diff options
Diffstat (limited to 'tests')
62 files changed, 3544 insertions, 59 deletions
diff --git a/tests/avocado/acpi-bits.py b/tests/avocado/acpi-bits.py new file mode 100644 index 0000000000..8745a58a76 --- /dev/null +++ b/tests/avocado/acpi-bits.py @@ -0,0 +1,396 @@ +#!/usr/bin/env python3 +# group: rw quick +# Exercize QEMU generated ACPI/SMBIOS tables using biosbits, +# https://biosbits.org/ +# +# This program is free software; you can redistribute it and/or modify +# it under the terms of the GNU General Public License as published by +# the Free Software Foundation; either version 2 of the License, or +# (at your option) any later version. +# +# This program is distributed in the hope that it will be useful, +# but WITHOUT ANY WARRANTY; without even the implied warranty of +# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the +# GNU General Public License for more details. +# +# You should have received a copy of the GNU General Public License +# along with this program. If not, see <http://www.gnu.org/licenses/>. +# +# +# Author: +# Ani Sinha <ani@anisinha.ca> + +# pylint: disable=invalid-name +# pylint: disable=consider-using-f-string + +""" +This is QEMU ACPI/SMBIOS avocado tests using biosbits. +Biosbits is available originally at https://biosbits.org/. +This test uses a fork of the upstream bits and has numerous fixes +including an upgraded acpica. The fork is located here: +https://gitlab.com/qemu-project/biosbits-bits . +""" + +import logging +import os +import platform +import re +import shutil +import subprocess +import tarfile +import tempfile +import time +import zipfile +from typing import ( + List, + Optional, + Sequence, +) +from qemu.machine import QEMUMachine +from avocado import skipIf +from avocado_qemu import QemuBaseTest + +deps = ["xorriso"] # dependent tools needed in the test setup/box. +supported_platforms = ['x86_64'] # supported test platforms. + + +def which(tool): + """ looks up the full path for @tool, returns None if not found + or if @tool does not have executable permissions. + """ + paths=os.getenv('PATH') + for p in paths.split(os.path.pathsep): + p = os.path.join(p, tool) + if os.path.exists(p) and os.access(p, os.X_OK): + return p + return None + +def missing_deps(): + """ returns True if any of the test dependent tools are absent. + """ + for dep in deps: + if which(dep) is None: + return True + return False + +def supported_platform(): + """ checks if the test is running on a supported platform. + """ + return platform.machine() in supported_platforms + +class QEMUBitsMachine(QEMUMachine): # pylint: disable=too-few-public-methods + """ + A QEMU VM, with isa-debugcon enabled and bits iso passed + using -cdrom to QEMU commandline. + + """ + def __init__(self, + binary: str, + args: Sequence[str] = (), + wrapper: Sequence[str] = (), + name: Optional[str] = None, + base_temp_dir: str = "/var/tmp", + debugcon_log: str = "debugcon-log.txt", + debugcon_addr: str = "0x403", + sock_dir: Optional[str] = None, + qmp_timer: Optional[float] = None): + # pylint: disable=too-many-arguments + + if name is None: + name = "qemu-bits-%d" % os.getpid() + if sock_dir is None: + sock_dir = base_temp_dir + super().__init__(binary, args, wrapper=wrapper, name=name, + base_temp_dir=base_temp_dir, + sock_dir=sock_dir, qmp_timer=qmp_timer) + self.debugcon_log = debugcon_log + self.debugcon_addr = debugcon_addr + self.base_temp_dir = base_temp_dir + + @property + def _base_args(self) -> List[str]: + args = super()._base_args + args.extend([ + '-chardev', + 'file,path=%s,id=debugcon' %os.path.join(self.base_temp_dir, + self.debugcon_log), + '-device', + 'isa-debugcon,iobase=%s,chardev=debugcon' %self.debugcon_addr, + ]) + return args + + def base_args(self): + """return the base argument to QEMU binary""" + return self._base_args + +@skipIf(not supported_platform() or missing_deps() or os.getenv('GITLAB_CI'), + 'incorrect platform or dependencies (%s) not installed ' \ + 'or running on GitLab' % ','.join(deps)) +class AcpiBitsTest(QemuBaseTest): #pylint: disable=too-many-instance-attributes + """ + ACPI and SMBIOS tests using biosbits. + + :avocado: tags=arch:x86_64 + :avocado: tags=acpi + + """ + def __init__(self, *args, **kwargs): + super().__init__(*args, **kwargs) + self._vm = None + self._workDir = None + self._baseDir = None + + # following are some standard configuration constants + self._bitsInternalVer = 2020 + self._bitsCommitHash = 'b48b88ff' # commit hash must match + # the artifact tag below + self._bitsTag = "qemu-bits-10182022" # this is the latest bits + # release as of today. + self._bitsArtSHA1Hash = 'b04790ac9b99b5662d0416392c73b97580641fe5' + self._bitsArtURL = ("https://gitlab.com/qemu-project/" + "biosbits-bits/-/jobs/artifacts/%s/" + "download?job=qemu-bits-build" %self._bitsTag) + self._debugcon_addr = '0x403' + self._debugcon_log = 'debugcon-log.txt' + logging.basicConfig(level=logging.INFO) + self.logger = logging.getLogger('acpi-bits') + + def _print_log(self, log): + self.logger.info('\nlogs from biosbits follows:') + self.logger.info('==========================================\n') + self.logger.info(log) + self.logger.info('==========================================\n') + + def copy_bits_config(self): + """ copies the bios bits config file into bits. + """ + config_file = 'bits-cfg.txt' + bits_config_dir = os.path.join(self._baseDir, 'acpi-bits', + 'bits-config') + target_config_dir = os.path.join(self._workDir, + 'bits-%d' %self._bitsInternalVer, + 'boot') + self.assertTrue(os.path.exists(bits_config_dir)) + self.assertTrue(os.path.exists(target_config_dir)) + self.assertTrue(os.access(os.path.join(bits_config_dir, + config_file), os.R_OK)) + shutil.copy2(os.path.join(bits_config_dir, config_file), + target_config_dir) + self.logger.info('copied config file %s to %s', + config_file, target_config_dir) + + def copy_test_scripts(self): + """copies the python test scripts into bits. """ + + bits_test_dir = os.path.join(self._baseDir, 'acpi-bits', + 'bits-tests') + target_test_dir = os.path.join(self._workDir, + 'bits-%d' %self._bitsInternalVer, + 'boot', 'python') + + self.assertTrue(os.path.exists(bits_test_dir)) + self.assertTrue(os.path.exists(target_test_dir)) + + for filename in os.listdir(bits_test_dir): + if os.path.isfile(os.path.join(bits_test_dir, filename)) and \ + filename.endswith('.py2'): + # all test scripts are named with extension .py2 so that + # avocado does not try to load them. These scripts are + # written for python 2.7 not python 3 and hence if avocado + # loaded them, it would complain about python 3 specific + # syntaxes. + newfilename = os.path.splitext(filename)[0] + '.py' + shutil.copy2(os.path.join(bits_test_dir, filename), + os.path.join(target_test_dir, newfilename)) + self.logger.info('copied test file %s to %s', + filename, target_test_dir) + + # now remove the pyc test file if it exists, otherwise the + # changes in the python test script won't be executed. + testfile_pyc = os.path.splitext(filename)[0] + '.pyc' + if os.access(os.path.join(target_test_dir, testfile_pyc), + os.F_OK): + os.remove(os.path.join(target_test_dir, testfile_pyc)) + self.logger.info('removed compiled file %s', + os.path.join(target_test_dir, + testfile_pyc)) + + def fix_mkrescue(self, mkrescue): + """ grub-mkrescue is a bash script with two variables, 'prefix' and + 'libdir'. They must be pointed to the right location so that the + iso can be generated appropriately. We point the two variables to + the directory where we have extracted our pre-built bits grub + tarball. + """ + grub_x86_64_mods = os.path.join(self._workDir, 'grub-inst-x86_64-efi') + grub_i386_mods = os.path.join(self._workDir, 'grub-inst') + + self.assertTrue(os.path.exists(grub_x86_64_mods)) + self.assertTrue(os.path.exists(grub_i386_mods)) + + new_script = "" + with open(mkrescue, 'r', encoding='utf-8') as filehandle: + orig_script = filehandle.read() + new_script = re.sub('(^prefix=)(.*)', + r'\1"%s"' %grub_x86_64_mods, + orig_script, flags=re.M) + new_script = re.sub('(^libdir=)(.*)', r'\1"%s/lib"' %grub_i386_mods, + new_script, flags=re.M) + + with open(mkrescue, 'w', encoding='utf-8') as filehandle: + filehandle.write(new_script) + + def generate_bits_iso(self): + """ Uses grub-mkrescue to generate a fresh bits iso with the python + test scripts + """ + bits_dir = os.path.join(self._workDir, + 'bits-%d' %self._bitsInternalVer) + iso_file = os.path.join(self._workDir, + 'bits-%d.iso' %self._bitsInternalVer) + mkrescue_script = os.path.join(self._workDir, + 'grub-inst-x86_64-efi', 'bin', + 'grub-mkrescue') + + self.assertTrue(os.access(mkrescue_script, + os.R_OK | os.W_OK | os.X_OK)) + + self.fix_mkrescue(mkrescue_script) + + self.logger.info('using grub-mkrescue for generating biosbits iso ...') + + try: + if os.getenv('V'): + subprocess.check_call([mkrescue_script, '-o', iso_file, + bits_dir], stderr=subprocess.STDOUT) + else: + subprocess.check_call([mkrescue_script, '-o', + iso_file, bits_dir], + stderr=subprocess.DEVNULL, + stdout=subprocess.DEVNULL) + except Exception as e: # pylint: disable=broad-except + self.skipTest("Error while generating the bits iso. " + "Pass V=1 in the environment to get more details. " + + str(e)) + + self.assertTrue(os.access(iso_file, os.R_OK)) + + self.logger.info('iso file %s successfully generated.', iso_file) + + def setUp(self): # pylint: disable=arguments-differ + super().setUp('qemu-system-') + + self._baseDir = os.getenv('AVOCADO_TEST_BASEDIR') + + # workdir could also be avocado's own workdir in self.workdir. + # At present, I prefer to maintain my own temporary working + # directory. It gives us more control over the generated bits + # log files and also for debugging, we may chose not to remove + # this working directory so that the logs and iso can be + # inspected manually and archived if needed. + self._workDir = tempfile.mkdtemp(prefix='acpi-bits-', + suffix='.tmp') + self.logger.info('working dir: %s', self._workDir) + + prebuiltDir = os.path.join(self._workDir, 'prebuilt') + if not os.path.isdir(prebuiltDir): + os.mkdir(prebuiltDir, mode=0o775) + + bits_zip_file = os.path.join(prebuiltDir, 'bits-%d-%s.zip' + %(self._bitsInternalVer, + self._bitsCommitHash)) + grub_tar_file = os.path.join(prebuiltDir, + 'bits-%d-%s-grub.tar.gz' + %(self._bitsInternalVer, + self._bitsCommitHash)) + + bitsLocalArtLoc = self.fetch_asset(self._bitsArtURL, + asset_hash=self._bitsArtSHA1Hash) + self.logger.info("downloaded bits artifacts to %s", bitsLocalArtLoc) + + # extract the bits artifact in the temp working directory + with zipfile.ZipFile(bitsLocalArtLoc, 'r') as zref: + zref.extractall(prebuiltDir) + + # extract the bits software in the temp working directory + with zipfile.ZipFile(bits_zip_file, 'r') as zref: + zref.extractall(self._workDir) + + with tarfile.open(grub_tar_file, 'r', encoding='utf-8') as tarball: + tarball.extractall(self._workDir) + + self.copy_test_scripts() + self.copy_bits_config() + self.generate_bits_iso() + + def parse_log(self): + """parse the log generated by running bits tests and + check for failures. + """ + debugconf = os.path.join(self._workDir, self._debugcon_log) + log = "" + with open(debugconf, 'r', encoding='utf-8') as filehandle: + log = filehandle.read() + + matchiter = re.finditer(r'(.*Summary: )(\d+ passed), (\d+ failed).*', + log) + for match in matchiter: + # verify that no test cases failed. + try: + self.assertEqual(match.group(3).split()[0], '0', + 'Some bits tests seems to have failed. ' \ + 'Please check the test logs for more info.') + except AssertionError as e: + self._print_log(log) + raise e + else: + if os.getenv('V'): + self._print_log(log) + + def tearDown(self): + """ + Lets do some cleanups. + """ + if self._vm: + self.assertFalse(not self._vm.is_running) + self.logger.info('removing the work directory %s', self._workDir) + shutil.rmtree(self._workDir) + super().tearDown() + + def test_acpi_smbios_bits(self): + """The main test case implementaion.""" + + iso_file = os.path.join(self._workDir, + 'bits-%d.iso' %self._bitsInternalVer) + + self.assertTrue(os.access(iso_file, os.R_OK)) + + self._vm = QEMUBitsMachine(binary=self.qemu_bin, + base_temp_dir=self._workDir, + debugcon_log=self._debugcon_log, + debugcon_addr=self._debugcon_addr) + + self._vm.add_args('-cdrom', '%s' %iso_file) + # the vm needs to be run under icount so that TCG emulation is + # consistent in terms of timing. smilatency tests have consistent + # timing requirements. + self._vm.add_args('-icount', 'auto') + + args = " ".join(str(arg) for arg in self._vm.base_args()) + \ + " " + " ".join(str(arg) for arg in self._vm.args) + + self.logger.info("launching QEMU vm with the following arguments: %s", + args) + + self._vm.launch() + # biosbits has been configured to run all the specified test suites + # in batch mode and then automatically initiate a vm shutdown. + # sleep for maximum of one minute + max_sleep_time = time.monotonic() + 60 + while self._vm.is_running() and time.monotonic() < max_sleep_time: + time.sleep(1) + + self.assertFalse(time.monotonic() > max_sleep_time, + 'The VM seems to have failed to shutdown in time') + + self.parse_log() diff --git a/tests/avocado/acpi-bits/bits-config/bits-cfg.txt b/tests/avocado/acpi-bits/bits-config/bits-cfg.txt new file mode 100644 index 0000000000..8010804453 --- /dev/null +++ b/tests/avocado/acpi-bits/bits-config/bits-cfg.txt @@ -0,0 +1,18 @@ +# BITS configuration file +[bits] + +# To run BITS in batch mode, set batch to a list of one or more of the +# following keywords; BITS will then run all of the requested operations, then +# save the log file to disk. +# +# test: Run the full BITS testsuite. +# acpi: Dump all ACPI structures. +# smbios: Dump all SMBIOS structures. +# +# Leave batch set to an empty string to disable batch mode. +# batch = + +# Uncomment the following to run all available batch operations +# please take a look at boot/python/init.py in bits zip file +# to see how these options are parsed and used. +batch = test acpi smbios diff --git a/tests/avocado/acpi-bits/bits-tests/smbios.py2 b/tests/avocado/acpi-bits/bits-tests/smbios.py2 new file mode 100644 index 0000000000..9667d0542c --- /dev/null +++ b/tests/avocado/acpi-bits/bits-tests/smbios.py2 @@ -0,0 +1,2430 @@ +# Copyright (c) 2015, Intel Corporation +# All rights reserved. +# +# Redistribution and use in source and binary forms, with or without +# modification, are permitted provided that the following conditions are met: +# +# * Redistributions of source code must retain the above copyright notice, +# this list of conditions and the following disclaimer. +# * Redistributions in binary form must reproduce the above copyright notice, +# this list of conditions and the following disclaimer in the documentation +# and/or other materials provided with the distribution. +# * Neither the name of Intel Corporation nor the names of its contributors +# may be used to endorse or promote products derived from this software +# without specific prior written permission. +# +# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND +# ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +# WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE +# DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR +# ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES +# (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; +# LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON +# ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT +# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS +# SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + +"""SMBIOS/DMI module.""" + +import bits +import bitfields +import ctypes +import redirect +import struct +import uuid +import unpack +import ttypager +import sys + +class SMBIOS(unpack.Struct): + def __new__(cls): + if sys.platform == "BITS-EFI": + import efi + sm_ptr = efi.system_table.ConfigurationTableDict.get(efi.SMBIOS_TABLE_GUID) + else: + address = 0xF0000 + mem = bits.memory(0xF0000, 0x10000) + for offset in range(0, len(mem), 16): + signature = (ctypes.c_char * 4).from_address(address + offset).value + if signature == "_SM_": + entry_point_length = ctypes.c_ubyte.from_address(address + offset + 5).value + csum = sum(map(ord, mem[offset:offset + entry_point_length])) & 0xff + if csum == 0: + sm_ptr = address + offset + break + else: + return None + + if not sm_ptr: + return None + + sm = super(SMBIOS, cls).__new__(cls) + sm._header_memory = bits.memory(sm_ptr, 0x1f) + return sm + + def __init__(self): + super(SMBIOS, self).__init__() + u = unpack.Unpackable(self._header_memory) + self.add_field('header', Header(u)) + self._structure_memory = bits.memory(self.header.structure_table_address, self.header.structure_table_length) + u = unpack.Unpackable(self._structure_memory) + self.add_field('structures', unpack.unpack_all(u, _smbios_structures, self), unpack.format_each("\n\n{!r}")) + + def structure_type(self, num): + '''Dumps structure of given Type if present''' + try: + types_present = [self.structures[x].smbios_structure_type for x in range(len(self.structures))] + matrix = dict() + for index in range(len(types_present)): + if types_present.count(types_present[index]) == 1: + matrix[types_present[index]] = self.structures[index] + else: # if multiple structures of the same type, return a list of structures for the type number + if matrix.has_key(types_present[index]): + matrix[types_present[index]].append(self.structures[index]) + else: + matrix[types_present[index]] = [self.structures[index]] + return matrix[num] + except: + print "Failure: Type {} - not found".format(num) + +class Header(unpack.Struct): + def __new__(cls, u): + return super(Header, cls).