Results generated by fwts: Version V13.09.01 (2013-09-17 07:41:02). Some of this work - Copyright (c) 1999 - 2010, Intel Corp. All rights reserved. Some of this work - Copyright (c) 2010 - 2013, Canonical. This test run on 10/11/13 at 16:49:25 on host Linux ultraviolence 3.11.0-13-generic #20-Ubuntu SMP Wed Oct 23 07:38:26 UTC 2013 x86_64. Command: "fwts ". Running tests: version bios_info oops klog mtrr acpiinfo securebootcert csm maxreadreq crs aspm hpet_check dmicheck microcode msr nx cpufreq maxfreq virt pnp pciirq os2gap mpcheck hda_audio ebda bios32 apicedge wmi wakealarm syntaxcheck pcc osilinux method mcfg fan fadt dmar cstates checksum apicinstance acpitables. version: Gather kernel system information. -------------------------------------------------------------------------------- Test 1 of 4: Gather kernel signature. Signature: Ubuntu 3.11.0-13.20-generic 3.11.6 Test 2 of 4: Gather kernel system information. Kernel Version: Linux version 3.11.0-13-generic (buildd@roseapple) (gcc version 4.8.1 (Ubuntu/Linaro 4.8.1-10ubuntu8) ) #20-Ubuntu SMP Wed Oct 23 07:38:26 UTC 2013 Test 3 of 4: Gather kernel boot command line. Kernel boot command line: BOOT_IMAGE=/boot/vmlinuz-3.11.0-13-generic root=UUID=d4c46cde-ec44-4da4-b4ec-a67f7b892126 ro quiet splash vt.handoff=7 Test 4 of 4: Gather ACPI driver version. ACPI Version: 20130517 ================================================================================ 0 passed, 0 failed, 0 warnings, 0 aborted, 0 skipped, 4 info only. ================================================================================ bios_info: Gather BIOS DMI information. -------------------------------------------------------------------------------- Test 1 of 1: Gather BIOS DMI information BIOS Vendor : Acer BIOS Version : V1.21 BIOS Release Date : 08/09/2012 Board Name : JV51_HR Board Serial # : Base Board Serial Number Board Version : Base Board Version Board Asset Tag : Base Board Asset Tag Chassis Serial # : Chassis Serial Number Chassis Type : 10 Chassis Vendor : Acer Chassis Version : V1.21 Chassic Asset Tag : Product Name : Aspire 5755G Product Serial # : LXRPX0C005144038D13400 Product UUID : 09C68BB7-E689-11E0-AF9D-B870F4FE0998 Product Version : V1.21 System Vendor : Acer ================================================================================ 0 passed, 0 failed, 0 warnings, 0 aborted, 0 skipped, 1 info only. ================================================================================ oops: Scan kernel log for Oopses. -------------------------------------------------------------------------------- Test 1 of 1: Kernel log oops check. PASSED: Test 1, Found no oopses in kernel log. PASSED: Test 1, Found no WARN_ON warnings in kernel log. ================================================================================ 2 passed, 0 failed, 0 warnings, 0 aborted, 0 skipped, 0 info only. ================================================================================ klog: Scan kernel log for errors and warnings. -------------------------------------------------------------------------------- Test 1 of 1: Kernel log error check. Kernel message: [ 0.003303] ENERGY_PERF_BIAS: Set to 'normal', was 'performance' ADVICE: This is not exactly a failure but a warning from the kernel. The MSR_IA32_ENERGY_PERF_BIAS was initialized and defaulted to a high performance bias setting. The kernel has detected this and changed it down to a 'normal' bias setting. Kernel message: [ 0.239109] [Firmware Bug]: ACPI: BIOS _OSI(Linux) query ignored ADVICE: This is not exactly a failure mode but a warning from the kernel. The _OSI() method has implemented a match to the 'Linux' query in the DSDT and this is redundant because the ACPI driver matches onto the Windows _OSI strings by default. FAILED [HIGH] KlogAcpiSleepStateEvalFailed: Test 1, HIGH Kernel message: [ 0.263083] ACPI Exception: AE_NOT_FOUND, While evaluating Sleep State [\_S1_] (20130517/hwxface-571) ADVICE: Failed to evaluate _Sx namespace object that contains the register values for the sleep state. FAILED [HIGH] KlogAcpiSleepStateEvalFailed: Test 1, HIGH Kernel message: [ 0.263088] ACPI Exception: AE_NOT_FOUND, While evaluating Sleep State [\_S2_] (20130517/hwxface-571) ADVICE: Failed to evaluate _Sx namespace object that contains the register values for the sleep state. FAILED [HIGH] KlogOscInvalidUuid: Test 1, HIGH Kernel message: [ 0.386793] \_SB_.PCI0:_OSC invalid UUID Message repeated 1 times. ADVICE: The _OSC method indicates it has been passed an invalid UUID, see section 6.2.10 _OSC (Operating System Capabilities) of the ACPI specification for more details. Note that it has been observed on some systems that this error is returned because the _OSC has evaluated incorrectly and it returns with an incorrect error setting the OSC invalid UUID error bit. FAILED [LOW] KlogAcpiSystemIOConflict: Test 1, LOW Kernel message: [ 18.464767] ACPI Warning: 0x0000000000000428-0x000000000000042f SystemIO conflicts with Region \PMIO 1 (20130517/utaddress-251) ADVICE: A resource conflict between an ACPI OperationRegion and a native driver has been detected. By default the kernel will use a strict policy and will not allow this region to conflict and -EBUSY will be returned to the caller that was trying to allocate the already claimed region. If an ACPI driver is available for this device then this should be used instead of a native driver, so disabling the native