ); \
-} while (0)
-#define OUTB(port, val) __GCC_OUT(b, b, port, val)
-
-static inline void spin_wait(spinlock_t *lck)
-{
- if (cpu_id.fid.bits.mon) {
- /* Use monitor/mwait for a low power, low contention spin */
- asm volatile(
- "movl $0,%%ecx\n\t"
- "movl %%ecx, %%edx\n\t"
- "1:\n\t"
- "movl %%edi,%%eax\n\t"
- "monitor\n\t"
- "cmpb $0,(%%edi)\n\t"
- "jne 2f\n\t"
- "movl %%ecx, %%eax\n\t"
- "mwait\n\t"
- "jmp 1b\n"
- "2:"
- : : "D" (lck): "%eax", "%ecx", "%edx"
- );
- } else {
- /* No monitor/mwait so just spin with a lot of nop's */
- int inc = 0x400;
- asm volatile(
- "1:\t"
- "cmpb $0,%1\n\t"
- "jne 2f\n\t"
- "rep ; nop\n\t"
- "jmp 1b\n"
- "2:"
- : : "c" (inc), "m" (lck->slock): "memory"
- );
- }
-}
-
-static inline void spin_lock(spinlock_t *lck)
-{
- if (cpu_id.fid.bits.mon) {
- /* Use monitor/mwait for a low power, low contention spin */
- asm volatile(
- "\n1:\t"
- " ; lock;decb (%%edi)\n\t"
- "jns 3f\n"
- "movl $0,%%ecx\n\t"
- "movl %%ecx, %%edx\n\t"
- "2:\t"
- "movl %%edi,%%eax\n\t"
- "monitor\n\t"
- "movl %%ecx, %%eax\n\t"
- "mwait\n\t"
- "cmpb $0,(%%edi)\n\t"
- "jle 2b\n\t"
- "jmp 1b\n"
- "3:\n\t"
- : : "D" (lck): "%eax", "%ecx", "%edx"
- );
- } else {
- /* No monitor/mwait so just spin with a lot of nop's */
- int inc = 0x400;
- asm volatile(
- "\n1:\t"
- " ; lock;decb %0\n\t"
- "jns 3f\n"
- "2:\t"
- "rep;nop\n\t"
- "cmpb $0,%0\n\t"
- "jle 2b\n\t"
- "jmp 1b\n"
- "3:\n\t"
- : "+m" (lck->slock) : "c" (inc) : "memory"
- );
- }
-}
-
-static inline void spin_unlock(spinlock_t *lock)
-{
- asm volatile("movb $1,%0" : "+m" (lock->slock) :: "memory");
-}
-
-
-#endif /* _SMP_H_ */
diff --git a/memtest86+_old/spd.c b/memtest86+_old/spd.c
deleted file mode 100644
index 197db56..0000000
--- a/memtest86+_old/spd.c
+++ /dev/null
@@ -1,541 +0,0 @@
-/*
- * MemTest86+ V5 Specific code (GPL V2.0)
- * By Samuel DEMEULEMEESTER, sdemeule@memtest.org
- * http://www.canardpc.com - http://www.memtest.org
- */
-
-
-#include "test.h"
-#include "io.h"
-#include "pci.h"
-#include "msr.h"
-#include "spd.h"
-#include "screen_buffer.h"
-#include "jedec_id.h"
-
-#define NULL 0
-
-#define SMBHSTSTS smbusbase
-#define SMBHSTCNT smbusbase + 2
-#define SMBHSTCMD smbusbase + 3
-#define SMBHSTADD smbusbase + 4
-#define SMBHSTDAT smbusbase + 5
-
-extern void wait_keyup();
-
-int smbdev, smbfun;
-unsigned short smbusbase;
-unsigned char spd_raw[256];
-char s[] = {'/', 0, '-', 0, '\\', 0, '|', 0};
-
-static void ich5_get_smb(void)
-{
- unsigned long x;
- int result;
- result = pci_conf_read(0, smbdev, smbfun, 0x20, 2, &x);
- if (result == 0) smbusbase = (unsigned short) x & 0xFFFE;
-}
-
-static void piix4_get_smb(void)
-{
- unsigned long x;
- int result;
-
- result = pci_conf_read(0, smbdev, smbfun, 0x08, 1, &x);
-
- if(x < 0x40){
- // SB600/700
- result = pci_conf_read(0, smbdev, smbfun, 0x90, 2, &x);
- if (result == 0) smbusbase = (unsigned short) x & 0xFFFE;
- } else {
- // SB800
- sb800_get_smb();
- }
-}
-
-void sb800_get_smb(void)
-{
- int lbyte, hbyte;
-
- __outb(AMD_SMBUS_BASE_REG + 1, AMD_INDEX_IO_PORT);
- lbyte = __inb(AMD_DATA_IO_PORT);
- __outb(AMD_SMBUS_BASE_REG, AMD_INDEX_IO_PORT);
- hbyte = __inb(AMD_DATA_IO_PORT);
-
- smbusbase = lbyte;
- smbusbase <<= 8;
- smbusbase += hbyte;
- smbusbase &= 0xFFE0;
-
- if (smbusbase == 0xFFE0) { smbusbase = 0; }
-}
-
-unsigned char ich5_smb_read_byte(unsigned char adr, unsigned char cmd)
-{
- int l1, h1, l2, h2;
- unsigned long long t;
- __outb(0x1f, SMBHSTSTS); // reset SMBus Controller
- __outb(0xff, SMBHSTDAT);
- while(__inb(SMBHSTSTS) & 0x01); // wait until ready
- __outb(cmd, SMBHSTCMD);
- __outb((adr << 1) | 0x01, SMBHSTADD);
- __outb(0x48, SMBHSTCNT);
- rdtsc(l1, h1);
- //cprint(POP2_Y, POP2_X + 16, s + cmd % 8); // progress bar
- while (!(__inb(SMBHSTSTS) & 0x02)) { // wait til command finished
- rdtsc(l2, h2);
- t = ((h2 - h1) * 0xffffffff + (l2 - l1)) / vv->clks_msec;
- if (t > 10) break; // break after 10ms
- }
- return __inb(SMBHSTDAT);
-}
-
-static int ich5_read_spd(int dimmadr)
-{
- int x;
- spd_raw[0] = ich5_smb_read_byte(0x50 + dimmadr, 0);
- if (spd_raw[0] == 0xff) return -1; // no spd here
- for (x = 1; x < 256; x++) {
- spd_raw[x] = ich5_smb_read_byte(0x50 + dimmadr, (unsigned char) x);
- }
- return 0;
-}
-
-static void us15w_get_smb(void)
-{
- unsigned long x;
- int result;
- result = pci_conf_read(0, 0x1f, 0, 0x40, 2, &x);
- if (result == 0) smbusbase = (unsigned short) x & 0xFFC0;
-}
-
-unsigned char us15w_smb_read_byte(unsigned char adr, unsigned char cmd)
-{
- int l1, h1, l2, h2;
- unsigned long long t;
- //__outb(0x00, smbusbase + 1); // reset SMBus Controller
- //__outb(0x00, smbusbase + 6);
- //while((__inb(smbusbase + 1) & 0x08) != 0); // wait until ready
- __outb(0x02, smbusbase + 0); // Byte read
- __outb(cmd, smbusbase + 5); // Command
- __outb(0x07, smbusbase + 1); // Clear status
- __outb((adr << 1) | 0x01, smbusbase + 4); // DIMM address
- __outb(0x12, smbusbase + 0); // Start
- //while (((__inb(smbusbase + 1) & 0x08) == 0)) {} // wait til busy
- rdtsc(l1, h1);
- cprint(POP2_Y, POP2_X + 16, s + cmd % 8); // progress bar
- while (((__inb(smbusbase + 1) & 0x01) == 0) ||
- ((__inb(smbusbase + 1) & 0x08) != 0)) { // wait til command finished
- rdtsc(l2, h2);
- t = ((h2 - h1) * 0xffffffff + (l2 - l1)) / vv->clks_msec;
- if (t > 10) break; // break after 10ms
- }
- return __inb(smbusbase + 6);
-}
-
-static int us15w_read_spd(int dimmadr)
-{
- int x;
- spd_raw[0] = us15w_smb_read_byte(0x50 + dimmadr, 0);
- if (spd_raw[0] == 0xff) return -1; // no spd here
- for (x = 1; x < 256; x++) {
- spd_raw[x] = us15w_smb_read_byte(0x50 + dimmadr, (unsigned char) x);
- }
- return 0;
-}
-
-struct pci_smbus_controller {
- unsigned vendor;
- unsigned device;
- char *name;
- void (*get_adr)(void);
- int (*read_spd)(int dimmadr);
-};
-
-static struct pci_smbus_controller smbcontrollers[] =
- {
- // Intel SMBUS
- {0x8086, 0x9C22, "Intel HSW-ULT", ich5_get_smb, ich5_read_spd},
- {0x8086, 0x8C22, "Intel HSW", ich5_get_smb, ich5_read_spd},
- {0x8086, 0x1E22, "Intel Z77", ich5_get_smb, ich5_read_spd},
- {0x8086, 0x1C22, "Intel P67", ich5_get_smb, ich5_read_spd},
- {0x8086, 0x3B30, "Intel P55", ich5_get_smb, ich5_read_spd},
- {0x8086, 0x3A60, "Intel ICH10B", ich5_get_smb, ich5_read_spd},
- {0x8086, 0x3A30, "Intel ICH10R", ich5_get_smb, ich5_read_spd},
- {0x8086, 0x2930, "Intel ICH9", ich5_get_smb, ich5_read_spd},
- {0x8086, 0x283E, "Intel ICH8", ich5_get_smb, ich5_read_spd},
- {0x8086, 0x27DA, "Intel ICH7", ich5_get_smb, ich5_read_spd},
- {0x8086, 0x266A, "Intel ICH6", ich5_get_smb, ich5_read_spd},
- {0x8086, 0x24D3, "Intel ICH5", ich5_get_smb, ich5_read_spd},
- {0x8086, 0x24C3, "Intel ICH4", ich5_get_smb, ich5_read_spd},
- {0x8086, 0x25A4, "Intel 6300ESB", ich5_get_smb, ich5_read_spd},
- {0x8086, 0x269B, "Intel ESB2", ich5_get_smb, ich5_read_spd},
- {0x8086, 0x8119, "Intel US15W", us15w_get_smb, us15w_read_spd},
- {0x8086, 0x5032, "Intel EP80579", ich5_get_smb, ich5_read_spd},
-
- // AMD SMBUS
- {0x1002, 0x4385, "AMD SB600/700", piix4_get_smb, ich5_read_spd},
- {0x1022, 0x780B, "AMD SB800/900", sb800_get_smb, ich5_read_spd},
- {0, 0, "", NULL, NULL}
- };
-
-int find_smb_controller(void)
-{
- int i = 0;
- unsigned long valuev, valued;
-
- for (smbdev = 0; smbdev < 32; smbdev++) {
- for (smbfun = 0; smbfun < 8; smbfun++) {
- pci_conf_read(0, smbdev, smbfun, 0, 2, &valuev);
- if (valuev != 0xFFFF) { // if there is something look what's it..
- for (i = 0; smbcontrollers[i].vendor > 0; i++) { // check if this is a known smbus controller
- if (valuev == smbcontrollers[i].vendor) {
- pci_conf_read(0, smbdev, smbfun, 2, 2, &valued); // read the device id
- if (valued == smbcontrollers[i].device) {
- return i;
- }
- }
- }
- }
- }
- }
- return -1;
-}
-
-void get_spd_spec(void)
-{
- int index;
- int h, i, j, z;
- int k = 0;
- int module_size;
- int curcol;
- int temp_nbd;
- int tck;
-
- index = find_smb_controller();
-
- if (index == -1)
- {
- // Unknown SMBUS Controller, exit
- return;
- }
-
- smbcontrollers[index].get_adr();
- cprint(LINE_SPD-2, 0, "Memory SPD Informations");
- cprint(LINE_SPD-1, 0, "--------------------------");
-
- for (j = 0; j < 8; j++) {
- if (smbcontrollers[index].read_spd(j) == 0) {
- curcol = 1;
- if(spd_raw[2] == 0x0b){
- // We are here if DDR3 present
-
- // First print slot#, module capacity
- cprint(LINE_SPD+k, curcol, " - Slot :");
- dprint(LINE_SPD+k, curcol+8, k, 1, 0);
-
- module_size = get_ddr3_module_size(spd_raw[4] & 0xF, spd_raw[8] & 0x7, spd_raw[7] & 0x7, spd_raw[7] >> 3);
- temp_nbd = getnum(module_size); curcol += 12;
- dprint(LINE_SPD+k, curcol, module_size, temp_nbd, 0); curcol += temp_nbd;
- cprint(LINE_SPD+k, curcol, " MB"); curcol += 4;
-
- // If XMP is supported, check Tck in XMP reg
- if(spd_raw[176] == 0x0C && spd_raw[177] == 0x4A && spd_raw[12])
- {
- tck = spd_raw[186];
- } else {
- tck = spd_raw[12];
- }
-
- // Then module jedec speed
- switch(tck)
- {
- default:
- cprint(LINE_SPD+k, curcol, "DDR3-????");
- break;
- case 20:
- cprint(LINE_SPD+k, curcol, "DDR3-800");
- curcol--;
- break;
- case 15:
- cprint(LINE_SPD+k, curcol, "DDR3-1066");
- break;
- case 12:
- cprint(LINE_SPD+k, curcol, "DDR3-1333");
- break;
- case 10:
- cprint(LINE_SPD+k, curcol, "DDR3-1600");
- break;
- case 9:
- cprint(LINE_SPD+k, curcol, "DDR3-1866");
- break;
- case 8:
- cprint(LINE_SPD+k, curcol, "DDR3-2133");
- break;
- case 7:
- cprint(LINE_SPD+k, curcol, "DDR3-2400");
- break;
- case 6:
- cprint(LINE_SPD+k, curcol, "DDR3-2533");
- break;
- case 5:
- cprint(LINE_SPD+k, curcol, "DDR3-2666");
- break;
- }
-
- curcol += 10;
-
- if((spd_raw[8] >> 3) == 1) { cprint(LINE_SPD+k, curcol, "ECC"); curcol += 4; }
-
- // Then print module infos (manufacturer & part number)
- spd_raw[117] &= 0x0F; // Parity odd or even
- for (i = 0; jep106[i].cont_code < 9; i++) {
- if (spd_raw[117] == jep106[i].cont_code && spd_raw[118] == jep106[i].hex_byte) {
- // We are here if a Jedec manufacturer is detected
- cprint(LINE_SPD+k, curcol, "-"); curcol += 2;
- cprint(LINE_SPD+k, curcol, jep106[i].name);
- for(z = 0; jep106[i].name[z] != '\0'; z++) { curcol++; }
- curcol++;
- // Display module serial number
- for (h = 128; h < 146; h++) {
- cprint(LINE_SPD+k, curcol, convert_hex_to_char(spd_raw[h]));
- curcol++;
- }
-
- // Detect Week and Year of Manufacturing (Think to upgrade after 2015 !!!)
- if(curcol <= 72 && spd_raw[120] > 3 && spd_raw[120] < 16 && spd_raw[121] < 55)
- {
- cprint(LINE_SPD+k, curcol, "(W");
- dprint(LINE_SPD+k, curcol+2, spd_raw[121], 2, 0);
- if(spd_raw[121] < 10) { cprint(LINE_SPD+k, curcol+2, "0"); }
- cprint(LINE_SPD+k, curcol+4, "'");
- dprint(LINE_SPD+k, curcol+5, spd_raw[120], 2, 0);
- if(spd_raw[120] < 10) { cprint(LINE_SPD+k, curcol+5, "0"); }
- cprint(LINE_SPD+k, curcol+7, ")");
- curcol += 9;
- }
-
- // Detect XMP Memory
- if(spd_raw[176] == 0x0C && spd_raw[177] == 0x4A)
- {
- cprint(LINE_SPD+k, curcol, "*XMP*");
- }
- }
- }
- }
- // We enter this function if DDR2 is detected
- if(spd_raw[2] == 0x08){
- // First print slot#, module capacity
- cprint(LINE_SPD+k, curcol, " - Slot :");
- dprint(LINE_SPD+k, curcol+8, k, 1, 0);
-
- module_size = get_ddr2_module_size(spd_raw[31], spd_raw[5]);
- temp_nbd = getnum(module_size); curcol += 12;
- dprint(LINE_SPD+k, curcol, module_size, temp_nbd, 0); curcol += temp_nbd;
- cprint(LINE_SPD+k, curcol, " MB"); curcol += 4;
-
- // Then module jedec speed
- float ddr2_speed, byte1, byte2;
-
- byte1 = (spd_raw[9] >> 4) * 10;
- byte2 = spd_raw[9] & 0xF;
-
- ddr2_speed = 1 / (byte1 + byte2) * 10000 * 2;
-
- temp_nbd = getnum(ddr2_speed);
- cprint(LINE_SPD+k, curcol, "DDR2-"); curcol += 5;
- dprint(LINE_SPD+k, curcol, ddr2_speed, temp_nbd, 0); curcol += temp_nbd;
-
- if((spd_raw[11] >> 1) == 1) { cprint(LINE_SPD+k, curcol+1, "ECC"); curcol += 4; }
-
- // Then print module infos (manufacturer & part number)
- int ccode = 0;
-
- for(i = 64; i < 72; i++)
- {
- if(spd_raw[i] == 0x7F) { ccode++; }
- }
-
- curcol++;
-
- for (i = 0; jep106[i].cont_code < 9; i++) {
- if (ccode == jep106[i].cont_code && spd_raw[64+ccode] == jep106[i].hex_byte) {
- // We are here if a Jedec manufacturer is detected
- cprint(LINE_SPD+k, curcol, "-"); curcol += 2;
- cprint(LINE_SPD+k, curcol, jep106[i].name);
- for(z = 0; jep106[i].name[z] != '\0'; z++) { curcol++; }
- curcol++;
- // Display module serial number
- for (h = 73; h < 91; h++) {
- cprint(LINE_SPD+k, curcol, convert_hex_to_char(spd_raw[h]));
- curcol++;
- }
- }
- }
- }
- k++;
- }
- }
-}
-
-void show_spd(void)
-{
- int index;
- int i, j;
- int flag = 0;
- pop2up();
- wait_keyup();
- index = find_smb_controller();
- if (index == -1) {
- cprint(POP2_Y, POP2_X+1, "SMBus Controller not known");
- while (!get_key());
- wait_keyup();
- pop2down();
- return;
- }
- else cprint(POP2_Y, POP2_X+1, "SPD Data: Slot");
- smbcontrollers[index].get_adr();
- for (j = 0; j < 16; j++) {
- if (smbcontrollers[index].read_spd(j) == 0) {
- dprint(POP2_Y, POP2_X + 15, j, 2, 0);
- for (i = 0; i < 256; i++) {
- hprint2(2 + POP2_Y + i / 16, 3 + POP2_X + (i % 16) * 3, spd_raw[i], 2);
- }
- flag = 0;
- while(!flag) {
- if (get_key()) flag++;
- }
- wait_keyup();
- }
- }
- pop2down();
-}
-
-int get_ddr3_module_size(int sdram_capacity, int prim_bus_width, int sdram_width, int ranks)
-{
- int module_size;
-
- switch(sdram_capacity)
- {
- case 0:
- module_size = 256;
- break;
- case 1:
- module_size = 512;
- break;
- default:
- case 2:
- module_size = 1024;
- break;
- case 3:
- module_size = 2048;
- break;
- case 4:
- module_size = 4096;
- break;
- case 5:
- module_size = 8192;
- break;
- case 6:
- module_size = 16384;
- break;
- }
-
- module_size /= 8;
-
- switch(prim_bus_width)
- {
- case 0:
- module_size *= 8;
- break;
- case 1:
- module_size *= 16;
- break;
- case 2:
- module_size *= 32;
- break;
- case 3:
- module_size *= 64;
- break;
- }
-
- switch(sdram_width)
- {
- case 0:
- module_size /= 4;
- break;
- case 1:
- module_size /= 8;
- break;
- case 2:
- module_size /= 16;
- break;
- case 3:
- module_size /= 32;
- break;
-
- }
-
- module_size *= (ranks + 1);
-
- return module_size;
-}
-
-
-int get_ddr2_module_size(int rank_density_byte, int rank_num_byte)
-{
- int module_size;
-
- switch(rank_density_byte)
- {
- case 1:
- module_size = 1024;
- break;
- case 2:
- module_size = 2048;
- break;
- case 4:
- module_size = 4096;
- break;
- case 8:
- module_size = 8192;
- break;
- case 16:
- module_size = 16384;
- break;
- case 32:
- module_size = 128;
- break;
- case 64:
- module_size = 256;
- break;
- default:
- case 128:
- module_size = 512;
- break;
- }
-
- module_size *= (rank_num_byte & 7) + 1;
-
- return module_size;
-
-}
-
-
-struct ascii_map {
- unsigned hex_code;
- char *name;
-};
-
-
-char* convert_hex_to_char(unsigned hex_org) {
- static char buf[2] = " ";
- if (hex_org >= 0x20 && hex_org < 0x80) {
- buf[0] = hex_org;
- } else {
- //buf[0] = '\0';
- buf[0] = ' ';
- }
-
- return buf;
-}
diff --git a/memtest86+_old/spd.h b/memtest86+_old/spd.h
deleted file mode 100644
index 55f164f..0000000
--- a/memtest86+_old/spd.h
+++ /dev/null
@@ -1,17 +0,0 @@
-/*
- * MemTest86+ V5.00 Specific code (GPL V2.0)
- * By Samuel DEMEULEMEESTER, sdemeule@memtest.org
- * http://www.canardpc.com - http://www.memtest.org
- */
-
-#define AMD_INDEX_IO_PORT 0xCD6
-#define AMD_DATA_IO_PORT 0xCD7
-#define AMD_SMBUS_BASE_REG 0x2C
-
-void get_spd_spec(void);
-int get_ddr2_module_size(int rank_density_byte, int rank_num_byte);
-int get_ddr3_module_size(int sdram_capacity, int prim_bus_width, int sdram_width, int ranks);
-char* convert_hex_to_char(unsigned hex_org);
-void sb800_get_smb(void);
-
-
diff --git a/memtest86+_old/stddef.h b/memtest86+_old/stddef.h
deleted file mode 100644
index 213c89b..0000000
--- a/memtest86+_old/stddef.h
+++ /dev/null
@@ -1,8 +0,0 @@
-#ifndef I386_STDDEF_H
-#define I386_STDDEF_H
-
-#define NULL ((void *)0)
-
-typedef unsigned long size_t;
-
-#endif /* I386_STDDEF_H */
diff --git a/memtest86+_old/stdin.h b/memtest86+_old/stdin.h
deleted file mode 100644
index e3a08e1..0000000
--- a/memtest86+_old/stdin.h
+++ /dev/null
@@ -1,52 +0,0 @@
-#ifndef I386_STDINT_H
-#define I386_STDINT_H
-
-/* Exact integral types */
-typedef unsigned char uint8_t;
-typedef signed char int8_t;
-
-typedef unsigned short uint16_t;
-typedef signed short int16_t;
-
-typedef unsigned int uint32_t;
-typedef signed int int32_t;
-
-typedef unsigned long long uint64_t;
-typedef signed long long int64_t;
-
-/* Small types */
-typedef unsigned char uint_least8_t;
-typedef signed char int_least8_t;
-
-typedef unsigned short uint_least16_t;
-typedef signed short int_least16_t;
-
-typedef unsigned int uint_least32_t;
-typedef signed int int_least32_t;
-
-typedef unsigned long long uint_least64_t;
-typedef signed long long int_least64_t;
-
-/* Fast Types */
-typedef unsigned char uint_fast8_t;
-typedef signed char int_fast8_t;
-
-typedef unsigned int uint_fast16_t;
-typedef signed int int_fast16_t;
-
-typedef unsigned int uint_fast32_t;
-typedef signed int int_fast32_t;
-
-typedef unsigned long long uint_fast64_t;
-typedef signed long long int_fast64_t;
-
-/* Types for `void *' pointers. */
-typedef int intptr_t;
-typedef unsigned int uintptr_t;
-
-/* Largest integral types */
-typedef long long int intmax_t;
-typedef unsigned long long uintmax_t;
-
-
-#endif /* I386_STDINT_H */ \ No newline at end of file
diff --git a/memtest86+_old/stdint.h b/memtest86+_old/stdint.h
deleted file mode 100644
index 1c136e0..0000000
--- a/memtest86+_old/stdint.h
+++ /dev/null
@@ -1,60 +0,0 @@
-#ifndef I386_STDINT_H
-#define I386_STDINT_H
-
-/* Exact integral types */
-typedef unsigned char uint8_t;
-typedef signed char int8_t;
-
-typedef unsigned short uint16_t;
-typedef signed short int16_t;
-
-typedef unsigned int uint32_t;
-typedef signed int int32_t;
-
-typedef unsigned long long uint64_t;
-typedef signed long long int64_t;
-
-/* Small types */
-typedef unsigned char uint_least8_t;
-typedef signed char int_least8_t;
-
-typedef unsigned short uint_least16_t;
-typedef signed short int_least16_t;
-
-typedef unsigned int uint_least32_t;
-typedef signed int int_least32_t;
-
-typedef unsigned long long uint_least64_t;
-typedef signed long long int_least64_t;
-
-/* Fast Types */
-typedef unsigned char uint_fast8_t;
-typedef signed char int_fast8_t;
-
-typedef unsigned int uint_fast16_t;
-typedef signed int int_fast16_t;
-
-typedef unsigned int uint_fast32_t;
-typedef signed int int_fast32_t;
-
-typedef unsigned long long uint_fast64_t;
-typedef signed long long int_fast64_t;
-
-/* Types for `void *' pointers. */
-typedef int intptr_t;
-typedef unsigned int uintptr_t;
-
-/* Largest integral types */
-typedef long long int intmax_t;
-typedef unsigned long long uintmax_t;
-
-typedef char bool;
-#ifndef FALSE
-#define FALSE 0
-#endif
-
-#ifndef TRUE
-#define TRUE 1
-#endif
-
-#endif /* I386_STDINT_H */
diff --git a/memtest86+_old/test.c b/memtest86+_old/test.c
deleted file mode 100644
index 864dfcc..0000000
--- a/memtest86+_old/test.c
+++ /dev/null
@@ -1,1549 +0,0 @@
-/* test.c - MemTest-86 Version 3.4
- *
- * Released under version 2 of the Gnu Public License.