__new__(cls) + + def __init__(self, u): + super(Header, self).__init__() + self.raw_data = u.unpack_rest() + u = unpack.Unpackable(self.raw_data) + self.add_field('anchor_string', u.unpack_one("4s")) + self.add_field('checksum', u.unpack_one("B")) + self.add_field('length', u.unpack_one("B")) + self.add_field('major_version', u.unpack_one("B")) + self.add_field('minor_version', u.unpack_one("B")) + self.add_field('max_structure_size', u.unpack_one("<H")) + self.add_field('entry_point_revision', u.unpack_one("B")) + self.add_field('formatted_area', u.unpack_one("5s")) + self.add_field('intermediate_anchor_string', u.unpack_one("5s")) + self.add_field('intermediate_checksum', u.unpack_one("B")) + self.add_field('structure_table_length', u.unpack_one("<H")) + self.add_field('structure_table_address', u.unpack_one("<I")) + self.add_field('number_structures', u.unpack_one("<H")) + self.add_field('bcd_revision', u.unpack_one("B")) + if not u.at_end(): + self.add_field('data', u.unpack_rest()) + +class SmbiosBaseStructure(unpack.Struct): + def __new__(cls, u, sm): + t = u.unpack_peek_one("B") + if cls.smbios_structure_type is not None and t != cls.smbios_structure_type: + return None + return super(SmbiosBaseStructure, cls).__new__(cls) + + def __init__(self, u, sm): + super(SmbiosBaseStructure, self).__init__() + self.start_offset = u.offset + length = u.unpack_peek_one("<xB") + self.raw_data = u.unpack_raw(length) + self.u = unpack.Unpackable(self.raw_data) + + self.strings_offset = u.offset + def unpack_string(): + return "".join(iter(lambda: u.unpack_one("c"), "\x00")) + strings = list(iter(unpack_string, "")) + if not strings: + u.skip(1) + + self.strings_length = u.offset - self.strings_offset + self.raw_strings = str(bits.memory(sm.header.structure_table_address + self.strings_offset, self.strings_length)) + + if len(strings): + self.strings = strings + + self.add_field('type', self.u.unpack_one("B")) + self.add_field('length', self.u.unpack_one("B")) + self.add_field('handle', self.u.unpack_one("<H")) + + def fini(self): + if not self.u.at_end(): + self.add_field('data', self.u.unpack_rest()) + del self.u + + def fmtstr(self, i): + """Format the specified index and the associated string""" + return "{} '{}'".format(i, self.getstr(i)) + + def getstr(self, i): + """Get the string associated with the given index""" + if i == 0: + return "(none)" + if not hasattr(self, "strings"): + return "(error: structure has no strings)" + if i > len(self.strings): + return "(error: string index out of range)" + return self.strings[i - 1] + +class BIOSInformation(SmbiosBaseStructure): + smbios_structure_type = 0 + + def __init__(self, u, sm): + super(BIOSInformation, self).__init__(u, sm) + u = self.u + try: + self.add_field('vendor', u.unpack_one("B"), self.fmtstr) + self.add_field('version', u.unpack_one("B"), self.fmtstr) + self.add_field('starting_address_segment', u.unpack_one("<H")) + self.add_field('release_date', u.unpack_one("B"), self.fmtstr) + self.add_field('rom_size', u.unpack_one("B")) + self.add_field('characteristics', u.unpack_one("<Q")) + minor_version_str = str(sm.header.minor_version) # 34 is .34, 4 is .4, 41 is .41; compare ASCIIbetically to compare initial digits rather than numeric value + if (sm.header.major_version, minor_version_str) >= (2,"4"): + characteristic_bytes = 2 + else: + characteristic_bytes = self.length - 0x12 + self.add_field('characteristics_extensions', [u.unpack_one("B") for b in range(characteristic_bytes)]) + if (sm.header.major_version, minor_version_str) >= (2,"4"): + self.add_field('major_release', u.unpack_one("B")) + self.add_field('minor_release', u.unpack_one("B")) + self.add_field('ec_major_release', u.unpack_one("B")) + self.add_field('ec_minor_release', u.unpack_one("B")) + except: + self.decode_failure = True + print "Error parsing BIOSInformation" + import traceback + traceback.print_exc() + self.fini() + +class SystemInformation(SmbiosBaseStructure): + smbios_structure_type = 1 + + def __init__(self, u, sm): + super(SystemInformation, self).__init__(u, sm) + u = self.u + try: + self.add_field('manufacturer', u.unpack_one("B"), self.fmtstr) + self.add_field('product_name', u.unpack_one("B"), self.fmtstr) + self.add_field('version', u.unpack_one("B"), self.fmtstr) + self.add_field('serial_number', u.unpack_one("B"), self.fmtstr) + if self.length > 0x8: + self.add_field('uuid', uuid.UUID(bytes_le=u.unpack_one("16s"))) + wakeup_types = { + 0: 'Reserved', + 1: 'Other', + 2: 'Unknown', + 3: 'APM Timer', + 4: 'Modem Ring', + 5: 'LAN Remote', + 6: 'Power Switch', + 7: 'PCI PME#', + 8: 'AC Power Restored' + } + self.add_field('wakeup_type', u.unpack_one("B"), unpack.format_table("{}", wakeup_types)) + if self.length > 0x19: + self.add_field('sku_number', u.unpack_one("B"), self.fmtstr) + self.add_field('family', u.unpack_one("B"), self.fmtstr) + except: + self.decode_failure = True + print "Error parsing SystemInformation" + import traceback + traceback.print_exc() + self.fini() + +_board_types = { + 1: 'Unknown', + 2: 'Other', + 3: 'Server Blade', + 4: 'Connectivity Switch', + 5: 'System Management Module', + 6: 'Processor Module', + 7: 'I/O Module', + 8: 'Memory Module', + 9: 'Daughter Board', + 0xA: 'Motherboard', + 0xB: 'Processor/Memory Module', + 0xC: 'Processor/IO Module', + 0xD: 'Interconnect Board' +} + +class BaseboardInformation(SmbiosBaseStructure): + smbios_structure_type = 2 + + def __init__(self, u, sm): + super(BaseboardInformation, self).__init__(u, sm) + u = self.u + try: + self.add_field('manufacturer', u.unpack_one("B"), self.fmtstr) + self.add_field('product', u.unpack_one("B"), self.fmtstr) + self.add_field('version', u.unpack_one("B"), self.fmtstr) + self.add_field('serial_number', u.unpack_one("B"), self.fmtstr) + + if self.length > 0x8: + self.add_field('asset_tag', u.unpack_one("B"), self.fmtstr) + + if self.length > 0x9: + self.add_field('feature_flags', u.unpack_one("B")) + self.add_field('hosting_board', bool(bitfields.getbits(self.feature_flags, 0)), "feature_flags[0]={}") + self.add_field('requires_daughter_card', bool(bitfields.getbits(self.feature_flags, 1)), "feature_flags[1]={}") + self.add_field('removable', bool(bitfields.getbits(self.feature_flags, 2)), "feature_flags[2]={}") + self.add_field('replaceable', bool(bitfields.getbits(self.feature_flags, 3)), "feature_flags[3]={}") + self.add_field('hot_swappable', bool(bitfields.getbits(self.feature_flags, 4)), "feature_flags[4]={}") + + if self.length > 0xA: + self.add_field('location', u.unpack_one("B"), self.fmtstr) + + if self.length > 0xB: + self.add_field('chassis_handle', u.unpack_one("<H")) + + if self.length > 0xD: + self.add_field('board_type', u.unpack_one("B"), unpack.format_table("{}", _board_types)) + + if self.length > 0xE: + self.add_field('handle_count', u.unpack_one("B")) + if self.handle_count > 0: + self.add_field('contained_object_handles', tuple(u.unpack_one("<H") for i in range(self.handle_count))) + except: + self.decode_failure = True + print "Error parsing BaseboardInformation" + import traceback + traceback.print_exc() + self.fini() + +class SystemEnclosure(SmbiosBaseStructure): + smbios_structure_type = 3 + + def __init__(self, u, sm): + super(SystemEnclosure, self).__init__(u, sm) + u = self.u + try: + self.add_field('manufacturer', u.unpack_one("B"), self.fmtstr) + self.add_field('enumerated_type', u.unpack_one("B")) + self.add_field('chassis_lock_present', bool(bitfields.getbits(self.enumerated_type, 7)), "enumerated_type[7]={}") + board_types = { + 0x01: 'Other', + 0x02: 'Unknown', + 0x03: 'Desktop', + 0x04: 'Low Profile Desktop', + 0x05: 'Pizza Box', + 0x06: 'Mini Tower', + 0x07: 'Tower', + 0x08: 'Portable', + 0x09: 'Laptop', + 0x0A: 'Notebook', + 0x0B: 'Hand Held', + 0x0C: 'Docking Station', + 0x0D: 'All in One', + 0x0E: 'Sub Notebook', + 0x0F: 'Space-saving', + 0x10: 'Lunch Box', + 0x11: 'Main Server Chassis', + 0x12: 'Expansion Chassis', + 0x13: 'SubChassis', + 0x14: 'Bus Expansion Chassis', + 0x15: 'Peripheral Chassis', + 0x16: 'RAID Chassis', + 0x17: 'Rack Mount Chassis', + 0x18: 'Sealed-case PC', + 0x19: 'Multi-system chassis W', + 0x1A: 'Compact PCI', + 0x1B: 'Advanced TCA', + 0x1C: 'Blade', + 0x1D: 'Blade Enclosure', + } + self.add_field('system_enclosure_type', bitfields.getbits(self.enumerated_type, 6, 0), unpack.format_table("enumerated_type[6:0]={}", board_types)) + self.add_field('version', u.unpack_one("B"), self.fmtstr) + self.add_field('serial_number', u.unpack_one("B"), self.fmtstr) + self.add_field('asset_tag', u.unpack_one("B"), self.fmtstr) + minor_version_str = str(sm.header.minor_version) # 34 is .34, 4 is .4, 41 is .41; compare ASCIIbetically to compare initial digits rather than numeric value + if self.length > 9: + chassis_states = { + 0x01: 'Other', + 0x02: 'Unknown', + 0x03: 'Safe', + 0x04: 'Warning', + 0x05: 'Critical', + 0x06: 'Non-recoverable', + } + self.add_field('bootup_state', u.unpack_one("B"), unpack.format_table("{}", chassis_states)) + self.add_field('power_supply_state', u.unpack_one("B"), unpack.format_table("{}", chassis_states)) + self.add_field('thermal_state', u.unpack_one("B"), unpack.format_table("{}", chassis_states)) + security_states = { + 0x01: 'Other', + 0x02: 'Unknown', + 0x03: 'None', + 0x04: 'External interface locked out', + 0x05: 'External interface enabled', + } + self.add_field('security_status', u.unpack_one("B"), unpack.format_table("{}", security_states)) + if self.length > 0xd: + self.add_field('oem_defined', u.unpack_one("<I")) + if self.length > 0x11: + self.add_field('height', u.unpack_one("B")) + self.add_field('num_power_cords', u.unpack_one("B")) + self.add_field('contained_element_count', u.unpack_one("B")) + self.add_field('contained_element_length', u.unpack_one("B")) + if getattr(self, 'contained_element_count', 0): + self.add_field('contained_elements', tuple(SystemEnclosureContainedElement(u, self.contained_element_length) for i in range(self.contained_element_count))) + if self.length > (0x15 + (getattr(self, 'contained_element_count', 0) * getattr(self, 'contained_element_length', 0))): + self.add_field('sku_number', u.unpack_one("B"), self.fmtstr) + except: + self.decode_failure = True + print "Error parsing SystemEnclosure" + import traceback + traceback.print_exc() + self.fini() + +class SystemEnclosureContainedElement(unpack.Struct): + def __init__(self, u, length): + super(SystemEnclosureContainedElement, self).__init__() + self.start_offset = u.offset + self.raw_data = u.unpack_raw(length) + self.u = unpack.Unpackable(self.raw_data) + u = self.u + self.add_field('contained_element_type', u.unpack_one("B")) + type_selections = { + 0: 'SMBIOS baseboard type enumeration', + 1: 'SMBIOS structure type enumeration', + } + self.add_field('type_select', bitfields.getbits(self.contained_element_type, 7), unpack.format_table("contained_element_type[7]={}", type_selections)) + self.add_field('type', bitfields.getbits(self.contained_element_type, 6, 0)) + if self.type_select == 0: + self.add_field('smbios_board_type', self.type, unpack.format_table("{}", _board_types)) + else: + self.add_field('smbios_structure_type', self.type) + self.add_field('minimum', u.unpack_one("B")) + self.add_field('maximum', u.unpack_one("B")) + if not u.at_end(): + self.add_field('data', u.unpack_rest()) + del self.u + +class ProcessorInformation(SmbiosBaseStructure): + smbios_structure_type = 4 + + def __init__(self, u, sm): + super(ProcessorInformation, self).__init__(u, sm) + u = self.u + try: + self.add_field('socket_designation', u.unpack_one("B"), self.fmtstr) + processor_types = { + 0x01: 'Other', + 0x02: 'Unknown', + 0x03: 'Central Processor', + 0x04: 'Math Processor', + 0x05: 'DSP Processor', + 0x06: 'Video Processor', + } + self.add_field('processor_type', u.unpack_one("B"), unpack.format_table("{}", processor_types)) + self.add_field('processor_family', u.unpack_one("B")) + self.add_field('processor_manufacturer', u.unpack_one("B"), self.fmtstr) + self.add_field('processor_id', u.unpack_one("<Q")) + self.add_field('processor_version', u.unpack_one("B"), self.fmtstr) + self.add_field('voltage', u.unpack_one("B")) + self.add_field('external_clock', u.unpack_one("<H")) + self.add_field('max_speed', u.unpack_one("<H")) + self.add_field('current_speed', u.unpack_one("<H")) + self.add_field('status', u.unpack_one("B")) + processor_upgrades = { + 0x01: 'Other', + 0x02: 'Unknown', + 0x03: 'Daughter Board', + 0x04: 'ZIF Socket', + 0x05: 'Replaceable Piggy Back', + 0x06: 'None', + 0x07: 'LIF Socket', + 0x08: 'Slot 1', + 0x09: 'Slot 2', + 0x0A: '370-pin socket', + 0x0B: 'Slot A', + 0x0C: 'Slot M', + 0x0D: 'Socket 423', + 0x0E: 'Socket A (Socket 462)', + 0x0F: 'Socket 478', + 0x10: 'Socket 754', + 0x11: 'Socket 940', + 0x12: 'Socket 939', + 0x13: 'Socket mPGA604', + 0x14: 'Socket LGA771', + 0x15: 'Socket LGA775', + 0x16: 'Socket S1', + 0x17: 'Socket AM2', + 0x18: 'Socket F (1207)', + 0x19: 'Socket LGA1366', + 0x1A: 'Socket G34', + 0x1B: 'Socket AM3', + 0x1C: 'Socket C32', + 0x1D: 'Socket LGA1156', + 0x1E: 'Socket LGA1567', + 0x1F: 'Socket PGA988A', + 0x20: 'Socket BGA1288', + 0x21: 'Socket rPGA988B', + 0x22: 'Socket BGA1023', + 0x23: 'Socket BGA1224', + 0x24: 'Socket BGA1155', + 0x25: 'Socket LGA1356', + 0x26: 'Socket LGA2011', + 0x27: 'Socket FS1', + 0x28: 'Socket FS2', + 0x29: 'Socket FM1', + 0x2A: 'Socket FM2', + } + self.add_field('processor_upgrade', u.unpack_one("B"), unpack.format_table("{}", processor_upgrades)) + if self.length > 0x1A: + self.add_field('l1_cache_handle', u.unpack_one("<H")) + self.add_field('l2_cache_handle', u.unpack_one("<H")) + self.add_field('l3_cache_handle', u.unpack_one("<H")) + if self.length > 0x20: + self.add_field('serial_number', u.unpack_one("B"), self.fmtstr) + self.add_field('asset_tag', u.unpack_one("B"), self.fmtstr) + self.add_field('part_number', u.unpack_one("B"), self.fmtstr) + if self.length > 0x24: + self.add_field('core_count', u.unpack_one("B")) + self.add_field('core_enabled', u.unpack_one("B")) + self.add_field('thread_count', u.unpack_one("B")) + self.add_field('processor_characteristics', u.unpack_one("<H")) + if self.length > 0x28: + self.add_field('processor_family_2', u.unpack_one("<H")) + if self.length > 0x2A: + self.add_field('core_count2', u.unpack_one("<H")) + self.add_field('core_enabled2', u.unpack_one("<H")) + self.add_field('thread_count2', u.unpack_one("<H")) + except: + self.decode_failure = True + print "Error parsing Processor Information" + import traceback + traceback.print_exc() + self.fini() + +class MemoryControllerInformation(SmbiosBaseStructure): #obsolete starting with v2.1 + smbios_structure_type = 5 + + def __init__(self, u, sm): + super(MemoryControllerInformation, self).__init__(u, sm) + u = self.u + try: + _error_detecting_method = { + 0x01: 'Other', + 0x02: 'Unknown', + 0x03: 'None', + 0x04: '8-bit Parity', + 0x05: '32-bit ECC', + 0x06: '64-bit ECC', + 0x07: '128-bit ECC', + 0x08: 'CRC' + } + self.add_field('error_detecting_method', u.unpack_one("B"), unpack.format_table("{}", _error_detecting_method)) + self.add_field('error_correcting_capability', u.unpack_one("B")) + _interleaves = { + 0x01: 'Other', + 0x02: 'Unknown', + 0x03: 'One-Way Interleave', + 0x04: 'Two-Way Interleave', + 0x05: 'Four-Way Interleave', + 0x06: 'Eight-Way Interleave', + 0x07: 'Sixteen-Way Interleave' + } + self.add_field('supported_interleave', u.unpack_one("B"), unpack.format_table("{}", _interleaves)) + self.add_field('current_interleave', u.unpack_one("B"), unpack.format_table("{}", _interleaves)) + self.add_field('max_memory_module_size', u.unpack_one("B"), self.fmtstr) + self.add_field('supported_speeds', u.unpack_one("<H")) + self.add_field('supported_memory_types', u.unpack_one("<H")) + self.add_field('memory_module_voltage', u.unpack_one("B")) + self.add_field('req_voltage_b2', bitfields.getbits(self.memory_module_voltage, 2), "memory_module_voltage[2]={}") + self.add_field('req_voltage_b1', bitfields.getbits(self.memory_module_voltage, 1), "memory_module_voltage[1]={}") + self.add_field('req_voltage_b0', bitfields.getbits(self.memory_module_voltage, 0), "memory_module_voltage[0]={}") + self.add_field('num_associated_memory_slots', u.unpack_one("B")) + self.add_field('memory_module_configuration_handles', u.unpack_one("<(self.num_associated_memory_slots)H")) + self.add_field('enabled_error_correcting_capabilities', u.unpack_one("B")) + except: + self.decode_failure = True + print "Error parsing MemoryControllerInformation" + import traceback + traceback.print_exc() + self.fini() + +class MemoryModuleInformation(SmbiosBaseStructure): #obsolete starting with v2.1 + smbios_structure_type = 6 + + def __init__(self, u, sm): + super(MemoryModuleInformation, self).