/*
* librm: a library for interfacing to real-mode code
*
* Michael Brown <mbrown@fensystems.co.uk>
*
*/
/* Drag in local definitions */
#include "librm.h"
/* For switches to/from protected mode */
#define CR0_PE 1
/* Size of various C data structures */
#define SIZEOF_I386_SEG_REGS 12
#define SIZEOF_I386_REGS 32
#define SIZEOF_REAL_MODE_REGS ( SIZEOF_I386_SEG_REGS + SIZEOF_I386_REGS )
#define SIZEOF_I386_FLAGS 4
#define SIZEOF_I386_ALL_REGS ( SIZEOF_REAL_MODE_REGS + SIZEOF_I386_FLAGS )
.arch i386
.section ".text16", "ax", @progbits
.section ".text16.data", "aw", @progbits
.section ".data16", "aw", @progbits
/****************************************************************************
* Global descriptor table
*
* Call init_librm to set up the GDT before attempting to use any
* protected-mode code.
*
* Define FLATTEN_REAL_MODE if you want to use so-called "flat real
* mode" with 4GB limits instead.
*
* NOTE: This must be located before prot_to_real, otherwise gas
* throws a "can't handle non absolute segment in `ljmp'" error due to
* not knowing the value of REAL_CS when the ljmp is encountered.
*
* Note also that putting ".word gdt_end - gdt - 1" directly into
* gdt_limit, rather than going via gdt_length, will also produce the
* "non absolute segment" error. This is most probably a bug in gas.
****************************************************************************
*/
#ifdef FLATTEN_REAL_MODE
#define RM_LIMIT_16_19__AVL__SIZE__GRANULARITY 0x8f
#else
#define RM_LIMIT_16_19__AVL__SIZE__GRANULARITY 0x00
#endif
.section ".data16"
.align 16
gdt:
gdt_limit: .word gdt_length - 1
gdt_base: .long 0
.word 0 /* padding */
.org gdt + VIRTUAL_CS, 0
virtual_cs: /* 32 bit protected mode code segment, virtual addresses */
.word 0xffff, 0
.byte 0, 0x9f, 0xcf, 0
.org gdt + VIRTUAL_DS, 0
virtual_ds: /* 32 bit protected mode data segment, virtual addresses */
.word 0xffff, 0
.byte 0, 0x93, 0xcf, 0
.org gdt + PHYSICAL_CS, 0
physical_cs: /* 32 bit protected mode code segment, physical addresses */
.word 0xffff, 0
.byte 0, 0x9f, 0xcf, 0
.org gdt + PHYSICAL_DS, 0
physical_ds: /* 32 bit protected mode data segment, physical addresses */
.word 0xffff, 0
.byte 0, 0x93, 0xcf, 0
.org gdt + REAL_CS, 0
real_cs: /* 16 bit real mode code segment */
.word 0xffff, 0
.byte 0, 0x9b, RM_LIMIT_16_19__AVL__SIZE__GRANULARITY, 0
.org gdt + REAL_DS
real_ds: /* 16 bit real mode data segment */
.word 0xffff, 0
.byte 0, 0x93, RM_LIMIT_16_19__AVL__SIZE__GRANULARITY, 0
gdt_end:
.equ gdt_length, gdt_end - gdt
/****************************************************************************
* init_librm (real-mode far call, 16-bit real-mode far return address)
*
* Initialise the GDT ready for transitions to protected mode.