- * By Chris Brady
- * ----------------------------------------------------
- * MemTest86+ V5 Specific code (GPL V2.0)
- * By Samuel DEMEULEMEESTER, sdemeule@memtest.org
- * http://www.canardpc.com - http://www.memtest.org
- * Thanks to Passmark for calculate_chunk() and various comments !
- */
-
-#include "test.h"
-#include "config.h"
-#include "stdint.h"
-#include "cpuid.h"
-#include "smp.h"
-#include "io.h"
-
-extern struct cpu_ident cpu_id;
-extern volatile int mstr_cpu;
-extern volatile int run_cpus;
-extern volatile int test;
-extern volatile int segs, bail;
-extern int test_ticks, nticks;
-extern struct tseq tseq[];
-extern void update_err_counts(void);
-extern void print_err_counts(void);
-void rand_seed( unsigned int seed1, unsigned int seed2, int me);
-ulong rand(int me);
-void poll_errors();
-
-// NOTE(jcoiner):
-// Defining 'STATIC' to empty string results in crashes. (It should
-// work fine, of course.) I suspect relocation problems in reloc.c.
-// When we declare these routines static, we use relative addresses
-// for them instead of looking up their addresses in (supposedly
-// relocated) global elf tables, which avoids the crashes.
-
-#define STATIC static
-//#define STATIC
-
-#define PREFER_C 0
-
-static const void* const nullptr = 0x0;
-
-// Writes *start and *end with the VA range to test.
-//
-// me - this threads CPU number
-// j - index into v->map for current segment we are testing
-// align - number of bytes to align each block to
-STATIC void calculate_chunk(ulong** start, ulong** end, int me,
- int j, int makeMultipleOf) {
- ulong chunk;
-
- // If we are only running 1 CPU then test the whole block
- if (run_cpus == 1) {
- *start = vv->map[j].start;
- *end = vv->map[j].end;
- } else {
-
- // Divide the current segment by the number of CPUs
- chunk = (ulong)vv->map[j].end-(ulong)vv->map[j].start;
- chunk /= run_cpus;
-
- // Round down to the nearest desired bitlength multiple
- chunk = (chunk + (makeMultipleOf-1)) & ~(makeMultipleOf-1);
-
- // Figure out chunk boundaries
- *start = (ulong*)((ulong)vv->map[j].start+(chunk*me));
- /* Set end addrs for the highest CPU num to the
- * end of the segment for rounding errors */
- /* Also rounds down to boundary if needed, may miss some ram but
- better than crashing or producing false errors. */
- /* This rounding probably will never happen as the segments should
- be in 4096 bytes pages if I understand correctly. */
- if (me == mstr_cpu) {
- *end = (ulong*)(vv->map[j].end);
- } else {
- *end = (ulong*)((ulong)(*start) + chunk);
- (*end)--;
- }
- }
-}
-
-/* Call segment_fn() for each up-to-SPINSZ segment between
- * 'start' and 'end'.
- */
-void foreach_segment
-(ulong* start, ulong* end,
- int me, const void* ctx, segment_fn func) {
-
- ASSERT(start < end);
-
- // Confirm 'start' points to an even dword, and 'end'
- // should point to an odd dword
- ASSERT(0 == (((ulong)start) & 0x7));
- ASSERT(0x4 == (((ulong)end) & 0x7));
-
- // 'end' may be exactly 0xfffffffc, right at the 4GB boundary.
- //
- // To avoid overflow in our loop tests and length calculations,
- // use dword indices (the '_dw' vars) to avoid overflows.
- ulong start_dw = ((ulong)start) >> 2;
- ulong end_dw = ((ulong) end) >> 2;
-
- // end is always xxxxxffc, but increment end_dw to an
- // address beyond the segment for easier boundary calculations.
- ++end_dw;
-
- ulong seg_dw = start_dw;
- ulong seg_end_dw = start_dw;
-
- int done = 0;
- do {
- do_tick(me);
- { BAILR }
-
- // ensure no overflow
- ASSERT((seg_end_dw + SPINSZ_DWORDS) > seg_end_dw);
- seg_end_dw += SPINSZ_DWORDS;
-
- if (seg_end_dw >= end_dw) {
- seg_end_dw = end_dw;
- done++;
- }
- if (seg_dw == seg_end_dw) {
- break;
- }
-
- ASSERT(((ulong)seg_end_dw) <= 0x40000000);
- ASSERT(seg_end_dw > seg_dw);
- ulong seg_len_dw = seg_end_dw - seg_dw;
-
- func((ulong*)(seg_dw << 2), seg_len_dw, ctx);
-
- seg_dw = seg_end_dw;
- } while (!done);
-}
-
-/* Calls segment_fn() for each segment in vv->map.
- *
- * Does not slice by CPU number, so it covers the entire memory.
- * Contrast to sliced_foreach_segment().
- */
-STATIC void unsliced_foreach_segment
-(const void* ctx, int me, segment_fn func) {
- int j;
- for (j=0; j<segs; j++) {
- foreach_segment(vv->map[j].start,
- vv->map[j].end,
- me, ctx, func);
- }
-}
-
-/* Calls segment_fn() for each segment to be tested by CPU 'me'.
- *
- * In multicore mode, slices the segments by 'me' (the CPU ordinal
- * number) so that each call will cover only 1/Nth of memory.
- */
-STATIC void sliced_foreach_segment
-(const void *ctx, int me, segment_fn func) {
- int j;
- ulong *start, *end; // VAs
- ulong* prev_end = 0;
- for (j=0; j<segs; j++) {
- calculate_chunk(&start, &end, me, j, 64);
-
- // Ensure no overlap among chunks
- ASSERT(end > start);
- if (prev_end > 0) {
- ASSERT(prev_end < start);
- }
- prev_end = end;
-
- foreach_segment(start, end, me, ctx, func);
- }
-}
-
-STATIC void addr_tst1_seg(ulong* restrict buf,
- ulong len_dw, const void* unused) {
- // Within each segment:
- // - choose a low dword offset 'off'
- // - write pat to *off
- // - write ~pat to addresses that are above off by
- // 1, 2, 4, ... dwords up to the top of the segment. None
- // should alias to the original dword.
- // - write ~pat to addresses that are below off by
- // 1, 2, 4, etc dwords, down to the start of the segment. None
- // should alias to the original dword. If adding a given offset
- // doesn't produce a single bit address flip (because it produced
- // a carry) subtracting the same offset should give a single bit flip.
- // - repeat this, moving off ahead in increments of 1MB;
- // this covers address bits within physical memory banks, we hope?
-
- ulong pat;
- int k;
-
- for (pat=0x5555aaaa, k=0; k<2; k++) {
- hprint(LINE_PAT, COL_PAT, pat);
-
- for (ulong off_dw = 0; off_dw < len_dw; off_dw += (1 << 18)) {
- buf[off_dw] = pat;
- pat = ~pat;
-
- for (ulong more_off_dw = 1; off_dw + more_off_dw < len_dw;
- more_off_dw = more_off_dw << 1) {
- ASSERT(more_off_dw); // it should never get to zero
- buf[off_dw + more_off_dw] = pat;
- ulong bad;
- if ((bad = buf[off_dw]) != ~pat) {
- ad_err1(buf + off_dw,
- buf + off_dw + more_off_dw,
- bad, ~pat);
- break;
- }
- }
- for (ulong more_off_dw = 1; off_dw > more_off_dw;
- more_off_dw = more_off_dw << 1) {
- ASSERT(more_off_dw); // it should never get to zero
- buf[off_dw - more_off_dw] = pat;
- ulong bad;
- if ((bad = buf[off_dw]) != ~pat) {
- ad_err1(buf + off_dw,
- buf + off_dw - more_off_dw,
- bad, ~pat);
- break;
- }
- }
- }
- }
-}
-
-/*
- * Memory address test, walking ones
- */
-void addr_tst1(int me)
-{
- unsliced_foreach_segment(nullptr, me, addr_tst1_seg);
-}
-
-STATIC void addr_tst2_init_segment(ulong* p,
- ulong len_dw, const void* unused) {
- ulong* pe = p + (len_dw - 1);
-
- /* Original C code replaced with hand tuned assembly code
- * for (; p <= pe; p++) {
- * *p = (ulong)p;
- * }
- */
- asm __volatile__ (
- "jmp L91\n\t"
- ".p2align 4,,7\n\t"
- "L90:\n\t"
- "addl $4,%%edi\n\t"
- "L91:\n\t"
- "movl %%edi,(%%edi)\n\t"
- "cmpl %%edx,%%edi\n\t"
- "jb L90\n\t"
- : : "D" (p), "d" (pe)
- );
-}
-
-STATIC void addr_tst2_check_segment(ulong* p,
- ulong len_dw, const void* unused) {
- ulong* pe = p + (len_dw - 1);
-
- /* Original C code replaced with hand tuned assembly code
- * for (; p <= pe; p++) {
- * if((bad = *p) != (ulong)p) {
- * ad_err2((ulong)p, bad);
- * }
- * }
- */
- asm __volatile__
- (
- "jmp L95\n\t"
- ".p2align 4,,7\n\t"
- "L99:\n\t"
- "addl $4,%%edi\n\t"
- "L95:\n\t"
- "movl (%%edi),%%ecx\n\t"
- "cmpl %%edi,%%ecx\n\t"
- "jne L97\n\t"
- "L96:\n\t"
- "cmpl %%edx,%%edi\n\t"
- "jb L99\n\t"
- "jmp L98\n\t"
-
- "L97:\n\t"
- "pushl %%edx\n\t"
- "pushl %%ecx\n\t"
- "pushl %%edi\n\t"
- "call ad_err2\n\t"
- "popl %%edi\n\t"
- "popl %%ecx\n\t"
- "popl %%edx\n\t"
- "jmp L96\n\t"
-
- "L98:\n\t"
- : : "D" (p), "d" (pe)
- : "ecx"
- );
-}
-
-/*
- * Memory address test, own address
- */
-void addr_tst2(int me)
-{
- cprint(LINE_PAT, COL_PAT, "address ");
-
- /* Write each address with its own address */
- unsliced_foreach_segment(nullptr, me, addr_tst2_init_segment);
- { BAILR }
-
- /* Each address should have its own address */
- unsliced_foreach_segment(nullptr, me, addr_tst2_check_segment);
-}
-
-typedef struct {
- int me;
- ulong xorVal;
-} movinvr_ctx;
-
-STATIC void movinvr_init(ulong* p,
- ulong len_dw, const void* vctx) {
- ulong* pe = p + (len_dw - 1);
- const movinvr_ctx* ctx = (const movinvr_ctx*)vctx;
- /* Original C code replaced with hand tuned assembly code */
- /*
- for (; p <= pe; p++) {
- *p = rand(me);
- }
- */
-
- asm __volatile__
- (
- "jmp L200\n\t"
- ".p2align 4,,7\n\t"
- "L201:\n\t"
- "addl $4,%%edi\n\t"
- "L200:\n\t"
- "pushl %%ecx\n\t"
- "call rand\n\t"
- "popl %%ecx\n\t"
- "movl %%eax,(%%edi)\n\t"
- "cmpl %%ebx,%%edi\n\t"
- "jb L201\n\t"
- : : "D" (p), "b" (pe), "c" (ctx->me)
- : "eax"
- );
-}
-
-STATIC void movinvr_body(ulong* p, ulong len_dw, const void* vctx) {
- ulong* pe = p + (len_dw - 1);
- const movinvr_ctx* ctx = (const movinvr_ctx*)vctx;
-
- /* Original C code replaced with hand tuned assembly code */
-
- /*for (; p <= pe; p++) {
- num = rand(me);
- if (i) {
- num = ~num;
- }
- if ((bad=*p) != num) {
- mt86_error((ulong*)p, num, bad);
- }
- *p = ~num;
- }*/
-
- asm __volatile__
- (
- "pushl %%ebp\n\t"
-
- // Skip first increment
- "jmp L26\n\t"
- ".p2align 4,,7\n\t"
-
- // increment 4 bytes (32-bits)
- "L27:\n\t"
- "addl $4,%%edi\n\t"
-
- // Check this byte
- "L26:\n\t"
-
- // Get next random number, pass in me(edx), random value returned in num(eax)
- // num = rand(me);
- // cdecl call maintains all registers except eax, ecx, and edx
- // We maintain edx with a push and pop here using it also as an input
- // we don't need the current eax value and want it to change to the return value
- // we overwrite ecx shortly after this discarding its current value
- "pushl %%edx\n\t" // Push function inputs onto stack
- "call rand\n\t"
- "popl %%edx\n\t" // Remove function inputs from stack
-
- // XOR the random number with xorVal(ebx), which is either 0xffffffff or 0 depending on the outer loop
- // if (i) { num = ~num; }
- "xorl %%ebx,%%eax\n\t"
-
- // Move the current value of the current position p(edi) into bad(ecx)
- // (bad=*p)
- "movl (%%edi),%%ecx\n\t"
-
- // Compare bad(ecx) to num(eax)
- "cmpl %%eax,%%ecx\n\t"
-
- // If not equal jump the error case
- "jne L23\n\t"
-
- // Set a new value or not num(eax) at the current position p(edi)
- // *p = ~num;
- "L25:\n\t"
- "movl $0xffffffff,%%ebp\n\t"
- "xorl %%ebp,%%eax\n\t"
- "movl %%eax,(%%edi)\n\t"
-
- // Loop until current position p(edi) equals the end position pe(esi)
- "cmpl %%esi,%%edi\n\t"
- "jb L27\n\t"
- "jmp L24\n"
-
- // Error case
- "L23:\n\t"
- // Must manually maintain eax, ecx, and edx as part of cdecl call convention
- "pushl %%edx\n\t"
- "pushl %%ecx\n\t" // Next three pushes are functions input
- "pushl %%eax\n\t"
- "pushl %%edi\n\t"
- "call mt86_error\n\t"
- "popl %%edi\n\t" // Remove function inputs from stack and restore register values
- "popl %%eax\n\t"
- "popl %%ecx\n\t"
- "popl %%edx\n\t"
- "jmp L25\n"
-
- "L24:\n\t"
- "popl %%ebp\n\t"
- :: "D" (p), "S" (pe), "b" (ctx->xorVal),
- "d" (ctx->me)
- : "eax", "ecx"
- );
-}
-
-/*
- * Test all of memory using a "half moving inversions" algorithm using random
- * numbers and their complement as the data pattern. Since we are not able to
- * produce random numbers in reverse order testing is only done in the forward
- * direction.
- */
-void movinvr(int me)
-{
- int i, seed1, seed2;
-
- movinvr_ctx ctx;
- ctx.me = me;
- ctx.xorVal = 0;
-
- /* Initialize memory with initial sequence of random numbers. */
- if (cpu_id.fid.bits.rdtsc) {
- asm __volatile__ ("rdtsc":"=a" (seed1),"=d" (seed2));
- } else {
- seed1 = 521288629 + vv->pass;
- seed2 = 362436069 - vv->pass;
- }
-
- /* Display the current seed */
- if (mstr_cpu == me) hprint(LINE_PAT, COL_PAT, seed1);
- rand_seed(seed1, seed2, me);
-
- sliced_foreach_segment(&ctx, me, movinvr_init);
- { BAILR }
-
- /* Do moving inversions test. Check for initial pattern and then
- * write the complement for each memory location.
- */
- for (i=0; i<2; i++) {
- rand_seed(seed1, seed2, me);
-
- if (i) {
- ctx.xorVal = 0xffffffff;
- } else {
- ctx.xorVal = 0;
- }
-
- sliced_foreach_segment(&ctx, me, movinvr_body);
- { BAILR }
- }
-}
-
-typedef struct {
- ulong p1;
- ulong p2;
-} movinv1_ctx;
-
-STATIC void movinv1_init(ulong* start,
- ulong len_dw, const void* vctx) {
- const movinv1_ctx* ctx = (const movinv1_ctx*)vctx;
-
- ulong p1 = ctx->p1;
- ulong* p = start;
-
- asm __volatile__
- (
- "rep\n\t"
- "stosl\n\t"
- : : "c" (len_dw), "D" (p), "a" (p1)
- );
-}
-
-STATIC void movinv1_bottom_up(ulong* start,
- ulong len_dw, const void* vctx) {
- const movinv1_ctx* ctx = (const movinv1_ctx*)vctx;
- ulong p1 = ctx->p1;
- ulong p2 = ctx->p2;
- ulong* p = start;
- ulong* pe = p + (len_dw - 1);
-
- // Original C code replaced with hand tuned assembly code
- // seems broken
- /*for (; p <= pe; p++) {
- if ((bad=*p) != p1) {
- mt86_error((ulong*)p, p1, bad);
- }
- *p = p2;
- }*/
-
- asm __volatile__
- (
- "jmp L2\n\t"
- ".p2align 4,,7\n\t"
- "L0:\n\t"
- "addl $4,%%edi\n\t"
- "L2:\n\t"
- "movl (%%edi),%%ecx\n\t"
- "cmpl %%eax,%%ecx\n\t"
- "jne L3\n\t"
- "L5:\n\t"
- "movl %%ebx,(%%edi)\n\t"
- "cmpl %%edx,%%edi\n\t"
- "jb L0\n\t"
- "jmp L4\n"
-
- "L3:\n\t"
- "pushl %%edx\n\t"
- "pushl %%ebx\n\t"
- "pushl %%ecx\n\t"
- "pushl %%eax\n\t"
- "pushl %%edi\n\t"
- "call mt86_error\n\t"
- "popl %%edi\n\t"
- "popl %%eax\n\t"
- "popl %%ecx\n\t"
- "popl %%ebx\n\t"
- "popl %%edx\n\t"
- "jmp L5\n"
-
- "L4:\n\t"
- :: "a" (p1), "D" (p), "d" (pe), "b" (p2)
- : "ecx"
- );
-}
-
-STATIC void movinv1_top_down(ulong* start,
- ulong len_dw, const void* vctx) {
- const movinv1_ctx* ctx = (const movinv1_ctx*)vctx;
- ulong p1 = ctx->p1;
- ulong p2 = ctx->p2;
- ulong* p = start + (len_dw - 1);
- ulong* pe = start;
-
- //Original C code replaced with hand tuned assembly code
- // seems broken
- /*do {
- if ((bad=*p) != p2) {
- mt86_error((ulong*)p, p2, bad);
- }
- *p = p1;
- } while (--p >= pe);*/
-
- asm __volatile__
- (
- "jmp L9\n\t"
- ".p2align 4,,7\n\t"
- "L11:\n\t"
- "subl $4, %%edi\n\t"
- "L9:\n\t"
- "movl (%%edi),%%ecx\n\t"
- "cmpl %%ebx,%%ecx\n\t"
- "jne L6\n\t"
- "L10:\n\t"
- "movl %%eax,(%%edi)\n\t"
- "cmpl %%edi, %%edx\n\t"
- "jne L11\n\t"
- "jmp L7\n\t"
-
- "L6:\n\t"
- "pushl %%edx\n\t"
- "pushl %%eax\n\t"
- "pushl %%ecx\n\t"
- "pushl %%ebx\n\t"
- "pushl %%edi\n\t"
- "call mt86_error\n\t"
- "popl %%edi\n\t"
- "popl %%ebx\n\t"
- "popl %%ecx\n\t"
- "popl %%eax\n\t"
- "popl %%edx\n\t"
- "jmp L10\n"
-
- "L7:\n\t"
- :: "a" (p1), "D" (p), "d" (pe), "b" (p2)
- : "ecx"
- );
-}
-
-/*
- * Test all of memory using a "moving inversions" algorithm using the
- * pattern in p1 and its complement in p2.
- */
-void movinv1 (int iter, ulong p1, ulong p2, int me)
-{
- int i;
-
- /* Display the current pattern */
- if (mstr_cpu == me) hprint(LINE_PAT, COL_PAT, p1);
-
- movinv1_ctx ctx;
- ctx.p1 = p1;
- ctx.p2 = p2;
- sliced_foreach_segment(&ctx, me, movinv1_init);
- { BAILR }
-
- /* Do moving inversions test. Check for initial pattern and then
- * write the complement for each memory location. Test from bottom
- * up and then from the top down. */
- for (i=0; i<iter; i++) {
- sliced_foreach_segment(&ctx, me, movinv1_bottom_up);
- { BAILR }
-
- // NOTE(jcoiner):
- // For the top-down pass, the original 5.01 code iterated over
- // 'segs' in from n-1 down to 0, and then within each mapped segment,
- // it would form the SPINSZ windows from the top down -- thus forming
- // a different set of windows than the bottom-up pass, when the segment
- // is not an integer number of windows.