driver may help. (Note that the lpc_ich driver can trigger these warnings, in which case they can generally be ignored). One can specify kernel boot parameter acpi_enforce_resources=lax to disable these checks but it may lead to random problems and system instability. Alternatively, one can specify acpi_enforce_resources=no and ACPI Operation Region resources will not be registered. FAILED [LOW] KlogAcpiSystemIOConflict: Test 1, LOW Kernel message: [ 18.464778] ACPI Warning: 0x0000000000000540-0x000000000000054f SystemIO conflicts with Region \GPIO 1 (20130517/utaddress-251) ADVICE: A resource conflict between an ACPI OperationRegion and a native driver has been detected. By default the kernel will use a strict policy and will not allow this region to conflict and -EBUSY will be returned to the caller that was trying to allocate the already claimed region. If an ACPI driver is available for this device then this should be used instead of a native driver, so disabling the native driver may help. (Note that the lpc_ich driver can trigger these warnings, in which case they can generally be ignored). One can specify kernel boot parameter acpi_enforce_resources=lax to disable these checks but it may lead to random problems and system instability. Alternatively, one can specify acpi_enforce_resources=no and ACPI Operation Region resources will not be registered. FAILED [LOW] KlogAcpiSystemIOConflict: Test 1, LOW Kernel message: [ 18.464784] ACPI Warning: 0x0000000000000530-0x000000000000053f SystemIO conflicts with Region \GPIO 1 (20130517/utaddress-251) ADVICE: A resource conflict between an ACPI OperationRegion and a native driver has been detected. By default the kernel will use a strict policy and will not allow this region to conflict and -EBUSY will be returned to the caller that was trying to allocate the already claimed region. If an ACPI driver is available for this device then this should be used instead of a native driver, so disabling the native driver may help. (Note that the lpc_ich driver can trigger these warnings, in which case they can generally be ignored). One can specify kernel boot parameter acpi_enforce_resources=lax to disable these checks but it may lead to random problems and system instability. Alternatively, one can specify acpi_enforce_resources=no and ACPI Operation Region resources will not be registered. FAILED [LOW] KlogAcpiSystemIOConflict: Test 1, LOW Kernel message: [ 18.464790] ACPI Warning: 0x0000000000000500-0x000000000000052f SystemIO conflicts with Region \GPIO 1 (20130517/utaddress-251) ADVICE: A resource conflict between an ACPI OperationRegion and a native driver has been detected. By default the kernel will use a strict policy and will not allow this region to conflict and -EBUSY will be returned to the caller that was trying to allocate the already claimed region. If an ACPI driver is available for this device then this should be used instead of a native driver, so disabling the native driver may help. (Note that the lpc_ich driver can trigger these warnings, in which case they can generally be ignored). One can specify kernel boot parameter acpi_enforce_resources=lax to disable these checks but it may lead to random problems and system instability. Alternatively, one can specify acpi_enforce_resources=no and ACPI Operation Region resources will not be registered. FAILED [LOW] KlogAcpiSystemIOConflictLpcIchWatchDogTimer: Test 1, LOW Kernel message: [ 18.464795] lpc_ich: Resource conflict(s) found affecting gpio_ich ADVICE: A resource conflict has occurred between ACPI OperationRegions and the same I/O region used by the lpc_ich driver for the General Purpose I/O (GPIO) region. Sometimes this GPIO region is used by the firmware for rfkill or LED controls or very rarely for the Embedded Controller System Control Interrupt. This may require deeper inspection to check if the conflict will lead to any real issues. However, in the vast majority of cases this warning can be ignored as no harm will occur. Found 8 unique errors in kernel log. ================================================================================ 0 passed, 8 failed, 0 warnings, 0 aborted, 0 skipped, 0 info only. ================================================================================ mtrr: MTRR validation. -------------------------------------------------------------------------------- MTRR overview ------------- Reg 0: 0x0000000000000000 - 0x0000000080000000 ( 2048 MB) Write-Back Reg 1: 0x0000000080000000 - 0x00000000a0000000 ( 512 MB) Write-Back Reg 2: 0x0000000097000000 - 0x0000000098000000 ( 16 MB) Uncached Reg 3: 0x0000000098000000 - 0x00000000a0000000 ( 128 MB) Uncached Reg 4: 0x00000000ffc00000 - 0x0000000100000000 ( 4 MB) Write-Protect Reg 5: 0x0000000100000000 - 0x0000000200000000 ( 4096 MB) Write-Back Reg 6: 0x0000000200000000 - 0x0000000240000000 ( 1024 MB) Write-Back Reg 7: 0x0000000240000000 - 0x0000000250000000 ( 256 MB) Write-Back Reg 8: 0x0000000250000000 - 0x0000000260000000 ( 256 MB) Write-Back Reg 9: 0x000000025fe00000 - 0x0000000260000000 ( 2 MB) Uncached Test 1 of 3: Validate the kernel MTRR IOMEM setup. PASSED: Test 1, Memory ranges seem to have correct attributes. Test 2 of 3: Validate the MTRR setup across all processors. PASSED: Test 2, All processors have the a consistent MTRR setup. Test 3 of 3: Check for AMD MtrrFixDramModEn being cleared by the BIOS. SKIPPED: Test 3, CPU is not an