*
* Parameters:
* %cs : .text16 segment
* %ds : .data16 segment
* %edi : Physical base of protected-mode code (virt_offset)
****************************************************************************
*/
.section ".text16"
.code16
.globl init_librm
init_librm:
/* Preserve registers */
pushl %eax
pushl %ebx
/* Store _virt_offset and set up virtual_cs and virtual_ds segments */
movl %edi, %eax
movw $virtual_cs, %bx
call set_seg_base
movw $virtual_ds, %bx
call set_seg_base
movl %edi, _virt_offset
/* Negate virt_offset */
negl %edi
/* Store rm_cs and _text16, set up real_cs segment */
xorl %eax, %eax
movw %cs, %ax
movw %ax, rm_cs
shll $4, %eax
movw $real_cs, %bx
call set_seg_base
addr32 leal (%eax, %edi), %ebx
movl %ebx, _text16
/* Store rm_ds and _data16, set up real_ds segment and set GDT base */
xorl %eax, %eax
movw %ds, %ax
movw %ax, %cs:rm_ds
shll $4, %eax
movw $real_ds, %bx
call set_seg_base
addr32 leal (%eax, %edi), %ebx
movl %ebx, _data16
addl $gdt, %eax
movl %eax, gdt_base
/* Restore registers */
negl %edi
popl %ebx
popl %eax
lret
.section ".text16"
.code16
set_seg_base:
1: movw %ax, 2(%bx)
rorl $16, %eax
movb %al, 4(%bx)
movb %ah, 7(%bx)
roll $16, %eax
ret
/****************************************************************************
* real_to_prot (real-mode near call, 32-bit virtual return address)
*
* Switch from 16-bit real-mode to 32-bit protected mode with virtual
* addresses. The real-mode %ss:sp is stored in rm_ss and rm_sp, and
* the protected-mode %esp is restored from the saved pm_esp.
* Interrupts are disabled. All other registers may be destroyed.
*
* The return address for this function should be a 32-bit virtual
* address.
*
* Parameters:
* %ecx : number of bytes to move from RM stack to PM stack
*
****************************************************************************
*/
.section ".text16"
.code16
real_to_prot:
/* Make sure we have our data segment available */
movw %cs:rm_ds, %ax
movw %ax, %ds
/* Add _virt_offset, _text16 and _data16 to stack to be
* copied, and also copy the return address.
*/
pushl _virt_offset
pushl _text16
pushl _data16
addw $16, %cx /* %ecx must be less than 64kB anyway */
/* Real-mode %ss:%sp => %bp:%esi */
movw %ss, %bp
movzwl %sp, %esi
/* Switch to protected mode */
cli
data32 lgdt gdt
movl %cr0, %eax
orb $CR0_PE, %al
movl %eax, %cr0
data32 ljmp $VIRTUAL_CS, $1f
.section ".text"
.code32
1:
/* Set up protected-mode data segments */
movw $VIRTUAL_DS, %ax
movw %ax, %ds
movw %ax, %es
movw %ax, %fs
movw %ax, %gs
/* Move data from RM stack to PM stack and set up PM stack */
movl pm_esp, %esp
subl %ecx, %esp
movl %esp, %edi
rep ss movsb
movw %ax, %ss
/* Record real-mode %ss:sp (after removal of data) */
movw %bp, rm_ss
movw %si, rm_sp
/* Publish virt_offset, text16 and data16 for PM code to use */
popl data16
popl text16
popl virt_offset
/* Return to virtual address */
ret
/****************************************************************************
* prot_to_real (protected-mode near call, 32-bit real-mode return address)
*
* Switch from 32-bit protected mode with virtual addresses to 16-bit
* real mode. The protected-mode %esp is stored in pm_esp and the
* real-mode %ss:sp is restored from the saved rm_ss and rm_sp. The
* high word of the real-mode %esp is set to zero. All real-mode data
* segment registers are loaded from the saved rm_ds. Interrupts are
* *not* enabled, since we want to be able to use prot_to_real in an
* ISR. All other registers may be destroyed.
*
* The return address for this function should be a 32-bit (sic)
* real-mode offset within .code16.