- //
- // My guess is that this buys us very little additional coverage, that
- // the value in going top-down happens at the word or cache-line level
- // and that there's little to be gained from reversing the direction of
- // the outer loops. So I'm leaving a 'direction' bit off of the
- // foreach_segment() routines for now.
- sliced_foreach_segment(&ctx, me, movinv1_top_down);
- { BAILR }
- }
-}
-
-typedef struct {
- ulong p1;
- ulong lb;
- ulong hb;
- int sval;
- int off;
-} movinv32_ctx;
-
-STATIC void movinv32_init(ulong* restrict buf,
- ulong len_dw, const void* vctx) {
- const movinv32_ctx* restrict ctx = (const movinv32_ctx*)vctx;
-
- ulong* p = buf;
- ulong* pe = buf + (len_dw - 1);
-
- int k = ctx->off;
- ulong pat = ctx->p1;
- ulong lb = ctx->lb;
- int sval = ctx->sval;
-
- /* Original C code replaced with hand tuned assembly code
- * while (p <= pe) {
- * *p = pat;
- * if (++k >= 32) {
- * pat = lb;
- * k = 0;
- * } else {
- * pat = pat << 1;
- * pat |= sval;
- * }
- * p++;
- * }
- */
- asm __volatile__
- (
- "jmp L20\n\t"
- ".p2align 4,,7\n\t"
- "L923:\n\t"
- "addl $4,%%edi\n\t"
- "L20:\n\t"
- "movl %%ecx,(%%edi)\n\t"
- "addl $1,%%ebx\n\t"
- "cmpl $32,%%ebx\n\t"
- "jne L21\n\t"
- "movl %%esi,%%ecx\n\t"
- "xorl %%ebx,%%ebx\n\t"
- "jmp L22\n"
- "L21:\n\t"
- "shll $1,%%ecx\n\t"
- "orl %%eax,%%ecx\n\t"
- "L22:\n\t"
- "cmpl %%edx,%%edi\n\t"
- "jb L923\n\t"
- :: "D" (p),"d" (pe),"b" (k),"c" (pat),
- "a" (sval), "S" (lb)
- );
-}
-
-STATIC void movinv32_bottom_up(ulong* restrict buf, ulong len_dw,
- const void* vctx) {
- const movinv32_ctx* restrict ctx = (const movinv32_ctx*)vctx;
-
- ulong* p = buf;
- ulong* pe = buf + (len_dw - 1);
-
- int k = ctx->off;
- ulong pat = ctx->p1;
- ulong lb = ctx->lb;
- int sval = ctx->sval;
-
- /* Original C code replaced with hand tuned assembly code
- * while (1) {
- * if ((bad=*p) != pat) {
- * mt86_error((ulong*)p, pat, bad);
- * }
- * *p = ~pat;
- * if (p >= pe) break;
- * p++;
- *
- * if (++k >= 32) {
- * pat = lb;
- * k = 0;
- * } else {
- * pat = pat << 1;
- * pat |= sval;
- * }
- * }
- */
- asm __volatile__
- (
- "pushl %%ebp\n\t"
- "jmp L30\n\t"
- ".p2align 4,,7\n\t"
- "L930:\n\t"
- "addl $4,%%edi\n\t"
- "L30:\n\t"
- "movl (%%edi),%%ebp\n\t"
- "cmpl %%ecx,%%ebp\n\t"
- "jne L34\n\t"
-
- "L35:\n\t"
- "notl %%ecx\n\t"
- "movl %%ecx,(%%edi)\n\t"
- "notl %%ecx\n\t"
- "incl %%ebx\n\t"
- "cmpl $32,%%ebx\n\t"
- "jne L31\n\t"
- "movl %%esi,%%ecx\n\t"
- "xorl %%ebx,%%ebx\n\t"
- "jmp L32\n"
- "L31:\n\t"
- "shll $1,%%ecx\n\t"
- "orl %%eax,%%ecx\n\t"
- "L32:\n\t"
- "cmpl %%edx,%%edi\n\t"
- "jb L930\n\t"
- "jmp L33\n\t"
-
- "L34:\n\t"
- "pushl %%esi\n\t"
- "pushl %%eax\n\t"
- "pushl %%ebx\n\t"
- "pushl %%edx\n\t"
- "pushl %%ebp\n\t"
- "pushl %%ecx\n\t"
- "pushl %%edi\n\t"
- "call mt86_error\n\t"
- "popl %%edi\n\t"
- "popl %%ecx\n\t"
- "popl %%ebp\n\t"
- "popl %%edx\n\t"
- "popl %%ebx\n\t"
- "popl %%eax\n\t"
- "popl %%esi\n\t"
- "jmp L35\n"
-
- "L33:\n\t"
- "popl %%ebp\n\t"
- : "=b" (k),"=c" (pat)
- : "D" (p),"d" (pe),"b" (k),"c" (pat),
- "a" (sval), "S" (lb)
- );
-}
-
-STATIC void movinv32_top_down(ulong* restrict buf,
- ulong len_dw, const void* vctx) {
- const movinv32_ctx* restrict ctx = (const movinv32_ctx*)vctx;
-
- ulong* pe = buf;
- ulong* p = buf + (len_dw - 1);
-
- int k = ctx->off;
- ulong pat = ctx->p1;
- ulong hb = ctx->hb;
- int sval = ctx->sval;
- ulong p3 = (ulong)sval << 31;
-
- // Advance 'k' and 'pat' to where they would have been
- // at the end of the corresponding bottom_up segment.
- //
- // The '-1' is because we didn't advance 'k' or 'pat'
- // on the final bottom_up loop, so they're off by one...
- ulong mod_len = (len_dw - 1) % 32;
- for (int i = 0; i < mod_len; i++) {
- if (++k >= 32) {
- pat = ctx->lb;
- k = 0;
- } else {
- pat = pat << 1;
- pat |= sval;
- }
- }
-
- // Increment 'k' only because the code below has an off-by-one
- // interpretation of 'k' relative to the bottom_up routine.
- // There it ranges from 0:31, and here it ranges from 1:32.
- k++;
-
- /* Original C code replaced with hand tuned assembly code */
-#if PREFER_C
- ulong bad;
- while(1) {
- if ((bad=*p) != ~pat) {
- mt86_error((ulong*)p, ~pat, bad);
- }
- *p = pat;
- if (p <= pe) break;
- p--;
-
- if (--k <= 0) {
- k = 32;
- pat = hb;
- } else {
- pat = pat >> 1;
- pat |= p3;
- }
- };
-#else
- asm __volatile__
- (
- "pushl %%ebp\n\t"
- "jmp L40\n\t"
- ".p2align 4,,7\n\t"
- "L49:\n\t"
- "subl $4,%%edi\n\t"
- "L40:\n\t"
- "movl (%%edi),%%ebp\n\t"
- "notl %%ecx\n\t"
- "cmpl %%ecx,%%ebp\n\t"
- "jne L44\n\t"
-
- "L45:\n\t"
- "notl %%ecx\n\t"
- "movl %%ecx,(%%edi)\n\t"
- "decl %%ebx\n\t"
- "cmpl $0,%%ebx\n\t"
- "jg L41\n\t"
- "movl %%esi,%%ecx\n\t"
- "movl $32,%%ebx\n\t"
- "jmp L42\n"
- "L41:\n\t"
- "shrl $1,%%ecx\n\t"
- "orl %%eax,%%ecx\n\t"
- "L42:\n\t"
- "cmpl %%edx,%%edi\n\t"
- "ja L49\n\t"
- "jmp L43\n\t"
-
- "L44:\n\t"
- "pushl %%esi\n\t"
- "pushl %%eax\n\t"
- "pushl %%ebx\n\t"
- "pushl %%edx\n\t"
- "pushl %%ebp\n\t"
- "pushl %%ecx\n\t"
- "pushl %%edi\n\t"
- "call mt86_error\n\t"
- "popl %%edi\n\t"
- "popl %%ecx\n\t"
- "popl %%ebp\n\t"
- "popl %%edx\n\t"
- "popl %%ebx\n\t"
- "popl %%eax\n\t"
- "popl %%esi\n\t"
- "jmp L45\n"
-
- "L43:\n\t"
- "popl %%ebp\n\t"
- : : "D" (p),"d" (pe),"b" (k),"c" (pat),
- "a" (p3), "S" (hb)
- );
-#endif
-}
-
-void movinv32(int iter, ulong p1, ulong lb, ulong hb, int sval, int off,int me)
-{
- // First callsite:
- // - p1 has 1 bit set (somewhere)
- // - lb = 1 ("low bit")
- // - hb = 0x80000000 ("high bit")
- // - sval = 0
- // - 'off' indicates the position of the set bit in p1
- //
- // Second callsite is the same, but inverted:
- // - p1 has 1 bit clear (somewhere)
- // - lb = 0xfffffffe
- // - hb = 0x7fffffff
- // - sval = 1
- // - 'off' indicates the position of the cleared bit in p1
-
- movinv32_ctx ctx;
- ctx.p1 = p1;
- ctx.lb = lb;
- ctx.hb = hb;
- ctx.sval = sval;
- ctx.off = off;
-
- /* Display the current pattern */
- if (mstr_cpu == me) hprint(LINE_PAT, COL_PAT, p1);
-
- sliced_foreach_segment(&ctx, me, movinv32_init);
- { BAILR }
-
- /* Do moving inversions test. Check for initial pattern and then
- * write the complement for each memory location. Test from bottom
- * up and then from the top down. */
- for (int i=0; i<iter; i++) {
- sliced_foreach_segment(&ctx, me, movinv32_bottom_up);
- { BAILR }
-
- sliced_foreach_segment(&ctx, me, movinv32_top_down);
- { BAILR }
- }
-}
-
-typedef struct {
- int offset;
- ulong p1;
- ulong p2;
-} modtst_ctx;
-
-STATIC void modtst_sparse_writes(ulong* restrict start,
- ulong len_dw, const void* vctx) {
- const modtst_ctx* restrict ctx = (const modtst_ctx*)vctx;
- ulong p1 = ctx->p1;
- ulong offset = ctx->offset;
-
-#if PREFER_C
- for (ulong i = offset; i < len_dw; i += MOD_SZ) {
- start[i] = p1;
- }
-#else
- ulong* p = start + offset;
- ulong* pe = start + len_dw;
- asm __volatile__
- (
- "jmp L60\n\t"
- ".p2align 4,,7\n\t"
-
- "L60:\n\t"
- "movl %%eax,(%%edi)\n\t"
- "addl $80,%%edi\n\t"
- "cmpl %%edx,%%edi\n\t"
- "jb L60\n\t"
- :: "D" (p), "d" (pe), "a" (p1)
- );
-#endif
-}
-
-STATIC void modtst_dense_writes(ulong* restrict start, ulong len_dw,
- const void* vctx) {
- const modtst_ctx* restrict ctx = (const modtst_ctx*)vctx;
- ulong p2 = ctx->p2;
- ulong offset = ctx->offset;
-
- ASSERT(offset < MOD_SZ);
-
- ulong k = 0;
-#if PREFER_C
- for (ulong i = 0; i < len_dw; i++) {
- if (k != offset) {
- start[i] = p2;
- }
- if (++k >= MOD_SZ) {
- k = 0;
- }
- }
-#else
- ulong* pe = start + (len_dw - 1);
- asm __volatile__
- (
- "jmp L50\n\t"
- ".p2align 4,,7\n\t"
-
- "L54:\n\t"
- "addl $4,%%edi\n\t"
- "L50:\n\t"
- "cmpl %%ebx,%%ecx\n\t"
- "je L52\n\t"
- "movl %%eax,(%%edi)\n\t"
- "L52:\n\t"
- "incl %%ebx\n\t"
- "cmpl $19,%%ebx\n\t"
- "jle L53\n\t"
- "xorl %%ebx,%%ebx\n\t"
- "L53:\n\t"
- "cmpl %%edx,%%edi\n\t"
- "jb L54\n\t"
- : : "D" (start), "d" (pe), "a" (p2),
- "b" (k), "c" (offset)
- );
-#endif
-}
-
-STATIC void modtst_check(ulong* restrict start,
- ulong len_dw, const void* vctx) {
- const modtst_ctx* restrict ctx = (const modtst_ctx*)vctx;
- ulong p1 = ctx->p1;
- ulong offset = ctx->offset;
-
- ASSERT(offset < MOD_SZ);
-
-#if PREFER_C
- ulong bad;
- for (ulong i = offset; i < len_dw; i += MOD_SZ) {
- if ((bad = start[i]) != p1)
- mt86_error(start + i, p1, bad);
- }
-#else
- ulong* p = start + offset;
- ulong* pe = start + len_dw;
- asm __volatile__
- (
- "jmp L70\n\t"
- ".p2align 4,,7\n\t"
-
- "L70:\n\t"
- "movl (%%edi),%%ecx\n\t"
- "cmpl %%eax,%%ecx\n\t"
- "jne L71\n\t"
- "L72:\n\t"
- "addl $80,%%edi\n\t"
- "cmpl %%edx,%%edi\n\t"
- "jb L70\n\t"
- "jmp L73\n\t"
-
- "L71:\n\t"
- "pushl %%edx\n\t"
- "pushl %%ecx\n\t"
- "pushl %%eax\n\t"
- "pushl %%edi\n\t"
- "call mt86_error\n\t"
- "popl %%edi\n\t"
- "popl %%eax\n\t"
- "popl %%ecx\n\t"
- "popl %%edx\n\t"
- "jmp L72\n"
-
- "L73:\n\t"
- : : "D" (p), "d" (pe), "a" (p1)
- : "ecx"
- );
-#endif
-}
-
-/*
- * Test all of memory using modulo X access pattern.
- */
-void modtst(int offset, int iter, ulong p1, ulong p2, int me)
-{
- modtst_ctx ctx;
- ctx.offset = offset;
- ctx.p1 = p1;
- ctx.p2 = p2;
-
- /* Display the current pattern */
- if (mstr_cpu == me) {
- hprint(LINE_PAT, COL_PAT-2, p1);
- cprint(LINE_PAT, COL_PAT+6, "-");
- dprint(LINE_PAT, COL_PAT+7, offset, 2, 1);
- }
-
- /* Write every nth location with pattern */
- sliced_foreach_segment(&ctx, me, modtst_sparse_writes);
- { BAILR }
-
- /* Write the rest of memory "iter" times with the pattern complement */
- for (ulong i=0; i<iter; i++) {
- sliced_foreach_segment(&ctx, me, modtst_dense_writes);
- { BAILR }
- }
-
- /* Now check every nth location */
- sliced_foreach_segment(&ctx, me, modtst_check);
-}
-
-#if PREFER_C
-
-STATIC void movsl(ulong* dest,
- ulong* src,
- ulong size_in_dwords) {
- /* Logically equivalent to:
-
- for (ulong i = 0; i < size_in_dwords; i++)
- dest[i] = src[i];
-
- However: the movsl instruction does the entire loop
- in one instruction -- this is probably how 'memcpy'
- is implemented -- so hardware makes it very fast.
-
- Even in PREFER_C mode, we want the brute force of movsl!
- */
- asm __volatile__
- (
- "cld\n"
- "jmp L1189\n\t"
-
- ".p2align 4,,7\n\t"
- "L1189:\n\t"
-
- "movl %1,%%edi\n\t" // dest
- "movl %0,%%esi\n\t" // src
- "movl %2,%%ecx\n\t" // len in dwords
- "rep\n\t"
- "movsl\n\t"
-
- :: "g" (src), "g" (dest), "g" (size_in_dwords)
- : "edi", "esi", "ecx"
- );
-}
-#endif // PREFER_C
-
-STATIC ulong block_move_normalize_len_dw(ulong len_dw) {
- // The block_move test works with sets of 64-byte blocks,
- // so ensure our total length is a multiple of 64.
- //
- // In fact, since we divide the region in half, and each half-region
- // is a set of 64-byte blocks, the full region should be a multiple of 128
- // bytes.
- //
- // Note that there's no requirement for the start address of the region to
- // be 64-byte aligned, it can be any dword.
- ulong result = (len_dw >> 5) << 5;
- ASSERT(result > 0);
- return result;
-}
-
-STATIC void block_move_init(ulong* restrict buf,
- ulong len_dw, const void* unused_ctx) {
- len_dw = block_move_normalize_len_dw(len_dw);
-
- // Compute 'len' in units of 64-byte chunks:
- ulong len = len_dw >> 4;
-
- // We only need to initialize len/2, since we'll just copy
- // the first half onto the second half in the move step.
- len = len >> 1;
-
- ulong base_val = 1;
-#if PREFER_C
- while(len > 0) {
- ulong neg_val = ~base_val;
-
- // Set a block of 64 bytes // first block DWORDS are:
- buf[0] = base_val; // 0x00000001
- buf[1] = base_val; // 0x00000001
- buf[2] = base_val; // 0x00000001
- buf[3] = base_val; // 0x00000001
- buf[4] = neg_val; // 0xfffffffe
- buf[5] = neg_val; // 0xfffffffe
- buf[6] = base_val; // 0x00000001
- buf[7] = base_val; // 0x00000001
- buf[8] = base_val; // 0x00000001
- buf[9] = base_val; // 0x00000001
- buf[10] = neg_val; // 0xfffffffe
- buf[11] = neg_val; // 0xfffffffe
- buf[12] = base_val; // 0x00000001
- buf[13] = base_val; // 0x00000001
- buf[14] = neg_val; // 0xfffffffe
- buf[15] = neg_val; // 0xfffffffe
-
- buf += 16; // advance to next 64-byte block
- len--;
-
- // Rotate the bit left, including an all-zero state.
- // It can't hurt to have a periodicity of 33 instead of
- // a power of two.
- if (base_val == 0) {
- base_val = 1;
- } else if (base_val & 0x80000000) {
- base_val = 0;
- } else {
- base_val = base_val << 1;
- }
- }
-#else
- asm __volatile__
- (
- "jmp L100\n\t"
-
- ".p2align 4,,7\n\t"
- "L100:\n\t"
-
- // First loop eax is 0x00000001, edx is 0xfffffffe
- "movl %%eax, %%edx\n\t"
- "notl %%edx\n\t"
-
- // Set a block of 64-bytes // First loop DWORDS are
- "movl %%eax,0(%%edi)\n\t" // 0x00000001
- "movl %%eax,4(%%edi)\n\t" // 0x00000001
- "movl %%eax,8(%%edi)\n\t" // 0x00000001
- "movl %%eax,12(%%edi)\n\t" // 0x00000001
- "movl %%edx,16(%%edi)\n\t" // 0xfffffffe
- "movl %%edx,20(%%edi)\n\t" // 0xfffffffe
- "movl %%eax,24(%%edi)\n\t" // 0x00000001
- "movl %%eax,28(%%edi)\n\t" // 0x00000001
- "movl %%eax,32(%%edi)\n\t" // 0x00000001
- "movl %%eax,36(%%edi)\n\t" // 0x00000001
- "movl %%edx,40(%%edi)\n\t" // 0xfffffffe
- "movl %%edx,44(%%edi)\n\t" // 0xfffffffe
- "movl %%eax,48(%%edi)\n\t" // 0x00000001
- "movl %%eax,52(%%edi)\n\t" // 0x00000001
- "movl %%edx,56(%%edi)\n\t" // 0xfffffffe
- "movl %%edx,60(%%edi)\n\t" // 0xfffffffe
-
- // rotate left with carry,
- // second loop eax is 0x00000002
- // second loop edx is (~eax) 0xfffffffd
- "rcll $1, %%eax\n\t"
-
- // Move current position forward 64-bytes (to start of next block)
- "leal 64(%%edi), %%edi\n\t"
-
- // Loop until end
- "decl %%ecx\n\t"
- "jnz L100\n\t"
-
- : : "D" (buf), "c" (len), "a" (base_val)
- : "edx"
- );
-#endif
-}
-
-typedef struct {
- int iter;
- int me;
-} block_move_ctx;
-
-STATIC void block_move_move(ulong* restrict buf,
- ulong len_dw, const void* vctx) {
- const block_move_ctx* restrict ctx = (const block_move_ctx*)vctx;
- ulong iter = ctx->iter;
- int me = ctx->me;
-
- len_dw = block_move_normalize_len_dw(len_dw);
-
- /* Now move the data around
- * First move the data up half of the segment size we are testing
- * Then move the data to the original location + 32 bytes
- */
- ulong half_len_dw = len_dw / 2; // Half the size of this block in DWORDS
- ASSERT(half_len_dw > 8);
-
- ulong* mid = buf + half_len_dw; // VA at mid-point of this block.
- for (int i=0; i<iter; i++) {
- if (i > 0) {
- // foreach_segment() called this before the 0th iteration,
- // so don't tick twice in quick succession.
- do_tick(me);
- }
- { BAILR }
-
-#if PREFER_C
- // Move first half to 2nd half:
- movsl(/*dest=*/ mid, /*src=*/ buf, half_len_dw);
-
- // Move the second half, less the last 8 dwords
- // to the first half plus an offset of 8 dwords.
- movsl(/*dest=*/ buf + 8, /*src=*/ mid, half_len_dw - 8);
-
- // Finally, move the last 8 dwords of the 2nd half
- // to the first 8 dwords of the first half.
- movsl(/*dest=*/ mid + half_len_dw - 8, /*src=*/ buf, 8);
-#else
- asm __volatile__
- (
- "cld\n"
- "jmp L110\n\t"
-
- ".p2align 4,,7\n\t"
- "L110:\n\t"
-
- //
- // At the end of all this
- // - the second half equals the inital value of the first half
- // - the first half is right shifted 32-bytes (with wrapping)
- //
-
- // Move first half to second half
- "movl %1,%%edi\n\t" // Destination 'mid' (mid point)
- "movl %0,%%esi\n\t" // Source, 'buf' (start point)
- "movl %2,%%ecx\n\t" // Length, 'half_len_dw' (size of a half in DWORDS)
- "rep\n\t"
- "movsl\n\t"
-
- // Move the second half, less the last 32-bytes. To the first half, offset plus 32-bytes
- "movl %0,%%edi\n\t"
- "addl $32,%%edi\n\t" // Destination 'buf' plus 32 bytes
- "movl %1,%%esi\n\t" // Source, 'mid'
- "movl %2,%%ecx\n\t"
- "subl $8,%%ecx\n\t" // Length, 'half_len_dw'
- "rep\n\t"
- "movsl\n\t"
-
- // Move last 8 DWORDS (32-bytes) of the second half to the start of the first half
- "movl %0,%%edi\n\t" // Destination 'buf'
- // Source, 8 DWORDS from the end of the second half, left over by the last rep/movsl
- "movl $8,%%ecx\n\t" // Length, 8 DWORDS (32-bytes)
- "rep\n\t"
- "movsl\n\t"
-
- :: "g" (buf), "g" (mid), "g" (half_len_dw)
- : "edi", "esi", "ecx"
- );
-#endif
- }
-}
-
-STATIC void block_move_check(ulong* restrict buf,
- ulong len_dw, const void* unused_ctx) {
- len_dw = block_move_normalize_len_dw(len_dw);
-
- /* Now check the data.