AMD, cannot test. ================================================================================ 2 passed, 0 failed, 0 warnings, 0 aborted, 1 skipped, 0 info only. ================================================================================ acpiinfo: General ACPI information check. -------------------------------------------------------------------------------- Test 1 of 3: Determine Kernel ACPI version. Kernel ACPICA driver version: 20130517, supports ACPI 5.0 Test 2 of 3: Determine machine's ACPI version. FACP ACPI Version: 4.0 Test 3 of 3: Determine AML compiler. Determine the compiler used to generate the ACPI AML in the DSDT and SSDT. Table DSDT, OEM ACRSYS, created with 1025 (Unknown (1025)) compiler. Table SSDT0, OEM ACRSYS, created with 1025 (Unknown (1025)) compiler. Table SSDT1, OEM ACRSYS, created with 1025 (Unknown (1025)) compiler. Table SSDT2, OEM ACRSYS, created with 1025 (Unknown (1025)) compiler. ================================================================================ 0 passed, 0 failed, 0 warnings, 0 aborted, 0 skipped, 3 info only. ================================================================================ securebootcert: Ubuntu UEFI secure boot test. -------------------------------------------------------------------------------- Cannot detect any UEFI firmware. Aborted. Aborted test, initialisation failed. ================================================================================ 0 passed, 0 failed, 0 warnings, 1 aborted, 0 skipped, 0 info only. ================================================================================ csm: Check for UEFI Compatibility Support Module. -------------------------------------------------------------------------------- Test 1 of 1: Check for UEFI Compatibility Support Module. Checking for UEFI Compatibility Support Module (CSM) Int 10h jumps to 0xc0014 in option ROM at: 0xc0000..0xce800 No CSM: Legacy BIOS firmware has video option ROM with Int 10h support. ================================================================================ 0 passed, 0 failed, 0 warnings, 0 aborted, 0 skipped, 1 info only. ================================================================================ maxreadreq: Checks firmware has set PCI Express MaxReadReq to a higher value on non-motherboard devices. -------------------------------------------------------------------------------- Test 1 of 1: Check firmware settings MaxReadReq for PCI Express devices. MaxReadReq for pci://00:03:00.0 Network controller: Broadcom Corporation BCM43227 802.11b/g/n is low (128) [Network controller]. FAILED [LOW] LowMaxReadReq: Test 1, 1 devices have low MaxReadReq settings. Firmware may have configured these too low. ADVICE: The MaxReadRequest size is set too low and will affect performance. It will provide excellent bus sharing at the cost of bus data transfer rates. Although not a critical issue, it may be worth considering setting the MaxReadRequest size to 256 or 512 to increase throughput on the PCI Express bus. Some drivers (for example the Brocade Fibre Channel driver) allow one to override the firmware settings. Where possible, this BIOS configuration setting is worth increasing it a little more for better performance at a small reduction of bus sharing. ================================================================================ 0 passed, 1 failed, 0 warnings, 0 aborted, 0 skipped, 0 info only. ================================================================================ crs: Check PCI host bridge configuration using _CRS. -------------------------------------------------------------------------------- Test 1 of 1: Check PCI host bridge configuration using _CRS. PASSED: Test 1, The kernel has detected a BIOS newer than the end of 2007 (8/9 /2012) and has assumed that your BIOS can correctly specify the host bridge MMIO aperture using _CRS. If this does not work correctly you can override this by booting with "pci=nocrs". ================================================================================ 1 passed, 0 failed, 0 warnings, 0 aborted, 0 skipped, 0 info only. ================================================================================ aspm: PCIe ASPM check. -------------------------------------------------------------------------------- Test 1 of 2: PCIe ASPM ACPI test. PCIe ASPM is not controlled by Linux kernel. ADVICE: BIOS reports that Linux kernel should not modify ASPM settings that BIOS configured. It can be intentional because hardware vendors identified some capability bugs between the motherboard and the add-on cards. Test 2 of 2: PCIe ASPM registers test. WARNING: Test 2, RP 00h:1Ch.00h L0s not enabled. WARNING: Test 2, Device 02h:00h.00h L0s not enabled. ADVICE: The ASPM L0s low power Link state is optimized for short entry and exit latencies, while providing substantial power savings. Disabling L0s of a PCIe device may increases power consumption, and will impact the battery life of a mobile system. PASSED: Test 2, PCIe ASPM setting matched was matched. WARNING: Test 2, RP 00h:1Ch.01h L0s not enabled. ADVICE: The ASPM L0s low power Link state is optimized for short entry and exit latencies, while providing substantial power savings. Disabling L0s of a PCIe device may increases power consumption, and will impact the battery life of a mobile system. PASSED: Test 2, PCIe ASPM setting matched was matched. PASSED: Test 2, PCIe ASPM setting matched was