[v7,1/7] acpi/tests/avocado/bits: initial commit of test scripts that are run by biosbits

Commit Message

Ani Sinha Oct. 21, 2022, 9:51 a.m. UTC

This is initial commit of cpuid, acpi and smbios python test scripts for
biosbits to execute. No change has been made to them from the original code
written by the biosbits author Josh Triplett. They are required to be installed
into the bits iso file and then run from within the virtual machine booted off
with biosbits iso.

The test scripts have a ".py2" extension in order to prevent avocado from
loading them. They are written in python 2.7 and are run from within bios bits.
There is no need for avocado to try to load them and call out errors on python3
specific syntaxes.

The original location of these tests are here:
https://github.com/biosbits/bits/blob/master/python/testacpi.py
https://github.com/biosbits/bits/blob/master/python/smbios.py
https://github.com/biosbits/bits/blob/master/python/testcpuid.py

For QEMU, we maintain a fork of the above repo here with numerious fixes:
https://gitlab.com/qemu-project/biosbits-bits

The acpi test for example is maintained here in the fork:
https://gitlab.com/qemu-project/biosbits-bits/-/raw/master/python/testacpi.py

Cc: Daniel P. Berrangé <berrange@redhat.com>
Cc: Paolo Bonzini <pbonzini@redhat.com>
Cc: Maydell Peter <peter.maydell@linaro.org>
Cc: John Snow <jsnow@redhat.com>
Cc: Thomas Huth <thuth@redhat.com>
Cc: Alex Bennée <alex.bennee@linaro.org>
Cc: Igor Mammedov <imammedo@redhat.com>
Cc: Michael Tsirkin <mst@redhat.com>
Signed-off-by: Ani Sinha <ani@anisinha.ca>
Reviewed-by: Alex Bennée <alex.bennee@linaro.org>
---
 tests/avocado/acpi-bits/bits-tests/smbios.py2 | 2430 +++++++++++++++++
 .../avocado/acpi-bits/bits-tests/testacpi.py2 |  283 ++
 .../acpi-bits/bits-tests/testcpuid.py2        |   83 +
 3 files changed, 2796 insertions(+)
 create mode 100644 tests/avocado/acpi-bits/bits-tests/smbios.py2
 create mode 100644 tests/avocado/acpi-bits/bits-tests/testacpi.py2
 create mode 100644 tests/avocado/acpi-bits/bits-tests/testcpuid.py2

Patch

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..9ec452f330
--- /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