- * This is rather crude, we just check that the
- * adjacent words are the same.
- */
-#if PREFER_C
- for (ulong i = 0; i < len_dw; i = i + 2) {
- if (buf[i] != buf[i+1]) {
- mt86_error(buf+i, buf[i], buf[i+1]);
- }
- }
-#else
- ulong* pe = buf + (len_dw - 2);
- asm __volatile__
- (
- "jmp L120\n\t"
-
- ".p2align 4,,7\n\t"
- "L124:\n\t"
- "addl $8,%%edi\n\t" // Next QWORD
- "L120:\n\t"
-
- // Compare adjacent DWORDS
- "movl (%%edi),%%ecx\n\t"
- "cmpl 4(%%edi),%%ecx\n\t"
- "jnz L121\n\t" // Print error if they don't match
-
- // Loop until end of block
- "L122:\n\t"
- "cmpl %%edx,%%edi\n\t"
- "jb L124\n"
- "jmp L123\n\t"
-
- "L121:\n\t"
- // eax not used so we don't need to save it as per cdecl
- // ecx is used but not restored, however we don't need it's value anymore after this point
- "pushl %%edx\n\t"
- "pushl 4(%%edi)\n\t"
- "pushl %%ecx\n\t"
- "pushl %%edi\n\t"
- "call mt86_error\n\t"
- "popl %%edi\n\t"
- "addl $8,%%esp\n\t"
- "popl %%edx\n\t"
- "jmp L122\n"
- "L123:\n\t"
- :: "D" (buf), "d" (pe)
- : "ecx"
- );
-#endif
-}
-
-/*
- * Test memory using block moves
- * Adapted from Robert Redelmeier's burnBX test
- */
-void block_move(int iter, int me)
-{
- cprint(LINE_PAT, COL_PAT-2, " ");
-
- block_move_ctx ctx;
- ctx.iter = iter;
- ctx.me = me;
-
- /* Initialize memory with the initial pattern. */
- sliced_foreach_segment(&ctx, me, block_move_init);
- { BAILR }
- s_barrier();
-
- /* Now move the data around */
- sliced_foreach_segment(&ctx, me, block_move_move);
- { BAILR }
- s_barrier();
-
- /* And check it. */
- sliced_foreach_segment(&ctx, me, block_move_check);
-}
-
-typedef struct {
- ulong pat;
-} bit_fade_ctx;
-
-STATIC void bit_fade_fill_seg(ulong* restrict p,
- ulong len_dw, const void* vctx) {
- const bit_fade_ctx* restrict ctx = (const bit_fade_ctx*)vctx;
- ulong pat = ctx->pat;
-
- for (ulong i = 0; i < len_dw; i++) {
- p[i] = pat;
- }
-}
-
-/*
- * Test memory for bit fade, fill memory with pattern.
- */
-void bit_fade_fill(ulong p1, int me)
-{
- /* Display the current pattern */
- hprint(LINE_PAT, COL_PAT, p1);
-
- /* Initialize memory with the initial pattern. */
- bit_fade_ctx ctx;
- ctx.pat = p1;
- unsliced_foreach_segment(&ctx, me, bit_fade_fill_seg);
-}
-
-STATIC void bit_fade_chk_seg(ulong* restrict p,
- ulong len_dw, const void* vctx) {
- const bit_fade_ctx* restrict ctx = (const bit_fade_ctx*)vctx;
- ulong pat = ctx->pat;
-
- for (ulong i = 0; i < len_dw; i++) {
- ulong bad;
- if ((bad=p[i]) != pat) {
- mt86_error(p+i, pat, bad);
- }
- }
-}
-
-void bit_fade_chk(ulong p1, int me)
-{
- bit_fade_ctx ctx;
- ctx.pat = p1;
-
- /* Make sure that nothing changed while sleeping */
- unsliced_foreach_segment(&ctx, me, bit_fade_chk_seg);
-}
-
-/* Sleep for N seconds */
-void sleep(long n, int flag, int me,
- int sms /* interpret 'n' as milliseconds instead */)
-{
- ulong sh, sl, l, h, t, ip=0;
-
- /* save the starting time */
- asm __volatile__(
- "rdtsc":"=a" (sl),"=d" (sh));
-
- /* loop for n seconds */
- while (1) {
- asm __volatile__(
- "rep ; nop\n\t"
- "rdtsc":"=a" (l),"=d" (h));
- asm __volatile__ (
- "subl %2,%0\n\t"
- "sbbl %3,%1"
- :"=a" (l), "=d" (h)
- :"g" (sl), "g" (sh),
- "0" (l), "1" (h));
-
- if (sms != 0) {
- t = h * ((unsigned)0xffffffff / vv->clks_msec);
- t += (l / vv->clks_msec);
- } else {
- t = h * ((unsigned)0xffffffff / vv->clks_msec) / 1000;
- t += (l / vv->clks_msec) / 1000;
- }
-
- /* Is the time up? */
- if (t >= n) {
- break;
- }
-
- /* Only display elapsed time if flag is set */
- if (flag == 0) {
- continue;
- }
-
- if (t != ip) {
- do_tick(me);
- { BAILR }
- ip = t;
- }
- }
-}
-
-void beep(unsigned int frequency)
-{
-#if 0
- // BOZO(jcoiner)
- // Removed this, we need to define outb_p() and inb_p()
- // before reintroducing it.
-#else
- unsigned int count = 1193180 / frequency;
-
- // Switch on the speaker
- outb_p(inb_p(0x61)|3, 0x61);
-
- // Set command for counter 2, 2 byte write
- outb_p(0xB6, 0x43);
-
- // Select desired Hz
- outb_p(count & 0xff, 0x42);
- outb((count >> 8) & 0xff, 0x42);
-
- // Block for 100 microseconds
- sleep(100, 0, 0, 1);
-
- // Switch off the speaker
- outb(inb_p(0x61)&0xFC, 0x61);
-#endif
-}
diff --git a/memtest86+_old/test.h b/memtest86+_old/test.h
deleted file mode 100644
index 8b2e924..0000000
--- a/memtest86+_old/test.h
+++ /dev/null
@@ -1,346 +0,0 @@
-/* test.h - MemTest-86 Version 3.4
- *
- * Released under version 2 of the Gnu Public License.
- * By Chris Brady
- */
-
-#ifndef _TEST_H_
-#define _TEST_H_
-#define E88 0x00
-#define E801 0x04
-#define E820NR 0x08 /* # entries in E820MAP */
-#define E820MAP 0x0c /* our map */
-#define E820MAX 127 /* number of entries in E820MAP */
-#define E820ENTRY_SIZE 20
-#define MEMINFO_SIZE (E820MAP + E820MAX * E820ENTRY_SIZE)
-
-#ifndef __ASSEMBLY__
-
-#define E820_RAM 1
-#define E820_RESERVED 2
-#define E820_ACPI 3 /* usable as RAM once ACPI tables have been read */
-#define E820_NVS 4
-
-struct e820entry {
- unsigned long long addr; /* start of memory segment */
- unsigned long long size; /* size of memory segment */
- unsigned long type; /* type of memory segment */
-};
-
-struct mem_info_t {
- unsigned long e88_mem_k; /* 0x00 */
- unsigned long e801_mem_k; /* 0x04 */
- unsigned long e820_nr; /* 0x08 */
- struct e820entry e820[E820MAX]; /* 0x0c */
- /* 0x28c */
-};
-
-typedef unsigned long ulong;
-#define STACKSIZE_BYTES (8*1024)
-#define MAX_MEM_PAGES 0x7FF00000 /* 8 TB; units are 4K pages */
-#define WIN_SZ_PAGES 0x80000 /* 2 GB; units are 4K pages */
-#define UNMAP_SZ_PAGES (0x100000-WIN_SZ_PAGES) /* Size of unmapped first segment */
-
-#define SPINSZ_DWORDS 0x4000000 /* 256 MB; units are dwords (32-bit words) */
-#define MOD_SZ 20
-#define BAILOUT if (bail) return(1);
-#define BAILR if (bail) return;
-
-#define RES_START 0xa0000
-#define RES_END 0x100000
-#define SCREEN_ADR 0xb8000
-#define SCREEN_END_ADR (SCREEN_ADR + 80*25*2)
-
-#define DMI_SEARCH_START 0x0000F000
-#define DMI_SEARCH_LENGTH 0x000F0FFF
-#define MAX_DMI_MEMDEVS 16
-
-#define TITLE_WIDTH 28
-#define LINE_TITLE 0
-#define LINE_TST 3
-#define LINE_RANGE 4
-#define LINE_PAT 5
-#define LINE_TIME 5
-#define LINE_STATUS 8
-#define LINE_INFO 9
-#define LINE_HEADER 12
-#define LINE_SCROLL 14
-#define LINE_SPD 14
-#define LINE_MSG 22
-#define LINE_CPU 7
-#define LINE_RAM 8
-#define LINE_DMI 23
-#define COL_INF1 15
-#define COL_INF2 32
-#define COL_INF3 51
-#define COL_INF4 70
-#define COL_MODE 15
-#define COL_MID 30
-#define COL_PAT 41
-#define BAR_SIZE (78-COL_MID-9)
-#define COL_MSG 23
-#define COL_TIME 67
-#define COL_SPEC 41
-
-#define POP_W 34
-#define POP_H 15
-#define POP_X 11
-#define POP_Y 8
-#define POP2_W 74
-#define POP2_H 21
-#define POP2_X 3
-#define POP2_Y 2
-
-/* CPU mode types */
-#define CPM_ALL 1
-#define CPM_RROBIN 2
-#define CPM_SEQ 3
-
-/* memspeed operations */
-#define MS_COPY 1
-#define MS_WRITE 2
-#define MS_READ 3
-
-#define SZ_MODE_BIOS 1
-#define SZ_MODE_PROBE 2
-
-#define getCx86(reg) ({ outb((reg), 0x22); inb(0x23); })
-
-int mt86_memcmp(const void *s1, const void *s2, ulong count);
-void *mt86_memmove(void *dest, const void *src, ulong n);
-int mt86_strncmp(const char *s1, const char *s2, ulong n);
-int mt86_strstr(char *str1, char *str2);
-int mt86_strlen(char *string);
-int query_linuxbios(void);
-int query_pcbios(void);
-int insertaddress(ulong);
-void printpatn(void);
-void printpatn(void);
-void itoa(char s[], int n);
-void reverse(char *p);
-void serial_console_setup(char *param);
-void serial_echo_init(void);
-void serial_echo_print(const char *s);
-void ttyprint(int y, int x, const char *s);
-void ttyprintc(int y, int x, char c);
-void cprint(int y,int x, const char *s);
-void cplace(int y,int x, const char s);
-void hprint(int y,int x, ulong val);
-void hprint2(int y,int x, ulong val, int len);
-void hprint3(int y,int x, ulong val, int len);
-void xprint(int y,int x,ulong val);
-void aprint(int y,int x,ulong page);
-void dprint(int y,int x,ulong val,int len, int right);
-void movinv1(int iter, ulong p1, ulong p2, int cpu);
-void movinvr(int cpu);
-void movinv32(int iter, ulong p1, ulong lb, ulong mb, int sval, int off,
- int cpu);
-void modtst(int off, int iter, ulong p1, ulong p2, int cpu);
-#define ASSERT(n) do { \
- if (!(n)) { \
- assert_fail(__FILE__, __LINE__); \
- } } while(0)
-void assert_fail(const char* file, int line_no);
-void mt86_error(ulong* adr, ulong good, ulong bad);
-void ad_err1(ulong *adr1, ulong *adr2, ulong good, ulong bad);
-void ad_err2(ulong *adr, ulong bad);
-void do_tick();
-void init(void);
-struct eregs;
-void inter(struct eregs *trap_regs);
-void set_cache(int val);
-void check_input(void);
-void footer(void);
-void scroll(void);
-void clear_scroll(void);
-void popup(void);
-void popdown(void);
-void popclear(void);
-void pop2up(void);
-void pop2down(void);
-void pop2clear(void);
-void get_config(void);
-void get_menu(void);
-void get_printmode(void);
-void addr_tst1(int cpu);
-void addr_tst2(int cpu);
-int getnum(ulong val);
-void sleep(long sec, int flag, int cpu, int sms);
-void block_move(int iter, int cpu);
-void find_ticks(void);
-void print_err(ulong *adr, ulong good, ulong bad, ulong xor);
-void print_ecc_err(ulong page, ulong offset, int corrected,
- unsigned short syndrome, int channel);
-void mem_size(void);
-void adj_mem(void);
-ulong getval(int x, int y, int result_shift);
-int get_key(void);
-int ascii_to_keycode(int in);
-void wait_keyup(void);
-void print_hdr(void);
-void restart(void);
-void parity_err(ulong edi, ulong esi);
-void start_config(void);
-void clear_screen(void);
-void paging_off(void);
-void show_spd(void);
-int map_page(unsigned long page);
-void *mapping(unsigned long phys_page); // get VA for a physical page
-void *emapping(unsigned long phys_page);
-int mt86_isdigit(char c);
-ulong memspeed(ulong src, ulong len, int iter);
-unsigned long page_of(void *ptr);
-ulong correct_tsc(ulong el_org);
-void bit_fade_fill(unsigned long n, int cpu);
-void bit_fade_chk(unsigned long n, int cpu);
-void find_ticks_for_pass(void);
-void beep(unsigned int frequency);
-
-// Expose foreach_segment here for self_test, otherwise
-// it would be local to test.c:
-typedef void(*segment_fn)(ulong* start, // start address
- ulong len_dw, // length of segment in dwords
- const void* ctx); // any context data needed
-void foreach_segment(ulong* start, ulong* end,
- int me, const void* ctx, segment_fn func);
-
-
-// In self-test, DEBUGF wraps libc's printf.
-// In memtest standalone, printf will be a stub
-// and 'vv->debugging' is false to avoid call overhead.
-int printf(const char *format, ...);
-#define DEBUGF(...) { \
- if (vv->debugging) { \
- printf(__VA_ARGS__); \
- } \
- }
-
-#define PRINTMODE_SUMMARY 0
-#define PRINTMODE_ADDRESSES 1
-#define PRINTMODE_PATTERNS 2
-#define PRINTMODE_NONE 3
-
-#define BADRAM_MAXPATNS 10
-
-struct pair {
- ulong adr;
- ulong mask;
-};
-
-static inline void cache_off(void)
-{
- asm(
- "push %eax\n\t"
- "movl %cr0,%eax\n\t"
- "orl $0x40000000,%eax\n\t" /* Set CD */
- "movl %eax,%cr0\n\t"
- "wbinvd\n\t"
- "pop %eax\n\t");
-}
-
-static inline void cache_on(void)
-{
- asm(
- "push %eax\n\t"
- "movl %cr0,%eax\n\t"
- "andl $0x9fffffff,%eax\n\t" /* Clear CD and NW */
- "movl %eax,%cr0\n\t"
- "pop %eax\n\t");
-}
-
-struct mmap {
- ulong pbase_addr;
- ulong *start; // VA of segment start
- ulong *end; // VA of the last dword within the segment.
-};
-
-struct pmap {
- ulong start; /* phys page number of RAM segment start,
- in 4K pages. */
- ulong end; // phys page number (past the end? or inclusive?)
-};
-
-struct tseq {
- short sel; // enabled
- short cpu_sel; // cpu_sel == 0 indicates end of tseq[] array
- short pat; // the test #
- short iter; // # of iterations to run
- short errors; // error count, updated as tests run
- char *msg;
-};
-
-struct xadr {
- ulong page;
- ulong offset;
-};
-
-struct err_info {
- struct xadr low_addr;
- struct xadr high_addr;
- unsigned long ebits;
- long tbits;
- short min_bits;
- short max_bits;
- unsigned long maxl;
- unsigned long eadr;
- unsigned long exor;
- unsigned long cor_err;
- short hdr_flag;
-};
-
-
-
-#define X86_FEATURE_PAE (0*32+ 6) /* Physical Address Extensions */
-
-#define MAX_MEM_SEGMENTS E820MAX
-
-/* Define common variables across relocations of memtest86 */
-struct vars {
- int pass;
- int msg_line;
- int ecount;
- int ecc_ecount;
- int msegs; // number of entries in pmap[]
- int testsel;
- int scroll_start;
- int pass_ticks;
- int total_ticks;
- int pptr;
- int tptr;
- struct err_info erri;
- // PA ranges from e820 table:
- struct pmap pmap[MAX_MEM_SEGMENTS];
- // VA mappings:
- volatile struct mmap map[MAX_MEM_SEGMENTS];
- ulong plim_lower; // phys page number
- ulong plim_upper; // phys page number
- ulong clks_msec;
- ulong starth;
- ulong startl;
- ulong snaph;
- ulong snapl;
- int printmode;
- int numpatn;
- struct pair patn [BADRAM_MAXPATNS];
- ulong test_pages;
- ulong selected_pages;
- ulong reserved_pages;
- int check_temp;
- int fail_safe;
- int each_sec;
- int beepmode;
- int debugging; // Set in selftest only
-};
-
-#define FIRMWARE_UNKNOWN 0
-#define FIRMWARE_PCBIOS 1
-#define FIRMWARE_LINUXBIOS 2
-
-extern struct vars * const vv;
-extern unsigned char _start[], _end[], startup_32[];
-extern unsigned char _size, _pages;
-
-extern struct mem_info_t mem_info;
-
-#endif /* __ASSEMBLY__ */
-#endif /* _TEST_H_ */
diff --git a/memtest86+_old/version.number b/memtest86+_old/version.number
deleted file mode 100644
index 6b0b9f8..0000000
--- a/memtest86+_old/version.number
+++ /dev/null
@@ -1 +0,0 @@
-4.99617 - Thu May 3 11:45:57 CEST 2012
diff --git a/memtest86+_old/vmem.c b/memtest86+_old/vmem.c
deleted file mode 100644
index 6125e0d..0000000
--- a/memtest86+_old/vmem.c
+++ /dev/null
@@ -1,159 +0,0 @@
-/* vmem.c - MemTest-86
- *
- * Virtual memory handling (PAE)
- *
- * Released under version 2 of the Gnu Public License.
- * By Chris Brady
- */
-#include "stdint.h"
-#include "test.h"
-#include "cpuid.h"
-
-extern struct cpu_ident cpu_id;
-
-static unsigned long mapped_win = 1;
-void paging_off(void)
-{
- if (!cpu_id.fid.bits.pae)
- return;
- __asm__ __volatile__
- (
- /* Disable paging */
- "movl %%cr0, %%eax\n\t"
- "andl $0x7FFFFFFF, %%eax\n\t"
- "movl %%eax, %%cr0\n\t"
- : :
- : "ax"
- );
-}
-
-static void paging_on(void *pdp)
-{
- if (!cpu_id.fid.bits.pae)
- return;
- __asm__ __volatile__
- (
- /* Load the page table address */
- "movl %0, %%cr3\n\t"
- /* Enable paging */
- "movl %%cr0, %%eax\n\t"
- "orl $0x80000000, %%eax\n\t"
- "movl %%eax, %%cr0\n\t"
- :
- : "r" (pdp)
- : "ax"
- );
-}
-
-static void paging_on_lm(void *pml)
-{
- if (!cpu_id.fid.bits.pae)
- return;
- __asm__ __volatile__
- (
- /* Load the page table address */
- "movl %0, %%cr3\n\t"
- /* Enable paging */
- "movl %%cr0, %%eax\n\t"
- "orl $0x80000000, %%eax\n\t"
- "movl %%eax, %%cr0\n\t"
- :
- : "r" (pml)
- : "ax"
- );
-}
-
-int map_page(unsigned long page)
-{
- unsigned long i;
- struct pde {
- unsigned long addr_lo;
- unsigned long addr_hi;
- };
- extern unsigned char pdp[];
- extern unsigned char pml4[];
- extern struct pde pd2[];
- unsigned long win = page >> 19;
-
- /* Less than 2 GB so no mapping is required */
- if (win == 0) {
- return 0;
- }
- if (cpu_id.fid.bits.pae == 0) {
- /* Fail, we don't have PAE */
- return -1;
- }
- if (cpu_id.fid.bits.lm == 0 && (page > 0x1000000)) {
- /* Fail, we want an address that is out of bounds (> 64GB)
- * for PAE and no long mode (ie. 32 bit CPU).
- */
- return -1;
- }
- /* Compute the page table entries... */
- for(i = 0; i < 1024; i++) {
- /*-----------------10/30/2004 12:37PM---------------
- * 0xE3 --
- * Bit 0 = Present bit. 1 = PDE is present
- * Bit 1 = Read/Write. 1 = memory is writable
- * Bit 2 = Supervisor/User. 0 = Supervisor only (CPL 0-2)
- * Bit 3 = Writethrough. 0 = writeback cache policy
- * Bit 4 = Cache Disable. 0 = page level cache enabled
- * Bit 5 = Accessed. 1 = memory has been accessed.
- * Bit 6 = Dirty. 1 = memory has been written to.
- * Bit 7 = Page Size. 1 = page size is 2 MBytes
- * --------------------------------------------------*/
- pd2[i].addr_lo = ((win & 1) << 31) + ((i & 0x3ff) << 21) + 0xE3;
- pd2[i].addr_hi = (win >> 1);
- }
- paging_off();
- if (cpu_id.fid.bits.lm == 1) {
- paging_on_lm(pml4);
- } else {
- paging_on(pdp);
- }
- mapped_win = win;
- return 0;
-}
-
-void *mapping(unsigned long phys_page)
-{
- void *result;
- if (phys_page < WIN_SZ_PAGES) {
- /* If the page is below 2GB, address it directly */
- result = (void *)(phys_page << 12);
- }
- else {
- // Higher physical pages map to a virtual address
- // in the 2G-4G range.
- unsigned long alias;
- alias = phys_page & 0x7FFFF;
- alias += 0x80000;
- result = (void *)(alias << 12);
- }
- return result;
-}
-
-void *emapping(unsigned long phys_page)
-{
- void *result;
- result = mapping(phys_page - 1);
- /* Fill in the low address bits */
- result = ((unsigned char *)result) + 0xffc;
- return result;
-}
-
-unsigned long page_of(void *addr)
-{
- unsigned long page;
- page = ((unsigned long)addr) >> 12;
- if (page >= 0x80000) {
- page &= 0x7FFFF;
- page += mapped_win << 19;
- }
-#if 0
- cprint(LINE_SCROLL -2, 0, "page_of( )-> ");
- hprint(LINE_SCROLL -2, 8, ((unsigned long)addr));
- hprint(LINE_SCROLL -2, 20, page);
-#endif
- return page;
-}
diff --git a/test_code/.gitignore b/test_code/.gitignore
new file mode 100644
index 0000000..0a40989
--- /dev/null
+++ b/test_code/.gitignore
@@ -0,0 +1,3 @@
+debug.log
+qemu_log.txt
+OVMF_VARS.fd
diff --git a/test_code/HelloWorld.c b/test_code/HelloWorld.c
new file mode 100644
index 0000000..2f99825
--- /dev/null
+++ b/test_code/HelloWorld.c
@@ -0,0 +1,104 @@
+/** @file
+ This sample application bases on HelloWorld PCD setting
+ to print "UEFI Hello World!" to the UEFI Console.