matched. ================================================================================ 3 passed, 0 failed, 3 warnings, 0 aborted, 0 skipped, 0 info only. ================================================================================ hpet_check: HPET configuration test. -------------------------------------------------------------------------------- Test 1 of 4: Check HPET base in kernel log. This test checks the HPET PCI BAR for each timer block in the timer. The base address is passed by the firmware via an ACPI table. IRQ routing and initialization is also verified by the test. PASSED: Test 1, Found HPET base 0xfed00000 in kernel log. Test 2 of 4: Check HPET base in HPET table. Hardware ID of Event Block: PCI Vendor ID : 0x8086 Legacy IRQ Routing Capable : 1 COUNT_SIZE_CAP counter size: 1 Number of comparitors : 2 Hardwre Revision ID : 0x1 Lower 32 bit base Address : 0xfed00000 Address Space ID : 0x0 Register Bit Width : 0x0 Register Bit Offset : 0x0 Address Width : 0x0 HPET sequence number : 0x0 Minimum clock tick : 0x80 Page Protection : 0x0 (No guaranteed protection) OEM attributes : 0x0 PASSED: Test 2, HPET looks sane. Test 3 of 4: Check HPET base in DSDT and/or SSDT. PASSED: Test 3, HPET base matches that between DSDT and the kernel (0xfed00000). Test 4 of 4: Sanity check HPET configuration. PASSED: Test 4, Vendor ID looks sane: 0x8086. PASSED: Test 4, Valid clock period 69841279. ================================================================================ 5 passed, 0 failed, 0 warnings, 0 aborted, 0 skipped, 0 info only. ================================================================================ dmicheck: Test DMI/SMBIOS tables for errors. -------------------------------------------------------------------------------- Test 1 of 2: Find and Check SMBIOS Table Entry Point. This test tries to find and sanity check the SMBIOS data structures. PASSED: Test 1, Found SMBIOS Table Entry Point at 0xfe120 SMBIOS Entry Point Structure: Anchor String : _SM_ Checksum : 0x98 Entry Point Length : 0x1f Major Version : 0x02 Minor Version : 0x07 Maximum Struct Size : 0xe2 Entry Point Revision : 0x00 Formatted Area : 0x00 0x00 0x00 0x00 0x00 Intermediate Anchor : _DMI_ Intermediate Checksum : 0xb3 Structure Table Length : 0x098e Structure Table Address: 0x000e6550 # of SMBIOS Structures : 0x0034 SBMIOS BCD Revision : 27 PASSED: Test 1, SMBIOS Table Entry Point Checksum is valid. PASSED: Test 1, SMBIOS Table Entry Point Length is valid. PASSED: Test 1, SMBIOS Table Entry Intermediate Anchor String _DMI_ is valid. PASSED: Test 1, SMBIOS Table Entry Point Intermediate Checksum is valid. PASSED: Test 1, SMBIOS Table Entry Structure Table Address and Length looks valid. Test 2 of 2: Test DMI/SMBIOS tables for errors. PASSED: Test 2, Entry @ 0x000e6550 'BIOS Information (Type 0)' PASSED: Test 2, Entry @ 0x000e657f 'System Information (Type 1)' PASSED: Test 2, Entry @ 0x000e65ce 'Base Board Information (Type 2)' FAILED [MEDIUM] DMISerialNumber: Test 2, String index 0x03 in table entry 'Chassis Information (Type 3)' @ 0x000e6649, field 'Serial Number', offset 0x07 has a default value 'Chassis Serial Number' and probably has not been updated by the BIOS vendor. ADVICE: The DMI table contains data which is clearly been left in a default setting and not been configured for this machine. Somebody has probably forgotten to define this field and it basically means this field is effectively useless. Note that the kernel uses this field so it probably should be corrected to ensure the kernel is using sane values. ADVICE: It may be worth checking against section 7.4 of the System Management BIOS (SMBIOS) Reference Specification (see http://www.dmtf.org/standards /smbios). PASSED: Test 2, Entry @ 0x000e6690 'System Slot Information (Type 9)' PASSED: Test 2, Entry @ 0x000e66a7 'System Slot Information (Type 9)' PASSED: Test 2, Entry @ 0x000e66be 'System Slot Information (Type 9)' PASSED: Test 2, Entry @ 0x000e66d5 'System Slot Information (Type 9)' PASSED: Test 2, Entry @ 0x000e66ec 'System Slot Information (Type 9)' PASSED: Test 2, Entry @ 0x000e6703 'System Slot Information (Type 9)' PASSED: Test 2, Entry @ 0x000e671a 'System Slot Information (Type 9)' PASSED: Test 2, Entry @ 0x000e6731 'On Board Devices (Type 10)' PASSED: Test 2, Entry @ 0x000e6758 'On Board Devices (Type 10)' PASSED: Test 2, Entry @ 0x000e6777 'OEM Strings (Type 11)' PASSED: Test 2, Entry @ 0x000e6859 'System Configuration Options (Type 12)' PASSED: Test 2, Entry @ 0x000e6889 'BIOS Language Information (Type 13)' PASSED: Test 2, Entry @ 0x000e68dc 'Built-in Pointing Device (Type 21)' PASSED: Test 2, Entry @ 0x000e68e5 'Voltage Probe (Type 26)' PASSED: Test 2, Entry @ 0x000e6917 'Cooling Device (Type 27)' PASSED: Test 2, Entry @ 0x000e6943 'System Boot Information (Type 32)' PASSED: Test 2, Entry @ 0x000e6959 'System Power Supply (Type 39)' PASSED: Test 2, Entry @ 0x000e69c4 'Additional Information (Type 40)' PASSED: Test 2, Entry @ 0x000e69fe 'Onboard Device (Type 41)' FAILED [LOW] DMIStringIndexOutOfRange: Test 2, Out of range string index 0x06 while accessing entry 'Portable Battery (Type 22)' @ 0x000e6a28, field 'Device Chemistry', offset 0x09 ADVICE: DMI strings are stored in a manner that uses a special index to fetch the Nth string from the data. For this particular DMI string the index given is not in range which means this particular entry is broken. The Linux kernel