__init__(u, sm) + u = self.u + try: + self.add_field('socket_designation', u.unpack_one("B"), self.fmtstr) + self.add_field('bank_connections', u.unpack_one("B")) + self.add_field('current_speed', u.unpack_one("B")) + self.add_field('current_memory_type', u.unpack_one("<H")) + _mem_connection = { + 0: 'single', + 1: 'double-bank' + } + self.add_field('installed_mem', u.unpack_one("B")) + self.add_field('installed_size', bitfields.getbits(self.installed_mem, 6, 0), "installed_mem[6:0]={}") + self.add_field('installed_memory_module_connection', bitfields.getbits(self.installed_mem, 7), unpack.format_table("installed_mem[7]={}", _mem_connection)) + self.add_field('enabled_mem', u.unpack_one("B")) + self.add_field('enabled_size', bitfields.getbits(self.installed_mem, 6, 0), "enabled_mem[6:0]={}") + self.add_field('enabled_memory_module_connection', bitfields.getbits(self.installed_mem, 7), unpack.format_table("enabled_mem[7]={}", _mem_connection)) + self.add_field('error_status', u.unpack_one("B")) + self.add_field('error_status_info_obstained_from_event_log', bool(bitfields.getbits(self.error_status, 2)), unpack.format_table("error_status[2]={}", _mem_connection)) + self.add_field('correctable_errors_received', bool(bitfields.getbits(self.error_status, 1)), unpack.format_table("error_status[1]={}", _mem_connection)) + self.add_field('uncorrectable_errors_received', bool(bitfields.getbits(self.error_status, 0)), unpack.format_table("error_status[0]={}", _mem_connection)) + except: + self.decode_failure = True + print "Error parsing MemoryModuleInformation" + import traceback + traceback.print_exc() + self.fini() + +class CacheInformation(SmbiosBaseStructure): + smbios_structure_type = 7 + + def __init__(self, u, sm): + super(CacheInformation, self).__init__(u, sm) + u = self.u + try: + self.add_field('socket_designation', u.unpack_one("B"), self.fmtstr) + processor_types = { + 0x01: 'Other', + 0x02: 'Unknown', + 0x03: 'Central Processor', + 0x04: 'Math Processor', + 0x05: 'DSP Processor', + 0x06: 'Video Processor', + } + self.add_field('cache_configuration', u.unpack_one("<H")) + _operational_mode = { + 0b00: 'Write Through', + 0b01: 'Write Back', + 0b10: 'Varies with Memory Address', + 0b11: 'Unknown' + } + self.add_field('operational_mode', bitfields.getbits(self.cache_configuration, 9, 8), unpack.format_table("cache_configuration[9:8]={}", _operational_mode)) + self.add_field('enabled_at_boot_time', bool(bitfields.getbits(self.cache_configuration, 7)), "cache_configuration[7]={}") + _location = { + 0b00: 'Internal', + 0b01: 'External', + 0b10: 'Reserved', + 0b11: 'Unknown' + } + self.add_field('location_relative_to_cpu_module', bitfields.getbits(self.cache_configuration, 6, 5), unpack.format_table("cache_configuration[6:5]={}", _location)) + self.add_field('cache_socketed', bool(bitfields.getbits(self.cache_configuration, 3)), "cache_configuration[3]={}") + self.add_field('cache_level', bitfields.getbits(self.cache_configuration, 2, 0), "cache_configuration[2:0]={}") + self.add_field('max_cache_size', u.unpack_one("<H")) + _granularity = { + 0: '1K granularity', + 1: '64K granularity' + } + self.add_field('max_granularity', bitfields.getbits(self.cache_configuration, 15), unpack.format_table("max_cache_size[15]={}", _granularity)) + self.add_field('max_size_in_granularity', bitfields.getbits(self.cache_configuration, 14, 0), "max_cache_size[14, 0]={}") + self.add_field('installed_size', u.unpack_one("<H")) + if self.installed_size != 0: + self.add_field('installed_granularity', bitfields.getbits(self.cache_configuration, 15), unpack.format_table("installed_size[15]={}", _granularity)) + self.add_field('installed_size_in_granularity', bitfields.getbits(self.cache_configuration, 14, 0), "installed_size[14, 0]={}") + self.add_field('supported_sram_type', u.unpack_one("<H")) + self.add_field('current_sram_type', u.unpack_one("<H")) + if self.length > 0x0F: + self.add_field('cache_speed', u.unpack_one("B")) + if self.length > 0x10: + _error_correction = { + 0x01: 'Other', + 0x02: 'Unknown', + 0x03: 'None', + 0x04: 'Parity', + 0x05: 'Single-bit ECC', + 0x06: 'Multi-bit ECC' + } + self.add_field('error_correction', u.unpack_one("B"), unpack.format_table("{}", _error_correction)) + if self.length > 0x10: + _system_cache_type = { + 0x01: 'Other', + 0x02: 'Unknown', + 0x03: 'Instruction', + 0x04: 'Data', + 0x05: 'Unified' + } + self.add_field('system_cache_type', u.unpack_one("B"), unpack.format_table("{}", _system_cache_type)) + if self.length > 0x12: + _associativity = { + 0x01: 'Other', + 0x02: 'Unknown', + 0x03: 'Direct Mapped', + 0x04: '2-way Set-Associative', + 0x05: '4-way Set-Associative', + 0x06: 'Fully Associative', + 0x07: '8-way Set-Associative', + 0x08: '16-way Set-Associative', + 0x09: '12-way Set-Associative', + 0x0A: '24-way Set-Associative', + 0x0B: '32-way Set-Associative', + 0x0C: '48-way Set-Associative', + 0x0D: '64-way Set-Associative', + 0x0E: '20-way Set-Associative' + } + self.add_field('associativity', u.unpack_one("B"), unpack.format_table("{}", _associativity)) + + except: + self.decode_failure = True + print "Error parsing CacheInformation" + import traceback + traceback.print_exc() + self.fini() + +class PortConnectorInfo(SmbiosBaseStructure): + smbios_structure_type = 8 + + def __init__(self, u, sm): + super(PortConnectorInfo, self).__init__(u, sm) + u = self.u + try: + self.add_field('internal_reference_designator', u.unpack_one("B"), self.fmtstr) + connector_types = { + 0x00: 'None', + 0x01: 'Centronics', + 0x02: 'Mini Centronics', + 0x03: 'Proprietary', + 0x04: 'DB-25 pin male', + 0x05: 'DB-25 pin female', + 0x06: 'DB-15 pin male', + 0x07: 'DB-15 pin female', + 0x08: 'DB-9 pin male', + 0x09: 'DB-9 pin female', + 0x0A: 'RJ-11', + 0x0B: 'RJ-45', + 0x0C: '50-pin MiniSCSI', + 0x0D: 'Mini-DIN', + 0x0E: 'Micro-DIN', + 0x0F: 'PS/2', + 0x10: 'Infrared', + 0x11: 'HP-HIL', + 0x12: 'Access Bus (USB)', + 0x13: 'SSA SCSI', + 0x14: 'Circular DIN-8 male', + 0x15: 'Circular DIN-8 female', + 0x16: 'On Board IDE', + 0x17: 'On Board Floppy', + 0x18: '9-pin Dual Inline (pin 10 cut)', + 0x19: '25-pin Dual Inline (pin 26 cut)', + 0x1A: '50-pin Dual Inline', + 0x1B: '68-pin Dual Inline', + 0x1C: 'On Board Sound Input from CD-ROM', + 0x1D: 'Mini-Centronics Type-14', + 0x1E: 'Mini-Centronics Type-26', + 0x1F: 'Mini-jack (headphones)', + 0x20: 'BNC', + 0x21: '1394', + 0x22: 'SAS/SATA Plug Receptacle', + 0xA0: 'PC-98', + 0xA1: 'PC-98Hireso', + 0xA2: 'PC-H98', + 0xA3: 'PC-98Note', + 0xA4: 'PC-98Full', + 0xFF: 'Other', + } + self.add_field('internal_connector_type', u.unpack_one("B"), unpack.format_table("{}", connector_types)) + self.add_field('external_reference_designator', u.unpack_one("B"), self.fmtstr) + self.add_field('external_connector_type', u.unpack_one("B"), unpack.format_table("{}", connector_types)) + port_types = { + 0x00: 'None', + 0x01: 'Parallel Port XT/AT Compatible', + 0x02: 'Parallel Port PS/2', + 0x03: 'Parallel Port ECP', + 0x04: 'Parallel Port EPP', + 0x05: 'Parallel Port ECP/EPP', + 0x06: 'Serial Port XT/AT Compatible', + 0x07: 'Serial Port 16450 Compatible', + 0x08: 'Serial Port 16550 Compatible', + 0x09: 'Serial Port 16550A Compatible', + 0x0A: 'SCSI Port', + 0x0B: 'MIDI Port', + 0x0C: 'Joy Stick Port', + 0x0D: 'Keyboard Port', + 0x0E: 'Mouse Port', + 0x0F: 'SSA SCSI', + 0x10: 'USB', + 0x11: 'FireWire (IEEE P1394)', + 0x12: 'PCMCIA Type I2', + 0x13: 'PCMCIA Type II', + 0x14: 'PCMCIA Type III', + 0x15: 'Cardbus', + 0x16: 'Access Bus Port', + 0x17: 'SCSI II', + 0x18: 'SCSI Wide', + 0x19: 'PC-98', + 0x1A: 'PC-98-Hireso', + 0x1B: 'PC-H98', + 0x1C: 'Video Port', + 0x1D: 'Audio Port', + 0x1E: 'Modem Port', + 0x1F: 'Network Port', + 0x20: 'SATA', + 0x21: 'SAS', + 0xA0: '8251 Compatible', + 0xA1: '8251 FIFO Compatible', + 0xFF: 'Other', + } + self.add_field('port_type', u.unpack_one("B"), unpack.format_table("{}", port_types)) + except: + self.decodeFailure = True + print "Error parsing PortConnectorInfo" + import traceback + traceback.print_exc() + self.fini() + +class SystemSlots(SmbiosBaseStructure): + smbios_structure_type = 9 + + def __init__(self, u, sm): + super(SystemSlots, self).__init__(u, sm) + u = self.u + try: + self.add_field('designation', u.unpack_one("B"), self.fmtstr) + _slot_types = { + 0x01: 'Other', + 0x02: 'Unknown', + 0x03: 'ISA', + 0x04: 'MCA', + 0x05: 'EISA', + 0x06: 'PCI', + 0x07: 'PC Card (PCMCIA)', + 0x08: 'VL-VESA', + 0x09: 'Proprietary', + 0x0A: 'Processor Card Slot', + 0x0B: 'Proprietary Memory Card Slot', + 0x0C: 'I/O Riser Card Slot', + 0x0D: 'NuBus', + 0x0E: 'PCI 66MHz Capable', + 0x0F: 'AGP', + 0x10: 'AGP 2X', + 0x11: 'AGP 4X', + 0x12: 'PCI-X', + 0x13: 'AGP 8X', + 0xA0: 'PC-98/C20', + 0xA1: 'PC-98/C24', + 0xA2: 'PC-98/E', + 0xA3: 'PC-98/Local Bus', + 0xA4: 'PC-98/Card', + 0xA5: 'PCI Express', + 0xA6: 'PCI Express x1', + 0xA7: 'PCI Express x2', + 0xA8: 'PCI Express x4', + 0xA9: 'PCI Express x8', + 0xAA: 'PCI Express x16', + 0xAB: 'PCI Express Gen 2', + 0xAC: 'PCI Express Gen 2 x1', + 0xAD: 'PCI Express Gen 2 x2', + 0xAE: 'PCI Express Gen 2 x4', + 0xAF: 'PCI Express Gen 2 x8', + 0xB0: 'PCI Express Gen 2 x16', + 0xB1: 'PCI Express Gen 3', + 0xB2: 'PCI Express Gen 3 x1', + 0xB3: 'PCI Express Gen 3 x2', + 0xB4: 'PCI Express Gen 3 x4', + 0xB5: 'PCI Express Gen 3 x8', + 0xB6: 'PCI Express Gen 3 x16', + } + self.add_field('slot_type', u.unpack_one("B"), unpack.format_table("{}", _slot_types)) + _slot_data_bus_widths = { + 0x01: 'Other', + 0x02: 'Unknown', + 0x03: '8 bit', + 0x04: '16 bit', + 0x05: '32 bit', + 0x06: '64 bit', + 0x07: '128 bit', + 0x08: '1x or x1', + 0x09: '2x or x2', + 0x0A: '4x or x4', + 0x0B: '8x or x8', + 0x0C: '12x or x12', + 0x0D: '16x or x16', + 0x0E: '32x or x32', + } + self.add_field('slot_data_bus_width', u.unpack_one('B'), unpack.format_table("{}", _slot_data_bus_widths)) + _current_usages = { + 0x01: 'Other', + 0x02: 'Unknown', + 0x03: 'Available', + 0x04: 'In use', + } + self.add_field('current_usage', u.unpack_one('B'), unpack.format_table("{}", _current_usages)) + _slot_lengths = { + 0x01: 'Other', + 0x02: 'Unknown', + 0x03: 'Short Length', + 0x04: 'Long Length', + } + self.add_field('slot_length', u.unpack_one('B'), unpack.format_table("{}", _slot_lengths)) + self.add_field('slot_id', u.unpack_one('<H')) + self.add_field('characteristics1', u.unpack_one('B')) + self.add_field('characteristics_unknown', bool(bitfields.getbits(self.characteristics1, 0)), "characteristics1[0]={}") + self.add_field('provides_5_0_volts', bool(bitfields.getbits(self.characteristics1, 1)), "characteristics1[1]={}") + self.add_field('provides_3_3_volts', bool(bitfields.getbits(self.characteristics1, 2)), "characteristics1[2]={}") + self.add_field('shared_slot', bool(bitfields.getbits(self.characteristics1, 3)), "characteristics1[3]={}") + self.add_field('supports_pc_card_16', bool(bitfields.getbits(self.characteristics1, 4)), "characteristics1[4]={}") + self.add_field('supports_cardbus', bool(bitfields.getbits(self.characteristics1, 5)), "characteristics1[5]={}") + self.add_field('supports_zoom_video', bool(bitfields.getbits(self.characteristics1, 6)), "characteristics1[6]={}") + self.add_field('supports_modem_ring_resume', bool(bitfields.getbits(self.characteristics1, 7)), "characteristics1[7]={}") + if self.length > 0x0C: + self.add_field('characteristics2', u.unpack_one('B')) + self.add_field('supports_PME', bool(bitfields.getbits(self.characteristics2, 0)), "characteristics2[0]={}") + self.add_field('supports_hot_plug', bool(bitfields.getbits(self.characteristics2, 1)), "characteristics2[1]={}") + self.add_field('supports_smbus', bool(bitfields.getbits(self.characteristics2, 2)), "characteristics2[2]={}") + if self.length > 0x0D: + self.add_field('segment_group_number', u.unpack_one('<H')) + self.add_field('bus_number', u.unpack_one('B')) + self.add_field('device_function_number', u.unpack_one('B')) + self.add_field('device_number', bitfields.getbits(self.device_function_number, 7, 3), "device_function_number[7:3]={}") + self.add_field('function_number', bitfields.getbits(self.device_function_number, 2, 0), "device_function_number[2:0]={}") + except: + self.decodeFailure = True + print "Error parsing SystemSlots" + import traceback + traceback.print_exc() + self.fini() + +class OnBoardDevicesInformation(SmbiosBaseStructure): + smbios_structure_type = 10 + + def __init__(self, u, sm): + super(OnBoardDevicesInformation, self).__init__(u, sm) + u = self.u + try: + self.add_field('device_type', u.unpack_one("B")) + self.add_field('device_enabled', bool(bitfields.getbits(self.device_type, 7)), "device_type[7]={}") + _device_types = { + 0x01: 'Other', + 0x02: 'Unknown', + 0x03: 'Video', + 0x04: 'SCSI Controller', + 0x05: 'Ethernet', + 0x06: 'Token Ring', + 0x07: 'Sound', + 0x08: 'PATA Controller', + 0x09: 'SATA Controller', + 0x0A: 'SAS Controller' + } + self.add_field('type_of_device', bitfields.getbits(self.device_type, 6, 0), unpack.format_table("device_type[6:0]={}", _device_types)) + self.add_field('description_string', u.unpack_one("B"), self.fmtstr) + except: + self.decodeFailure = True + print "Error parsing OnBoardDevicesInformation" + import traceback + traceback.print_exc() + self.fini() + +class OEMStrings(SmbiosBaseStructure): + smbios_structure_type = 11 + + def __init__(self, u, sm): + super(OEMStrings, self).__init__(u, sm) + u = self.u + try: + self.add_field('count', u.unpack_one("B")) + except: + self.decodeFailure = True + print "Error parsing OEMStrings" + import traceback + traceback.print_exc() + self.fini() + +class SystemConfigOptions(SmbiosBaseStructure): + smbios_structure_type = 12 + + def __init__(self, u, sm): + super(SystemConfigOptions, self).__init__(u, sm) + u = self.u + try: + self.add_field('count', u.unpack_one("B")) + except: + self.decodeFailure = True + print "Error parsing SystemConfigOptions" + import traceback + traceback.print_exc() + self.fini() + +class BIOSLanguageInformation(SmbiosBaseStructure): + smbios_structure_type = 13 + + def __init__(self, u, sm): + super(BIOSLanguageInformation, self).__init__(u, sm) + u = self.u + try: + self.add_field('installable_languages', u.unpack_one("B")) + if self.length > 0x05: + self.add_field('flags', u.unpack_one('B')) + self.add_field('abbreviated_format', bool(bitfields.getbits(self.flags, 0)), "flags[0]={}") + if self.length > 0x6: + u.skip(15) + self.add_field('current_language', u.unpack_one('B'), self.fmtstr) + except: + self.decodeFailure = True + print "Error parsing BIOSLanguageInformation" + import traceback + traceback.print_exc() + self.fini() + +class GroupAssociations(SmbiosBaseStructure): + smbios_structure_type = 14 + + def __init__(self, u, sm): + super(GroupAssociations, self).__init__(u, sm) + u = self.u + try: + self.add_field('group_name', u.unpack_one("B"), self.fmtstr) + self.add_field('item_type', u.unpack_one('B')) + self.add_field('item_handle', u.unpack_one('<H')) + except: + self.decodeFailure = True + print "Error parsing GroupAssociations" + import traceback + traceback.print_exc() + self.fini() + +class SystemEventLog(SmbiosBaseStructure): + smbios_structure_type = 15 + + def __init__(self, u, sm): + super(SystemEventLog, self).__init__(u, sm) + u = self.u + try: + self.add_field('log_area_length', u.unpack_one("<H")) + self.add_field('log_header_start_offset', u.unpack_one('<H')) + self.add_field('log_data_start_offset', u.unpack_one('<H')) + _access_method = { + 0x00: 'Indexed I/O: 1 8-bit index port, 1 8-bit data port', + 0x01: 'Indexed I/O: 2 8-bit index ports, 1 8-bit data port', + 0x02: 'Indexed I/O: 1 16-bit index port, 1 8-bit data port', + 0x03: 'Memory-mapped physical 32-bit address', + 0x04: 'Available through General-Purpose NonVolatile Data functions', + xrange(0x05, 0x07F): 'Available for future assignment', + xrange(0x80, 0xFF): 'BIOS Vendor/OEM-specific' + } + self.add_field('access_method', u.unpack_one('B'), unpack.format_table("{}", _access_method)) + self.add_field('log_status', u.unpack_one('B')) + self.add_field('log_area_full', bool(bitfields.getbits(self.log_status, 1)), "log_status[1]={}") + self.add_field('log_area_valid', bool(bitfields.getbits(self.log_status, 0)), "log_status[0]={}") + self.add_field('log_change_token', u.unpack_one('<I')) + self.add_field('access_method_address', u.unpack_one('<I')) + if self.length > 0x14: + _log_header_formats = { + 0: 'No header', + 1: 'Type 1 log header', + xrange(2, 0x7f): 'Available for future assignment', + xrange(0x80, 0xff): 'BIOS vendor or OEM-specific format' + } + self.add_field('log_header_format', u.unpack_one("B"), unpack.format_table("{}", _log_header_formats)) + if self.length > 0x15: + self.add_field('num_supported_log_type_descriptors', u.unpack_one('B')) + if self.length > 0x16: + self.add_field('length_log_type_descriptor', u.unpack_one('B')) + if self.length != (0x17 + (self.num_supported_log_type_descriptors * self.length_log_type_descriptor)): + print "Error: structure length ({}) != 0x17 + (num_supported_log_type_descriptors ({}) * length_log_type_descriptor({}))".format(self.length, self.num_supported_log_type_descriptors, self.length_log_type_descriptor) + print "structure length = {}".format(self.length) + print "num_supported_log_type_descriptors = {}".format(self.num_supported_log_type_descriptors) + print "length_log_type_descriptor = {}".format(self.length_log_type_descriptor) + self.decodeFailure = True + self.add_field('descriptors', tuple(EventLogDescriptor.unpack(u) for i in range(self.num_supported_log_type_descriptors)), unpack.format_each("\n{!r}")) + except: + self.decodeFailure = True + print "Error parsing SystemEventLog" + import traceback + traceback.print_exc() + self.fini() + +class EventLogDescriptor(unpack.Struct): + @staticmethod + def _unpack(u): + _event_log_type_descriptors = { + 0x00: 'Reserved', + 0x01: 'Single-bit ECC memory error', + 0x02: 'Multi-bit ECC memory error', + 0x03: 'Parity memory error', + 0x04: 'Bus time-out', + 0x05: 'I/O Channel Check', + 0x06: 'Software NMI', + 0x07: 'POST Memory Resize', + 0x08: 'POST Error', + 0x09: 'PCI Parity Error', + 0x0A: 'PCI System Error', + 0x0B: 'CPU Failure', + 0x0C: 'EISA FailSafe Timer time-out', + 0x0D: 'Correctable memory log disabled', + 0x0E: 'Logging disabled for a specific Event Type - too many errors of the same type received in a short amount of time', + 0x0F: 'Reserved', + 0x10: 'System Limit Exceeded', + 0x11: 'Asynchronous hardware timer expired and issued a system reset', + 0x12: 'System configuration information', + 0x13: 'Hard-disk information', + 0x14: 'System reconfigured', + 0x15: 'Uncorrectable CPU-complex error', + 0x16: 'Log Area Reset/Cleared', + 0x17: 'System boot', + xrange(0x18, 0x7F): 'Unused, available for assignment', + xrange(0x80, 0xFE): 'Availalbe for system- and OEM-specific assignments', + 0xFF: 'End of log' + } + yield 'log_type', u.unpack_one('B'), unpack.format_table("{}", _event_log_type_descriptors) + _event_log_format = { + 0x00: 'None', + 0x01: 'Handle', + 0x02: 'Multiple-Event', + 0x03: 'Multiple-Event Handle', + 0x04: 'POST Results Bitmap', + 0x05: 'System Management Type', + 0x06: 'Multiple-Event System Management Type', + xrange(0x80, 0xFF): 'OEM assigned' + } + yield 'variable_data_format_type', u.unpack_one('B'), unpack.format_table("{}", _event_log_format) + +class PhysicalMemoryArray(SmbiosBaseStructure): + smbios_structure_type = 16 + + def __init__(self, u, sm): + super(PhysicalMemoryArray, self).