+
+ Copyright (c) 2006 - 2018, Intel Corporation. All rights reserved.<BR>
+ SPDX-License-Identifier: BSD-2-Clause-Patent
+
+**/
+
+#include <Uefi.h>
+#include <Library/PcdLib.h>
+#include <Library/UefiLib.h>
+#include <Library/UefiApplicationEntryPoint.h>
+#include <Protocol/LoadedImage.h>
+#include "Library/DebugLib.h"
+#include "Guid/FileSystemInfo.h"
+
+EFI_GUID gEfiLoadedImageProtocolGuid = EFI_LOADED_IMAGE_PROTOCOL_GUID;
+
+//
+// String token ID of help message text.
+// Shell supports to find help message in the resource section of an application image if
+// .MAN file is not found. This global variable is added to make build tool recognizes
+// that the help string is consumed by user and then build tool will add the string into
+// the resource section. Thus the application can use '-?' option to show help message in
+// Shell.
+//
+GLOBAL_REMOVE_IF_UNREFERENCED EFI_STRING_ID mStringHelpTokenId = STRING_TOKEN (STR_HELLO_WORLD_HELP_INFORMATION);
+
+
+void getBase(EFI_SYSTEM_TABLE *SystemTable, EFI_HANDLE ImageHandle) {
+
+ EFI_STATUS status;
+
+ VOID *LoadedImage;
+ status = SystemTable->BootServices->OpenProtocol(
+ ImageHandle,
+ &gEfiLoadedImageProtocolGuid,
+ &LoadedImage,
+ ImageHandle,
+ NULL,
+ EFI_OPEN_PROTOCOL_GET_PROTOCOL);
+ if (status != EFI_SUCCESS) {
+ Print(L"Failed to open LoadedImage.");
+ } else {
+ VOID *base = ((EFI_LOADED_IMAGE_PROTOCOL *) LoadedImage)->ImageBase;
+ /*UINT64 size = ((EFI_LOADED_IMAGE_PROTOCOL *) LoadedImage)->ImageSize;*/
+
+ Print(L"Image Base: 0x%1x\n", (unsigned long)(base));
+ }
+
+}
+
+
+/**
+ The user Entry Point for Application. The user code starts with this function
+ as the real entry point for the application.
+
+ @param[in] ImageHandle The firmware allocated handle for the EFI image.
+ @param[in] SystemTable A pointer to the EFI System Table.
+
+ @retval EFI_SUCCESS The entry point is executed successfully.
+ @retval other Some error occurs when executing this entry point.
+
+**/
+EFI_STATUS
+EFIAPI
+UefiMain (
+ IN EFI_HANDLE ImageHandle,
+ IN EFI_SYSTEM_TABLE *SystemTable
+ )
+{
+
+ DEBUG((EFI_D_INFO, "My Entry Point: 0x%08x\r\n",(CHAR16*)UefiMain));
+
+ getBase(SystemTable, ImageHandle);
+
+ Print(L"UefiMain: 0x%1x\n", (unsigned long)UefiMain);
+
+ UINT32 Index;
+
+ Index = 0;
+
+ //
+ // Three PCD type (FeatureFlag, UINT32 and String) are used as the sample.
+ //
+ if (FeaturePcdGet (PcdHelloWorldPrintEnable)) {
+ for (Index = 0; Index < PcdGet32 (PcdHelloWorldPrintTimes); Index++) {
+ //
+ // Use UefiLib Print API to print string to UEFI console
+ //
+ Print ((CHAR16 *)PcdGetPtr (PcdHelloWorldPrintString));
+ Print(L"Own Hello World\n");
+ }
+ }
+
+ volatile int wait = 1;
+
+ while(wait) {
+ __asm__ __volatile__("pause");
+ }
+
+ return EFI_SUCCESS;
+} \ No newline at end of file
diff --git a/test_code/Makefile b/test_code/Makefile
index e265199..0246bd3 100644
--- a/test_code/Makefile
+++ b/test_code/Makefile
@@ -11,11 +11,11 @@ QEMUFLAGS=-drive format=raw,file=fat:rw:hda-contents,index=0,media=disk \
-drive if=pflash,format=raw,readonly,file=$(OVMFCODE) \
-drive if=pflash,format=raw,file=$(OVMFVARS) \
-debugcon file:$(LOG) -global isa-debugcon.iobase=0x402 \
- -serial stdio \
- -nographic \
- -nodefaults \
-net none \
- -cpu host
+ -cpu host \
+ -serial stdio \
+ -nographic \
+ -nodefaults
run:
$(QEMU) $(QEMUFLAGS)
diff --git a/test_code/OVMF.fd b/test_code/OVMF.fd
index e6269ec..20c9358 100644
--- a/test_code/OVMF.fd
+++ b/test_code/OVMF.fd
Binary files differ
diff --git a/test_code/OVMF_CODE.fd b/test_code/OVMF_CODE.fd
index 31f03f2..6ae62ef 100644
--- a/test_code/OVMF_CODE.fd
+++ b/test_code/OVMF_CODE.fd
Binary files differ
diff --git a/test_code/OVMF_VARS.fd b/test_code/OVMF_VARS.fd
deleted file mode 100644
index 5227763..0000000
--- a/test_code/OVMF_VARS.fd
+++ /dev/null
Binary files differ
diff --git a/test_code/analyse_hello.sh b/test_code/analyse_hello.sh
new file mode 100755
index 0000000..2e9187f
--- /dev/null
+++ b/test_code/analyse_hello.sh
@@ -0,0 +1,13 @@
+#!/bin/bash
+
+echo "#### \$objdump -h hello.efi"
+objdump -h hda-contents/hello.efi
+
+echo "########################################################################"
+echo "#### \$peinfo hello.efi | grep text -A 5"
+./peinfo hda-contents/hello.efi | grep text -A 5
+
+
+echo "########################################################################"
+echo "#### \$cat debug.log | grep hello -A 5"
+cat debug.log | grep hello -A 5
diff --git a/test_code/copy_files.sh b/test_code/copy_files.sh
new file mode 100755
index 0000000..98c7beb
--- /dev/null
+++ b/test_code/copy_files.sh
@@ -0,0 +1,5 @@
+#!/bin/bash
+
+cp ~/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/FV/OVMF* .
+cp ~/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/HelloWorld.efi hda-contents
+cp ~/Memtest/git/edk2/MdeModulePkg/Application/HelloWorld/HelloWorld.c .
diff --git a/test_code/debug.log b/test_code/debug.log
deleted file mode 100644
index 8f5c139..0000000
--- a/test_code/debug.log
+++ /dev/null
@@ -1,1417 +0,0 @@
-SecCoreStartupWithStack(0xFFFCC000, 0x820000)
-Register PPI Notify: DCD0BE23-9586-40F4-B643-06522CED4EDE
-Install PPI: 8C8CE578-8A3D-4F1C-9935-896185C32DD3
-Install PPI: 5473C07A-3DCB-4DCA-BD6F-1E9689E7349A
-The 0th FV start address is 0x00000820000, size is 0x000E0000, handle is 0x820000
-Register PPI Notify: 49EDB1C1-BF21-4761-BB12-EB0031AABB39
-Register PPI Notify: EA7CA24B-DED5-4DAD-A389-BF827E8F9B38
-Install PPI: B9E0ABFE-5979-4914-977F-6DEE78C278A6
-Install PPI: DBE23AA9-A345-4B97-85B6-B226F1617389
-DiscoverPeimsAndOrderWithApriori(): Found 0x7 PEI FFS files in the 0th FV
-Loading PEIM 9B3ADA4F-AE56-4C24-8DEA-F03B7558AE50
-Loading PEIM at 0x0000082BFC0 EntryPoint=0x0000082F40A PcdPeim.efi
-Install PPI: 06E81C58-4AD7-44BC-8390-F10265F72480
-Install PPI: 01F34D25-4DE2-23AD-3FF3-36353FF323F1
-Install PPI: 4D8B155B-C059-4C8F-8926-06FD4331DB8A
-Install PPI: A60C6B59-E459-425D-9C69-0BCC9CB27D81
-Register PPI Notify: 605EA650-C65C-42E1-BA80-91A52AB618C6
-Loading PEIM A3610442-E69F-4DF3-82CA-2360C4031A23
-Loading PEIM at 0x00000831140 EntryPoint=0x00000832594 ReportStatusCodeRouterPei.efi
-Install PPI: 0065D394-9951-4144-82A3-0AFC8579C251
-Install PPI: 229832D3-7A30-4B36-B827-F40CB7D45436
-Loading PEIM 9D225237-FA01-464C-A949-BAABC02D31D0
-Loading PEIM at 0x000008331C0 EntryPoint=0x00000834484 StatusCodeHandlerPei.efi
-Loading PEIM 222C386D-5ABC-4FB4-B124-FBB82488ACF4
-Loading PEIM at 0x00000835140 EntryPoint=0x0000083B531 PlatformPei.efi
-Select Item: 0x0
-FW CFG Signature: 0x554D4551
-Select Item: 0x1
-FW CFG Revision: 0x3
-QemuFwCfg interface (DMA) is supported.
-Platform PEIM Loaded
-CMOS:
-00: 38 00 21 00 14 00 02 08 08 22 26 02 00 80 00 00
-10: 00 00 F0 00 06 80 02 FF FF 2F 00 00 04 10 FF FF
-20: C8 00 04 3F 00 00 00 00 00 00 00 00 00 00 00 00
-30: FF FF 20 00 00 07 00 20 30 00 00 00 00 12 00 00
-40: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
-50: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
-60: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
-70: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
-Select Item: 0x19
-Select Item: 0x28
-S3 support was detected on QEMU
-Install PPI: 7408D748-FC8C-4EE6-9288-C4BEC092A410
-Select Item: 0x19
-Select Item: 0x24
-Select Item: 0x19
-Select Item: 0x19
-GetFirstNonAddress: Pci64Base=0x800000000 Pci64Size=0x800000000
-Select Item: 0x5
-MaxCpuCountInitialization: BootCpuCount=1 mMaxCpuCount=1
-PublishPeiMemory: mPhysMemAddressWidth=36 PeiMemoryCap=65800 KB
-PeiInstallPeiMemory MemoryBegin 0x3F36000, MemoryLength 0x4042000
-QemuInitializeRam called
-Select Item: 0x19
-Select Item: 0x24
-Reserved variable store memory: 0x7EF4000; size: 528kb
-Platform PEI Firmware Volume Initialization
-Install PPI: 49EDB1C1-BF21-4761-BB12-EB0031AABB39
-Notify: PPI Guid: 49EDB1C1-BF21-4761-BB12-EB0031AABB39, Peim notify entry point: 826610
-The 1th FV start address is 0x00000900000, size is 0x00C00000, handle is 0x900000
-Select Item: 0x19
-Register PPI Notify: EE16160A-E8BE-47A6-820A-C6900DB0250A
-Select Item: 0x19
-Select Item: 0x25
-Register PPI Notify: EE16160A-E8BE-47A6-820A-C6900DB0250A
-Temp Stack : BaseAddress=0x818000 Length=0x8000
-Temp Heap : BaseAddress=0x810000 Length=0x8000
-Total temporary memory: 65536 bytes.
- temporary memory stack ever used: 29640 bytes.
- temporary memory heap used for HobList: 6808 bytes.
- temporary memory heap occupied by memory pages: 0 bytes.
-Memory Allocation 0x0000000A 0x7F78000 - 0x7FFFFFF
-Memory Allocation 0x0000000A 0x810000 - 0x81FFFF
-Memory Allocation 0x0000000A 0x807000 - 0x807FFF
-Memory Allocation 0x0000000A 0x800000 - 0x805FFF
-Memory Allocation 0x0000000A 0x806000 - 0x806FFF
-Memory Allocation 0x0000000A 0x80B000 - 0x80BFFF
-Memory Allocation 0x00000006 0x7EF4000 - 0x7F77FFF
-Memory Allocation 0x0000000A 0x820000 - 0x8FFFFF
-Memory Allocation 0x00000004 0x900000 - 0x14FFFFF
-Old Stack size 32768, New stack size 131072
-Stack Hob: BaseAddress=0x3F36000 Length=0x20000
-Heap Offset = 0x3746000 Stack Offset = 0x3736000
-TemporaryRamMigration(0x810000, 0x3F4E000, 0x10000)
-Loading PEIM 52C05B14-0B98-496C-BC3B-04B50211D680
-Loading PEIM at 0x00007EE8000 EntryPoint=0x00007EF0DAC PeiCore.efi
-Reinstall PPI: 8C8CE578-8A3D-4F1C-9935-896185C32DD3
-Reinstall PPI: 5473C07A-3DCB-4DCA-BD6F-1E9689E7349A
-Reinstall PPI: B9E0ABFE-5979-4914-977F-6DEE78C278A6
-Install PPI: F894643D-C449-42D1-8EA8-85BDD8C65BDE
-Loading PEIM 9B3ADA4F-AE56-4C24-8DEA-F03B7558AE50
-Loading PEIM at 0x00007EE2000 EntryPoint=0x00007EE544A PcdPeim.efi
-Reinstall PPI: 06E81C58-4AD7-44BC-8390-F10265F72480
-Reinstall PPI: 4D8B155B-C059-4C8F-8926-06FD4331DB8A
-Reinstall PPI: 01F34D25-4DE2-23AD-3FF3-36353FF323F1
-Reinstall PPI: A60C6B59-E459-425D-9C69-0BCC9CB27D81
-Loading PEIM 86D70125-BAA3-4296-A62F-602BEBBB9081
-Loading PEIM at 0x00007EDD000 EntryPoint=0x00007EE023A DxeIpl.efi
-Install PPI: 1A36E4E7-FAB6-476A-8E75-695A0576FDD7
-Install PPI: 0AE8CE5D-E448-4437-A8D7-EBF5F194F731
-Loading PEIM 89E549B0-7CFE-449D-9BA3-10D8B2312D71
-Loading PEIM at 0x00007ED9000 EntryPoint=0x00007EDB523 S3Resume2Pei.efi
-Install PPI: 6D582DBC-DB85-4514-8FCC-5ADF6227B147
-Loading PEIM EDADEB9D-DDBA-48BD-9D22-C1C169C8C5C6
-Loading PEIM at 0x00007ECC000 EntryPoint=0x00007ED506C CpuMpPei.efi
-Register PPI Notify: F894643D-C449-42D1-8EA8-85BDD8C65BDE
-Notify: PPI Guid: F894643D-C449-42D1-8EA8-85BDD8C65BDE, Peim notify entry point: 7ED35D3
-AP Loop Mode is 1
-GetMicrocodePatchInfoFromHob: Microcode patch cache HOB is not found.
-CPU[0000]: Microcode revision = 00000000, expected = 00000000
-Register PPI Notify: 8F9D4825-797D-48FC-8471-845025792EF6
-Does not find any stored CPU BIST information from PPI!
- APICID - 0x00000000, BIST - 0x00000000
-Install PPI: 9E9F374B-8F16-4230-9824-5846EE766A97
-Install PPI: 5CB9CB3D-31A4-480C-9498-29D269BACFBA
-Install PPI: EE16160A-E8BE-47A6-820A-C6900DB0250A
-Notify: PPI Guid: EE16160A-E8BE-47A6-820A-C6900DB0250A, Peim notify entry point: 83740F
-PlatformPei: ClearCacheOnMpServicesAvailable
-Notify: PPI Guid: EE16160A-E8BE-47A6-820A-C6900DB0250A, Peim notify entry point: 837363
-DiscoverPeimsAndOrderWithApriori(): Found 0x0 PEI FFS files in the 1th FV
-DXE IPL Entry
-Loading PEIM D6A2CB7F-6A18-4E2F-B43B-9920A733700A
-Loading PEIM at 0x00007E9C000 EntryPoint=0x00007EB5DC3 DxeCore.efi
-Loading DXE CORE at 0x00007E9C000 EntryPoint=0x00007EB5DC3
-AddressBits=36 5LevelPaging=0 1GPage=0
-Pml5=1 Pml4=1 Pdp=64 TotalPage=66
-Install PPI: 605EA650-C65C-42E1-BA80-91A52AB618C6
-Notify: PPI Guid: 605EA650-C65C-42E1-BA80-91A52AB618C6, Peim notify entry point: 82E2D2
-CoreInitializeMemoryServices:
- BaseAddress - 0x3F59000 Length - 0x3CA7000 MinimalMemorySizeNeeded - 0x320000
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 7EBF788
-ProtectUefiImageCommon - 0x7EBF788
- - 0x0000000007E9C000 - 0x0000000000027000
-DxeMain: MemoryBaseAddress=0x3F59000 MemoryLength=0x3CA7000
-HOBLIST address in DXE = 0x78EA018
-Memory Allocation 0x0000000A 0x7F78000 - 0x7FFFFFF
-Memory Allocation 0x0000000A 0x810000 - 0x81FFFF
-Memory Allocation 0x0000000A 0x807000 - 0x807FFF
-Memory Allocation 0x0000000A 0x800000 - 0x805FFF
-Memory Allocation 0x0000000A 0x806000 - 0x806FFF
-Memory Allocation 0x0000000A 0x80B000 - 0x80BFFF
-Memory Allocation 0x00000006 0x7EF4000 - 0x7F77FFF
-Memory Allocation 0x0000000A 0x820000 - 0x8FFFFF
-Memory Allocation 0x00000004 0x900000 - 0x14FFFFF
-Memory Allocation 0x00000004 0x7E7C000 - 0x7E9BFFF
-Memory Allocation 0x00000003 0x7EE8000 - 0x7EF3FFF
-Memory Allocation 0x00000003 0x7EE2000 - 0x7EE7FFF
-Memory Allocation 0x00000003 0x7EDD000 - 0x7EE1FFF
-Memory Allocation 0x00000003 0x7ED9000 - 0x7EDCFFF
-Memory Allocation 0x00000003 0x7ECC000 - 0x7ED8FFF
-Memory Allocation 0x00000004 0x7EC3000 - 0x7ECBFFF
-Memory Allocation 0x00000003 0x7E9C000 - 0x7EC2FFF
-Memory Allocation 0x00000003 0x7E9C000 - 0x7EC2FFF
-Memory Allocation 0x00000004 0x7E7C000 - 0x7E9BFFF
-Memory Allocation 0x00000004 0x7C00000 - 0x7DFFFFF
-Memory Allocation 0x00000007 0x7E00000 - 0x7E7BFFF
-Memory Allocation 0x00000004 0x3F36000 - 0x3F55FFF
-FV Hob 0x900000 - 0x14FFFFF
-InstallProtocolInterface: D8117CFE-94A6-11D4-9A3A-0090273FC14D 7EBFD50
-InstallProtocolInterface: 8F644FA9-E850-4DB1-9CE2-0B44698E8DA4 78E6CB0
-InstallProtocolInterface: 09576E91-6D3F-11D2-8E39-00A0C969723B 78E6D98
-InstallProtocolInterface: 220E73B6-6BDB-4413-8405-B974B108619A 78E6630
-InstallProtocolInterface: EE4E5898-3914-4259-9D6E-DC7BD79403CF 7EBF9F0
-Loading driver 9B680FCE-AD6B-4F3A-B60B-F59899003443
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 75AD140
-Loading driver at 0x00007595000 EntryPoint=0x0000759D016 DevicePathDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 75ADA98
-ProtectUefiImageCommon - 0x75AD140
- - 0x0000000007595000 - 0x000000000000B5C0
-InstallProtocolInterface: 0379BE4E-D706-437D-B037-EDB82FB772A4 75A0280
-InstallProtocolInterface: 8B843E20-8132-4852-90CC-551A4E4A7F1C 75A0260
-InstallProtocolInterface: 05C99A21-C70F-4AD2-8A5F-35DF3343F51E 75A0240
-Loading driver 80CF7257-87AB-47F9-A3FE-D50B76D89541
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 75A6040
-Loading driver at 0x0000758F000 EntryPoint=0x00007592B5B PcdDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 75A6D18
-ProtectUefiImageCommon - 0x75A6040
- - 0x000000000758F000 - 0x0000000000005E80
-InstallProtocolInterface: 11B34006-D85B-4D0A-A290-D5A571310EF7 7594B00
-InstallProtocolInterface: 13A3F0F6-264A-3EF0-F2E0-DEC512342F34 7594A60
-InstallProtocolInterface: 5BE40F57-FA68-4610-BBBF-E9C5FCDAD365 7594A30
-InstallProtocolInterface: FD0F4478-0EFD-461D-BA2D-E58C45FD5F5E 7594A10
-Loading driver 2EC9DA37-EE35-4DE9-86C5-6D9A81DC38A7
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 75AC0C0
-Loading driver at 0x000075A2000 EntryPoint=0x000075A3FAE AmdSevDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 75ACA98
-ProtectUefiImageCommon - 0x75AC0C0
- - 0x00000000075A2000 - 0x0000000000003940
-Error: Image at 000075A2000 start failed: Unsupported
-Loading driver 733CBAC2-B23F-4B92-BC8E-FB01CE5907B7
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 75AC0C0
-Loading driver at 0x00007AE7000 EntryPoint=0x00007AE9EB3 FvbServicesRuntimeDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 75ACD18
-ProtectUefiImageCommon - 0x75AC0C0
- - 0x0000000007AE7000 - 0x0000000000008000
-QEMU Flash: Attempting flash detection at FFC00010
-QemuFlashDetected => FD behaves as FLASH
-QemuFlashDetected => Yes
-Installing QEMU flash FVB
-InstallProtocolInterface: 8F644FA9-E850-4DB1-9CE2-0B44698E8DA4 79EE8B0
-InstallProtocolInterface: 09576E91-6D3F-11D2-8E39-00A0C969723B 75AC818
-Loading driver D93CE3D8-A7EB-4730-8C8E-CC466A9ECC3C
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 75ABB40
-Loading driver at 0x00007AE1000 EntryPoint=0x00007AE38DB ReportStatusCodeRouterRuntimeDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 75AC418
-ProtectUefiImageCommon - 0x75ABB40
- - 0x0000000007AE1000 - 0x0000000000006000
-InstallProtocolInterface: 86212936-0E76-41C8-A03A-2AF2FC1C39E2 7AE5060
-InstallProtocolInterface: D2B2B828-0826-48A7-B3DF-983C006024F0 7AE5040
-Loading driver B601F8C4-43B7-4784-95B1-F4226CB40CEE
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 75AB1C0
-Loading driver at 0x00007ADB000 EntryPoint=0x00007ADD599 RuntimeDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 75A8018
-ProtectUefiImageCommon - 0x75AB1C0
- - 0x0000000007ADB000 - 0x0000000000006000
-InstallProtocolInterface: B7DFB4E1-052F-449F-87BE-9818FC91B733 7ADF040
-Loading driver F80697E9-7FD6-4665-8646-88E33EF71DFC
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 75A87C0
-Loading driver at 0x0000758C000 EntryPoint=0x0000758D693 SecurityStubDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 75A8118
-ProtectUefiImageCommon - 0x75A87C0
- - 0x000000000758C000 - 0x0000000000002D40
-InstallProtocolInterface: 94AB2F58-1438-4EF1-9152-18941A3A0E68 758EBA8
-InstallProtocolInterface: A46423E3-4617-49F1-B9FF-D1BFA9115839 758EBA0
-InstallProtocolInterface: 15853D7C-3DDF-43E0-A1CB-EBF85B8F872C 758EB80
-Loading driver 13AC6DD0-73D0-11D4-B06B-00AA00BD6DE7
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 75A7CC0
-Loading driver at 0x00007580000 EntryPoint=0x00007582FB3 EbcDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 75A7A98
-ProtectUefiImageCommon - 0x75A7CC0
- - 0x0000000007580000 - 0x0000000000005DC0
-InstallProtocolInterface: 13AC6DD1-73D0-11D4-B06B-00AA00BD6DE7 75A7A18
-InstallProtocolInterface: 96F46153-97A7-4793-ACC1-FA19BF78EA97 7585B20
-InstallProtocolInterface: 2755590C-6F3C-42FA-9EA4-A3BA543CDA25 75A7218
-InstallProtocolInterface: AAEACCFD-F27B-4C17-B610-75CA1F2DFB52 75A7398
-Loading driver 245CB4DA-8E15-4A1B-87E3-9878FFA07520
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 75A5B40
-Loading driver at 0x000075A1000 EntryPoint=0x000075A2377 Legacy8259.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 75A7898
-ProtectUefiImageCommon - 0x75A5B40
- - 0x00000000075A1000 - 0x0000000000001D40