*
* Parameters:
* %ecx : number of bytes to move from PM stack to RM stack
*
****************************************************************************
*/
.section ".text"
.code32
prot_to_real:
/* Add return address to data to be moved to RM stack */
addl $4, %ecx
/* Real-mode %ss:sp => %ebp:edx */
movzwl rm_ss, %ebp
movzwl rm_sp, %edx
subl %ecx, %edx
/* Move data from PM stack to RM stack */
movl %ebp, %eax
shll $4, %eax
leal (%eax,%edx), %edi
subl virt_offset, %edi
movl %esp, %esi
rep movsb
/* Record protected-mode %esp (after removal of data) */
movl %esi, pm_esp
/* Load real-mode segment limits */
movw $REAL_DS, %ax
movw %ax, %ds
movw %ax, %es
movw %ax, %fs
movw %ax, %gs
movw %ax, %ss
ljmp $REAL_CS, $1f
.section ".text16"
.code16
1:
/* Switch to real mode */
movl %cr0, %eax
andb $0!CR0_PE, %al
movl %eax, %cr0
ljmp *p2r_jump_vector
p2r_jump_target:
/* Set up real-mode stack */
movw %bp, %ss
movl %edx, %esp
/* Set up real-mode data segments */
movw %cs:rm_ds, %ax
movw %ax, %ds
movw %ax, %es
movw %ax, %fs
movw %ax, %gs
/* Return to real-mode address */
data32 ret
/* Real-mode code and data segments. Assigned by the call to
* init_librm. rm_cs doubles as the segment part of the jump
* vector used by prot_to_real. rm_ds is located in .text16
* rather than .data16 because code needs to be able to locate
* the data segment.
*/
.section ".data16"
p2r_jump_vector:
.word p2r_jump_target
.globl rm_cs
rm_cs: .word 0
.globl rm_ds
.section ".text16.data"
rm_ds: .word 0
/****************************************************************************
* prot_call (real-mode far call, 16-bit real-mode far return address)
*
* Call a specific C function in the protected-mode code. The
* prototype of the C function must be
* void function ( struct i386_all_regs *ix86 );
* ix86 will point to a struct containing the real-mode registers
* at entry to prot_call.
*
* All registers will be preserved across prot_call(), unless the C
* function explicitly overwrites values in ix86. Interrupt status
* and GDT will also be preserved. Gate A20 will be enabled.
*
* Note that prot_call() does not rely on the real-mode stack
* remaining intact in order to return, since everything relevant is
* copied to the protected-mode stack for the duration of the call.
* In particular, this means that a real-mode prefix can make a call
* to main() which will return correctly even if the prefix's stack
* gets vapourised during the Etherboot run. (The prefix cannot rely
* on anything else on the stack being preserved, so should move any
* critical data to registers before calling main()).
*
* Parameters:
* function : virtual address of protected-mode function to call
*
* Example usage:
* pushl $pxe_api_call
* call prot_call
* addw $4, %sp
* to call in to the C function
* void pxe_api_call ( struct i386_all_regs *ix86 );
****************************************************************************
*/
#define PC_OFFSET_GDT ( 0 )
#define PC_OFFSET_IX86 ( PC_OFFSET_GDT + 8 /* pad to 8 to keep alignment */ )
#define PC_OFFSET_RETADDR ( PC_OFFSET_IX86 + SIZEOF_I386_ALL_REGS )
#define PC_OFFSET_FUNCTION ( PC_OFFSET_RETADDR + 4 )
#define PC_OFFSET_END ( PC_OFFSET_FUNCTION + 4 )
.section ".text16"
.code16
.globl prot_call
prot_call:
/* Preserve registers, flags and GDT on external RM stack */
pushfl
pushal
pushw %gs
pushw %fs
pushw %es
pushw %ds
pushw %ss
pushw %cs
subw $8, %sp
movw %sp, %bp
sgdt (%bp)
/* For sanity's sake, clear the direction flag as soon as possible */
cld
/* Switch to protected mode and move register dump to PM stack */
movl $PC_OFFSET_END, %ecx
pushl $1f
jmp real_to_prot
.section ".text"
.code32
1:
/* Set up environment expected by C code */
call gateA20_set
/* Call function */
leal PC_OFFSET_IX86(%esp), %eax
pushl %eax
call *(PC_OFFSET_FUNCTION+4)(%esp)
popl %eax /* discard */
/* Switch to real mode and move register dump back to RM stack */
movl $PC_OFFSET_END, %ecx
pushl $1f
jmp prot_to_real
.section ".text16"
.code16
1:
/* Reload GDT, restore registers and flags and return. Note
* that %esp is restored manually, since popal discards it.
*/
movw %sp, %bp
lgdt (%bp)
addw $12, %sp /* also skip %cs and %ss */
popw %ds
popw %es
popw %fs
popw %gs
popal
addr32 movl -20(%esp), %esp /* -20(%sp) is not a valid 80386
* expression. -20(%esp) is safe
* because prot_to_real zeroes the
* high word of %esp, and interrupts
* are still disabled at this point. */
popfl
lret
/****************************************************************************
* real_call (protected-mode near call, 32-bit virtual return address)
*
* Call a real-mode function from protected-mode code.