__init__(u, sm) + u = self.u + try: + if self.length > 0x4: + _location_field = { + 0x01: "Other", + 0x02: "Unknown", + 0x03: "System board or motherboard", + 0x04: "ISA add-on card", + 0x05: "EISA add-on card", + 0x06: "PCI add-on card", + 0x07: "MCA add-on card", + 0x08: "PCMCIA add-on card", + 0x09: "Proprietary add-on card", + 0x0A: "NuBus", + 0xA0: "PC-98/C20 add-on card", + 0xA1: "PC-98/C24 add-on card", + 0xA2: "PC-98/E add-on card", + 0xA3: "PC-98/Local bus add-on card" + } + self.add_field('location', u.unpack_one("B"), unpack.format_table("{}", _location_field)) + if self.length > 0x05: + _use = { + 0x01: "Other", + 0x02: "Unknown", + 0x03: "System memory", + 0x04: "Video memory", + 0x05: "Flash memory", + 0x06: "Non-volatile RAM", + 0x07: "Cache memory" + } + self.add_field('use', u.unpack_one('B'), unpack.format_table("{}", _use)) + if self.length > 0x06: + _error_correction = { + 0x01: "Other", + 0x02: "Unknown", + 0x03: "None", + 0x04: "Parity", + 0x05: "Single-bit ECC", + 0x06: "Multi-bit ECC", + 0x07: "CRC" + } + self.add_field('memory_error_correction', u.unpack_one('B'), unpack.format_table("{}", _error_correction)) + if self.length > 0x07: + self.add_field('maximum_capacity', u.unpack_one('<I')) + if self.length > 0x0B: + self.add_field('memory_error_information_handle', u.unpack_one('<H')) + if self.length > 0x0D: + self.add_field('num_memory_devices', u.unpack_one('<H')) + if self.length > 0x0F: + self.add_field('extended_maximum_capacity', u.unpack_one('<Q')) + except: + self.decodeFailure = True + print "Error parsing PhysicalMemoryArray" + import traceback + traceback.print_exc() + self.fini() + +class MemoryDevice(SmbiosBaseStructure): + smbios_structure_type = 17 + + def __init__(self, u, sm): + super(MemoryDevice, self).__init__(u, sm) + u = self.u + try: + if self.length > 0x4: + self.add_field('physical_memory_array_handle', u.unpack_one("<H")) + if self.length > 0x6: + self.add_field('memory_error_information_handle', u.unpack_one("<H")) + if self.length > 0x8: + self.add_field('total_width', u.unpack_one("<H")) + if self.length > 0xA: + self.add_field('data_width', u.unpack_one("<H")) + if self.length > 0xC: + self.add_field('size', u.unpack_one("<H")) + if self.length > 0xE: + _form_factors = { + 0x01: 'Other', + 0x02: 'Unknown', + 0x03: 'SIMM', + 0x04: 'SIP', + 0x05: 'Chip', + 0x06: 'DIP', + 0x07: 'ZIP', + 0x08: 'Proprietary Card', + 0x09: 'DIMM', + 0x0A: 'TSOP', + 0x0B: 'Row of chips', + 0x0C: 'RIMM', + 0x0D: 'SODIMM', + 0x0E: 'SRIMM', + 0x0F: 'FB-DIMM' + } + self.add_field('form_factor', u.unpack_one("B"), unpack.format_table("{}", _form_factors)) + if self.length > 0xF: + self.add_field('device_set', u.unpack_one("B")) + if self.length > 0x10: + self.add_field('device_locator', u.unpack_one("B"), self.fmtstr) + if self.length > 0x11: + self.add_field('bank_locator', u.unpack_one("B"), self.fmtstr) + if self.length > 0x12: + _memory_types = { + 0x01: 'Other', + 0x02: 'Unknown', + 0x03: 'DRAM', + 0x04: 'EDRAM', + 0x05: 'VRAM', + 0x06: 'SRAM', + 0x07: 'RAM', + 0x08: 'ROM', + 0x09: 'FLASH', + 0x0A: 'EEPROM', + 0x0B: 'FEPROM', + 0x0C: 'EPROM', + 0x0D: 'CDRAM', + 0x0E: '3DRAM', + 0x0F: 'SDRAM', + 0x10: 'SGRAM', + 0x11: 'RDRAM', + 0x12: 'DDR', + 0x13: 'DDR2', + 0x14: 'DDR2 FB-DIMM', + xrange(0x15, 0x17): 'Reserved', + 0x18: 'DDR3', + 0x19: 'FBD2' + } + self.add_field('memory_type', u.unpack_one("B"), unpack.format_table("{}", _memory_types)) + if self.length > 0x13: + self.add_field('type_detail', u.unpack_one('<H')) + if self.length > 0x15: + self.add_field('speed', u.unpack_one("<H")) + if self.length > 0x17: + self.add_field('manufacturer', u.unpack_one("B"), self.fmtstr) + if self.length > 0x18: + self.add_field('serial_number', u.unpack_one("B"), self.fmtstr) + if self.length > 0x19: + self.add_field('asset_tag', u.unpack_one("B"), self.fmtstr) + if self.length > 0x1A: + self.add_field('part_number', u.unpack_one("B"), self.fmtstr) + if self.length > 0x1B: + self.add_field('attributes', u.unpack_one("B")) + self.add_field('rank', bitfields.getbits(self.attributes, 3, 0), "attributes[3:0]={}") + if self.length > 0x1C: + if self.size == 0x7FFF: + self.add_field('extended_size', u.unpack_one('<I')) + self.add_field('mem_size', bitfields.getbits(self.type_detail, 30, 0), "type_detail[30:0]={}") + else: + u.skip(4) + if self.length > 0x20: + self.add_field('configured_memory_clock_speed', u.unpack_one("<H")) + if self.length > 0x22: + self.add_field('minimum_voltage', u.unpack_one("<H")) + if self.length > 0x24: + self.add_field('maximum_voltage', u.unpack_one("<H")) + if self.length > 0x26: + self.add_field('configured_voltage', u.unpack_one("<H")) + except: + self.decodeFailure = True + print "Error parsing MemoryDevice" + import traceback + traceback.print_exc() + self.fini() + +class MemoryErrorInfo32Bit(SmbiosBaseStructure): + smbios_structure_type = 18 + + def __init__(self, u, sm): + super(MemoryErrorInfo32Bit, self).__init__(u, sm) + u = self.u + try: + if self.length > 0x4: + _error_types = { + 0x01: 'Other', + 0x02: 'Unknown', + 0x03: 'OK', + 0x04: 'Bad read', + 0x05: 'Parity error', + 0x06: 'Single-bit error', + 0x07: 'Double-bit error', + 0x08: 'Multi-bit error', + 0x09: 'Nibble error', + 0x0A: 'Checksum error', + 0x0B: 'CRC error', + 0x0C: 'Corrected single-bit error', + 0x0D: 'Corrected error', + 0x0E: 'Uncorrectable error' + } + self.add_field('error_type', u.unpack_one("B"), unpack.format_table("{}", _error_types)) + if self.length > 0x5: + _error_granularity_field = { + 0x01: 'Other', + 0x02: 'Unknown', + 0x03: 'Device level', + 0x04: 'Memory partition level' + } + self.add_field('error_granularity', u.unpack_one("B"), unpack.format_table("{}", _error_granularity_field)) + if self.length > 0x6: + _error_operation_field = { + 0x01: 'Other', + 0x02: 'Unknown', + 0x03: 'Read', + 0x04: 'Write', + 0x05: 'Partial write' + } + self.add_field('error_operation', u.unpack_one("B"), unpack.format_table("{}", _error_operation_field)) + if self.length > 0x7: + self.add_field('vendor_syndrome', u.unpack_one("<I")) + if self.length > 0xB: + self.add_field('memory_array_error_address', u.unpack_one("<I")) + if self.length > 0xF: + self.add_field('device_error_address', u.unpack_one("<I")) + if self.length > 0x13: + self.add_field('error_resolution', u.unpack_one("<I")) + except: + self.decodeFailure = True + print "Error parsing MemoryErrorInfo32Bit" + import traceback + traceback.print_exc() + self.fini() + +class MemoryArrayMappedAddress(SmbiosBaseStructure): + smbios_structure_type = 19 + + def __init__(self, u, sm): + super(MemoryArrayMappedAddress, self).__init__(u, sm) + u = self.u + try: + if self.length > 0x4: + self.add_field('starting_address', u.unpack_one("<I")) + # if FFFF FFFF: address stored in Extended Starting Address + if self.length > 0x8: + self.add_field('ending_address', u.unpack_one("<I")) + if self.length > 0xC: + self.add_field('memory_array_handle', u.unpack_one("<H")) + if self.length > 0xE: + self.add_field('partition_width', u.unpack_one("B")) + if self.length > 0xF: + # valid if starting_address = FFFF FFFF + if self.starting_address == 0xFFFFFFFF: + self.add_field('extended_starting_address', u.unpack_one("<Q")) + if self.length > 0x17: + self.add_field('extended_ending_address', u.unpack_one("<Q")) + else: + u.skip(16) + + except: + self.decodeFailure = True + print "Error parsing MemoryArrayMappedAddress" + import traceback + traceback.print_exc() + self.fini() + +class MemoryDeviceMappedAddress(SmbiosBaseStructure): + smbios_structure_type = 20 + + def __init__(self, u, sm): + super(MemoryDeviceMappedAddress, self).__init__(u, sm) + u = self.u + try: + if self.length > 0x4: + self.add_field('starting_address', u.unpack_one("<I")) + # if FFFF FFFF: address stored in Extended Starting Address + if self.length > 0x8: + self.add_field('ending_address', u.unpack_one("<I")) + if self.length > 0xC: + self.add_field('memory_device_handle', u.unpack_one("<H")) + if self.length > 0xE: + self.add_field('memory_array_mapped_address_handle', u.unpack_one("<H")) + if self.length > 0x10: + self.add_field('partition_row_position', u.unpack_one("B")) + if self.length > 0x11: + self.add_field('interleave_position', u.unpack_one("B")) + if self.length > 0x12: + self.add_field('interleave_data_depth', u.unpack_one("B")) + if self.length > 0x13: + # valid if starting_address = FFFF FFFF + if self.starting_address == 0xFFFFFFFF: + self.add_field('extended_starting_address', u.unpack_one("<Q")) + if self.length > 0x1B: + self.add_field('extended_ending_address', u.unpack_one("<Q")) + else: + u.skip(16) + except: + self.decodeFailure = True + print "Error parsing MemoryDeviceMappedAddress" + import traceback + traceback.print_exc() + self.fini() + +class BuiltInPointingDevice(SmbiosBaseStructure): + smbios_structure_type = 21 + + def __init__(self, u, sm): + super(BuiltInPointingDevice, self).__init__(u, sm) + u = self.u + try: + if self.length > 0x4: + _pointing_device_types = { + 0x01: 'Other', + 0x02: 'Unknown', + 0x03: 'Mouse', + 0x04: 'Track Ball', + 0x05: 'Track Point', + 0x06: 'Glide Point', + 0x07: 'Touch Pad', + 0x08: 'Touch Screen', + 0x09: 'Optical Sensor' + } + self.add_field('pointing_device_type', u.unpack_one("B"), unpack.format_table("{}", _pointing_device_types)) + if self.length > 0x5: + _interfaces = { + 0x01: 'Other', + 0x02: 'Unknown', + 0x03: 'Serial', + 0x04: 'PS/2', + 0x05: 'Infared', + 0x06: 'HP-HIL', + 0x07: 'Bus mouse', + 0x08: 'ADB (Apple Desktop Bus)', + 0x09: 'Bus mouse DB-9', + 0x0A: 'Bus mouse micro-DIN', + 0x0B: 'USB' + } + self.add_field('interface', u.unpack_one("B"), unpack.format_table("{}", _interfaces)) + if self.length > 0x6: + self.add_field('num_buttons', u.unpack_one("B")) + except: + self.decodeFailure = True + print "Error parsing BuiltInPointingDevice" + import traceback + traceback.print_exc() + self.fini() + +class PortableBattery(SmbiosBaseStructure): + smbios_structure_type = 22 + + def __init__(self, u, sm): + super(PortableBattery, self).__init__(u, sm) + u = self.u + try: + if self.length > 0x4: + self.add_field('location', u.unpack_one("B"), self.fmtstr) + if self.length > 0x5: + self.add_field('manufacturer', u.unpack_one("B"), self.fmtstr) + if self.length > 0x6: + self.add_field('manufacturer_date', u.unpack_one("B"), self.fmtstr) + if self.length > 0x7: + self.add_field('serial_number', u.unpack_one("B"), self.fmtstr) + if self.length > 0x8: + self.add_field('device_name', u.unpack_one("B"), self.fmtstr) + if self.length > 0x9: + _device_chemistry = { + 0x01: 'Other', + 0x02: 'Unknown', + 0x03: 'Lead Acid', + 0x04: 'Nickel Cadmium', + 0x05: 'Nickel metal hydride', + 0x06: 'Lithium-ion', + 0x07: 'Zinc air', + 0x08: 'Lithium Polymer' + } + self.add_field('device_chemistry', u.unpack_one("B"), unpack.format_table("{}", _device_chemistry)) + if self.length > 0xA: + self.add_field('design_capacity', u.unpack_one("<H")) + if self.length > 0xC: + self.add_field('design_voltage', u.unpack_one("<H")) + if self.length > 0xE: + self.add_field('sbds_version_number', u.unpack_one("B"), self.fmtstr) + if self.length > 0xF: + self.add_field('max_error_battery_data', u.unpack_one("B"), self.fmtstr) + if self.length > 0x10: + if self.serial_number == 0: + self.add_field('sbds_serial_number', u.unpack_one("<H")) + else: + u.skip(2) + if self.length > 0x12: + if self.manufacturer_date == 0: + self.add_field('sbds_manufacture_date', u.unpack_one("<H")) + self.add_field('year_biased_by_1980', bitfields.getbits(self.sbds_manufacture_date, 15, 9), "sbds_manufacture_date[15:9]={}") + self.add_field('month', bitfields.getbits(self.sbds_manufacture_date, 8, 5), "sbds_manufacture_date[8:5]={}") + self.add_field('date', bitfields.getbits(self.sbds_manufacture_date, 4, 0), "sbds_manufacture_date[4:0]={}") + else: + u.skip(2) + if self.length > 0x14: + if self.device_chemistry == 0x02: + self.add_field('sbds_device_chemistry', u.unpack_one("B"), self.fmtstr) + else: + u.skip(1) + if self.length > 0x15: + self.add_field('design_capacity_multiplier', u.unpack_one("B")) + if self.length > 0x16: + self.add_field('oem_specific', u.unpack_one("<I")) + except: + self.decodeFailure = True + print "Error parsing PortableBattery" + import traceback + traceback.print_exc() + self.fini() + +class SystemReset(SmbiosBaseStructure): + smbios_structure_type = 23 + + def __init__(self, u, sm): + super(SystemReset, self).__init__(u, sm) + u = self.u + try: + if self.length > 0x4: + self.add_field('capabilities', u.unpack_one("B")) + self.add_field('contains_watchdog_timer', bool(bitfields.getbits(self.capabilities, 5)), "capabilities[5]={}") + _boot_option = { + 0b00: 'Reserved, do not use', + 0b01: 'Operating System', + 0b10: 'System utilities', + 0b11: 'Do not reboot' + } + self.add_field('boot_option_on_limit', bitfields.getbits(self.capabilities, 4, 3), unpack.format_table("capabilities[4:3]={}", _boot_option)) + self.add_field('boot_option_after_watchdog_reset', bitfields.getbits(self.capabilities, 2, 1), unpack.format_table("capabilities[2:1]={}", _boot_option)) + self.add_field('system_reset_enabled_by_user', bool(bitfields.getbits(self.capabilities, 0)), "capabilities[0]={}") + if self.length > 0x5: + self.add_field('reset_count', u.unpack_one("<H")) + if self.length > 0x5: + self.add_field('reset_limit', u.unpack_one("<H")) + if self.length > 0x9: + self.add_field('timer_interval', u.unpack_one("<H")) + if self.length > 0xB: + self.add_field('timeout', u.unpack_one("<H")) + except: + self.decodeFailure = True + print "Error parsing SystemReset" + import traceback + traceback.print_exc() + self.fini() + +class HardwareSecurity(SmbiosBaseStructure): + smbios_structure_type = 24 + + def __init__(self, u, sm): + super(HardwareSecurity, self).__init__(u, sm) + u = self.u + try: + if self.length > 0x4: + self.add_field('hardware_security_settings', u.unpack_one("B")) + _status = { + 0x00: 'Disabled', + 0x01: 'Enabled', + 0x02: 'Not Implemented', + 0x03: 'Unknown' + } + self.add_field('power_on_password_status', bitfields.getbits(self.hardware_security_settings, 7, 6), unpack.format_table("hardware_security_settings[7:6]={}", _status)) + self.add_field('keyboard_password_status', bitfields.getbits(self.hardware_security_settings, 5, 4), unpack.format_table("hardware_security_settings[5:4]={}", _status)) + self.add_field('admin_password_status', bitfields.getbits(self.hardware_security_settings, 3, 2), unpack.format_table("hardware_security_settings0[3:2]={}", _status)) + self.add_field('front_panel_reset_status', bitfields.getbits(self.hardware_security_settings, 1, 0), unpack.format_table("hardware_security_settings[1:0]={}", _status)) + except: + self.decodeFailure = True + print "Error parsing HardwareSecurity" + import traceback + traceback.print_exc() + self.fini() + +class SystemPowerControls(SmbiosBaseStructure): + smbios_structure_type = 25 + + def __init__(self, u, sm): + super(SystemPowerControls, self).