-InstallProtocolInterface: 38321DBA-4FE0-4E17-8AEC-413055EAEDC1 75A2BC0
-Loading driver A19B1FE7-C1BC-49F8-875F-54A5D542443F
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 75A5240
-Loading driver at 0x00007586000 EntryPoint=0x00007587515 CpuIo2Dxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 75A5498
-ProtectUefiImageCommon - 0x75A5240
- - 0x0000000007586000 - 0x0000000000002080
-InstallProtocolInterface: AD61F191-AE5F-4C0E-B9FA-E869D288C64F 7587F40
-Loading driver 1A1E4886-9517-440E-9FDE-3BE44CEE2136
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 75A4B40
-Loading driver at 0x0000715C000 EntryPoint=0x000071681AF CpuDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 75A5518
-ProtectUefiImageCommon - 0x75A4B40
- - 0x000000000715C000 - 0x0000000000011740
-Paging: added 512 pages to page table pool
-CurrentPagingContext:
- MachineType - 0x8664
- PageTableBase - 0x7C01000
- Attributes - 0xC0000002
-InstallProtocolInterface: 26BACCB1-6F42-11D4-BCE7-0080C73C8881 716D300
-MemoryProtectionCpuArchProtocolNotify:
-ProtectUefiImageCommon - 0x7EBF788
- - 0x0000000007E9C000 - 0x0000000000027000
-ProtectUefiImageCommon - 0x75AD140
- - 0x0000000007595000 - 0x000000000000B5C0
-ProtectUefiImageCommon - 0x75A6040
- - 0x000000000758F000 - 0x0000000000005E80
-ProtectUefiImageCommon - 0x75AC0C0
- - 0x0000000007AE7000 - 0x0000000000008000
-SetUefiImageMemoryAttributes - 0x0000000007AE7000 - 0x0000000000001000 (0x0000000000004000)
-SetUefiImageMemoryAttributes - 0x0000000007AE8000 - 0x0000000000005000 (0x0000000000020000)
-SetUefiImageMemoryAttributes - 0x0000000007AED000 - 0x0000000000002000 (0x0000000000004000)
-ProtectUefiImageCommon - 0x75ABB40
- - 0x0000000007AE1000 - 0x0000000000006000
-SetUefiImageMemoryAttributes - 0x0000000007AE1000 - 0x0000000000001000 (0x0000000000004000)
-SetUefiImageMemoryAttributes - 0x0000000007AE2000 - 0x0000000000003000 (0x0000000000020000)
-SetUefiImageMemoryAttributes - 0x0000000007AE5000 - 0x0000000000002000 (0x0000000000004000)
-ProtectUefiImageCommon - 0x75AB1C0
- - 0x0000000007ADB000 - 0x0000000000006000
-SetUefiImageMemoryAttributes - 0x0000000007ADB000 - 0x0000000000001000 (0x0000000000004000)
-SetUefiImageMemoryAttributes - 0x0000000007ADC000 - 0x0000000000003000 (0x0000000000020000)
-SetUefiImageMemoryAttributes - 0x0000000007ADF000 - 0x0000000000002000 (0x0000000000004000)
-ProtectUefiImageCommon - 0x75A87C0
- - 0x000000000758C000 - 0x0000000000002D40
-ProtectUefiImageCommon - 0x75A7CC0
- - 0x0000000007580000 - 0x0000000000005DC0
-ProtectUefiImageCommon - 0x75A5B40
- - 0x00000000075A1000 - 0x0000000000001D40
-ProtectUefiImageCommon - 0x75A5240
- - 0x0000000007586000 - 0x0000000000002080
-ProtectUefiImageCommon - 0x75A4B40
- - 0x000000000715C000 - 0x0000000000011740
-ConvertPages: failed to find range A0000 - FFFFF
-ConvertPages: failed to find range 80000000 - FBFFFFFF
-ConvertPages: failed to find range FEC00000 - FEC00FFF
-Failed to update capability: [8] 00000000FED00000 - 00000000FED003FF (C700000000000001 -> C700000000026001)
-ConvertPages: failed to find range FEE00000 - FEEFFFFF
-ConvertPages: failed to find range FFC00000 - FFFFFFFF
-AP Loop Mode is 1
-GetMicrocodePatchInfoFromHob: MicrocodeBase = 0x0, MicrocodeSize = 0x0
-CPU[0000]: Microcode revision = 00000000, expected = 00000000
-Detect CPU count: 1
-InstallProtocolInterface: 3FDDA605-A76E-4F46-AD29-12F4531B3D08 716D280
-Loading driver F6697AC4-A776-4EE1-B643-1FEFF2B615BB
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 71790C0
-Loading driver at 0x00007158000 EntryPoint=0x00007159145 IncompatiblePciDeviceSupportDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 7179818
-ProtectUefiImageCommon - 0x71790C0
- - 0x0000000007158000 - 0x0000000000001F80
-InstallProtocolInterface: EB23F55A-7863-4AC2-8D3D-956535DE0375 7159E98
-Loading driver 11A6EDF6-A9BE-426D-A6CC-B22FE51D9224
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 716E040
-Loading driver at 0x0000714E000 EntryPoint=0x00007151664 PciHotPlugInitDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 716EF18
-ProtectUefiImageCommon - 0x716E040
- - 0x000000000714E000 - 0x0000000000004F00
-InstallProtocolInterface: AA0E8BC1-DABC-46B0-A844-37B8169B2BEA 7152E00
-Loading driver 4B28E4C7-FF36-4E10-93CF-A82159E777C5
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 716E440
-Loading driver at 0x00007AD5000 EntryPoint=0x00007AD7918 ResetSystemRuntimeDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 716E998
-ProtectUefiImageCommon - 0x716E440
- - 0x0000000007AD5000 - 0x0000000000006000
-SetUefiImageMemoryAttributes - 0x0000000007AD5000 - 0x0000000000001000 (0x0000000000004008)
-SetUefiImageMemoryAttributes - 0x0000000007AD6000 - 0x0000000000003000 (0x0000000000020008)
-SetUefiImageMemoryAttributes - 0x0000000007AD9000 - 0x0000000000002000 (0x0000000000004008)
-InstallProtocolInterface: 27CFAC88-46CC-11D4-9A38-0090273FC14D 0
-InstallProtocolInterface: 9DA34AE0-EAF9-4BBF-8EC3-FD60226C44BE 7AD9108
-InstallProtocolInterface: 695D7835-8D47-4C11-AB22-FA8ACCE7AE7A 7AD90C8
-InstallProtocolInterface: 2DF6BA0B-7092-440D-BD04-FB091EC3F3C1 7AD9088
-Loading driver C8339973-A563-4561-B858-D8476F9DEFC4
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 715B8C0
-Loading driver at 0x00007154000 EntryPoint=0x000071550B9 Metronome.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 715B818
-ProtectUefiImageCommon - 0x715B8C0
- - 0x0000000007154000 - 0x0000000000001EC0
-InstallProtocolInterface: 26BACCB2-6F42-11D4-BCE7-0080C73C8881 7155D50
-Loading driver 348C4D62-BFBD-4882-9ECE-C80BB1C4783B
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 715A040
-Loading driver at 0x00007110000 EntryPoint=0x00007127871 HiiDatabase.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 715B518
-ProtectUefiImageCommon - 0x715A040
- - 0x0000000007110000 - 0x000000000001E080
-InstallProtocolInterface: E9CA4775-8657-47FC-97E7-7ED65A084324 712DD48
-InstallProtocolInterface: 0FD96974-23AA-4CDC-B9CB-98D17750322A 712DDC0
-InstallProtocolInterface: EF9FC172-A1B2-4693-B327-6D32FC416042 712DDE8
-InstallProtocolInterface: 587E72D7-CC50-4F79-8209-CA291FC1A10F 712DE40
-InstallProtocolInterface: 0A8BADD5-03B8-4D19-B128-7B8F0EDAA596 712DE70
-InstallProtocolInterface: 31A6406A-6BDF-4E46-B2A2-EBAA89C40920 712DD68
-InstallProtocolInterface: 1A1241E6-8F19-41A9-BC0E-E8EF39E06546 712DD90
-Loading driver 96B5C032-DF4C-4B6E-8232-438DCF448D0E
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 7157040
-Loading driver at 0x00007148000 EntryPoint=0x00007149200 NullMemoryTestDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 715A518
-ProtectUefiImageCommon - 0x7157040
- - 0x0000000007148000 - 0x0000000000002180
-InstallProtocolInterface: 309DE7F1-7F5E-4ACE-B49C-531BE5AA95EF 7149FE0
-Loading driver 9622E42C-8E38-4A08-9E8F-54F784652F6B
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 71579C0
-Loading driver at 0x00007138000 EntryPoint=0x0000713C487 AcpiTableDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 7157918
-ProtectUefiImageCommon - 0x71579C0
- - 0x0000000007138000 - 0x0000000000007A40
-InstallProtocolInterface: FFE06BDD-6107-46A6-7BB2-5A9C7EC5275C 71575A0
-InstallProtocolInterface: EB97088E-CFDF-49C6-BE4B-D906A5B20E86 71575B0
-Loading driver BDCE85BB-FBAA-4F4E-9264-501A2C249581
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 7156B40
-Loading driver at 0x00007132000 EntryPoint=0x00007135DB8 S3SaveStateDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 7156E98
-ProtectUefiImageCommon - 0x7156B40
- - 0x0000000007132000 - 0x0000000000005EC0
-InstallProtocolInterface: BD445D79-B7AD-4F04-9AD8-29BD2040EB3C 0
-InstallProtocolInterface: E857CAF6-C046-45DC-BE3F-EE0765FBA887 7137C40
-Loading driver A210F973-229D-4F4D-AA37-9895E6C9EABA
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 71562C0
-Loading driver at 0x00007145000 EntryPoint=0x0000714630E DpcDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 7153F98
-ProtectUefiImageCommon - 0x71562C0
- - 0x0000000007145000 - 0x0000000000002040
-InstallProtocolInterface: 480F8AE9-0C46-4AA9-BC89-DB9FBA619806 7146D10
-Loading driver 8657015B-EA43-440D-949A-AF3BE365C0FC
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 71537C0
-Loading driver at 0x0000710B000 EntryPoint=0x0000710DC90 IoMmuDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 7153118
-ProtectUefiImageCommon - 0x71537C0
- - 0x000000000710B000 - 0x0000000000004700
-InstallProtocolInterface: F8775D50-8ABD-4ADF-92AC-853E51F6C8DC 0
-Loading driver 22DC2B60-FE40-42AC-B01F-3AB1FAD9AAD8
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 714D040
-Loading driver at 0x00007ACF000 EntryPoint=0x00007AD14C4 EmuVariableFvbRuntimeDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 714DD18
-ProtectUefiImageCommon - 0x714D040
- - 0x0000000007ACF000 - 0x0000000000006000
-SetUefiImageMemoryAttributes - 0x0000000007ACF000 - 0x0000000000001000 (0x0000000000004008)
-SetUefiImageMemoryAttributes - 0x0000000007AD0000 - 0x0000000000003000 (0x0000000000020008)
-SetUefiImageMemoryAttributes - 0x0000000007AD3000 - 0x0000000000002000 (0x0000000000004008)
-EMU Variable FVB Started
-Disabling EMU Variable FVB since flash variables appear to be supported.
-Error: Image at 00007ACF000 start failed: Aborted
-SetUefiImageMemoryAttributes - 0x0000000007ACF000 - 0x0000000000006000 (0x0000000000000008)
-Loading driver CBD2E4D5-7068-4FF5-B462-9822B4AD8D60
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 714D040
-Loading driver at 0x00007AC5000 EntryPoint=0x00007ACE47E VariableRuntimeDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 714DF18
-ProtectUefiImageCommon - 0x714D040
- - 0x0000000007AC5000 - 0x0000000000010000
-SetUefiImageMemoryAttributes - 0x0000000007AC5000 - 0x0000000000001000 (0x0000000000004008)
-SetUefiImageMemoryAttributes - 0x0000000007AC6000 - 0x000000000000D000 (0x0000000000020008)
-SetUefiImageMemoryAttributes - 0x0000000007AD3000 - 0x0000000000002000 (0x0000000000004008)
-VarCheckLibRegisterSetVariableCheckHandler - 0x7AC94F8 Success
-Variable driver common space: 0x3FF9C 0x3FF9C 0x3FF9C
-Variable driver will work with auth variable format!
-InstallProtocolInterface: CD3D0A05-9E24-437C-A891-1EE053DB7638 7AD3470
-InstallProtocolInterface: AF23B340-97B4-4685-8D4F-A3F28169B21D 7AD3440
-InstallProtocolInterface: 1E5668E2-8481-11D4-BCF1-0080C73C8881 0
-VarCheckLibRegisterSetVariableCheckHandler - 0x7AC7F8C Success
-InstallProtocolInterface: 81D1675C-86F6-48DF-BD95-9A6E4F0925C3 7AD33C0
-Loading driver 6C2004EF-4E0E-4BE4-B14C-340EB4AA5891
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 714C040
-Loading driver at 0x00007AC0000 EntryPoint=0x00007AC2079 StatusCodeHandlerRuntimeDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 714CE18
-ProtectUefiImageCommon - 0x714C040
- - 0x0000000007AC0000 - 0x0000000000005000
-SetUefiImageMemoryAttributes - 0x0000000007AC0000 - 0x0000000000001000 (0x0000000000004008)
-SetUefiImageMemoryAttributes - 0x0000000007AC1000 - 0x0000000000003000 (0x0000000000020008)
-SetUefiImageMemoryAttributes - 0x0000000007AC4000 - 0x0000000000001000 (0x0000000000004008)
-Loading driver C190FE35-44AA-41A1-8AEA-4947BC60E09D
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 714C440
-Loading driver at 0x00007141000 EntryPoint=0x0000714210A Timer.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 714C798
-ProtectUefiImageCommon - 0x714C440
- - 0x0000000007141000 - 0x0000000000001D80
-InstallProtocolInterface: 26BACCB3-6F42-11D4-BCE7-0080C73C8881 7142C00
-Loading driver 128FB770-5E79-4176-9E51-9BB268A17DD1
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 714BCC0
-Loading driver at 0x000070F7000 EntryPoint=0x000070FC221 PciHostBridgeDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 714BB18
-ProtectUefiImageCommon - 0x714BCC0
- - 0x00000000070F7000 - 0x0000000000009700
-Select Item: 0x0
-FW CFG Signature: 0x554D4551
-Select Item: 0x1
-FW CFG Revision: 0x3
-QemuFwCfg interface (DMA) is supported.
-Select Item: 0x19
-PciHostBridgeUtilityInitRootBridge: populated root bus 0, with room for 255 subordinate bus(es)
-RootBridge: PciRoot(0x0)
- Support/Attr: 70069 / 70069
- DmaAbove4G: No
-NoExtConfSpace: Yes
- AllocAttr: 3 (CombineMemPMem Mem64Decode)
- Bus: 0 - FF Translation=0
- Io: C000 - FFFF Translation=0
- Mem: 80000000 - FBFFFFFF Translation=0
- MemAbove4G: 800000000 - FFFFFFFFF Translation=0
- PMem: FFFFFFFFFFFFFFFF - 0 Translation=0
- PMemAbove4G: FFFFFFFFFFFFFFFF - 0 Translation=0
-InstallProtocolInterface: CF8034BE-6768-4D8B-B739-7CCE683A9FBE 714B7C0
-InstallProtocolInterface: 09576E91-6D3F-11D2-8E39-00A0C969723B 714B318
-InstallProtocolInterface: 2F707EBB-4A1A-11D4-9A38-0090273FC14D 71441F0
-Loading driver EBF342FE-B1D3-4EF8-957C-8048606FF671
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 7144440
-Loading driver at 0x000070C3000 EntryPoint=0x000070D72C1 SetupBrowser.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 7144C98
-ProtectUefiImageCommon - 0x7144440
- - 0x00000000070C3000 - 0x0000000000019780
-InstallProtocolInterface: B9D4C360-BCFB-4F9B-9298-53C136982258 70DC350
-InstallProtocolInterface: A770C357-B693-4E6D-A6CF-D21C728E550B 70DC380
-InstallProtocolInterface: 1F73B18D-4630-43C1-A1DE-6F80855D7DA4 70DC360
-Loading driver F9D88642-0737-49BC-81B5-6889CD57D9EA
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 71437C0
-Loading driver at 0x000070F1000 EntryPoint=0x000070F4542 SmbiosDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 7143118
-ProtectUefiImageCommon - 0x71437C0
- - 0x00000000070F1000 - 0x0000000000005D40
-Select Item: 0x0
-FW CFG Signature: 0x554D4551
-Select Item: 0x1
-FW CFG Revision: 0x3
-QemuFwCfg interface (DMA) is supported.
-Select Item: 0x19
-Select Item: 0x19
-Select Item: 0x26
-DetectSmbiosVersion: SMBIOS version from QEMU: 0x0208
-InstallProtocolInterface: 03583FF6-CB36-4940-947E-B9B39F4AFAF7 70F6BD0
-Loading driver 17985E6F-E778-4D94-AEFA-C5DD2B77E186
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 7140040
-Loading driver at 0x000070EA000 EntryPoint=0x000070EE259 QemuFwCfgAcpiPlatform.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 7143418
-ProtectUefiImageCommon - 0x7140040
- - 0x00000000070EA000 - 0x0000000000006700
-Select Item: 0x0
-FW CFG Signature: 0x554D4551
-Select Item: 0x1
-FW CFG Revision: 0x3
-QemuFwCfg interface (DMA) is supported.
-AcpiPlatformEntryPoint: waiting for root bridges to be connected, registered callback
-Loading driver FA20568B-548B-4B2B-81EF-1BA08D4A3CEC
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 7140A40
-Loading driver at 0x000070A3000 EntryPoint=0x000070AC985 BootScriptExecutorDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 7140998
-ProtectUefiImageCommon - 0x7140A40
- - 0x00000000070A3000 - 0x000000000000F280
-Loading driver A487A478-51EF-48AA-8794-7BEE2A0562F1
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 7131040
-Loading driver at 0x000070B8000 EntryPoint=0x000070BE8EE tftpDynamicCommand.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 7140518
-InstallProtocolInterface: 6A1EE763-D47A-43B4-AABE-EF1DE2AB56FC 70C0EB0
-ProtectUefiImageCommon - 0x7131040
- - 0x00000000070B8000 - 0x000000000000AA00
-InstallProtocolInterface: 3C7200E9-005F-4EA4-87DE-A3DFAC8A27C3 70C0A80
-Loading driver 19618BCE-55AE-09C6-37E9-4CE04084C7A1
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 71314C0
-Loading driver at 0x00007096000 EntryPoint=0x0000709E0B2 httpDynamicCommand.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 7131798
-InstallProtocolInterface: 6A1EE763-D47A-43B4-AABE-EF1DE2AB56FC 70A0C30
-ProtectUefiImageCommon - 0x71314C0
- - 0x0000000007096000 - 0x000000000000CEC0
-InstallProtocolInterface: 3C7200E9-005F-4EA4-87DE-A3DFAC8A27C3 70A0780
-Loading driver 2F30DA26-F51B-4B6F-85C4-31873C281BCA
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 710A7C0
-Loading driver at 0x0000708E000 EntryPoint=0x0000709329B LinuxInitrdDynamicShellCommand.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 710A598
-InstallProtocolInterface: 6A1EE763-D47A-43B4-AABE-EF1DE2AB56FC 70953B0
-ProtectUefiImageCommon - 0x710A7C0
- - 0x000000000708E000 - 0x0000000000007EC0
-InstallProtocolInterface: 3C7200E9-005F-4EA4-87DE-A3DFAC8A27C3 7095090
-Loading driver F74D20EE-37E7-48FC-97F7-9B1047749C69
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 7106C40
-Loading driver at 0x000070E5000 EntryPoint=0x000070E5FB0 LogoDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 70E4F18
-InstallProtocolInterface: 6A1EE763-D47A-43B4-AABE-EF1DE2AB56FC 70E6AF0
-ProtectUefiImageCommon - 0x7106C40
- - 0x00000000070E5000 - 0x0000000000004A40
-InstallProtocolInterface: 53CD299F-2BC1-40C0-8C07-23F64FDB30E0 70E6940
-Loading driver DCE1B094-7DC6-45D0-9FDD-D7FC3CC3E4EF
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 70E45C0
-Loading driver at 0x000070B3000 EntryPoint=0x000070B588F QemuRamfbDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 7102F18
-ProtectUefiImageCommon - 0x70E45C0
- - 0x00000000070B3000 - 0x0000000000004980
-Select Item: 0x0
-FW CFG Signature: 0x554D4551
-Select Item: 0x1
-FW CFG Revision: 0x3
-QemuFwCfg interface (DMA) is supported.
-Select Item: 0x19
-Error: Image at 000070B3000 start failed: Not Found
-Loading driver FE5CEA76-4F72-49E8-986F-2CD899DFFE5D
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 70E45C0
-Loading driver at 0x00007088000 EntryPoint=0x0000708BD45 FaultTolerantWriteDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 7102F98
-ProtectUefiImageCommon - 0x70E45C0
- - 0x0000000007088000 - 0x0000000000005740
-Ftw: FtwWorkSpaceLba - 0x41, WorkBlockSize - 0x1000, FtwWorkSpaceBase - 0x0
-Ftw: FtwSpareLba - 0x42, SpareBlockSize - 0x1000
-Ftw: NumberOfWorkBlock - 0x1, FtwWorkBlockLba - 0x41
-Ftw: WorkSpaceLbaInSpare - 0x0, WorkSpaceBaseInSpare - 0x0
-Ftw: Remaining work space size - FE0
-InstallProtocolInterface: 3EBD9E82-2C78-4DE6-9786-8D4BFCB7C881 70E2028
-NOTICE - AuthVariableLibInitialize() returns Unsupported!
-Variable driver will continue to work without auth variable support!