does not use this string, so this error will not cause any system errors. ADVICE: It may be worth checking against section 7.23 of the System Management BIOS (SMBIOS) Reference Specification (see http://www.dmtf.org/standards /smbios). PASSED: Test 2, Entry @ 0x000e6a7f 'Unknown (Type 136)' PASSED: Test 2, Entry @ 0x000e6a87 'Unknown (Type 129)' PASSED: Test 2, Entry @ 0x000e6aa8 'Unknown (Type 130)' PASSED: Test 2, Entry @ 0x000e6abe 'Physical Memory Array (Type 16)' FAILED [LOW] DMISerialNumber: Test 2, String index 0x05 in table entry 'Memory Device (Type 17)' @ 0x000e6ad7, field 'Asset Tag', offset 0x19 has a default value '0123456789' and probably has not been updated by the BIOS vendor. ADVICE: The DMI table contains data which is clearly been left in a default setting and not been configured for this machine. Somebody has probably forgotten to define this field and it basically means this field is effectively useless, however the kernel does not use this data so the issue is fairly low. ADVICE: It may be worth checking against section 7.18 of the System Management BIOS (SMBIOS) Reference Specification (see http://www.dmtf.org/standards /smbios). PASSED: Test 2, Entry @ 0x000e6b3f 'Memory Module Information (Type 6)' PASSED: Test 2, Entry @ 0x000e6b5b '32-bit Memory Error Information (Type 18)' PASSED: Test 2, Entry @ 0x000e6b74 'Memory Device Mapped Address (Type 20)' FAILED [LOW] DMISerialNumber: Test 2, String index 0x03 in table entry 'Memory Device (Type 17)' @ 0x000e6b99, field 'Asset Tag', offset 0x19 has a default value '0123456789' and probably has not been updated by the BIOS vendor. ADVICE: The DMI table contains data which is clearly been left in a default setting and not been configured for this machine. Somebody has probably forgotten to define this field and it basically means this field is effectively useless, however the kernel does not use this data so the issue is fairly low. ADVICE: It may be worth checking against section 7.18 of the System Management BIOS (SMBIOS) Reference Specification (see http://www.dmtf.org/standards /smbios). PASSED: Test 2, Entry @ 0x000e6bdd 'Memory Module Information (Type 6)' FAILED [LOW] DMISerialNumber: Test 2, String index 0x05 in table entry 'Memory Device (Type 17)' @ 0x000e6bf9, field 'Asset Tag', offset 0x19 has a default value '0123456789' and probably has not been updated by the BIOS vendor. ADVICE: The DMI table contains data which is clearly been left in a default setting and not been configured for this machine. Somebody has probably forgotten to define this field and it basically means this field is effectively useless, however the kernel does not use this data so the issue is fairly low. ADVICE: It may be worth checking against section 7.18 of the System Management BIOS (SMBIOS) Reference Specification (see http://www.dmtf.org/standards /smbios). PASSED: Test 2, Entry @ 0x000e6c61 'Memory Module Information (Type 6)' PASSED: Test 2, Entry @ 0x000e6c7d '32-bit Memory Error Information (Type 18)' PASSED: Test 2, Entry @ 0x000e6c96 'Memory Device Mapped Address (Type 20)' FAILED [LOW] DMISerialNumber: Test 2, String index 0x03 in table entry 'Memory Device (Type 17)' @ 0x000e6cbb, field 'Asset Tag', offset 0x19 has a default value '0123456789' and probably has not been updated by the BIOS vendor. ADVICE: The DMI table contains data which is clearly been left in a default setting and not been configured for this machine. Somebody has probably forgotten to define this field and it basically means this field is effectively useless, however the kernel does not use this data so the issue is fairly low. ADVICE: It may be worth checking against section 7.18 of the System Management BIOS (SMBIOS) Reference Specification (see http://www.dmtf.org/standards /smbios). PASSED: Test 2, Entry @ 0x000e6cff 'Memory Module Information (Type 6)' PASSED: Test 2, Entry @ 0x000e6d1b '32-bit Memory Error Information (Type 18)' PASSED: Test 2, Entry @ 0x000e6d34 'Memory Array Mapped Address (Type 19)' PASSED: Test 2, Entry @ 0x000e6d55 'Memory Controller Information (Type 5)' PASSED: Test 2, Entry @ 0x000e6d6b 'Unknown (Type 170)' PASSED: Test 2, Entry @ 0x000e6dbf 'Unknown (Type 171)' PASSED: Test 2, Entry @ 0x000e6de8 'Unknown (Type 172)' PASSED: Test 2, Entry @ 0x000e6df0 'Processor Information (Type 4)' PASSED: Test 2, Entry @ 0x000e6e64 'Cache Information (Type 7)' PASSED: Test 2, Entry @ 0x000e6e81 'Cache Information (Type 7)' PASSED: Test 2, Entry @ 0x000e6e9e 'Cache Information (Type 7)' PASSED: Test 2, Entry @ 0x000e6ebb 'Cache Information (Type 7)' PASSED: Test 2, Entry @ 0x000e6ed8 'End of Table (Type 127)' ================================================================================ 52 passed, 6 failed, 0 warnings, 0 aborted, 0 skipped, 0 info only. ================================================================================ microcode: Check if system is using latest microcode. -------------------------------------------------------------------------------- Test 1 of 1: Check for most recent microcode being loaded. This test verifies if the firmware has put a recent revision of the microcode into the processor at boot time. Recent microcode is important to have all the required features and errata updates for the processor. FAILED [MEDIUM] MicrocodeNotUpdated: Test 1, The kernel did not report that CPU 0 has had a microcode update. The current firmware is revision 