__init__(u, sm) + u = self.u + try: + if self.length > 0x4: + self.add_field('next_scheduled_poweron_month', u.unpack_one("B")) + self.add_field('next_scheduled_poweron_day_of_month', u.unpack_one("B")) + self.add_field('next_scheduled_poweron_hour', u.unpack_one("B")) + self.add_field('next_scheduled_poweron_minute', u.unpack_one("B")) + self.add_field('next_scheduled_poweron_second', u.unpack_one("B")) + except: + self.decodeFailure = True + print "Error parsing SystemPowerControls" + import traceback + traceback.print_exc() + self.fini() + +class VoltageProbe(SmbiosBaseStructure): + smbios_structure_type = 26 + + def __init__(self, u, sm): + super(VoltageProbe, self).__init__(u, sm) + u = self.u + try: + if self.length > 0x4: + self.add_field('description', u.unpack_one("B"), self.fmtstr) + if self.length > 0x5: + self.add_field('location_and_status', u.unpack_one("B")) + _status = { + 0b001: 'Other', + 0b010: 'Unknown', + 0b011: 'OK', + 0b100: 'Non-critical', + 0b101: 'Critical', + 0b110: 'Non-recoverable' + } + _location = { + 0b00001: 'Other', + 0b00010: 'Unknown', + 0b00011: 'Processor', + 0b00100: 'Disk', + 0b00101: 'Peripheral Bay', + 0b00110: 'System Management Module', + 0b00111: 'Motherboard', + 0b01000: 'Memory Module', + 0b01001: 'Processor Module', + 0b01010: 'Power Unit', + 0b01011: 'Add-in Card' + } + self.add_field('status', bitfields.getbits(self.location_and_status, 7, 5), unpack.format_table("location_and_status[7:5]={}", _status)) + self.add_field('location', bitfields.getbits(self.location_and_status, 4, 0), unpack.format_table("location_and_status[4:0]={}", _location)) + if self.length > 0x6: + self.add_field('max_value', u.unpack_one("<H")) + if self.length > 0x8: + self.add_field('min_value', u.unpack_one("<H")) + if self.length > 0xA: + self.add_field('resolution', u.unpack_one("<H")) + if self.length > 0xC: + self.add_field('tolerance', u.unpack_one("<H")) + if self.length > 0xE: + self.add_field('accuracy', u.unpack_one("<H")) + if self.length > 0x10: + self.add_field('oem_defined', u.unpack_one("<I")) + if self.length > 0x14: + self.add_field('nominal_value', u.unpack_one("<H")) + except: + self.decodeFailure = True + print "Error parsing VoltageProbe" + import traceback + traceback.print_exc() + self.fini() + +class CoolingDevice(SmbiosBaseStructure): + smbios_structure_type = 27 + + def __init__(self, u, sm): + super(CoolingDevice, self).__init__(u, sm) + u = self.u + try: + if self.length > 0x4: + self.add_field('temperature_probe_handle', u.unpack_one("<H")) + if self.length > 0x6: + self.add_field('device_type_and_status', u.unpack_one("B")) + _status = { + 0b001: 'Other', + 0b010: 'Unknown', + 0b011: 'OK', + 0b100: 'Non-critical', + 0b101: 'Critical', + 0b110: 'Non-recoverable' + } + _type = { + 0b00001: 'Other', + 0b00010: 'Unknown', + 0b00011: 'Fan', + 0b00100: 'Centrifugal Blower', + 0b00101: 'Chip Fan', + 0b00110: 'Cabinet Fan', + 0b00111: 'Power Supply Fan', + 0b01000: 'Heat Pipe', + 0b01001: 'Integrated Refrigeration', + 0b10000: 'Active Cooling', + 0b10001: 'Passive Cooling' + } + self.add_field('status', bitfields.getbits(self.device_type_and_status, 7, 5), unpack.format_table("device_type_and_status[7:5]={}", _status)) + self.add_field('device_type', bitfields.getbits(self.device_type_and_status, 4, 0), unpack.format_table("device_type_and_status[4:0]={}", _type)) + if self.length > 0x7: + self.add_field('cooling_unit_group', u.unpack_one("B")) + if self.length > 0x8: + self.add_field('OEM_defined', u.unpack_one("<I")) + if self.length > 0xC: + self.add_field('nominal_speed', u.unpack_one("<H")) + if self.length > 0xE: + self.add_field('description', u.unpack_one("B"), self.fmtstr) + except: + self.decodeFailure = True + print "Error parsing CoolingDevice" + import traceback + traceback.print_exc() + self.fini() + +class TemperatureProbe(SmbiosBaseStructure): + smbios_structure_type = 28 + + def __init__(self, u, sm): + super(TemperatureProbe, self).__init__(u, sm) + u = self.u + try: + if self.length > 0x4: + self.add_field('description', u.unpack_one("B"), self.fmtstr) + if self.length > 0x5: + self.add_field('location_and_status', u.unpack_one("B")) + _status = { + 0b001: 'Other', + 0b010: 'Unknown', + 0b011: 'OK', + 0b100: 'Non-critical', + 0b101: 'Critical', + 0b110: 'Non-recoverable' + } + _location = { + 0b00001: 'Other', + 0b00010: 'Unknown', + 0b00011: 'Processor', + 0b00100: 'Disk', + 0b00101: 'Peripheral Bay', + 0b00110: 'System Management Module', + 0b00111: 'Motherboard', + 0b01000: 'Memory Module', + 0b01001: 'Processor Module', + 0b01010: 'Power Unit', + 0b01011: 'Add-in Card', + 0b01100: 'Front Panel Board', + 0b01101: 'Back Panel Board', + 0b01110: 'Power System Board', + 0b01111: 'Drive Back Plane' + } + self.add_field('status', bitfields.getbits(self.location_and_status, 7, 5), unpack.format_table("location_and_status[7:5]={}", _status)) + self.add_field('location', bitfields.getbits(self.location_and_status, 4, 0), unpack.format_table("location_and_status[4:0]={}", _location)) + if self.length > 0x6: + self.add_field('maximum_value', u.unpack_one("<H")) + if self.length > 0x8: + self.add_field('minimum_value', u.unpack_one("<H")) + if self.length > 0xA: + self.add_field('resolution', u.unpack_one("<H")) + if self.length > 0xC: + self.add_field('tolerance', u.unpack_one("<H")) + if self.length > 0xE: + self.add_field('accuracy', u.unpack_one("<H")) + if self.length > 0x10: + self.add_field('OEM_defined', u.unpack_one("<I")) + if self.length > 0x14: + self.add_field('nominal_value', u.unpack_one("<H")) + except: + self.decodeFailure = True + print "Error parsing TemperatureProbe" + import traceback + traceback.print_exc() + self.fini() + +class ElectricalCurrentProbe(SmbiosBaseStructure): + smbios_structure_type = 29 + + def __init__(self, u, sm): + super(ElectricalCurrentProbe, self).__init__(u, sm) + u = self.u + try: + if self.length > 0x4: + self.add_field('description', u.unpack_one("B"), self.fmtstr) + if self.length > 0x5: + self.add_field('location_and_status', u.unpack_one("B")) + _status = { + 0b001: 'Other', + 0b010: 'Unknown', + 0b011: 'OK', + 0b100: 'Non-critical', + 0b101: 'Critical', + 0b110: 'Non-recoverable' + } + _location = { + 0b00001: 'Other', + 0b00010: 'Unknown', + 0b00011: 'Processor', + 0b00100: 'Disk', + 0b00101: 'Peripheral Bay', + 0b00110: 'System Management Module', + 0b00111: 'Motherboard', + 0b01000: 'Memory Module', + 0b01001: 'Processor Module', + 0b01010: 'Power Unit', + 0b01011: 'Add-in Card', + 0b01100: 'Front Panel Board', + 0b01101: 'Back Panel Board', + 0b01110: 'Power System Board', + 0b01111: 'Drive Back Plane' + } + self.add_field('status', bitfields.getbits(self.location_and_status, 7, 5), unpack.format_table("location_and_status[7:5]={}", _status)) + self.add_field('location', bitfields.getbits(self.location_and_status, 4, 0), unpack.format_table("location_and_status[4:0]={}", _location)) + if self.length > 0x6: + self.add_field('maximum_value', u.unpack_one("<H")) + if self.length > 0x8: + self.add_field('minimum_value', u.unpack_one("<H")) + if self.length > 0xA: + self.add_field('resolution', u.unpack_one("<H")) + if self.length > 0xC: + self.add_field('tolerance', u.unpack_one("<H")) + if self.length > 0xE: + self.add_field('accuracy', u.unpack_one("<H")) + if self.length > 0x10: + self.add_field('OEM_defined', u.unpack_one("<I")) + if self.length > 0x14: + self.add_field('nominal_value', u.unpack_one("<H")) + except: + self.decodeFailure = True + print "Error parsing ElectricalCurrentProbe" + import traceback + traceback.print_exc() + self.fini() + +class OutOfBandRemoteAccess(SmbiosBaseStructure): + smbios_structure_type = 30 + + def __init__(self, u, sm): + super(OutOfBandRemoteAccess, self).__init__(u, sm) + u = self.u + try: + if self.length > 0x4: + self.add_field('manufacturer_name', u.unpack_one("B"), self.fmtstr) + if self.length > 0x5: + self.add_field('connections', u.unpack_one("B")) + self.add_field('outbound_connection_enabled', bool(bitfields.getbits(self.connections, 1)), "connections[1]={}") + self.add_field('inbound_connection_enabled', bool(bitfields.getbits(self.connections, 0)), "connections[0]={}") + except: + self.decodeFailure = True + print "Error parsing OutOfBandRemoteAccess" + import traceback + traceback.print_exc() + self.fini() + +class BootIntegrityServicesEntryPoint(SmbiosBaseStructure): + smbios_structure_type = 31 + +class SystemBootInformation(SmbiosBaseStructure): + smbios_structure_type = 32 + + def __init__(self, u, sm): + super(SystemBootInformation, self).__init__(u, sm) + u = self.u + try: + if self.length > 0xA: + u.skip(6) + _boot_status = { + 0: 'No errors detected', + 1: 'No bootable media', + 2: '"normal" operating system failed to load', + 3: 'Firmware-detected hardware failure, including "unknown" failure types', + 4: 'Operating system-detected hardware failure', + 5: 'User-requested boot, usually through a keystroke', + 6: 'System security violation', + 7: 'Previously-requested image', + 8: 'System watchdog timer expired, causing the system to reboot', + xrange(9,127): 'Reserved for future assignment', + xrange(128, 191): 'Vendor/OEM-specific implementations', + xrange(192, 255): 'Product-specific implementations' + } + self.add_field('boot_status', u.unpack_one("B"), unpack.format_table("{}", _boot_status)) + except: + self.decodeFailure = True + print "Error parsing SystemBootInformation" + import traceback + traceback.print_exc() + self.fini() + +class MemoryErrorInfo64Bit(SmbiosBaseStructure): + smbios_structure_type = 33 + + def __init__(self, u, sm): + super(MemoryErrorInfo64Bit, self).__init__(u, sm) + u = self.u + try: + if self.length > 0x4: + _error_types = { + 0x01: 'Other', + 0x02: 'Unknown', + 0x03: 'OK', + 0x04: 'Bad read', + 0x05: 'Parity error', + 0x06: 'Single-bit error', + 0x07: 'Double-bit error', + 0x08: 'Multi-bit error', + 0x09: 'Nibble error', + 0x0A: 'Checksum error', + 0x0B: 'CRC error', + 0x0C: 'Corrected single-bit error', + 0x0D: 'Corrected error', + 0x0E: 'Uncorrectable error' + } + self.add_field('error_type', u.unpack_one("B"), unpack.format_table("{}", _error_types)) + if self.length > 0x5: + _error_granularity_field = { + 0x01: 'Other', + 0x02: 'Unknown', + 0x03: 'Device level', + 0x04: 'Memory partition level' + } + self.add_field('error_granularity', u.unpack_one("B"), unpack.format_table("{}", _error_granularity_field)) + if self.length > 0x6: + _error_operation_field = { + 0x01: 'Other', + 0x02: 'Unknown', + 0x03: 'Read', + 0x04: 'Write', + 0x05: 'Partial write' + } + self.add_field('error_operation', u.unpack_one("B"), unpack.format_table("{}", _error_operation_field)) + if self.length > 0x7: + self.add_field('vendor_syndrome', u.unpack_one("<I")) + if self.length > 0xB: + self.add_field('memory_array_error_address', u.unpack_one("<Q")) + if self.length > 0xF: + self.add_field('device_error_address', u.unpack_one("<Q")) + if self.length > 0x13: + self.add_field('error_resolution', u.unpack_one("<Q")) + except: + self.decodeFailure = True + print "Error parsing MemoryErrorInfo64Bit" + import traceback + traceback.print_exc() + self.fini() + +class ManagementDevice(SmbiosBaseStructure): + smbios_structure_type = 34 + + def __init__(self, u, sm): + super(ManagementDevice, self).__init__(u, sm) + u = self.u + try: + if self.length > 0x4: + self.add_field('description', u.unpack_one("B"), self.fmtstr) + if self.length > 0x5: + _type = { + 0x01: 'Other', + 0x02: 'Unknown', + 0x03: 'National Semiconductor LM75', + 0x04: 'National Semiconductor LM78', + 0x05: 'National Semiconductor LM79', + 0x06: 'National Semiconductor LM80', + 0x07: 'National Semiconductor LM81', + 0x08: 'Analog Devices ADM9240', + 0x09: 'Dallas Semiconductor DS1780', + 0x0A: 'Maxim 1617', + 0x0B: 'Genesys GL518SM', + 0x0C: 'Winbond W83781D', + 0x0D: 'Holtek HT82H791' + } + self.add_field('device_type', u.unpack_one("B"), unpack.format_table("{}", _type)) + if self.length > 0x6: + self.add_field('address', u.unpack_one("<I")) + if self.length > 0xA: + _address_type = { + 0x01: 'Other', + 0x02: 'Unknown', + 0x03: 'I/O Port', + 0x04: 'Memory', + 0x05: 'SM Bus' + } + self.add_field('address_type', u.unpack_one("B"), unpack.format_table("{}", _address_type)) + except: + self.decodeFailure = True + print "Error parsing ManagementDevice" + import traceback + traceback.print_exc() + self.fini() + +class ManagementDeviceComponent(SmbiosBaseStructure): + smbios_structure_type = 35 + + def __init__(self, u, sm): + super(ManagementDeviceComponent, self).__init__(u, sm) + u = self.u + try: + if self.length > 0x4: + self.add_field('description', u.unpack_one("B"), self.fmtstr) + if self.length > 0x5: + self.add_field('management_device_handle', u.unpack_one("<H")) + if self.length > 0x7: + self.add_field('component_handle', u.unpack_one("<H")) + if self.length > 0x9: + self.add_field('threshold_handle', u.unpack_one("<H")) + except: + self.decodeFailure = True + print "Error parsing ManagementDeviceComponent" + import traceback + traceback.print_exc() + self.fini() + +class ManagementDeviceThresholdData(SmbiosBaseStructure): + smbios_structure_type = 36 + + def __init__(self, u, sm): + super(ManagementDeviceThresholdData, self).__init__(u, sm) + u = self.u + try: + if self.length > 0x4: + self.add_field('lower_threshold_noncritical', u.unpack_one("<H")) + if self.length > 0x6: + self.add_field('upper_threshold_noncritical', u.unpack_one("<H")) + if self.length > 0x8: + self.add_field('lower_threshold_critical', u.unpack_one("<H")) + if self.length > 0xA: + self.add_field('upper_threshold_critical', u.unpack_one("<H")) + if self.length > 0xC: + self.add_field('lower_threshold_nonrecoverable', u.unpack_one("<H")) + if self.length > 0xE: + self.add_field('upper_threshold_nonrecoverable', u.unpack_one("<H")) + except: + self.decodeFailure = True + print "Error parsing ManagementDeviceThresholdData" + import traceback + traceback.print_exc() + self.fini() + +class MemoryChannel(SmbiosBaseStructure): + smbios_structure_type = 37 + + def __init__(self, u, sm): + super(MemoryChannel, self).__init__(u, sm) + u = self.u + try: + if self.length > 0x4: + _channel_type = { + 0x01: 'Other', + 0x02: 'Unknown', + 0x03: 'RamBus', + 0x04: 'SyncLink' + } + self.add_field('channel_type', u.unpack_one("B"), unpack.format_table("{}", _channel_type)) + if self.length > 0x6: + self.add_field('max_channel_load', u.unpack_one("B")) + if self.length > 0x8: + self.add_field('memory_device_count', u.unpack_one("B")) + if self.length > 0xA: + self.add_field('memory_device_load', u.unpack_one("B")) + if self.length > 0xC: + self.add_field('memory_device_handle', u.unpack_one("<H")) + except: + self.decodeFailure = True + print "Error parsing MemoryChannel" + import traceback + traceback.print_exc() + self.fini() + +class IPMIDeviceInformation(SmbiosBaseStructure): + smbios_structure_type = 38 + + def __init__(self, u, sm): + super(IPMIDeviceInformation, self).__init__(u, sm) + u = self.u + try: + _interface_type = { + 0x00: 'Unknown', + 0x01: 'KCS: Keyboard Controller Style', + 0x02: 'SMIC: Server Management Interface Chip', + 0x03: 'BT: Block Transfer', + xrange(0x04, 0xFF): 'Reserved' + } + self.add_field('interface_type', u.unpack_one("B"), unpack.format_table("{}", _interface_type)) + self.add_field('ipmi_specification_revision', u.unpack_one("B")) + self.add_field('msd_revision', bitfields.getbits(self.ipmi_specification_revision, 7, 4), "ipmi_specification_revision[7:4]={}") + self.add_field('lsd_revision', bitfields.getbits(self.ipmi_specification_revision, 3, 0), "ipmi_specification_revision[3:0]={}") + + self.add_field('i2c_slave_address', u.unpack_one("B")) + self.add_field('nv_storage_device_address', u.unpack_one("B")) + self.add_field('base_address', u.unpack_one("<Q")) + # if lsb is 1, address is in IO space. otherwise, memory-mapped + self.add_field('base_address_modifier_interrupt_info', u.unpack_one("B")) + _reg_spacing = { + 0b00: 'Interface registers are on successive byte boundaries', + 0b01: 'Interface registers are on 32-bit boundaries', + 0b10: 'Interface registers are on 16-byte boundaries', + 0b11: 'Reserved' + } + self.add_field('register_spacing', bitfields.getbits(self.base_address_modifier_interrupt_info, 7, 6), unpack.format_table("base_address_modifier_interrupt_info[7:6]={}", _reg_spacing)) + self.add_field('ls_bit_for_addresses', bitfields.getbits(self.base_address_modifier_interrupt_info, 4), "base_address_modifier_interrupt_info[4]={}") + self.add_field('interrupt_info_specified', bool(bitfields.getbits(self.base_address_modifier_interrupt_info, 3)), "base_address_modifier_interrupt_info[3]={}") + _polarity = { + 0: 'active low', + 1: 'active high' + } + self.add_field('interrupt_polarity', bitfields.getbits(self.base_address_modifier_interrupt_info, 1), unpack.format_table("base_address_modifier_interrupt_info[1]={}", _polarity)) + _interrupt_trigger = { + 0: 'edge', + 1: 'level' + } + self.add_field('interrupt_trigger_mode', bitfields.getbits(self.base_address_modifier_interrupt_info, 0), unpack.format_table("base_address_modifier_interrupt_info[0]={}", _interrupt_trigger)) + self.add_field('interrupt_number', u.unpack_one("B")) + except: + self.decodeFailure = True + print "Error parsing IPMIDeviceInformation" + import traceback + traceback.print_exc() + self.fini() + +class SystemPowerSupply(SmbiosBaseStructure): + smbios_structure_type = 39 + + def __init__(self, u, sm): + super(SystemPowerSupply, self).