-RecordSecureBootPolicyVarData GetVariable SecureBoot Status E
-InstallProtocolInterface: 6441F818-6362-4E44-B570-7DBA31DD2453 0
-Loading driver 378D7B65-8DA9-4773-B6E4-A47826A833E1
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 7102340
-Loading driver at 0x00007ABA000 EntryPoint=0x00007ABD1BB PcRtc.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 7102A18
-ProtectUefiImageCommon - 0x7102340
- - 0x0000000007ABA000 - 0x0000000000006000
-SetUefiImageMemoryAttributes - 0x0000000007ABA000 - 0x0000000000001000 (0x0000000000004008)
-SetUefiImageMemoryAttributes - 0x0000000007ABB000 - 0x0000000000004000 (0x0000000000020008)
-SetUefiImageMemoryAttributes - 0x0000000007ABF000 - 0x0000000000001000 (0x0000000000004008)
-InstallProtocolInterface: 27CFAC87-46CC-11D4-9A38-0090273FC14D 0
-Loading driver F099D67F-71AE-4C36-B2A3-DCEB0EB2B7D8
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 7101CC0
-Loading driver at 0x000070DE000 EntryPoint=0x000070DF076 WatchdogTimer.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 7101A98
-ProtectUefiImageCommon - 0x7101CC0
- - 0x00000000070DE000 - 0x0000000000001E80
-InstallProtocolInterface: 665E3FF5-46CC-11D4-9A38-0090273FC14D 70DFCF0
-Loading driver AD608272-D07F-4964-801E-7BD3B7888652
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 71012C0
-Loading driver at 0x00007AB6000 EntryPoint=0x00007AB7E3D MonotonicCounterRuntimeDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 70E1018
-ProtectUefiImageCommon - 0x71012C0
- - 0x0000000007AB6000 - 0x0000000000004000
-SetUefiImageMemoryAttributes - 0x0000000007AB6000 - 0x0000000000001000 (0x0000000000004008)
-SetUefiImageMemoryAttributes - 0x0000000007AB7000 - 0x0000000000002000 (0x0000000000020008)
-SetUefiImageMemoryAttributes - 0x0000000007AB9000 - 0x0000000000001000 (0x0000000000004008)
-InstallProtocolInterface: 1DA97072-BDDC-4B30-99F1-72A0B56FFF2A 0
-Loading driver 42857F0A-13F2-4B21-8A23-53D3F714B840
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 70E1840
-Loading driver at 0x00007AB2000 EntryPoint=0x00007AB4083 CapsuleRuntimeDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 70E1718
-ProtectUefiImageCommon - 0x70E1840
- - 0x0000000007AB2000 - 0x0000000000004000
-SetUefiImageMemoryAttributes - 0x0000000007AB2000 - 0x0000000000001000 (0x0000000000004008)
-SetUefiImageMemoryAttributes - 0x0000000007AB3000 - 0x0000000000002000 (0x0000000000020008)
-SetUefiImageMemoryAttributes - 0x0000000007AB5000 - 0x0000000000001000 (0x0000000000004008)
-InstallProtocolInterface: 5053697E-2CBC-4819-90D9-0580DEEE5754 0
-Loading driver EBF8ED7C-0DD1-4787-84F1-F48D537DCACF
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 70E0BC0
-Loading driver at 0x0000707A000 EntryPoint=0x0000707DDE2 DriverHealthManagerDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 70E0118
-ProtectUefiImageCommon - 0x70E0BC0
- - 0x000000000707A000 - 0x0000000000006140
-InstallProtocolInterface: 09576E91-6D3F-11D2-8E39-00A0C969723B 707FEE0
-InstallProtocolInterface: 330D4706-F2A0-4E4F-A369-B66FA8D54385 707FEB0
-Loading driver 6D33944A-EC75-4855-A54D-809C75241F6C
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 70DD040
-Loading driver at 0x00007042000 EntryPoint=0x000070521E0 BdsDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 70E0518
-ProtectUefiImageCommon - 0x70DD040
- - 0x0000000007042000 - 0x000000000001B9C0
-Select Item: 0x0
-FW CFG Signature: 0x554D4551
-Select Item: 0x1
-FW CFG Revision: 0x3
-QemuFwCfg interface (DMA) is supported.
-InstallProtocolInterface: 665E3FF6-46CC-11D4-9A38-0090273FC14D 705D260
-Loading driver 28A03FF4-12B3-4305-A417-BB1A4F94081E
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 70B7BC0
-Loading driver at 0x00007064000 EntryPoint=0x0000706AE57 RamDiskDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 70B7F18
-ProtectUefiImageCommon - 0x70B7BC0
- - 0x0000000007064000 - 0x000000000000AD80
-InstallProtocolInterface: 09576E91-6D3F-11D2-8E39-00A0C969723B 70B7998
-InstallProtocolInterface: 330D4706-F2A0-4E4F-A369-B66FA8D54385 706EAD8
-InstallProtocolInterface: 09576E91-6D3F-11D2-8E39-00A0C969723B 706E9C0
-InstallProtocolInterface: 330D4706-F2A0-4E4F-A369-B66FA8D54385 70B4EB0
-InstallProtocolInterface: AB38A0DF-6873-44A9-87E6-D4EB56148449 706EA00
-InstallProtocolInterface: 28A03FF4-12B3-4305-A417-BB1A4F94081E 70B4E98
-Loading driver E660EA85-058E-4B55-A54B-F02F83A24707
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 70B57C0
-Loading driver at 0x0000701A000 EntryPoint=0x00007028CAE DisplayEngine.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 70B5718
-ProtectUefiImageCommon - 0x70B57C0
- - 0x000000000701A000 - 0x0000000000013D00
-InstallProtocolInterface: 9BBE29E9-FDA1-41EC-AD52-452213742D2E 702C190
-InstallProtocolInterface: 4311EDC0-6054-46D4-9E40-893EA952FCCC 702C1A8
-Loading driver 4110465D-5FF3-4F4B-B580-24ED0D06747A
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 70840C0
-Loading driver at 0x00007074000 EntryPoint=0x000070756D6 SmbiosPlatformDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 7084998
-ProtectUefiImageCommon - 0x70840C0
- - 0x0000000007074000 - 0x0000000000002DC0
-Select Item: 0x0
-FW CFG Signature: 0x554D4551
-Select Item: 0x1
-FW CFG Revision: 0x3
-QemuFwCfg interface (DMA) is supported.
-Select Item: 0x19
-Select Item: 0x27
-SmbiosAdd: Smbios type 1 with size 0x54 is added to 32-bit table
-SmbiosCreateTable: Initialize 32-bit entry point structure
-SmbiosCreateTable() re-allocate SMBIOS 32-bit table
-SmbiosAdd: Smbios type 3 with size 0x2C is added to 32-bit table
-SmbiosAdd: Smbios type 4 with size 0x47 is added to 32-bit table
-SmbiosAdd: Smbios type 16 with size 0x19 is added to 32-bit table
-SmbiosAdd: Smbios type 17 with size 0x35 is added to 32-bit table
-SmbiosAdd: Smbios type 19 with size 0x21 is added to 32-bit table
-SmbiosAdd: Smbios type 32 with size 0xD is added to 32-bit table
-SmbiosAdd: Smbios type 0 with size 0x4A is added to 32-bit table
-Loading driver D9DCC5DF-4007-435E-9098-8970935504B2
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 70811C0
-Loading driver at 0x0000705F000 EntryPoint=0x0000706197E PlatformDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 7084598
-ProtectUefiImageCommon - 0x70811C0
- - 0x000000000705F000 - 0x0000000000004900
-InstallProtocolInterface: 09576E91-6D3F-11D2-8E39-00A0C969723B 7063740
-InstallProtocolInterface: 330D4706-F2A0-4E4F-A369-B66FA8D54385 7063810
-Loading driver 93B80004-9FB3-11D4-9A3A-0090273FC14D
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 70790C0
-Loading driver at 0x0000700A000 EntryPoint=0x00007016E9C PciBusDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 7079318
-ProtectUefiImageCommon - 0x70790C0
- - 0x000000000700A000 - 0x000000000000F500
-InstallProtocolInterface: 18A031AB-B443-4D1A-A5C0-0C09261E9F71 70191C0
-InstallProtocolInterface: 107A772C-D5E1-11D4-9A46-0090273FC14D 7019190
-InstallProtocolInterface: 6A7A5CFF-E8D9-4F70-BADA-75AB3025CE14 7019170
-InstallProtocolInterface: 19CB87AB-2CB9-4665-8360-DDCF6054F79D 7019150
-Loading driver 83DD3B39-7CAF-4FAC-A542-E050B767E3A7
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 70781C0
-Loading driver at 0x0000703E000 EntryPoint=0x0000703FDA2 VirtioPciDeviceDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 7078B98
-ProtectUefiImageCommon - 0x70781C0
- - 0x000000000703E000 - 0x00000000000030C0
-InstallProtocolInterface: 18A031AB-B443-4D1A-A5C0-0C09261E9F71 7040F60
-InstallProtocolInterface: 107A772C-D5E1-11D4-9A46-0090273FC14D 7040F40
-InstallProtocolInterface: 6A7A5CFF-E8D9-4F70-BADA-75AB3025CE14 7040F20
-Loading driver 0170F60C-1D40-4651-956D-F0BD9879D527
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 7078540
-Loading driver at 0x00007039000 EntryPoint=0x0000703C4E8 Virtio10.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 7077F98
-ProtectUefiImageCommon - 0x7078540
- - 0x0000000007039000 - 0x0000000000004CC0
-InstallProtocolInterface: 18A031AB-B443-4D1A-A5C0-0C09261E9F71 703DB60
-InstallProtocolInterface: 107A772C-D5E1-11D4-9A46-0090273FC14D 703DB40
-InstallProtocolInterface: 6A7A5CFF-E8D9-4F70-BADA-75AB3025CE14 703DB20
-Loading driver 11D92DFB-3CA9-4F93-BA2E-4780ED3E03B5
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 70777C0
-Loading driver at 0x00007035000 EntryPoint=0x00007037361 VirtioBlkDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 7077118
-ProtectUefiImageCommon - 0x70777C0
- - 0x0000000007035000 - 0x0000000000003640
-InstallProtocolInterface: 18A031AB-B443-4D1A-A5C0-0C09261E9F71 7038500
-InstallProtocolInterface: 107A772C-D5E1-11D4-9A46-0090273FC14D 70384E0
-InstallProtocolInterface: 6A7A5CFF-E8D9-4F70-BADA-75AB3025CE14 70384C0
-Loading driver FAB5D4F4-83C0-4AAF-8480-442D11DF6CEA
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 706F040
-Loading driver at 0x00007031000 EntryPoint=0x00007033842 VirtioScsiDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 7077418
-ProtectUefiImageCommon - 0x706F040
- - 0x0000000007031000 - 0x0000000000003B00
-InstallProtocolInterface: 18A031AB-B443-4D1A-A5C0-0C09261E9F71 7034980
-InstallProtocolInterface: 107A772C-D5E1-11D4-9A46-0090273FC14D 7034960
-InstallProtocolInterface: 6A7A5CFF-E8D9-4F70-BADA-75AB3025CE14 7034940
-Loading driver 58E26F0D-CBAC-4BBA-B70F-18221415665A
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 706F9C0
-Loading driver at 0x00007006000 EntryPoint=0x00007007E1F VirtioRngDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 706F798
-ProtectUefiImageCommon - 0x706F9C0
- - 0x0000000007006000 - 0x0000000000003040
-InstallProtocolInterface: 18A031AB-B443-4D1A-A5C0-0C09261E9F71 7008EE0
-InstallProtocolInterface: 107A772C-D5E1-11D4-9A46-0090273FC14D 7008EC0
-InstallProtocolInterface: 6A7A5CFF-E8D9-4F70-BADA-75AB3025CE14 7008EA0
-Loading driver 30346B14-1580-4781-879D-BA0C55AE9BB2
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 705E040
-Loading driver at 0x00007002000 EntryPoint=0x000070042AF PvScsiDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 705ED18
-ProtectUefiImageCommon - 0x705E040
- - 0x0000000007002000 - 0x00000000000034C0
-InstallProtocolInterface: 18A031AB-B443-4D1A-A5C0-0C09261E9F71 7005380
-InstallProtocolInterface: 107A772C-D5E1-11D4-9A46-0090273FC14D 7005360
-InstallProtocolInterface: 6A7A5CFF-E8D9-4F70-BADA-75AB3025CE14 7005340
-Loading driver 2B3DB5DD-B315-4961-8454-0AFF3C811B19
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 705E440
-Loading driver at 0x00006DFC000 EntryPoint=0x00006DFE1CA MptScsiDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 705EC18
-ProtectUefiImageCommon - 0x705E440
- - 0x0000000006DFC000 - 0x0000000000003480
-InstallProtocolInterface: 18A031AB-B443-4D1A-A5C0-0C09261E9F71 6DFF340
-InstallProtocolInterface: 107A772C-D5E1-11D4-9A46-0090273FC14D 6DFF320
-InstallProtocolInterface: 6A7A5CFF-E8D9-4F70-BADA-75AB3025CE14 6DFF300
-Loading driver 51CCF399-4FDF-4E55-A45B-E123F84D456A
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 7073B40
-Loading driver at 0x00006DF2000 EntryPoint=0x00006DF4831 ConPlatformDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 705E718
-ProtectUefiImageCommon - 0x7073B40
- - 0x0000000006DF2000 - 0x00000000000040C0
-InstallProtocolInterface: 18A031AB-B443-4D1A-A5C0-0C09261E9F71 6DF5E60
-InstallProtocolInterface: 107A772C-D5E1-11D4-9A46-0090273FC14D 6DF5ED0
-InstallProtocolInterface: 6A7A5CFF-E8D9-4F70-BADA-75AB3025CE14 6DF5EB0
-InstallProtocolInterface: 18A031AB-B443-4D1A-A5C0-0C09261E9F71 6DF5E20
-InstallProtocolInterface: 107A772C-D5E1-11D4-9A46-0090273FC14D 6DF5ED0
-InstallProtocolInterface: 6A7A5CFF-E8D9-4F70-BADA-75AB3025CE14 6DF5EB0
-Loading driver 408EDCEC-CF6D-477C-A5A8-B4844E3DE281
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 70731C0
-Loading driver at 0x00006DE2000 EntryPoint=0x00006DE719C ConSplitterDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 7073518
-ProtectUefiImageCommon - 0x70731C0
- - 0x0000000006DE2000 - 0x0000000000007540
-InstallProtocolInterface: 18A031AB-B443-4D1A-A5C0-0C09261E9F71 6DE91E0
-InstallProtocolInterface: 107A772C-D5E1-11D4-9A46-0090273FC14D 6DE91B0
-InstallProtocolInterface: 6A7A5CFF-E8D9-4F70-BADA-75AB3025CE14 6DE9190
-InstallProtocolInterface: 18A031AB-B443-4D1A-A5C0-0C09261E9F71 6DE9160
-InstallProtocolInterface: 107A772C-D5E1-11D4-9A46-0090273FC14D 6DE9130
-InstallProtocolInterface: 6A7A5CFF-E8D9-4F70-BADA-75AB3025CE14 6DE9110
-InstallProtocolInterface: 18A031AB-B443-4D1A-A5C0-0C09261E9F71 6DE90E0
-InstallProtocolInterface: 107A772C-D5E1-11D4-9A46-0090273FC14D 6DE90B0
-InstallProtocolInterface: 6A7A5CFF-E8D9-4F70-BADA-75AB3025CE14 6DE9090
-InstallProtocolInterface: 18A031AB-B443-4D1A-A5C0-0C09261E9F71 6DE9060
-InstallProtocolInterface: 107A772C-D5E1-11D4-9A46-0090273FC14D 6DE9030
-InstallProtocolInterface: 6A7A5CFF-E8D9-4F70-BADA-75AB3025CE14 6DE9010
-InstallProtocolInterface: 18A031AB-B443-4D1A-A5C0-0C09261E9F71 6DE8FE0
-InstallProtocolInterface: 107A772C-D5E1-11D4-9A46-0090273FC14D 6DE8FB0
-InstallProtocolInterface: 6A7A5CFF-E8D9-4F70-BADA-75AB3025CE14 6DE8F90
-InstallProtocolInterface: 387477C1-69C7-11D2-8E39-00A0C969723B 6DE8E10
-InstallProtocolInterface: DD9E7534-7762-4698-8C14-F58517A625AA 6DE8E40
-InstallProtocolInterface: 31878C87-0B75-11D5-9A4F-0090273FC14D 6DE8EB0
-InstallProtocolInterface: 8D59D32B-C655-4AE9-9B15-F25904992A43 6DE8F08
-InstallProtocolInterface: 387477C2-69C7-11D2-8E39-00A0C969723B 6DE9250
-InstallProtocolInterface: 387477C2-69C7-11D2-8E39-00A0C969723B 6DE8CB0
-Loading driver CCCB0C28-4B24-11D5-9A5A-0090273FC14D
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 70307C0
-Loading driver at 0x00006DDC000 EntryPoint=0x00006DDF113 GraphicsConsoleDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 7072B98
-ProtectUefiImageCommon - 0x70307C0
- - 0x0000000006DDC000 - 0x0000000000005F00
-InstallProtocolInterface: 18A031AB-B443-4D1A-A5C0-0C09261E9F71 6DE1D00
-InstallProtocolInterface: 107A772C-D5E1-11D4-9A46-0090273FC14D 6DE1CE0
-InstallProtocolInterface: 6A7A5CFF-E8D9-4F70-BADA-75AB3025CE14 6DE1CC0
-Loading driver 9E863906-A40F-4875-977F-5B93FF237FC6
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 702FB40
-Loading driver at 0x00006DD4000 EntryPoint=0x00006DD9CE4 TerminalDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 702FE98
-ProtectUefiImageCommon - 0x702FB40
- - 0x0000000006DD4000 - 0x0000000000007EC0
-InstallProtocolInterface: 18A031AB-B443-4D1A-A5C0-0C09261E9F71 6DDBCE0
-InstallProtocolInterface: 107A772C-D5E1-11D4-9A46-0090273FC14D 6DDBCB0
-InstallProtocolInterface: 6A7A5CFF-E8D9-4F70-BADA-75AB3025CE14 6DDBC90
-Loading driver 806040CA-DAD9-4978-A3B4-2D2AB0C8A48F
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 702F1C0
-Loading driver at 0x00006DCF000 EntryPoint=0x00006DD1289 QemuKernelLoaderFsDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 702F798
-ProtectUefiImageCommon - 0x702F1C0
- - 0x0000000006DCF000 - 0x00000000000040C0
-Select Item: 0x0
-FW CFG Signature: 0x554D4551
-Select Item: 0x1
-FW CFG Revision: 0x3
-QemuFwCfg interface (DMA) is supported.
-Select Item: 0x17
-Select Item: 0x8
-Select Item: 0xB
-Select Item: 0x14
-Error: Image at 00006DCF000 start failed: Not Found
-Loading driver 6B38F7B4-AD98-40E9-9093-ACA2B5A253C4
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 702F1C0
-Loading driver at 0x00006DCF000 EntryPoint=0x00006DD21CE DiskIoDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 702F498
-ProtectUefiImageCommon - 0x702F1C0
- - 0x0000000006DCF000 - 0x0000000000004AC0
-InstallProtocolInterface: 18A031AB-B443-4D1A-A5C0-0C09261E9F71 6DD3940
-InstallProtocolInterface: 107A772C-D5E1-11D4-9A46-0090273FC14D 6DD3910
-InstallProtocolInterface: 6A7A5CFF-E8D9-4F70-BADA-75AB3025CE14 6DD38F0
-Loading driver 1FA1F39E-FEFF-4AAE-BD7B-38A070A3B609
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 702ECC0
-Loading driver at 0x00006DC8000 EntryPoint=0x00006DCCBD8 PartitionDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 702E898
-ProtectUefiImageCommon - 0x702ECC0
- - 0x0000000006DC8000 - 0x00000000000066C0
-InstallProtocolInterface: 18A031AB-B443-4D1A-A5C0-0C09261E9F71 6DCE520
-InstallProtocolInterface: 107A772C-D5E1-11D4-9A46-0090273FC14D 6DCE500
-InstallProtocolInterface: 6A7A5CFF-E8D9-4F70-BADA-75AB3025CE14 6DCE4E0
-Loading driver CD3BAFB6-50FB-4FE8-8E4E-AB74D2C1A600
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 702E3C0
-Loading driver at 0x00006DEF000 EntryPoint=0x00006DF0250 EnglishDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 702E718
-ProtectUefiImageCommon - 0x702E3C0
- - 0x0000000006DEF000 - 0x00000000000020C0
-InstallProtocolInterface: 1D85CD7F-F43D-11D2-9A0C-0090273FC14D 6DF0C20
-InstallProtocolInterface: A4C751FC-23AE-4C3E-92E9-4964CF63F349 6DF0BC0
-Loading driver 0167CCC4-D0F7-4F21-A3EF-9E64B7CDCE8B
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 70018C0
-Loading driver at 0x00006DC3000 EntryPoint=0x00006DC5BF3 ScsiBus.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 7001198
-ProtectUefiImageCommon - 0x70018C0
- - 0x0000000006DC3000 - 0x0000000000004040
-InstallProtocolInterface: 18A031AB-B443-4D1A-A5C0-0C09261E9F71 6DC6EA0
-InstallProtocolInterface: 107A772C-D5E1-11D4-9A46-0090273FC14D 6DC6E80
-InstallProtocolInterface: 6A7A5CFF-E8D9-4F70-BADA-75AB3025CE14 6DC6E60
-Loading driver 0A66E322-3740-4CCE-AD62-BD172CECCA35
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 70013C0
-Loading driver at 0x00006DAF000 EntryPoint=0x00006DB71FF ScsiDisk.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 7000F98
-ProtectUefiImageCommon - 0x70013C0
- - 0x0000000006DAF000 - 0x0000000000009C80
-InstallProtocolInterface: 18A031AB-B443-4D1A-A5C0-0C09261E9F71 6DB8B20
-InstallProtocolInterface: 107A772C-D5E1-11D4-9A46-0090273FC14D 6DB8AF0
-InstallProtocolInterface: 6A7A5CFF-E8D9-4F70-BADA-75AB3025CE14 6DB8AD0
-Loading driver 021722D8-522B-4079-852A-FE44C2C13F49
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 7000140
-Loading driver at 0x00006DBF000 EntryPoint=0x00006DC0F79 SataController.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 7000398
-ProtectUefiImageCommon - 0x7000140
- - 0x0000000006DBF000 - 0x0000000000003380
-InstallProtocolInterface: 18A031AB-B443-4D1A-A5C0-0C09261E9F71 6DC2220
-InstallProtocolInterface: 107A772C-D5E1-11D4-9A46-0090273FC14D 6DC2200
-InstallProtocolInterface: 6A7A5CFF-E8D9-4F70-BADA-75AB3025CE14 6DC21E0
-Loading driver 5E523CB4-D397-4986-87BD-A6DD8B22F455
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 6DF9040
-Loading driver at 0x00006D97000 EntryPoint=0x00006D9FACA AtaAtapiPassThruDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 7000598
-ProtectUefiImageCommon - 0x6DF9040
- - 0x0000000006D97000 - 0x000000000000B400
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-ProtectUefiImageCommon - 0x6D7B5C0
- - 0x0000000006C6D000 - 0x0000000000005B40
-InstallProtocolInterface: 18A031AB-B443-4D1A-A5C0-0C09261E9F71 6C729E0
-InstallProtocolInterface: 107A772C-D5E1-11D4-9A46-0090273FC14D 6C729B0
-InstallProtocolInterface: 6A7A5CFF-E8D9-4F70-BADA-75AB3025CE14 6C72990
-Loading driver E3752948-B9A1-4770-90C4-DF41C38986BE
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 6D79540
-Loading driver at 0x00006C66000 EntryPoint=0x00006C69D2B QemuVideoDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 6D79E18
-ProtectUefiImageCommon - 0x6D79540
- - 0x0000000006C66000 - 0x0000000000006300
-InstallProtocolInterface: 18A031AB-B443-4D1A-A5C0-0C09261E9F71 6C6C120
-InstallProtocolInterface: 107A772C-D5E1-11D4-9A46-0090273FC14D 6C6C100
-InstallProtocolInterface: 6A7A5CFF-E8D9-4F70-BADA-75AB3025CE14 6C6C0E0
-Loading driver D6099B94-CD97-4CC5-8714-7F6312701A8A
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 6D797C0
-Loading driver at 0x00006C60000 EntryPoint=0x00006C63FF6 VirtioGpuDxe.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 6D78B98
-ProtectUefiImageCommon - 0x6D797C0
- - 0x0000000006C60000 - 0x0000000000005C00
-InstallProtocolInterface: 18A031AB-B443-4D1A-A5C0-0C09261E9F71 6C65AA0
-InstallProtocolInterface: 6A7A5CFF-E8D9-4F70-BADA-75AB3025CE14 6C65A80
-[Bds] Entry...