0x25 and probably has not been updated. FAILED [MEDIUM] MicrocodeNotUpdated: Test 1, The kernel did not report that CPU 1 has had a microcode update. The current firmware is revision 0x25 and probably has not been updated. FAILED [MEDIUM] MicrocodeNotUpdated: Test 1, The kernel did not report that CPU 2 has had a microcode update. The current firmware is revision 0x25 and probably has not been updated. FAILED [MEDIUM] MicrocodeNotUpdated: Test 1, The kernel did not report that CPU 3 has had a microcode update. The current firmware is revision 0x25 and probably has not been updated. FAILED [MEDIUM] MicrocodeNotUpdated: Test 1, The kernel did not report that CPU 4 has had a microcode update. The current firmware is revision 0x25 and probably has not been updated. FAILED [MEDIUM] MicrocodeNotUpdated: Test 1, The kernel did not report that CPU 5 has had a microcode update. The current firmware is revision 0x25 and probably has not been updated. FAILED [MEDIUM] MicrocodeNotUpdated: Test 1, The kernel did not report that CPU 6 has had a microcode update. The current firmware is revision 0x25 and probably has not been updated. FAILED [MEDIUM] MicrocodeNotUpdated: Test 1, The kernel did not report that CPU 7 has had a microcode update. The current firmware is revision 0x25 and probably has not been updated. ================================================================================ 0 passed, 8 failed, 0 warnings, 0 aborted, 0 skipped, 0 info only. ================================================================================ msr: MSR register tests. -------------------------------------------------------------------------------- Test 1 of 5: Check CPU generic MSRs. PASSED: Test 1, MSR P5_MC_TYPE (0x1) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR MONITOR_FILTER_SIZE (0x6) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR PLATFORM_ID (0x17) (mask:1c000000000000) was consistent across 8 CPUs. PASSED: Test 1, MSR EBL_CR_POWERON (0x2a) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR APIC_BASE (0x1b) (mask:fffffffffffffeff) was consistent across 8 CPUs. PASSED: Test 1, MSR FEATURE_CONTROL (0x3a) (mask:ff07) was consistent across 8 CPUs. PASSED: Test 1, MSR BIOS_SIGN_ID (0x8b) (mask:ffffffff00000000) was consistent across 8 CPUs. PASSED: Test 1, MSR MTRRCAP (0xfe) (mask:fff) was consistent across 8 CPUs. PASSED: Test 1, MSR SYSENTER_CS (0x174) (mask:ffff) was consistent across 8 CPUs. PASSED: Test 1, MSR SYSENTER_ESP (0x175) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR SYSENTER_EIP (0x176) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR MCG_CAP (0x179) (mask:1ff0fff) was consistent across 8 CPUs. PASSED: Test 1, MSR MCG_STATUS (0x17a) (mask:ffffffffffffffff) was consistent across 8 CPUs. FAILED [MEDIUM] MSRCPUsInconsistent: Test 1, MSR CLOCK_MODULATION (0x19a) has 7 inconsistent values across 8 CPUs for (shift: 0 mask: 0x1f). MSR CPU 0 -> 0x8 vs CPU 1 -> 0x0 MSR CPU 0 -> 0x8 vs CPU 2 -> 0x0 MSR CPU 0 -> 0x8 vs CPU 3 -> 0x0 MSR CPU 0 -> 0x8 vs CPU 4 -> 0x0 MSR CPU 0 -> 0x8 vs CPU 5 -> 0x0 MSR CPU 0 -> 0x8 vs CPU 6 -> 0x0 MSR CPU 0 -> 0x8 vs CPU 7 -> 0x0 PASSED: Test 1, MSR THERM_INTERRUPT (0x19b) (mask:180801f) was consistent across 8 CPUs. PASSED: Test 1, MSR MISC_ENABLE (0x1a0) (mask:400c51889) was consistent across 8 CPUs. PASSED: Test 1, MSR PACKAGE_THERM_INTERRUPT (0x1b2) (mask:1ffff17) was consistent across 8 CPUs. PASSED: Test 1, MSR SMRR_PHYSBASE (0x1f2) (mask:fffff0ff) was consistent across 8 CPUs. PASSED: Test 1, MSR SMRR_PHYSMASK (0x1f3) (mask:fffff800) was consistent across 8 CPUs. PASSED: Test 1, MSR MTRR_PHYSBASE0 (0x200) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR MTRR_PHYSMASK0 (0x201) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR MTRR_PHYSBASE1 (0x202) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR MTRR_PHYSMASK1 (0x203) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR MTRR_PHYSBASE2 (0x204) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR MTRR_PHYSMASK2 (0x205) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR MTRR_PHYSBASE3 (0x206) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR MTRR_PHYSMASK3 (0x207) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR MTRR_PHYSBASE4 (0x208) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR MTRR_PHYSMASK4 (0x209) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR MTRR_PHYSBASE5 (0x20a) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR MTRR_PHYSMASK5 (0x20b) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR MTRR_PHYSBASE6 (0x20c) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR MTRR_PHYSMASK6 (0x20d) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR MTRR_PHYSBASE7 (0x20e) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR MTRR_PHYSMASK7 (0x20f) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR MTRR_PHYSBASE8 (0x210) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR MTRR_PHYSMASK8 (0x211) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR MTRR_PHYSBASE9 (0x212) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR MTRR_PHYSMASK9 (0x213) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR MTRR_FIX64K_000 (0x250) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR MTRR_FIX16K_800 (0x258) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR MTRR_FIX16K_a00 (0x259) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR MTRR_FIX4K_C000 (0x268) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR MTRR_FIX4K_C800 (0x269) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR MTRR_FIX4K_D000 (0x26a) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR MTRR_FIX4K_D800 (0x26b) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR MTRR_FIX4K_E000 (0x26c) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR MTRR_FIX4K_E800 (0x26d) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR MTRR_FIX4K_F000 (0x26e) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR MTRR_FIX4K_F800 (0x26f) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR PAT (0x277) (mask:707070707070703) was consistent across 8 CPUs. PASSED: Test 1, MSR MC0_CTL2 (0x280) (mask:40007fff) was consistent across 8 CPUs. PASSED: Test 1, MSR MC1_CTL2 (0x281) (mask:40007fff) was consistent across 8 CPUs. PASSED: Test 1, MSR MC2_CTL2 (0x282) (mask:40007fff) was consistent across 8 CPUs. PASSED: Test 1, MSR MC3_CTL2 (0x283) (mask:40007fff) was consistent across 8 CPUs. PASSED: Test 1, MSR MC4_CTL2 (0x284) (mask:40007fff) was consistent across 8 CPUs. PASSED: Test 1, MSR MC5_CTL2 (0x285) (mask:40007fff) was consistent across 8 CPUs. PASSED: Test 1, MSR MC6_CTL2 (0x286) (mask:40007fff) was consistent across 8 CPUs. PASSED: Test 1, MSR MC7_CTL2 (0x287) (mask:40007fff) was consistent across 8 CPUs. PASSED: Test 1, MSR MC8_CTL2 (0x288) (mask:40007fff) was consistent across 8 CPUs. PASSED: Test 1, MSR MTRR_DEF_TYPE (0x2ff) (mask:c0f) was consistent across 8 CPUs. PASSED: Test 1, MSR PEBS_ENABLE (0x3f1) (mask:1) was consistent across 8 CPUs. PASSED: Test 1, MSR VMX_BASIC (0x480) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR VMX_PINPASED_CTLS (0x481) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR VMX_PROCBASED_CTLS (0x482) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR VMX_EXIT_CTLS (0x483) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR VMX_ENTRY_CTLS (0x484) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR VMX_MISC (0x485) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR VMX_CR0_FIXED0 (0x486) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR VMX_CR0_FIXED1 (0x487) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR VMX_CR4_FIXED0 (0x488) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR VMX_CR4_FIXED1 (0x489) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR VMX_VMX_VMCS_ENUM (0x48a) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR VMX_PROCBASED_CTLS2 (0x48b) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR VMX_EPT_VPID_CAP (0x48c) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR VMX_TRUE_PINBASED_CTLS (0x48d) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR VMX_TRUE_PROCBASED_CTLS (0x48e) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR VMX_TRUE_EXIT_CTLS (0x48f) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR VMX_TRUE_ENTRY_CTLS (0x490) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR EFER (0xc0000080) (mask:d01) was consistent across 8 CPUs. PASSED: Test 1, MSR STAR (0xc0000081) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR LSTAR (0xc0000082) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR FMASK (0xc0000084) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 1, MSR KERNEL_GS_BASE (0xc0000102) (mask:ffffffffffffffff) was consistent across 8 CPUs. Test 2 of 5: Check CPU specific model MSRs. PASSED: Test 2, MSR BIOS_SIGN_ID (0x8b) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 2, MSR MSR_PLATFORM_INFO (0xce) (mask:ff003001ff00) was consistent across 8 CPUs. PASSED: Test 2, MSR MSR_PKG_CST_CONFIG_CONTROL (0xe2) (mask:7008407) was consistent across 8 CPUs. PASSED: Test 2, MSR MSR_PMG_IO_CAPTURE_BASE (0xe4) (mask:7ffff) was consistent across 8 CPUs. FAILED [MEDIUM] MSRCPUsInconsistent: Test 2, MSR CLOCK_MODULATION (0x19a) has 7 inconsistent values across 8 CPUs for (shift: 0 mask: 0x1f). MSR CPU 0 -> 0x8 vs CPU 1 -> 0x0 MSR CPU 0 -> 0x8 vs CPU 2 -> 0x0 MSR CPU 0 -> 0x8 vs CPU 3 -> 0x0 MSR CPU 0 -> 0x8 vs CPU 4 -> 0x0 MSR CPU 0 -> 0x8 vs CPU 5 -> 0x0 MSR CPU 0 -> 0x8 vs CPU 6 -> 0x0 MSR CPU 0 -> 0x8 vs CPU 7 -> 0x0 PASSED: Test 2, MSR MSR_TEMPERATURE_TARGET (0x1a2) (mask:ff0000) was consistent across 8 CPUs. PASSED: Test 2, MSR MSR_OFFCORE_RSP_0 (0x1a6) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 2, MSR MSR_TURBO_RATIO_LIMIT (0x1ad) (mask:ffffffff) was consistent across 8 CPUs. PASSED: Test 2, MSR MSR_POWER_CTL (0x1fc) (mask:2) was consistent across 8 CPUs. PASSED: Test 2, MSR MSR_PKGC3_IRTL (0x60a) (mask:9fff) was consistent across 8 CPUs. PASSED: Test 2, MSR MSR_PKGC6_IRTL (0x60b) (mask:9fff) was consistent across 8 CPUs. PASSED: Test 2, MSR MSR_PKGC7_IRTL (0x60c) (mask:9fff) was consistent across 8 CPUs. PASSED: Test 2, MSR MSR_PKG_RAPL_POWER_LIMIT (0x610) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 2, MSR MSR_PKG_RAPL_POWER_INFO (0x614) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 2, MSR MSR_PP0_POWER_LIMIT (0x638) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 2, MSR MSR_PP0_POLICY (0x63a) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 2, MSR MSR_PP1_POWER_LIMIT (0x640) (mask:ffffffffffffffff) was consistent across 8 CPUs. PASSED: Test 2, MSR MSR_PP1_POLICY (0x642) (mask:ffffffffffffffff) was consistent across 8 CPUs. Test 3 of 5: Check all P State Ratios. PASSED: Test 3, MSR Minimum P-State (0xce) (mask:ff) was consistent across 8 CPUs. PASSED: Test 3, MSR Maximum P-State (0xce) (mask:ff) was consistent