__init__(u, sm) + u = self.u + try: + if self.length > 0x4: + self.add_field('power_unit_group', u.unpack_one("B")) + if self.length > 0x5: + self.add_field('location', u.unpack_one("B"), self.fmtstr) + if self.length > 0x6: + self.add_field('device_name', u.unpack_one("B"), self.fmtstr) + if self.length > 0x7: + self.add_field('manufacturer', u.unpack_one("B"), self.fmtstr) + if self.length > 0x8: + self.add_field('serial_number', u.unpack_one("B"), self.fmtstr) + if self.length > 0x9: + self.add_field('asset_tag', u.unpack_one("B"), self.fmtstr) + if self.length > 0xA: + self.add_field('model_part_number', u.unpack_one("B"), self.fmtstr) + if self.length > 0xB: + self.add_field('revision_level', u.unpack_one("B"), self.fmtstr) + if self.length > 0xC: + self.add_field('max_power_capacity', u.unpack_one("<H")) + if self.length > 0xE: + self.add_field('power_supply_characteristics', u.unpack_one("<H")) + _dmtf_power_supply_type = { + 0b001: 'Other', + 0b010: 'Unknown', + 0b011: 'Linear', + 0b100: 'Switching', + 0b101: 'Battery', + 0b110: 'UPS', + 0b111: 'Converter', + 0b1000: 'Regulator', + xrange(0b1001, 0b1111): 'Reserved' + } + self.add_field('dmtf_power_supply_type', bitfields.getbits(self.power_supply_characteristics, 13, 10), unpack.format_table("power_supply_characteristics[13:10]={}", _dmtf_power_supply_type)) + _status = { + 0b001: 'Other', + 0b010: 'Unknown', + 0b011: 'OK', + 0b100: 'Non-critical', + 0b101: 'Critical; power supply has failed and has been taken off-line' + } + self.add_field('status', bitfields.getbits(self.power_supply_characteristics, 9, 7), unpack.format_table("power_supply_characteristics[9:7]={}", _status)) + _dmtf_input_voltage_range_switching = { + 0b001: 'Other', + 0b010: 'Unknown', + 0b011: 'Manual', + 0b100: 'Auto-switch', + 0b101: 'Wide range', + 0b110: 'Not applicable', + xrange(0b0111, 0b1111): 'Reserved' + } + self.add_field('dmtf_input_voltage_range_switching', bitfields.getbits(self.power_supply_characteristics, 6, 3), unpack.format_table("power_supply_characteristics[6:3]={}", _dmtf_input_voltage_range_switching)) + self.add_field('power_supply_unplugged', bool(bitfields.getbits(self.power_supply_characteristics, 2)), "power_supply_characteristics[2]={}") + self.add_field('power_supply_present', bool(bitfields.getbits(self.power_supply_characteristics, 1)), "power_supply_characteristics[1]={}") + self.add_field('power_supply_hot_replaceable', bool(bitfields.getbits(self.power_supply_characteristics, 0)), "power_supply_characteristics[0]={}") + if self.length > 0x10: + self.add_field('input_voltage_probe_handle', u.unpack_one("<H")) + if self.length > 0x12: + self.add_field('cooling_device_handle', u.unpack_one("<H")) + if self.length > 0x14: + self.add_field('input_current_probe_handle', u.unpack_one("<H")) + except: + self.decodeFailure = True + print "Error parsing SystemPowerSupply" + import traceback + traceback.print_exc() + self.fini() + +class AdditionalInformation(SmbiosBaseStructure): + smbios_structure_type = 40 + + def __init__(self, u, sm): + super(AdditionalInformation, self).__init__(u, sm) + u = self.u + try: + if self.length > 0x4: + self.add_field('num_additional_information_entries', u.unpack_one("B")) + if self.length > 0x5: + self.add_field('additional_information_entry_length', u.unpack_one("B")) + self.add_field('referenced_handle', u.unpack_one("<H")) + self.add_field('referenced_offset', u.unpack_one("B")) + self.add_field('string', u.unpack_one("B"), self.fmtstr) + self.add_field('value', u.unpack_rest()) + except: + self.decodeFailure = True + print "Error parsing AdditionalInformation" + import traceback + traceback.print_exc() + self.fini() + +class OnboardDevicesExtendedInformation(SmbiosBaseStructure): + smbios_structure_type = 41 + + def __init__(self, u, sm): + super(OnboardDevicesExtendedInformation, self).__init__(u, sm) + u = self.u + try: + if self.length > 0x4: + self.add_field('reference_designation', u.unpack_one("B"), self.fmtstr) + if self.length > 0x5: + self.add_field('device_type', u.unpack_one("B")) + self.add_field('device_enabled', bool(bitfields.getbits(self.device_type, 7)), "device_type[7]={}") + _device_types = { + 0x01: 'Other', + 0x02: 'Unknown', + 0x03: 'Video', + 0x04: 'SCSI Controller', + 0x05: 'Ethernet', + 0x06: 'Token Ring', + 0x07: 'Sound', + 0x08: 'PATA Controller', + 0x09: 'SATA Controller', + 0x0A: 'SAS Controller' + } + self.add_field('type_of_device', bitfields.getbits(self.device_type, 6, 0), unpack.format_table("device_type[6:0]={}", _device_types)) + if self.length > 0x6: + self.add_field('device_type_instance', u.unpack_one("B")) + if self.length > 0x7: + self.add_field('segment_group_number', u.unpack_one("<H")) + if self.length > 0x9: + self.add_field('bus_number', u.unpack_one("B"), self.fmtstr) + if self.length > 0xA: + self.add_field('device_and_function_number', u.unpack_one("B")) + self.add_field('device_number', bitfields.getbits(self.device_type, 7, 3), "device_and_function_number[7:3]={}") + self.add_field('function_number', bitfields.getbits(self.device_type, 2, 0), "device_and_function_number[2:0]={}") + except: + self.decodeFailure = True + print "Error parsing OnboardDevicesExtendedInformation" + import traceback + traceback.print_exc() + self.fini() + +class ManagementControllerHostInterface(SmbiosBaseStructure): + smbios_structure_type = 42 + + def __init__(self, u, sm): + super(ManagementControllerHostInterface, self).__init__(u, sm) + u = self.u + try: + if self.length > 0x4: + _interface_types = { + 0x00: 'Reserved', + 0x01: 'Reserved', + 0x02: 'KCS: Keyboard Controller Style', + 0x03: '8250 UART Register Compatible', + 0x04: '16450 UART Register Compatible', + 0x05: '16550/16550A UART Register Compatible', + 0x06: '16650/16650A UART Register Compatible', + 0x07: '16750/16750A UART Register Compatible', + 0x08: '16850/16850A UART Register Compatible', + 0xF0: 'OEM' + } + self.add_field('interface_type', u.unpack_one("B"), unpack.format_table("{}", _interface_types)) + if self.length > 0x5: + self.add_field('mc_host_interface_data', u.unpack_rest(), self.fmtstr) + except: + self.decodeFailure = True + print "Error parsing ManagementControllerHostInterface" + import traceback + traceback.print_exc() + self.fini() + +class Inactive(SmbiosBaseStructure): + smbios_structure_type = 126 + + def __init__(self, u, sm): + super(Inactive, self).__init__(u, sm) + self.fini() + +class EndOfTable(SmbiosBaseStructure): + smbios_structure_type = 127 + + def __init__(self, u, sm): + super(EndOfTable, self).__init__(u, sm) + self.fini() + +class SmbiosStructureUnknown(SmbiosBaseStructure): + smbios_structure_type = None + + def __init__(self, u, sm): + super(SmbiosStructureUnknown, self).__init__(u, sm) + self.fini() + +_smbios_structures = [ + BIOSInformation, + SystemInformation, + BaseboardInformation, + SystemEnclosure, + ProcessorInformation, + MemoryControllerInformation, + MemoryModuleInformation, + CacheInformation, + PortConnectorInfo, + SystemSlots, + OnBoardDevicesInformation, + OEMStrings, + SystemConfigOptions, + BIOSLanguageInformation, + GroupAssociations, + SystemEventLog, + PhysicalMemoryArray, + MemoryDevice, + MemoryErrorInfo32Bit, + MemoryArrayMappedAddress, + MemoryDeviceMappedAddress, + BuiltInPointingDevice, + PortableBattery, + SystemReset, + HardwareSecurity, + SystemPowerControls, + VoltageProbe, + CoolingDevice, + TemperatureProbe, + ElectricalCurrentProbe, + OutOfBandRemoteAccess, + BootIntegrityServicesEntryPoint, + SystemBootInformation, + MemoryErrorInfo64Bit, + ManagementDevice, + ManagementDeviceComponent, + ManagementDeviceThresholdData, + MemoryChannel, + IPMIDeviceInformation, + SystemPowerSupply, + AdditionalInformation, + OnboardDevicesExtendedInformation, + ManagementControllerHostInterface, + Inactive, + EndOfTable, + SmbiosStructureUnknown, # Must always come last +] + +def log_smbios_info(): + with redirect.logonly(): + try: + sm = SMBIOS() + print + if sm is None: + print "No SMBIOS structures found" + return + output = {} + known_types = (0, 1) + for sm_struct in sm.structures: + if sm_struct.type in known_types: + output.setdefault(sm_struct.type, []).append(sm_struct) + if len(output) == len(known_types): + break + + print "SMBIOS information:" + for key in sorted(known_types): + for s in output.get(key, ["No structure of type {} found".format(key)]): + print ttypager._wrap("{}: {}".format(key, s)) + except: + print "Error parsing SMBIOS information:" + import traceback + traceback.print_exc() + +def dump_raw(): + try: + sm = SMBIOS() + if sm: + s = "SMBIOS -- Raw bytes and structure decode.\n\n" + + s += str(sm.header) + '\n' + s += bits.dumpmem(sm._header_memory) + '\n' + + s += "Raw bytes for the SMBIOS structures\n" + s += bits.dumpmem(sm._structure_memory) + '\n' + + for sm_struct in sm.structures: + s += str(sm_struct) + '\n' + s += bits.dumpmem(sm_struct.raw_data) + + s += "Strings:\n" + for n in range(1, len(getattr(sm_struct, "strings", [])) + 1): + s += str(sm_struct.fmtstr(n)) + '\n' + s += bits.dumpmem(sm_struct.raw_strings) + '\n' + else: + s = "No SMBIOS structures found" + ttypager.ttypager_wrap(s, indent=False) + except: + print "Error parsing SMBIOS information:" + import traceback + traceback.print_exc() + +def dump(): + try: + sm = SMBIOS() + if sm: + s = str(sm) + else: + s = "No SMBIOS structures found" + ttypager.ttypager_wrap(s, indent=False) + except: + print "Error parsing SMBIOS information:" + import traceback + traceback.print_exc() + +def annex_a_conformance(): + try: + sm = SMBIOS() + + # check: 1. The table anchor string "_SM_" is present in the address range 0xF0000 to 0xFFFFF on a 16-byte bound + + def table_entry_point_verification(): + ''' Verify table entry-point''' + if (sm.header.length < 0x1F): + print "Failure: Table entry-point - The entry-point Length must be at least 0x1F" + if sm.header.checksum != 0: + print "Failure: Table entry-point - The entry-point checksum must evaluate to 0" + if ((sm.header.major_version < 2) and (sm.header.minor_version < 4)): + print "Failure: Table entry-point - SMBIOS version must be at least 2.4" + if (sm.header.intermediate_anchor_string == '_DMI_'): + print "Failure: Table entry-point - The Intermediate Anchor String must be '_DMI_'" + if (sm.header.intermediate_checksum != 0): + print "Failure: Table entry-point - The Intermediate checksum must evaluate to 0" + + #check: 3. The structure-table is traversable and conforms to the entry-point specifications: + + def req_structures(): + '''Checks for required structures and corresponding data''' + types_present = [sm.structures[x].smbios_structure_type for x in range(len(sm.structures))] + required = [0, 1, 4, 7, 9, 16, 17, 19, 31, 32] + for s in required: + if s not in set(types_present): + print "Failure: Type {} required but not found".format(s) + + else: + if s == 0: + if types_present.count(s) > 1: + print "Failure: Type {} - One and only one structure of this type must be present.".format(s) + if sm.structure_type(s).length < 0x18: + print "Failure: Type {} - The structure Length field must be at least 0x18".format(s) + if sm.structure_type(s).version is None: + print "Failure: Type {} - BIOS Version string must be present and non-null.".format(s) + if sm.structure_type(s).release_date is None: + print "Failure: Type {} - BIOS Release Date string must be present, non-null, and include a 4-digit year".format(s) + if bitfields.getbits(sm.structure_type(s).characteristics, 3, 0) != 0 or bitfields.getbits(sm.structure_type(s).characteristics, 31, 4) == 0: + print "Failure: Type {} - BIOS Characteristics: bits 3:0 must all be 0, and at least one of bits 31:4 must be set to 1.".format(s) + elif s == 1: + if types_present.count(s) > 1: + print "Failure: Type {} - One and only one structure of this type must be present.".format(s) + if sm.structure_type(s).length < 0x1B: + print "Failure: Type {} - The structure Length field must be at least 0x1B".format(s) + if sm.structure_type(s).manufacturer == None: + print "Failure: Type {} - Manufacturer string must be present and non-null.".format(s) + if sm.structure_type(s).product_name == None: + print "Failure: Type {} - Product Name string must be present and non-null".format(s) + if sm.structure_type(s).uuid == '00000000 00000000' and sm.structure_type(s).uuid == 'FFFFFFFF FFFFFFFF': + print "Failure: Type {} - UUID field must be neither 00000000 00000000 nor FFFFFFFF FFFFFFFF.".format(s) + if sm.structure_type(s).wakeup_type == 00 and sm.structure_type(s).wakeup_type == 0x02: + print "Failure: Type {} - Wake-up Type field must be neither 00h (Reserved) nor 02h (Unknown).".format(s) + # continue for remaining required types + + # check remaining conformance guidelines + + table_entry_point_verification() + req_structures() + except: + print "Error checking ANNEX A conformance guidelines" + import traceback + traceback.print_exc() diff --git a/tests/avocado/acpi-bits/bits-tests/testacpi.py2 b/tests/avocado/acpi-bits/bits-tests/testacpi.py2 new file mode 100644 index 0000000000..dbc150076e --- /dev/null +++ b/tests/avocado/acpi-bits/bits-tests/testacpi.py2 @@ -0,0 +1,283 @@ +# Copyright (c) 2015, Intel Corporation +# All rights reserved. +# +# Redistribution and use in source and binary forms, with or without +# modification, are permitted provided that the following conditions are met: +# +# * Redistributions of source code must retain the above copyright notice, +# this list of conditions and the following disclaimer. +# * Redistributions in binary form must reproduce the above copyright notice, +# this list of conditions and the following disclaimer in the documentation +# and/or other materials provided with the distribution. +# * Neither the name of Intel Corporation nor the names of its contributors +# may be used to endorse or promote products derived from this software +# without specific prior written permission. +# +# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND +# ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +# WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE +# DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR +# ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES +# (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; +# LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON +# ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT +# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS +# SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + +"""Tests for ACPI""" + +import acpi +import bits +import bits.mwait +import struct +import testutil +import testsuite +import time + +def register_tests(): + testsuite.add_test("ACPI _MAT (Multiple APIC Table Entry) under Processor objects", test_mat, submenu="ACPI Tests") +# testsuite.add_test("ACPI _PSS (Pstate) table conformance tests", test_pss, submenu="ACPI Tests") +# testsuite.add_test("ACPI _PSS (Pstate) runtime tests", test_pstates, submenu="ACPI Tests") + testsuite.add_test("ACPI DSDT (Differentiated System Description Table)", test_dsdt, submenu="ACPI Tests") + testsuite.add_test("ACPI FACP (Fixed ACPI Description Table)", test_facp, submenu="ACPI Tests") + testsuite.add_test("ACPI HPET (High Precision Event Timer Table)", test_hpet, submenu="ACPI Tests") + testsuite.add_test("ACPI MADT (Multiple APIC Description Table)", test_apic, submenu="ACPI Tests") + testsuite.add_test("ACPI MPST (Memory Power State Table)", test_mpst, submenu="ACPI Tests") + testsuite.add_test("ACPI RSDP (Root System Description Pointer Structure)", test_rsdp, submenu="ACPI Tests") + testsuite.add_test("ACPI XSDT (Extended System Description Table)", test_xsdt, submenu="ACPI Tests") + +def test_mat(): + cpupaths = acpi.get_cpupaths() + apic = acpi.parse_apic() + procid_apicid = apic.procid_apicid + uid_x2apicid = apic.uid_x2apicid + for cpupath in cpupaths: + # Find the ProcId defined by the processor object + processor = acpi.evaluate(cpupath) + # Find the UID defined by the processor object's _UID method + uid = acpi.evaluate(cpupath + "._UID") + mat_buffer = acpi.evaluate(cpupath + "._MAT") + if mat_buffer is None: + continue + # Process each _MAT subtable + mat = acpi._MAT(mat_buffer) + for index, subtable in enumerate(mat): + if subtable.subtype == acpi.MADT_TYPE_LOCAL_APIC: + if subtable.flags.bits.enabled: + testsuite.test("{} Processor declaration ProcId = _MAT ProcId".format(cpupath), processor.ProcId == subtable.proc_id) + testsuite.print_detail("{} ProcId ({:#02x}) != _MAT ProcId ({:#02x})".format(cpupath, processor.ProcId, subtable.proc_id)) + testsuite.print_detail("Processor Declaration: {}".format(processor)) + testsuite.print_detail("_MAT entry[{}]: {}".format(index, subtable)) + if testsuite.test("{} with local APIC in _MAT has local APIC in MADT".format(cpupath), processor.ProcId in procid_apicid): + testsuite.test("{} ApicId derived using Processor declaration ProcId = _MAT ApicId".format(cpupath), procid_apicid[processor.ProcId] == subtable.apic_id) + testsuite.print_detail("{} ApicId derived from MADT ({:#02x}) != _MAT ApicId ({:#02x})".format(cpupath, procid_apicid[processor.ProcId], subtable.apic_id)) + testsuite.print_detail("Processor Declaration: {}".format(processor)) + testsuite.print_detail("_MAT entry[{}]: {}".format(index, subtable)) + if subtable.subtype == acpi.MADT_TYPE_LOCAL_X2APIC: + if