-[BdsDxe] Locate Variable Policy protocol - Success
-Variable Driver Auto Update PlatformLang, PlatformLang:en, Lang:eng Status: Success
-!!! DEPRECATED INTERFACE !!! VariableLockRequestToLock() will go away soon!
-!!! DEPRECATED INTERFACE !!! Please move to use Variable Policy!
-!!! DEPRECATED INTERFACE !!! Variable: 8BE4DF61-93CA-11D2-AA0D-00E098032B8C PlatformRecovery0000
-PlatformBootManagerBeforeConsole
-Registered NotifyDevPath Event
-PCI Bus First Scanning
-PciBus: Discovered PCI @ [00|00|00]
-
-PciBus: Discovered PCI @ [00|01|00]
-
-PciBus: Discovered PCI @ [00|01|01]
- BAR[4]: Type = Io32; Alignment = 0xF; Length = 0x10; Offset = 0x20
-
-PciBus: Discovered PCI @ [00|01|03]
-
-PCI Bus Second Scanning
-PciBus: Discovered PCI @ [00|00|00]
-
-PciBus: Discovered PCI @ [00|01|00]
-
-PciBus: Discovered PCI @ [00|01|01]
- BAR[4]: Type = Io32; Alignment = 0xF; Length = 0x10; Offset = 0x20
-
-PciBus: Discovered PCI @ [00|01|03]
-
-PciBus: Discovered PCI @ [00|00|00]
-
-PciBus: Discovered PCI @ [00|01|00]
-
-PciBus: Discovered PCI @ [00|01|01]
- BAR[4]: Type = Io32; Alignment = 0xF; Length = 0x10; Offset = 0x20
-
-PciBus: Discovered PCI @ [00|01|03]
-
-PciHostBridge: SubmitResources for PciRoot(0x0)
- I/O: Granularity/SpecificFlag = 0 / 01
- Length/Alignment = 0x1000 / 0xFFF
-PciBus: HostBridge->SubmitResources() - Success
-PciHostBridge: NotifyPhase (AllocateResources)
- RootBridge: PciRoot(0x0)
- I/O: Base/Length/Alignment = C000/1000/FFF - Success
-PciBus: HostBridge->NotifyPhase(AllocateResources) - Success
-Process Option ROM: BAR Base/Length = 0/0
-PciBus: Resource Map for Root Bridge PciRoot(0x0)
-Type = Io16; Base = 0xC000; Length = 0x1000; Alignment = 0xFFF
- Base = 0xC000; Length = 0x10; Alignment = 0xF; Owner = PCI [00|01|01:20]
-
-InstallProtocolInterface: 09576E91-6D3F-11D2-8E39-00A0C969723B 6D78898
-InstallProtocolInterface: 4CF5B200-68B8-4CA5-9EEC-B23E3F50029A 6D776A8
-InstallProtocolInterface: 09576E91-6D3F-11D2-8E39-00A0C969723B 6D78918
-InstallProtocolInterface: 4CF5B200-68B8-4CA5-9EEC-B23E3F50029A 6D76028
-InstallProtocolInterface: 09576E91-6D3F-11D2-8E39-00A0C969723B 6D76E98
-InstallProtocolInterface: 4CF5B200-68B8-4CA5-9EEC-B23E3F50029A 6D76428
-InstallProtocolInterface: 09576E91-6D3F-11D2-8E39-00A0C969723B 6D76F18
-InstallProtocolInterface: 4CF5B200-68B8-4CA5-9EEC-B23E3F50029A 6D76828
-InstallProtocolInterface: 30CFE3E7-3DE1-4586-BE20-DEABA1B3B793 0
-OnRootBridgesConnected: root bridges have been connected, installing ACPI tables
-Select Item: 0x19
-Select Item: 0x29
-Select Item: 0x19
-Select Item: 0x28
-Select Item: 0x19
-Select Item: 0x21
-Select Item: 0x19
-Select Item: 0x22
-InstallQemuFwCfgTables: installed 5 tables
-PcRtc: Write 0x20 to CMOS location 0x32
-[Variable]END_OF_DXE is signaled
-Initialize variable error flag (FF)
-AcpiS3ContextSave!
-AcpiS3Context: AcpiFacsTable is 0x 7BDD000
-AcpiS3Context: IdtrProfile is 0x 7B6C000
-AcpiS3Context: S3NvsPageTableAddress is 0x 0
-AcpiS3Context: S3DebugBufferAddress is 0x 7B62000
-AcpiS3Context: BootScriptStackBase is 0x 7B63000
-AcpiS3Context: BootScriptStackSize is 0x 8000
-Found LPC Bridge device
-BdsPlatform.c+699: COM1 DevPath: PciRoot(0x0)/Pci(0x1,0x0)/Serial(0x0)/Uart(115200,8,N,1)/VenMsg(E0C14753-F9BE-11D2-9A0C-0090273FC14D)
-BdsPlatform.c+737: COM2 DevPath: PciRoot(0x0)/Pci(0x1,0x0)/Serial(0x1)/Uart(115200,8,N,1)/VenMsg(E0C14753-F9BE-11D2-9A0C-0090273FC14D)
-InstallProtocolInterface: 60FF8964-E906-41D0-AFED-F241E974E08E 0
-InstallProtocolInterface: FA20568B-548B-4B2B-81EF-1BA08D4A3CEC 0
-Select Item: 0xE
-[Bds]RegisterKeyNotify: 000C/0000 80000000/00 Success
-[Bds]RegisterKeyNotify: 0017/0000 80000000/00 Success
-[Bds]RegisterKeyNotify: 0000/000D 80000000/00 Success
-InstallProtocolInterface: 864E1CA8-85EB-4D63-9DCC-6E0FC90FFD55 714D598
-InstallProtocolInterface: 09576E91-6D3F-11D2-8E39-00A0C969723B 6D74A18
-InstallProtocolInterface: 215FDD18-BD50-4FEB-890B-58CA0B4739E9 6D749B8
-InstallProtocolInterface: 09576E91-6D3F-11D2-8E39-00A0C969723B 6D19298
-InstallProtocolInterface: 215FDD18-BD50-4FEB-890B-58CA0B4739E9 6D19E38
-InstallProtocolInterface: 09576E91-6D3F-11D2-8E39-00A0C969723B 6D19B18
-InstallProtocolInterface: 215FDD18-BD50-4FEB-890B-58CA0B4739E9 6D19A38
-ClockRate = 1843200
-Divisor = 1
-BaudRate/Actual (115200/115200) = 100%
-ClockRate = 1843200
-Divisor = 1
-BaudRate/Actual (115200/115200) = 100%
-InstallProtocolInterface: 09576E91-6D3F-11D2-8E39-00A0C969723B 6D19218
-InstallProtocolInterface: BB25CF6F-F1D4-11D2-9A0C-0090273FC1FD 6D190A8
-PciSioSerial: Create SIO child serial device - Success
-ClockRate = 1843200
-Divisor = 1
-BaudRate/Actual (115200/115200) = 100%
-Terminal - Mode 0, Column = 80, Row = 25
-Terminal - Mode 1, Column = 80, Row = 50
-Terminal - Mode 2, Column = 100, Row = 31
-ClockRate = 1843200
-Divisor = 1
-BaudRate/Actual (115200/115200) = 100%
-InstallProtocolInterface: 387477C1-69C7-11D2-8E39-00A0C969723B 6CFA7C0
-InstallProtocolInterface: DD9E7534-7762-4698-8C14-F58517A625AA 6CFA8A8
-InstallProtocolInterface: 387477C2-69C7-11D2-8E39-00A0C969723B 6CFA7D8
-InstallProtocolInterface: 09576E91-6D3F-11D2-8E39-00A0C969723B 6CF9018
-InstallProtocolInterface: D3B36F2B-D551-11D4-9A46-0090273FC14D 0
-InstallProtocolInterface: D3B36F2C-D551-11D4-9A46-0090273FC14D 0
-InstallProtocolInterface: D3B36F2D-D551-11D4-9A46-0090273FC14D 0
-ClockRate = 1843200
-Divisor = 1
-BaudRate/Actual (115200/115200) = 100%
-PciSioSerial: Create SIO child serial device - Device Error
-InstallProtocolInterface: 387477C1-69C7-11D2-8E39-00A0C969723B 6CB1028
-InstallProtocolInterface: DD9E7534-7762-4698-8C14-F58517A625AA 6CB1040
-InstallProtocolInterface: D3B36F2B-D551-11D4-9A46-0090273FC14D 0
-ClockRate = 1843200
-Divisor = 1
-BaudRate/Actual (115200/115200) = 100%
-PciSioSerial: Create SIO child serial device - Device Error
-ClockRate = 1843200
-Divisor = 1
-BaudRate/Actual (115200/115200) = 100%
-PciSioSerial: Create SIO child serial device - Device Error
-PlatformBootManagerAfterConsole
-PlatformBdsPolicyBehavior: not restoring NvVars from disk since flash variables appear to be supported.
-Boot Mode:0
-PlatformBdsConnectSequence
-Select Item: 0x19
-EfiBootManagerConnectAll
-ClockRate = 1843200
-Divisor = 1
-BaudRate/Actual (115200/115200) = 100%
-PciSioSerial: Create SIO child serial device - Device Error
-SataControllerStart START
-InstallProtocolInterface: A1E37052-80D9-4E65-A317-3E9A55C43EC9 6CB0EA0
-SataControllerStart END status = Success
-==AtaAtapiPassThru Start== Controller = 6D76C18
-[primary ] channel [master] [harddisk] device
-Enabled S.M.A.R.T feature at [primary] channel [master] device!
-CalculateBestPioMode: AdvancedPioMode = 3
-IdeInitCalculateMode: PioMode = 4
-CalculateBestUdmaMode: DeviceUDmaMode = 203F
-IdeInitCalculateMode: UdmaMode = 5
-InstallProtocolInterface: 1D3DE7F0-0807-424F-AA69-11A54E19A46F 6CF20C0
-InstallProtocolInterface: 143B7632-B81B-4CB7-ABD3-B625A5B9BFFE 6CF2110
-InstallProtocolInterface: 19DF145A-B1D4-453F-8507-38816676D7F6 6CF2698
-AtaBus - Identify Device: Port 0 PortMultiplierPort 0
-InstallProtocolInterface: 09576E91-6D3F-11D2-8E39-00A0C969723B 6CB0B18
-InstallProtocolInterface: 964E5B21-6459-11D2-8E39-00A0C969723B 6CB0728
-InstallProtocolInterface: A77B2472-E282-4E9F-A245-C2C0E27BBCC1 6CB0758
-InstallProtocolInterface: D432A67F-14DC-484B-B3BB-3F0291849327 6CB07B0
-Found TCG support in Port 0 PortMultiplierPort 0
-InstallProtocolInterface: C88B0B6D-0DFC-49A7-9CB4-49074B4C3A78 6CB07E8
-Successfully Install Storage Security Protocol on the ATA device
-InstallProtocolInterface: 0167CCC4-D0F7-4F21-A3EF-9E64B7CDCE8B 6C83820
-InstallProtocolInterface: CE345171-BA0B-11D2-8E4F-00A0C969723B 6C83120
-InstallProtocolInterface: 151C8EAE-7F2C-472C-9E54-9828194F6A88 6C83138
- BlockSize : 512
- LastBlock : FBFFF
-InstallProtocolInterface: 09576E91-6D3F-11D2-8E39-00A0C969723B 6C82098
-InstallProtocolInterface: 964E5B21-6459-11D2-8E39-00A0C969723B 6C82830
-InstallProtocolInterface: A77B2472-E282-4E9F-A245-C2C0E27BBCC1 6C82860
-InstallProtocolInterface: 8CF2F62C-BC9B-4821-808D-EC9EC421A1A0 6C828E8
-InstallProtocolInterface: CE345171-BA0B-11D2-8E4F-00A0C969723B 6C833A0
-InstallProtocolInterface: 151C8EAE-7F2C-472C-9E54-9828194F6A88 6C833B8
- BlockSize : 512
- LastBlock : FBFC0
-InstallProtocolInterface: 964E5B22-6459-11D2-8E39-00A0C969723B 6C4F030
-Installed Fat filesystem on 6C82118
-ClockRate = 1843200
-Divisor = 1
-BaudRate/Actual (115200/115200) = 100%
-PciSioSerial: Create SIO child serial device - Device Error
-SataControllerStart START
-SataControllerStart error return status = Already started
- BlockSize : 512
- LastBlock : FBFFF
-ClockRate = 1843200
-Divisor = 1
-BaudRate/Actual (115200/115200) = 100%
-PciSioSerial: Create SIO child serial device - Device Error
-Select Item: 0x19
-[Bds]OsIndication: 0000000000000000
-[Bds]=============Begin Load Options Dumping ...=============
- Driver Options:
- SysPrep Options:
- Boot Options:
- Boot0000: UiApp 0x0109
- Boot0001: UEFI QEMU HARDDISK QM00001 0x0001
- Boot0002: EFI Internal Shell 0x0001
- PlatformRecovery Options:
- PlatformRecovery0000: Default PlatformRecovery 0x0001
-[Bds]=============End Load Options Dumping=============
-[Bds]BdsWait ...Zzzzzzzzzzzz...
-[Bds]Exit the waiting!
-[Bds]Stop Hotkey Service!
-[Bds]UnregisterKeyNotify: 000C/0000 Success
-[Bds]UnregisterKeyNotify: 0017/0000 Success
-[Bds]UnregisterKeyNotify: 0000/000D Success
-Memory Previous Current Next
- Type Pages Pages Pages
-====== ======== ======== ========
- 0A 00000080 00000022 00000080
- 09 00000010 00000007 00000010
- 00 00000080 00000022 00000080
- 05 00000100 0000003D 00000100
- 06 00000100 000000B1 00000100
-[Bds]Booting UEFI QEMU HARDDISK QM00001
- BlockSize : 512
- LastBlock : FBFFF
- BlockSize : 512
- LastBlock : FBFFF
-[Bds] Expand PciRoot(0x0)/Pci(0x1,0x1)/Ata(Primary,Master,0x0) -> <null string>
-Memory Previous Current Next
- Type Pages Pages Pages
-====== ======== ======== ========
- 0A 00000080 00000022 00000080
- 09 00000010 00000007 00000010
- 00 00000080 00000022 00000080
- 05 00000100 0000003D 00000100
- 06 00000100 000000B1 00000100
-[Bds]Booting EFI Internal Shell
-[Bds] Expand Fv(7CB8BDC9-F8EB-4F34-AAEA-3EE4AF6516A1)/FvFile(7C04A583-9E3E-4F1C-AD65-E05268D0B4D1) -> Fv(7CB8BDC9-F8EB-4F34-AAEA-3EE4AF6516A1)/FvFile(7C04A583-9E3E-4F1C-AD65-E05268D0B4D1)
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 6CB0440
-Loading driver at 0x000064F5000 EntryPoint=0x0000654C804 Shell.efi
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 6CF3818
-ProtectUefiImageCommon - 0x6CB0440
- - 0x00000000064F5000 - 0x00000000000E24C0
-InstallProtocolInterface: 387477C2-69C7-11D2-8E39-00A0C969723B 66B84A0
-InstallProtocolInterface: 752F3136-4E16-4FDC-A22A-E5F46812F4CA 66B7F18
-InstallProtocolInterface: 6302D008-7F9B-4F30-87AC-60C9FEF5DA4E 65710C0
-FSOpen: Open '\' Success
-FSOpen: Open '.' Success
-FSOpen: Open '\MemtestEfi.efi' Success
-FSOpen: Open '\MemtestEfi.efi' Success
-FSOpen: Open '\MemtestEfi.efi' Success
-FSOpen: Open '\MemtestEfi.efi' Success
-[Security] 3rd party image[0] can be loaded after EndOfDxe: PciRoot(0x0)/Pci(0x1,0x1)/Ata(Primary,Master,0x0)/HD(1,MBR,0xBE1AFDFA,0x3F,0xFBFC1)/\MemtestEfi.efi.
-InstallProtocolInterface: 5B1B31A1-9562-11D2-8E3F-00A0C969723B 667F040
-Loading driver at 0x0000661D000 EntryPoint=0x000066299A5
-InstallProtocolInterface: BC62157E-3E33-4FEC-9920-2D3B36D750DF 6681698
-ProtectUefiImageCommon - 0x667F040
- - 0x000000000661D000 - 0x0000000000016D40
-InstallProtocolInterface: 752F3136-4E16-4FDC-A22A-E5F46812F4CA 7E9B6A8
diff --git a/test_code/gdbscripts/gdb_relocation_tests b/test_code/gdbscripts/gdb_relocation_tests
new file mode 100644
index 0000000..96b7226
--- /dev/null
+++ b/test_code/gdbscripts/gdb_relocation_tests
@@ -0,0 +1,12 @@
+add-symbol-file ../../memtest86plus_debug/build64/memtest.debug 0x201000
+
+b main
+b run_at
+b reloc
+b test_all_windows
+b main.c:407
+
+target remote localhost:1234
+layout src
+info b
+c
diff --git a/test_code/gdbscript b/test_code/gdbscripts/gdbscript
index 8316706..f0d4a38 100644
--- a/test_code/gdbscript
+++ b/test_code/gdbscripts/gdbscript
@@ -1,106 +1,104 @@
-add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/PcdPeim.debug 0x82c200
-add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/ReportStatusCodeRouterPei.debug 0x831380
-add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/StatusCodeHandlerPei.debug 0x833400
-add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/PlatformPei.debug 0x835380
+add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/PcdPeim.debug 0x82c380
+add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/ReportStatusCodeRouterPei.debug 0x831700
+add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/StatusCodeHandlerPei.debug 0x833900
+add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/PlatformPei.debug 0x835a00
add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/PeiCore.debug 0x7ee8240
add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/PcdPeim.debug 0x7ee2240
add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/DxeIpl.debug 0x7edd240
-add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/S3Resume2Pei.debug 0x7ed9240
-add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/CpuMpPei.debug 0x7ecc240
-add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/DxeCore.debug 0x7e9c240
-add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/DevicePathDxe.debug 0x7595240
-add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/PcdDxe.debug 0x758f240
-add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/AmdSevDxe.debug 0x75a2240
-add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/FvbServicesRuntimeDxe.debug 0x7ae8000
-add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/ReportStatusCodeRouterRuntimeDxe.debug 0x7ae2000
-add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/RuntimeDxe.debug 0x7adc000
-add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/SecurityStubDxe.debug 0x758c240
-add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/EbcDxe.debug 0x7580240
-add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/Legacy8259.debug 0x75a1240
-add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/CpuIo2Dxe.debug 0x7586240
-add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/CpuDxe.debug 0x715c240
-add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/IncompatiblePciDeviceSupportDxe.debug 0x7158240
-add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/PciHotPlugInitDxe.debug 0x714e240
-add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/ResetSystemRuntimeDxe.debug 0x7ad6000
-add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/Metronome.debug 0x7154240
-add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/HiiDatabase.debug 0x7110240
-add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/NullMemoryTestDxe.debug 0x7148240
-add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/AcpiTableDxe.debug 0x7138240
-add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/S3SaveStateDxe.debug 0x7132240
-add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/DpcDxe.debug 0x7145240
-add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/IoMmuDxe.debug 0x710b240
-add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/EmuVariableFvbRuntimeDxe.debug 0x7ad0000
-add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/VariableRuntimeDxe.debug 0x7ac6000
-add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/StatusCodeHandlerRuntimeDxe.debug 0x7ac1000
-add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/Timer.debug 0x7141240
-add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/PciHostBridgeDxe.debug 0x70f7240
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+add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/Ip4Dxe.debug 0x6ca8240
+add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/Udp4Dxe.debug 0x6cc7240
+add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/Mtftp4Dxe.debug 0x6cbd240
+add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/TcpDxe.debug 0x6c82240
+add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/UefiPxeBcDxe.debug 0x6c70240
+add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/IScsiDxe.debug 0x6c32240
+add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/VirtioNetDxe.debug 0x6c9c240
+add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/UhciDxe.debug 0x6c60240
+add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/EhciDxe.debug 0x6c29240
+add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/XhciDxe.debug 0x6c1b240
+add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/UsbBusDxe.debug 0x6c11240
+add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/UsbKbDxe.debug 0x6c69240
+add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/UsbMassStorageDxe.debug 0x6c96240
+add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/QemuVideoDxe.debug 0x6c52240
+add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/VirtioGpuDxe.debug 0x6c0a240
+add-symbol-file /home/koenigr/Memtest/git/edk2/Build/OvmfX64/DEBUG_GCC5/X64/Shell.debug 0x6449240
diff --git a/test_code/gdbscripts/memtest_gdbscript b/test_code/gdbscripts/memtest_gdbscript
new file mode 100644
index 0000000..94a7f53
--- /dev/null
+++ b/test_code/gdbscripts/memtest_gdbscript
@@ -0,0 +1,10 @@
+add-symbol-file ../../memtest86plus_debug/build64/memtest.debug 0x201000
+b main
+
+# while loop
+b *0x21414a
+
+# supposed main
+b *0x21412a
+
+target remote localhost:1234
diff --git a/test_code/test.sh b/test_code/test.sh
new file mode 100755
index 0000000..267a46a
--- /dev/null
+++ b/test_code/test.sh
@@ -0,0 +1,13 @@
+
+#!/bin/bash
+
+sudo qemu-system-x86_64 -s -bios ./OVMF.fd \
+ -hda fat:rw:hda-contents \
+ -drive if=pflash,format=raw,readonly,file=OVMF_CODE.fd \
+ -drive if=pflash,format=raw,file=OVMF_VARS.fd \
+ -net none -debugcon file:debug.log -global isa-debugcon.iobase=0x402 \
+ -monitor stdio \
+ -D ./qemu_log.txt
+# -d
+# --trace "memory_region*"
+# -S