*
* The non-segment register values will be passed directly to the
* real-mode code. The segment registers will be set as per
* prot_to_real. The non-segment register values set by the real-mode
* function will be passed back to the protected-mode caller. A
* result of this is that this routine cannot be called directly from
* C code, since it clobbers registers that the C ABI expects the
* callee to preserve. Gate A20 will *not* be automatically
* re-enabled. Since we always run from an even megabyte of memory,
* we are guaranteed to return successfully to the protected-mode
* code, which should then call gateA20_set() if it suspects that gate
* A20 may have been disabled. Note that enabling gate A20 is a
* potentially slow operation that may also cause keyboard input to be
* lost; this is why it is not done automatically.
*
* librm.h defines a convenient macro REAL_CODE() for using real_call.
* See librm.h and realmode.h for details and examples.
*
* Parameters:
* (32-bit) near pointer to real-mode function to call
*
* Returns: none
****************************************************************************
*/
#define RC_OFFSET_PRESERVE_REGS ( 0 )
#define RC_OFFSET_RETADDR ( RC_OFFSET_PRESERVE_REGS + SIZEOF_I386_REGS )
#define RC_OFFSET_FUNCTION ( RC_OFFSET_RETADDR + 4 )
#define RC_OFFSET_END ( RC_OFFSET_FUNCTION + 4 )
.section ".text"
.code32
.globl real_call
real_call:
/* Create register dump and function pointer copy on PM stack */
pushal
pushl RC_OFFSET_FUNCTION(%esp)
/* Switch to real mode and move register dump to RM stack */
movl $( RC_OFFSET_RETADDR + 4 /* function pointer copy */ ), %ecx
pushl $1f
jmp prot_to_real
.section ".text16"
.code16
1:
/* Call real-mode function */
popl rc_function
popal
call *rc_function
pushal
/* For sanity's sake, clear the direction flag as soon as possible */
cld
/* Switch to protected mode and move register dump back to PM stack */
movl $RC_OFFSET_RETADDR, %ecx
pushl $1f
jmp real_to_prot
.section ".text"
.code32
1:
/* Restore registers and return */
popal
ret
/* Function vector, used because "call xx(%sp)" is not a valid
* 16-bit expression.
*/
.section ".data16"
rc_function: .word 0, 0
/****************************************************************************
* Stored real-mode and protected-mode stack pointers
*
* The real-mode stack pointer is stored here whenever real_to_prot
* is called and restored whenever prot_to_real is called. The
* converse happens for the protected-mode stack pointer.
*
* Despite initial appearances this scheme is, in fact re-entrant,
* because program flow dictates that we always return via the point
* we left by. For example:
* PXE API call entry
* 1 real => prot
* ...
* Print a text string
* ...
* 2 prot => real
* INT 10
* 3 real => prot
* ...
* ...
* 4 prot => real
* PXE API call exit
*
* At point 1, the RM mode stack value, say RPXE, is stored in
* rm_ss,sp. We want this value to still be present in rm_ss,sp when
* we reach point 4.
*
* At point 2, the RM stack value is restored from RPXE. At point 3,
* the RM stack value is again stored in rm_ss,sp. This *does*
* overwrite the RPXE that we have stored there, but it's the same
* value, since the code between points 2 and 3 has managed to return
* to us.
****************************************************************************
*/
.section ".data"
rm_sp: .word 0
rm_ss: .word 0
pm_esp: .long _estack
/****************************************************************************
* Virtual address offsets
*
* These are used by the protected-mode code to map between virtual
* and physical addresses, and to access variables in the .text16 or
* .data16 segments.
****************************************************************************
*/
/* Internal copies, created by init_librm (which runs in real mode) */
.section ".data16"
_virt_offset: .long 0
_text16: .long 0
_data16: .long 0
/* Externally-visible copies, created by real_to_prot */
.section ".data"
.globl virt_offset
virt_offset: .long 0
.globl text16
text16: .long 0
.globl data16
data16: .long 0