subtable.flags.bits.enabled: + if testsuite.test("{} with x2Apic in _MAT has _UID".format(cpupath), uid is not None): + testsuite.test("{}._UID = _MAT UID".format(cpupath), uid == subtable.uid) + testsuite.print_detail("{}._UID ({:#x}) != _MAT UID ({:#x})".format(cpupath, uid, subtable.uid)) + testsuite.print_detail("_MAT entry[{}]: {}".format(index, subtable)) + if testsuite.test("{} with _MAT x2Apic has x2Apic in MADT".format(cpupath), subtable.uid in uid_x2apicid): + testsuite.test("{} x2ApicId derived from MADT using UID = _MAT x2ApicId".format(cpupath), uid_x2apicid[subtable.uid] == subtable.x2apicid) + testsuite.print_detail("{} x2ApicId derived from MADT ({:#02x}) != _MAT x2ApicId ({:#02x})".format(cpupath, uid_x2apicid[subtable.uid], subtable.x2apicid)) + testsuite.print_detail("_MAT entry[{}]: {}".format(index, subtable)) + +def test_pss(): + uniques = acpi.parse_cpu_method("_PSS") + # We special-case None here to avoid a double-failure for CPUs without a _PSS + testsuite.test("_PSS must be identical for all CPUs", len(uniques) <= 1 or (len(uniques) == 2 and None in uniques)) + for pss, cpupaths in uniques.iteritems(): + if not testsuite.test("_PSS must exist", pss is not None): + testsuite.print_detail(acpi.factor_commonprefix(cpupaths)) + testsuite.print_detail('No _PSS exists') + continue + + if not testsuite.test("_PSS must not be empty", pss.pstates): + testsuite.print_detail(acpi.factor_commonprefix(cpupaths)) + testsuite.print_detail('_PSS is empty') + continue + + testsuite.print_detail(acpi.factor_commonprefix(cpupaths)) + for index, pstate in enumerate(pss.pstates): + testsuite.print_detail("P[{}]: {}".format(index, pstate)) + + testsuite.test("_PSS must contain at most 16 Pstates", len(pss.pstates) <= 16) + testsuite.test("_PSS must have no duplicate Pstates", len(pss.pstates) == len(set(pss.pstates))) + + frequencies = [p.core_frequency for p in pss.pstates] + testsuite.test("_PSS must list Pstates in descending order of frequency", frequencies == sorted(frequencies, reverse=True)) + + testsuite.test("_PSS must have Pstates with no duplicate frequencies", len(frequencies) == len(set(frequencies))) + + dissipations = [p.power for p in pss.pstates] + testsuite.test("_PSS must list Pstates in descending order of power dissipation", dissipations == sorted(dissipations, reverse=True)) + +def test_pstates(): + """Execute and verify frequency for each Pstate in the _PSS""" + IA32_PERF_CTL = 0x199 + with bits.mwait.use_hint(), bits.preserve_msr(IA32_PERF_CTL): + cpupath_procid = acpi.find_procid() + cpupath_uid = acpi.find_uid() + apic = acpi.parse_apic() + procid_apicid = apic.procid_apicid + uid_x2apicid = apic.uid_x2apicid + def cpupath_apicid(cpupath): + if procid_apicid is not None: + procid = cpupath_procid.get(cpupath, None) + if procid is not None: + apicid = procid_apicid.get(procid, None) + if apicid is not None: + return apicid + if uid_x2apicid is not None: + uid = cpupath_uid.get(cpupath, None) + if uid is not None: + apicid = uid_x2apicid.get(uid, None) + if apicid is not None: + return apicid + return bits.cpus()[0] + + bclk = testutil.adjust_to_nearest(bits.bclk(), 100.0/12) * 1000000 + + uniques = acpi.parse_cpu_method("_PSS") + for pss, cpupaths in uniques.iteritems(): + if not testsuite.test("_PSS must exist", pss is not None): + testsuite.print_detail(acpi.factor_commonprefix(cpupaths)) + testsuite.print_detail('No _PSS exists') + continue + + for n, pstate in enumerate(pss.pstates): + for cpupath in cpupaths: + apicid = cpupath_apicid(cpupath) + if apicid is None: + print 'Failed to find apicid for cpupath {}'.format(cpupath) + continue + bits.wrmsr(apicid, IA32_PERF_CTL, pstate.control) + + # Detecting Turbo frequency requires at least 2 pstates + # since turbo frequency = max non-turbo frequency + 1 + turbo = False + if len(pss.pstates) >= 2: + turbo = (n == 0 and pstate.core_frequency == (pss.pstates[1].core_frequency + 1)) + if turbo: + # Needs to busywait, not sleep + start = time.time() + while (time.time() - start < 2): + pass + + for duration in (0.1, 1.0): + frequency_data = bits.cpu_frequency(duration) + # Abort the test if no cpu frequency is not available + if frequency_data is None: + continue + aperf = frequency_data[1] + aperf = testutil.adjust_to_nearest(aperf, bclk/2) + aperf = int(aperf / 1000000) + if turbo: + if aperf >= pstate.core_frequency: + break + else: + if aperf == pstate.core_frequency: + break + + if turbo: + testsuite.test("P{}: Turbo measured frequency {} >= expected {} MHz".format(n, aperf, pstate.core_frequency), aperf >= pstate.core_frequency) + else: + testsuite.test("P{}: measured frequency {} MHz == expected {} MHz".format(n, aperf, pstate.core_frequency), aperf == pstate.core_frequency) + +def test_psd_thread_scope(): + uniques = acpi.parse_cpu_method("_PSD") + if not testsuite.test("_PSD (P-State Dependency) must exist for each processor", None not in uniques): + testsuite.print_detail(acpi.factor_commonprefix(uniques[None])) + testsuite.print_detail('No _PSD exists') + return + unique_num_dependencies = {} + unique_num_entries = {} + unique_revision = {} + unique_domain = {} + unique_coordination_type = {} + unique_num_processors = {} + for value, cpupaths in uniques.iteritems(): + unique_num_dependencies.setdefault(len(value.dependencies), []).extend(cpupaths) + unique_num_entries.setdefault(value.dependencies[0].num_entries, []).extend(cpupaths) + unique_revision.setdefault(value.dependencies[0].revision, []).extend(cpupaths) + unique_domain.setdefault(value.dependencies[0].domain, []).extend(cpupaths) + unique_coordination_type.setdefault(value.dependencies[0].coordination_type, []).extend(cpupaths) + unique_num_processors.setdefault(value.dependencies[0].num_processors, []).extend(cpupaths) + def detail(d, fmt): + for value, cpupaths in sorted(d.iteritems(), key=(lambda (k,v): v)): + testsuite.print_detail(acpi.factor_commonprefix(cpupaths)) + testsuite.print_detail(fmt.format(value)) + + testsuite.test('Dependency count for each processor must be 1', unique_num_dependencies.keys() == [1]) + detail(unique_num_dependencies, 'Dependency count for each processor = {} (Expected 1)') + testsuite.test('_PSD.num_entries must be 5', unique_num_entries.keys() == [5]) + detail(unique_num_entries, 'num_entries = {} (Expected 5)') + testsuite.test('_PSD.revision must be 0', unique_revision.keys() == [0]) + detail(unique_revision, 'revision = {}') + testsuite.test('_PSD.coordination_type must be 0xFE (HW_ALL)', unique_coordination_type.keys() == [0xfe]) + detail(unique_coordination_type, 'coordination_type = {:#x} (Expected 0xFE HW_ALL)') + testsuite.test('_PSD.domain must be unique (thread-scoped) for each processor', len(unique_domain) == len(acpi.get_cpupaths())) + detail(unique_domain, 'domain = {:#x} (Expected a unique value for each processor)') + testsuite.test('_PSD.num_processors must be 1', unique_num_processors.keys() == [1]) + detail(unique_num_processors, 'num_processors = {} (Expected 1)') + +def test_table_checksum(data): + csum = sum(ord(c) for c in data) % 0x100 + testsuite.test('ACPI table cumulative checksum must equal 0', csum == 0) + testsuite.print_detail("Cumulative checksum = {} (Expected 0)".format(csum)) + +def test_apic(): + data = acpi.get_table("APIC") + if data is None: + return + test_table_checksum(data) + apic = acpi.parse_apic() + +def test_dsdt(): + data = acpi.get_table("DSDT") + if data is None: + return + test_table_checksum(data) + +def test_facp(): + data = acpi.get_table("FACP") + if data is None: + return + test_table_checksum(data) + facp = acpi.parse_facp() + +def test_hpet(): + data = acpi.get_table("HPET") + if data is None: + return + test_table_checksum(data) + hpet = acpi.parse_hpet() + +def test_mpst(): + data = acpi.get_table("MPST") + if data is None: + return + test_table_checksum(data) + mpst = acpi.MPST(data) + +def test_rsdp(): + data = acpi.get_table("RSD PTR ") + if data is None: + return + + # Checksum the first 20 bytes per ACPI 1.0 + csum = sum(ord(c) for c in data[:20]) % 0x100 + testsuite.test('ACPI 1.0 table first 20 bytes cummulative checksum must equal 0', csum == 0) + testsuite.print_detail("Cummulative checksum = {} (Expected 0)".format(csum)) + + test_table_checksum(data) + rsdp = acpi.parse_rsdp() + +def test_xsdt(): + data = acpi.get_table("XSDT") + if data is None: + return + test_table_checksum(data) + xsdt = acpi.parse_xsdt() diff --git a/tests/avocado/acpi-bits/bits-tests/testcpuid.py2 b/tests/avocado/acpi-bits/bits-tests/testcpuid.py2 new file mode 100644 index 0000000000..ac55d912e1 --- /dev/null +++ b/tests/avocado/acpi-bits/bits-tests/testcpuid.py2 @@ -0,0 +1,83 @@ +# Copyright (c) 2012, Intel Corporation +# All rights reserved. +# +# Redistribution and use in source and binary forms, with or without +# modification, are permitted provided that the following conditions are met: +# +# * Redistributions of source code must retain the above copyright notice, +# this list of conditions and the following disclaimer. +# * Redistributions in binary form must reproduce the above copyright notice, +# this list of conditions and the following disclaimer in the documentation +# and/or other materials provided with the distribution. +# * Neither the name of Intel Corporation nor the names of its contributors +# may be used to endorse or promote products derived from this software +# without specific prior written permission. +# +# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND +# ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +# WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE +# DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR +# ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES +# (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; +# LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON +# ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT +# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS +# SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + +"""Tests and helpers for CPUID.""" + +import bits +import testsuite +import testutil + +def cpuid_helper(function, index=None, shift=0, mask=~0, eax_mask=~0, ebx_mask=~0, ecx_mask=~0, edx_mask=~0): + if index is None: + index = 0 + indexdesc = "" + else: + indexdesc = " index {0:#x}".format(index) + + def find_mask(m): + if m == ~0: + return mask + return m + masks = map(find_mask, [eax_mask, ebx_mask, ecx_mask, edx_mask]) + + uniques = {} + for cpu in bits.cpus(): + regs = bits.cpuid_result(*[(r >> shift) & m for r, m in zip(bits.cpuid(cpu, function, index), masks)]) + uniques.setdefault(regs, []).append(cpu) + + desc = ["CPUID function {:#x}{}".format(function, indexdesc)] + + if shift != 0: + desc.append("Register values have been shifted by {}".format(shift)) + if mask != ~0 or eax_mask != ~0 or ebx_mask != ~0 or ecx_mask != ~0 or edx_mask != ~0: + desc.append("Register values have been masked:") + shifted_masks = bits.cpuid_result(*[m << shift for m in masks]) + desc.append("Masks: eax={eax:#010x} ebx={ebx:#010x} ecx={ecx:#010x} edx={edx:#010x}".format(**shifted_masks._asdict())) + + if len(uniques) > 1: + regvalues = zip(*uniques.iterkeys()) + common_masks = bits.cpuid_result(*map(testutil.find_common_mask, regvalues)) + common_values = bits.cpuid_result(*[v[0] & m for v, m in zip(regvalues, common_masks)]) + desc.append('Register values are not unique across all logical processors') + desc.append("Common bits: eax={eax:#010x} ebx={ebx:#010x} ecx={ecx:#010x} edx={edx:#010x}".format(**common_values._asdict())) + desc.append("Mask of common bits: {eax:#010x} {ebx:#010x} {ecx:#010x} {edx:#010x}".format(**common_masks._asdict())) + + for regs in sorted(uniques.iterkeys()): + cpus = uniques[regs] + desc.append("Register value: eax={eax:#010x} ebx={ebx:#010x} ecx={ecx:#010x} edx={edx:#010x}".format(**regs._asdict())) + desc.append("On {0} CPUs: {1}".format(len(cpus), testutil.apicid_list(cpus))) + + return uniques, desc + +def test_cpuid_consistency(text, function, index=None, shift=0, mask=~0, eax_mask=~0, ebx_mask=~0, ecx_mask=~0, edx_mask=~0): + uniques, desc = cpuid_helper(function, index, shift, mask, eax_mask, ebx_mask, ecx_mask, edx_mask) + desc[0] += " Consistency Check" + if text: + desc.insert(0, text) + status = testsuite.test(desc[0], len(uniques) == 1) + for line in desc[1:]: + testsuite.print_detail(line) + return status diff --git a/tests/data/acpi/pc/DSDT b/tests/data/acpi/pc/DSDT Binary files 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100644 index 0000000000..6494d11b9f --- /dev/null +++ b/tests/data/acpi/virt/HMAT.acpihmatvirt diff --git a/tests/data/acpi/virt/PPTT.acpihmatvirt b/tests/data/acpi/virt/PPTT.acpihmatvirt Binary files differnew file mode 100644 index 0000000000..710dba5e79 --- /dev/null +++ b/tests/data/acpi/virt/PPTT.acpihmatvirt diff --git a/tests/data/acpi/virt/SRAT.acpihmatvirt b/tests/data/acpi/virt/SRAT.acpihmatvirt Binary files differnew file mode 100644 index 0000000000..691ef56e34 --- /dev/null +++ b/tests/data/acpi/virt/SRAT.acpihmatvirt diff --git a/tests/data/acpi/virt/SSDT.memhp b/tests/data/acpi/virt/SSDT.memhp Binary files differindex 4c363a6d95..2fcfc5fda9 100644 --- a/tests/data/acpi/virt/SSDT.memhp +++ b/tests/data/acpi/virt/SSDT.memhp diff --git a/tests/qtest/bios-tables-test.c b/tests/qtest/bios-tables-test.c index e6096e7f73..395d441212 100644 --- a/tests/qtest/bios-tables-test.c +++ b/tests/qtest/bios-tables-test.c @@ -88,10 +88,12 @@ typedef struct { uint64_t rsdp_addr; uint8_t rsdp_table[36 /* ACPI 2.0+ RSDP size */]; GArray *tables; - uint32_t smbios_ep_addr; - struct smbios_21_entry_point smbios_ep_table; + uint64_t smbios_ep_addr[SMBIOS_ENTRY_POINT_TYPE__MAX]; + SmbiosEntryPoint smbios_ep_table; uint16_t smbios_cpu_max_speed; uint16_t smbios_cpu_curr_speed; + uint8_t smbios_core_count; + uint16_t smbios_core_count2; uint8_t *required_struct_types; int required_struct_types_len; QTestState *qts; @@ -533,10 +535,9 @@ static void test_acpi_asl(test_data *data) free_test_data(&exp_data); } -static bool smbios_ep_table_ok(test_data *data) +static bool smbios_ep2_table_ok(test_data *data, uint32_t addr) { - struct smbios_21_entry_point *ep_table = &data->smbios_ep_table; - uint32_t addr = data->smbios_ep_addr; + struct smbios_21_entry_point *ep_table = &data->smbios_ep_table.ep21; qtest_memread(data->qts, addr, ep_table, sizeof(*ep_table)); if (memcmp(ep_table->anchor_string, "_SM_", 4)) { @@ -559,13 +560,29 @@ static bool smbios_ep_table_ok(test_data *data) return true; } -static void test_smbios_entry_point(test_data *data) +static bool smbios_ep3_table_ok(test_data *data, uint64_t addr) +{ + struct smbios_30_entry_point *ep_table = &data->smbios_ep_table.ep30; + + qtest_memread(data->qts, addr, ep_table, sizeof(*ep_table)); + if (memcmp(ep_table->anchor_string, "_SM3_", 5)) { + return false; + } + + if (acpi_calc_checksum((uint8_t *)ep_table, sizeof *ep_table)) { + return false; + } + + return true; +} + +static SmbiosEntryPointType test_smbios_entry_point(test_data *data) { uint32_t off; /* find smbios entry point structure */ for (off = 0xf0000; off < 0x100000; off += 0x10) { - uint8_t sig[] = "_SM_"; + uint8_t sig[] = "_SM_", sig3[] = "_SM3_"; int i; for (i = 0; i < sizeof sig - 1; ++i) { @@ -574,14 +591,30 @@ static void test_smbios_entry_point(test_data *data) if (!memcmp(sig, "_SM_", sizeof sig)) { /* signature match, but is this a valid entry point? */ - data->smbios_ep_addr = off; - if (smbios_ep_table_ok(data)) { + if (smbios_ep2_table_ok(data, off)) { + data->smbios_ep_addr[SMBIOS_ENTRY_POINT_TYPE_32] = off; + } + } + + for (i = 0; i < sizeof sig3 - 1; ++i) { + sig3[i] = qtest_readb(data->qts, off + i); + } + + if (!memcmp(sig3, "_SM3_", sizeof sig3)) { + if (smbios_ep3_table_ok(data, off)) { + data->smbios_ep_addr[SMBIOS_ENTRY_POINT_TYPE_64] = off; + /* found 64-bit entry point, no need to look for 32-bit one */ break; } } } - g_assert_cmphex(off, <, 0x100000); + /* found at least one entry point */ + g_assert_true(data->smbios_ep_addr[SMBIOS_ENTRY_POINT_TYPE_32] || + data->smbios_ep_addr[SMBIOS_ENTRY_POINT_TYPE_64]); + + return data->smbios_ep_addr[SMBIOS_ENTRY_POINT_TYPE_64] ? + SMBIOS_ENTRY_POINT_TYPE_64 : SMBIOS_ENTRY_POINT_TYPE_32; } static inline bool smbios_single_instance(uint8_t type) @@ -600,41 +633,61 @@ static inline bool smbios_single_instance(uint8_t type) } } -static bool smbios_cpu_test(test_data *data, uint32_t addr) +static void smbios_cpu_test(test_data *data, uint32_t addr, + SmbiosEntryPointType ep_type) { - uint16_t expect_speed[2]; - uint16_t real; + uint8_t core_count, expected_core_count = data->smbios_core_count; + uint16_t speed, expected_speed[2]; + uint16_t core_count2, expected_core_count2 = data->smbios_core_count2; int offset[2]; int i; /* Check CPU speed for backward compatibility */ offset[0] = offsetof(struct smbios_type_4, max_speed); offset[1] = offsetof(struct smbios_type_4, current_speed); - expect_speed[0] = data->smbios_cpu_max_speed ? : 2000; - expect_speed[1] = data->smbios_cpu_curr_speed ? : 2000; + expected_speed[0] = data->smbios_cpu_max_speed ? : 2000; + expected_speed[1] = data->smbios_cpu_curr_speed ? : 2000; for (i = 0; i < 2; i++) { - real = qtest_readw(data->qts, addr + offset[i]); - if (real != expect_speed[i]) { - fprintf(stderr, "Unexpected SMBIOS CPU speed: real %u expect %u\n", - real, expect_speed[i]); - return false; - } + speed = qtest_readw(data->qts, addr + offset[i]); + g_assert_cmpuint(speed, ==, expected_speed[i]); } - return true; + core_count = qtest_readb(data->qts, + addr + offsetof(struct smbios_type_4, core_count)); + + if (expected_core_count) { + g_assert_cmpuint(core_count, ==, expected_core_count); + } + + if (ep_type == SMBIOS_ENTRY_POINT_TYPE_64) { + core_count2 = qtest_readw(data->qts, + addr + offsetof(struct smbios_type_4, core_count2)); + + /* Core Count has reached its limit, checking Core Count 2 */ + if (expected_core_count == 0xFF && expected_core_count2) { + g_assert_cmpuint(core_count2, ==, expected_core_count2); + } + } } -static void test_smbios_structs(test_data *data) +static void test_smbios_structs(test_data *data, SmbiosEntryPointType ep_type) { DECLARE_BITMAP(struct_bitmap, SMBIOS_MAX_TYPE+1) = { 0 }; - struct smbios_21_entry_point *ep_table = &data->smbios_ep_table; - uint32_t addr = le32_to_cpu(ep_table->structure_table_address); - int i, len, max_len = 0; + + SmbiosEntryPoint *ep_table = &data->smbios_ep_table; + int i = 0, len, max_len = 0; uint8_t type, prv, crt; + uint64_t addr; + + if (ep_type == SMBIOS_ENTRY_POINT_TYPE_32) { + addr = le32_to_cpu(ep_table->ep21.structure_table_address); + } else { + addr = le64_to_cpu(ep_table->ep30.structure_table_address); + } /* walk the smbios tables */ - for (i = 0; i < le16_to_cpu(ep_table->number_of_structures); i++) { + do { /* grab type and formatted area length from struct header */ type = qtest_readb(data->qts, addr); @@ -648,7 +701,7 @@ static void test_smbios_structs(test_data *data) set_bit(type, struct_bitmap); if (type == 4) { - g_assert(smbios_cpu_test(data, addr)); + smbios_cpu_test(data, addr, ep_type); } /* seek to end of unformatted string area of this struct ("\0\0") */ @@ -660,19 +713,33 @@ static void test_smbios_structs(test_data *data) } /* keep track of max. struct size */ - if (max_len < len) { + if (ep_type == SMBIOS_ENTRY_POINT_TYPE_32 && max_len < len) { max_len = len; - g_assert_cmpuint(max_len, <=, ep_table->max_structure_size); + g_assert_cmpuint(max_len, <=, ep_table->ep21.max_structure_size); } /* start of next structure */ addr += len; - } - /* total table length and max struct size must match entry point values */ - g_assert_cmpuint(le16_to_cpu(ep_table->structure_table_length), ==, - addr - le32_to_cpu(ep_table->structure_table_address)); - g_assert_cmpuint(le16_to_cpu(ep_table->max_structure_size), ==, max_len); + /* + * Until all structures have been scanned (ep21) + * or an EOF structure is found (ep30) + */ + } while (ep_type == SMBIOS_ENTRY_POINT_TYPE_32 ? + ++i < le16_to_cpu(ep_table->ep21.number_of_structures) : + type != 127); + + if (ep_type == SMBIOS_ENTRY_POINT_TYPE_32) { + /* + * Total table length and max struct size + * must match entry point values + */ + g_assert_cmpuint(le16_to_cpu(ep_table->ep21.structure_table_length), ==, + addr - le32_to_cpu(ep_table->ep21.structure_table_address)); + + g_assert_cmpuint(le16_to_cpu(ep_table->ep21.max_structure_size), ==, + max_len); + } /* required struct types must all be present */ for (i = 0; i < data->required_struct_types_len; i++) { @@ -756,8 +823,8 @@ static void test_acpi_one(const char *params, test_data *data) * https://bugs.launchpad.net/qemu/+bug/1821884 */ if (!use_uefi) { - test_smbios_entry_point(data); - test_smbios_structs(data); + SmbiosEntryPointType ep_type = test_smbios_entry_point(data); + test_smbios_structs(data, ep_type); } qtest_quit(data->qts); @@ -856,6 +923,21 @@ static void test_acpi_q35_tcg(void) free_test_data(&data); } +static void test_acpi_q35_tcg_core_count2(void) +{ + test_data data = { + .machine = MACHINE_Q35, + .variant = ".core-count2", + .required_struct_types = base_required_struct_types, + .required_struct_types_len = ARRAY_SIZE(base_required_struct_types), + .smbios_core_count = 0xFF, + .smbios_core_count2 = 275, + }; + + test_acpi_one("-machine smbios-entry-point-type=64 -smp 275", &data); + free_test_data(&data); +} + static void test_acpi_q35_tcg_bridge(void) { test_data data; @@ -1461,6 +1543,111 @@ static void test_acpi_piix4_tcg_acpi_hmat(void) test_acpi_tcg_acpi_hmat(MACHINE_PC); } +static void test_acpi_virt_tcg_acpi_hmat(void) +{ + test_data data = { + .machine = "virt", + .tcg_only = true, + .uefi_fl1 = "pc-bios/edk2-aarch64-code.fd", + .uefi_fl2 = "pc-bios/edk2-arm-vars.fd", + .cd = "tests/data/uefi-boot-images/bios-tables-test.aarch64.iso.qcow2", + .ram_start = 0x40000000ULL, + .scan_len = 128ULL * 1024 * 1024, + }; + + data.variant = ".acpihmatvirt"; + + test_acpi_one(" -machine hmat=on" + " -cpu cortex-a57" + " -smp 4,sockets=2" + " -m 256M" + " -object memory-backend-ram,size=64M,id=ram0" + " -object memory-backend-ram,size=64M,id=ram1" + " -object memory-backend-ram,size=128M,id=ram2" + " -numa node,nodeid=0,memdev=ram0" + " -numa node,nodeid=1,memdev=ram1" + " -numa node,nodeid=2,memdev=ram2" + " -numa cpu,node-id=0,socket-id=0" + " -numa cpu,node-id=0,socket-id=0" + " -numa cpu,node-id=1,socket-id=1" + " -numa cpu,node-id=1,socket-id=1" + " -numa hmat-lb,initiator=0,target=0,hierarchy=memory," + "data-type=access-latency,latency=10" + " -numa hmat-lb,initiator=0,target=0,hierarchy=memory," + "data-type=access-bandwidth,bandwidth=10485760" + " -numa hmat-lb,initiator=0,target=1,hierarchy=memory," + "data-type=access-latency,latency=20" + " -numa hmat-lb,initiator=0,target=1,hierarchy=memory," + "data-type=access-bandwidth,bandwidth=5242880" + " -numa hmat-lb,initiator=0,target=2,hierarchy=memory," + "data-type=access-latency,latency=30" + " -numa hmat-lb,initiator=0,target=2,hierarchy=memory," + "data-type=access-bandwidth,bandwidth=1048576" + " -numa hmat-lb,initiator=1,target=0,hierarchy=memory," + "data-type=access-latency,latency=20" + " -numa hmat-lb,initiator=1,target=0,hierarchy=memory," + "data-type=access-bandwidth,bandwidth=5242880" + " -numa hmat-lb,initiator=1,target=1,hierarchy=memory," + "data-type=access-latency,latency=10" + " -numa hmat-lb,initiator=1,target=1,hierarchy=memory," + "data-type=access-bandwidth,bandwidth=10485760" + " -numa hmat-lb,initiator=1,target=2,hierarchy=memory," + "data-type=access-latency,latency=30" + " -numa hmat-lb,initiator=1,target=2,hierarchy=memory," + "data-type=access-bandwidth,bandwidth=1048576", + &data); + + free_test_data(&data); +} + +static void test_acpi_q35_tcg_acpi_hmat_noinitiator(void) +{ + test_data data; + + memset(&data, 0, sizeof(data)); + data.machine = MACHINE_Q35; + data.variant = ".acpihmat-noinitiator"; + test_acpi_one(" -machine hmat=on" + " -smp 4,sockets=2" + " -m 128M" + " -object memory-backend-ram,size=32M,id=ram0" + " -object memory-backend-ram,size=32M,id=ram1" + " -object memory-backend-ram,size=64M,id=ram2" + " -numa node,nodeid=0,memdev=ram0" + " -numa node,nodeid=1,memdev=ram1" + " -numa node,nodeid=2,memdev=ram2" + " -numa cpu,node-id=0,socket-id=0" + " -numa cpu,node-id=0,socket-id=0" + " -numa cpu,node-id=1,socket-id=1" + " -numa cpu,node-id=1,socket-id=1" + " -numa hmat-lb,initiator=0,target=0,hierarchy=memory," + "data-type=access-latency,latency=10" + " -numa hmat-lb,initiator=0,target=0,hierarchy=memory," + "data-type=access-bandwidth,bandwidth=10485760" + " -numa hmat-lb,initiator=0,target=1,hierarchy=memory," + "data-type=access-latency,latency=20" + " -numa hmat-lb,initiator=0,target=1,hierarchy=memory," + "data-type=access-bandwidth,bandwidth=5242880" + " -numa hmat-lb,initiator=0,target=2,hierarchy=memory," + "data-type=access-latency,latency=30" + " -numa hmat-lb,initiator=0,target=2,hierarchy=memory," + "data-type=access-bandwidth,bandwidth=1048576" + " -numa hmat-lb,initiator=1,target=0,hierarchy=memory," + "data-type=access-latency,latency=20" + " -numa hmat-lb,initiator=1,target=0,hierarchy=memory," + "data-type=access-bandwidth,bandwidth=5242880" + " -numa hmat-lb,initiator=1,target=1,hierarchy=memory," + "data-type=access-latency,latency=10" + " -numa hmat-lb,initiator=1,target=1,hierarchy=memory," + "data-type=access-bandwidth,bandwidth=10485760" + " -numa hmat-lb,initiator=1,target=2,hierarchy=memory," + "data-type=access-latency,latency=30" + " -numa hmat-lb,initiator=1,target=2,hierarchy=memory," + "data-type=access-bandwidth,bandwidth=1048576", + &data); + free_test_data(&data); +} + #ifdef CONFIG_POSIX static void test_acpi_erst(const char *machine) { @@ -1824,6 +2011,8 @@ int main(int argc, char *argv[]) qtest_add_func("acpi/q35/nohpet", test_acpi_q35_tcg_nohpet); qtest_add_func("acpi/q35/dimmpxm", test_acpi_q35_tcg_dimm_pxm); qtest_add_func("acpi/q35/acpihmat", test_acpi_q35_tcg_acpi_hmat); + qtest_add_func("acpi/q35/acpihmat-noinitiator", + test_acpi_q35_tcg_acpi_hmat_noinitiator); #ifdef CONFIG_POSIX qtest_add_func("acpi/q35/acpierst", test_acpi_q35_acpi_erst); #endif @@ -1835,6 +2024,8 @@ int main(int argc, char *argv[]) if (has_kvm) { qtest_add_func("acpi/q35/kvm/xapic", test_acpi_q35_kvm_xapic); qtest_add_func("acpi/q35/kvm/dmar", test_acpi_q35_kvm_dmar); + qtest_add_func("acpi/q35/core-count2", + test_acpi_q35_tcg_core_count2); } qtest_add_func("acpi/q35/viot", test_acpi_q35_viot); #ifdef CONFIG_POSIX @@ -1864,6 +2055,8 @@ int main(int argc, char *argv[]) } else if (strcmp(arch, "aarch64") == 0) { if (has_tcg) { qtest_add_func("acpi/virt", test_acpi_virt_tcg); + qtest_add_func("acpi/virt/acpihmatvirt", + test_acpi_virt_tcg_acpi_hmat); qtest_add_func("acpi/virt/numamem", test_acpi_virt_tcg_numamem); qtest_add_func("acpi/virt/memhp", test_acpi_virt_tcg_memhp); qtest_add_func("acpi/virt/pxb", test_acpi_virt_tcg_pxb); diff --git a/tests/unit/test-crypto-der.c b/tests/unit/test-crypto-der.c index aed0f28d68..d218a7f170 100644 --- a/tests/unit/test-crypto-der.c +++ b/tests/unit/test-crypto-der.c @@ -147,13 +147,58 @@ static const uint8_t test_rsa2048_priv_key[] = "\x4e\x2f\x4c\xf9\xab\x97\x38\xe4\x20\x32\x32\x96\xc8\x9e\x79\xd3" "\x12"; +static const uint8_t test_ecdsa_p192_priv_key[] = + "\x30\x53" /* SEQUENCE, offset 0, length 83 */ + "\x02\x01\x01" /* INTEGER, offset 2, length 1 */ + "\x04\x18" /* OCTET STRING, offset 5, length 24 */ + "\xcb\xc8\x86\x0e\x66\x3c\xf7\x5a\x44\x13\xb8\xef\xea\x1d\x7b\xa6" + "\x1c\xda\xf4\x1b\xc7\x67\x6b\x35" + "\xa1\x34" /* CONTEXT SPECIFIC 1, offset 31, length 52 */ + "\x03\x32" /* BIT STRING, offset 33, length 50 */ + "\x00\x04\xc4\x16\xb3\xff\xac\xd5\x87\x98\xf7\xd9\x45\xfe\xd3\x5c" + "\x17\x9d\xb2\x36\x22\xcc\x07\xb3\x6d\x3c\x4e\x04\x5f\xeb\xb6\x52" + "\x58\xfb\x36\x10\x52\xb7\x01\x62\x0e\x94\x51\x1d\xe2\xef\x10\x82" + "\x88\x78"; + +static const uint8_t test_ecdsa_p256_priv_key[] = + "\x30\x77" /* SEQUENCE, offset 0, length 119 */ + "\x02\x01\x01" /* INTEGER, offset 2, length 1 */ + "\x04\x20" /* OCTET STRING, offset 5, length 32 */ + "\xf6\x92\xdd\x29\x1c\x6e\xef\xb6\xb2\x73\x9f\x40\x1b\xb3\x2a\x28" + "\xd2\x37\xd6\x4a\x5b\xe4\x40\x4c\x6a\x95\x99\xfa\xf7\x92\x49\xbe" + "\xa0\x0a" /* CONTEXT SPECIFIC 0, offset 39, length 10 */ + "\x06\x08" /* OID, offset 41, length 8 */ + "\x2a\x86\x48\xce\x3d\x03\x01\x07" + "\xa1\x44" /* CONTEXT SPECIFIC 1, offset 51, length 68 */ + "\x03\x42" /* BIT STRING, offset 53, length 66 */ + "\x00\x04\xed\x42\x9c\x67\x79\xbe\x46\x83\x88\x3e\x8c\xc1\x33\xf3" + "\xc3\xf6\x2c\xf3\x13\x6a\x00\xc2\xc9\x3e\x87\x7f\x86\x39\xe6\xae" + "\xe3\xb9\xba\x2f\x58\x63\x32\x62\x62\x54\x07\x27\xf9\x5a\x3a\xc7" + "\x3a\x6b\x5b\xbc\x0d\x33\xba\xbb\xd4\xa3\xff\x4f\x9e\xdd\xf5\x59" + "\xc0\xf6"; + #define MAX_CHECKER_COUNT 32 +static int qcrypto_wrapped_decode_ctx_tag0(const uint8_t **data, size_t *dlen, + QCryptoDERDecodeCb cb, void *opaque, + Error **errp) +{ + return qcrypto_der_decode_ctx_tag(data, dlen, 0, cb, opaque, errp); +} + +static int qcrypto_wrapped_decode_ctx_tag1(const uint8_t **data, size_t *dlen, + QCryptoDERDecodeCb cb, void *opaque, + Error **errp) +{ + return qcrypto_der_decode_ctx_tag(data, dlen, 1, cb, opaque, errp); +} + typedef struct QCryptoAns1DecoderResultChecker QCryptoAns1DecoderResultChecker; struct QCryptoAns1DecoderResultChecker { int (*action) (const uint8_t **data, size_t *dlen, QCryptoDERDecodeCb cb, void *opaque, Error **errp); QCryptoDERDecodeCb cb; + bool constructed; const uint8_t *exp_value; size_t exp_vlen; }; @@ -204,7 +249,7 @@ static void test_ans1(const void *opaque) g_assert(checker->action(&c->data, &c->dlen, checker_callback, (void *)checker, &error_abort) == checker->exp_vlen); - if (checker->action == qcrypto_der_decode_seq) { + if (checker->constructed) { ++seq_depth; ctx[seq_depth].data = checker->exp_value; ctx[seq_depth].dlen = checker->exp_vlen; @@ -225,25 +270,25 @@ static QCryptoAns1DecoderTestData test_data[] = { .test_data = test_rsa512_priv_key, .test_data_len = sizeof(test_rsa512_priv_key) - 1, .checker = { - { qcrypto_der_decode_seq, checker_callback, + { qcrypto_der_decode_seq, checker_callback, true, test_rsa512_priv_key + 4, 313 }, - { qcrypto_der_decode_int, checker_callback, + { qcrypto_der_decode_int, checker_callback, false, test_rsa512_priv_key + 4 + 2, 1 }, - { qcrypto_der_decode_int, checker_callback, + { qcrypto_der_decode_int, checker_callback, false, test_rsa512_priv_key + 7 + 2, 65 }, - { qcrypto_der_decode_int, checker_callback, + { qcrypto_der_decode_int, checker_callback, false, test_rsa512_priv_key + 74 + 2, 3 }, - { qcrypto_der_decode_int, checker_callback, + { qcrypto_der_decode_int, checker_callback, false, test_rsa512_priv_key + 79 + 2, 64 }, - { qcrypto_der_decode_int, checker_callback, + { qcrypto_der_decode_int, checker_callback, false, test_rsa512_priv_key + 145 + 2, 33 }, - { qcrypto_der_decode_int, checker_callback, + { qcrypto_der_decode_int, checker_callback, false, test_rsa512_priv_key + 180 + 2, 33 }, - { qcrypto_der_decode_int, checker_callback, + { qcrypto_der_decode_int, checker_callback, false, test_rsa512_priv_key + 215 + 2, 32 }, - { qcrypto_der_decode_int, checker_callback, + { qcrypto_der_decode_int, checker_callback, false, test_rsa512_priv_key + 249 + 2, 32 }, - { qcrypto_der_decode_int, checker_callback, + { qcrypto_der_decode_int, checker_callback, false, test_rsa512_priv_key + 283 + 2, 32 }, }, }, @@ -252,29 +297,66 @@ static QCryptoAns1DecoderTestData test_data[] = { .test_data = test_rsa2048_priv_key, .test_data_len = sizeof(test_rsa2048_priv_key) - 1, .checker = { - { qcrypto_der_decode_seq, checker_callback, + { qcrypto_der_decode_seq, checker_callback, true, test_rsa2048_priv_key + 4, 1190 }, - { qcrypto_der_decode_int, checker_callback, + { qcrypto_der_decode_int, checker_callback, false, test_rsa2048_priv_key + 4 + 2, 1 }, - { qcrypto_der_decode_int, checker_callback, + { qcrypto_der_decode_int, checker_callback, false, test_rsa2048_priv_key + 7 + 4, 257 }, - { qcrypto_der_decode_int, checker_callback, + { qcrypto_der_decode_int, checker_callback, false, test_rsa2048_priv_key + 268 + 2, 3 }, - { qcrypto_der_decode_int, checker_callback, + { qcrypto_der_decode_int, checker_callback, false, test_rsa2048_priv_key + 273 + 4, 257 }, - { qcrypto_der_decode_int, checker_callback, + { qcrypto_der_decode_int, checker_callback, false, test_rsa2048_priv_key + 534 + 3, 129 }, - { qcrypto_der_decode_int, checker_callback, + { qcrypto_der_decode_int, checker_callback, false, test_rsa2048_priv_key + 666 + 3, 129 }, - { qcrypto_der_decode_int, checker_callback, + { qcrypto_der_decode_int, checker_callback, false, test_rsa2048_priv_key + 798 + 3, 129 }, - { qcrypto_der_decode_int, checker_callback, + { qcrypto_der_decode_int, checker_callback, false, test_rsa2048_priv_key + 930 + 3, 129 }, - { qcrypto_der_decode_int, checker_callback, + { qcrypto_der_decode_int, checker_callback, false, test_rsa2048_priv_key + 1062 + 3, 129 }, }, }, - +{ + .path = "/crypto/der/parse-ecdsa-p192-priv-key", + .test_data = test_ecdsa_p192_priv_key, + .test_data_len = sizeof(test_ecdsa_p192_priv_key) - 1, + .checker = { + { qcrypto_der_decode_seq, checker_callback, true, + test_ecdsa_p192_priv_key + 2, 83 }, + { qcrypto_der_decode_int, checker_callback, false, + test_ecdsa_p192_priv_key + 2 + 2, 1 }, + { qcrypto_der_decode_octet_str, checker_callback, false, + test_ecdsa_p192_priv_key + 5 + 2, 24 }, + { qcrypto_wrapped_decode_ctx_tag1, checker_callback, true, + test_ecdsa_p192_priv_key + 31 + 2, 52 }, + { qcrypto_der_decode_bit_str , checker_callback, false, + test_ecdsa_p192_priv_key + 33 + 2, 50 }, + }, +}, +{ + .path = "/crypto/der/parse-ecdsa-p256-priv-key", + .test_data = test_ecdsa_p256_priv_key, + .test_data_len = sizeof(test_ecdsa_p256_priv_key) - 1, + .checker = { + { qcrypto_der_decode_seq, checker_callback, true, + test_ecdsa_p256_priv_key + 2, 119 }, + { qcrypto_der_decode_int, checker_callback, false, + test_ecdsa_p256_priv_key + 2 + 2, 1 }, + { qcrypto_der_decode_octet_str, checker_callback, false, + test_ecdsa_p256_priv_key + 5 + 2, 32 }, + { qcrypto_wrapped_decode_ctx_tag0, checker_callback, true, + test_ecdsa_p256_priv_key + 39 + 2, 10 }, + { qcrypto_der_decode_oid, checker_callback, false, + test_ecdsa_p256_priv_key + 41 + 2, 8 }, + { qcrypto_wrapped_decode_ctx_tag1, checker_callback, true, + test_ecdsa_p256_priv_key + 51 + 2, 68 }, + { qcrypto_der_decode_bit_str , checker_callback, false, + test_ecdsa_p256_priv_key + 53 + 2, 66 }, + }, +}, }; int main(int argc, char **argv) |