across 8 CPUs. Test 4 of 5: Check C1 and C3 autodemotion. PASSED: Test 4, MSR C1 and C3 Autodemotion (0xe2) (mask:3) was consistent across 8 CPUs. C1 and C3 Autodemotion enabled. Test 5 of 5: Check SMRR MSR registers. PASSED: Test 5, MSR SMRR_PHYSBASE (0x1f2) (mask:fffff) was consistent across 8 CPUs. PASSED: Test 5, MSR SMRR_TYPE (0x1f2) (mask:7) was consistent across 8 CPUs. PASSED: Test 5, MSR SMRR_PHYSMASK (0x1f3) (mask:fffff) was consistent across 8 CPUs. PASSED: Test 5, MSR SMRR_VALID (0x1f3) (mask:1) was consistent across 8 CPUs. ================================================================================ 107 passed, 2 failed, 0 warnings, 0 aborted, 0 skipped, 0 info only. ================================================================================ nx: Test if CPU NX is disabled by the BIOS. -------------------------------------------------------------------------------- Test 1 of 3: Check CPU NX capability. PASSED: Test 1, CPU has NX flags, BIOS is not disabling it. Test 2 of 3: Check all CPUs have same BIOS set NX flag. This test verifies that all CPUs have the same NX flag setting. Although rare, BIOS may set the NX flag differently per CPU. PASSED: Test 2, All 8 CPUs have the same NX flag set. Test 3 of 3: Check all CPUs have same msr setting in MSR 0x1a0. This test verifies that all CPUs have the same NX flag setting by examining the per CPU MSR register 0x1a0. PASSED: Test 3, All 8 CPUs have the NX flag in MSR 0x1a0 set. ================================================================================ 3 passed, 0 failed, 0 warnings, 0 aborted, 0 skipped, 0 info only. ================================================================================ cpufreq: CPU frequency scaling tests. -------------------------------------------------------------------------------- Test 1 of 1: CPU P-State Checks. For each processor in the system, this test steps through the various frequency states (P-states) that the BIOS advertises for the processor. For each processor /frequency combination, a quick performance value is measured. The test then validates that: 1. Each processor has the same number of frequency states. 2. Higher advertised frequencies have a higher performance. 3. No duplicate frequency values are reported by the BIOS. 4. BIOS doing Sw_All P-state coordination across cores. 5. BIOS doing Sw_Any P-state coordination across cores. CPU 0: 15 CPU frequency steps supported. Frequency | Relative Speed | Bogo loops -----------+----------------+----------- 2.25 GHz | 100.0 % | 258416 2.25 GHz | 73.6 % | 190081 2.05 GHz | 66.8 % | 172604 1.95 GHz | 63.5 % | 164213 1.85 GHz | 60.1 % | 155272 1.75 GHz | 56.8 % | 146821 1.65 GHz | 53.3 % | 137727 1500 MHz | 50.0 % | 129290 1400 MHz | 46.8 % | 120956 1300 MHz | 43.4 % | 112203 1200 MHz | 40.0 % | 103356 1100 MHz | 36.7 % | 94879 1000 MHz | 33.4 % | 86370 900 MHz | 30.0 % | 77590 800 MHz | 26.7 % | 68932 CPU 1: 15 CPU frequency steps supported. Frequency | Relative Speed | Bogo loops -----------+----------------+----------- 2.25 GHz | 100.0 % | 261784 2.25 GHz | 72.7 % | 190251 2.05 GHz | 66.1 % | 172919 1.95 GHz | 62.7 % | 164121 1.85 GHz | 59.4 % | 155519 1.75 GHz | 56.1 % | 146924 1.65 GHz | 52.8 % | 138276 1500 MHz | 49.5 % | 129678 1400 MHz | 46.2 % | 120991 1300 MHz | 42.9 % | 112363 1200 MHz | 39.6 % | 103751 1100 MHz | 36.3 % | 95070 1000 MHz | 33.0 % | 86354 900 MHz | 29.7 % | 77748 800 MHz | 26.4 % | 69123 CPU 2: 15 CPU frequency steps supported. Frequency | Relative Speed | Bogo loops -----------+----------------+----------- 2.25 GHz | 100.0 % | 257692 2.25 GHz | 73.7 % | 190000 2.05 GHz | 67.0 % | 172714 1.95 GHz | 63.7 % | 164257 1.85 GHz | 60.3 % | 155454 1.75 GHz | 57.1 % | 147025 1.65 GHz | 53.7 % | 138369 1500 MHz | 50.3 % | 129724 1400 MHz | 47.0 % | 121069 1300 MHz | 43.6 % | 112416 1200 MHz | 40.3 % | 103744 1100 MHz | 36.9 % | 94985 1000 MHz | 33.5 % | 86439 900 MHz | 30.2 % | 77774 800 MHz | 26.8 % | 69101 CPU 3: 15 CPU frequency steps supported. Frequency | Relative Speed | Bogo loops -----------+----------------+----------- 2.25 GHz | 100.0 % | 265928 2.25 GHz | 71.5 % | 190233 2.05 GHz | 65.1 % | 173005 1.95 GHz | 61.8 % | 164271 1.85 GHz | 58.5 % | 155623 1.75 GHz | 55.2 % | 146876 1.65 GHz | 52.0 % | 138384 1500 MHz | 48.8 % | 129703 1400 MHz | 45.5 % | 121006 1300 MHz | 42.3 % | 112379 1200 MHz | 39.0 % | 103748 1100 MHz | 35.8 % | 95106 1000 MHz | 32.5 % | 86461 900 MHz | 29.3 % | 77808 800 MHz | 26.0 % | 69154 CPU 4: 15 CPU frequency steps supported. Frequency | Relative Speed | Bogo loops -----------+----------------+----------- 2.25 GHz | 100.0 % | 258338 2.25 GHz | 73.6 % | 190108 2.05 GHz | 66.9 % | 172837 1.95 GHz | 63.5 % | 164131 1.85 GHz | 60.2 % | 155464 1.75 GHz | 56.8 % | 146697 1.65 GHz | 53.5 % | 138134 1500 MHz | 50.1 % | 129502 1400 MHz | 46.8 % | 120789 1300 MHz | 43.5 % | 112263 1200 MHz | 40.1 % | 103567 1100 MHz | 39.4 % | 101811 1000 MHz | 38.9 % | 100593 900 MHz | 40.8 % | 105337 800 MHz | 27.3 % | 70589 FAILED [MEDIUM] CPUFreqSlowerOnCPU: Test 1, Supposedly higher frequency 1000 MHz is slower (100593 bogo loops) than frequency 1000 MHz (105337 bogo loops) on CPU 4. CPU 5: 15 CPU frequency steps supported. Frequency | Relative Speed | Bogo loops -----------+----------------+----------- 2.25 GHz | 100.0 % | 246192 2.25 GHz | 76.2 % | 187629 2.05 GHz | 68.5 % | 168554 1.95 GHz | 65.1 % | 160237 1.85 GHz | 61.7 % | 151834 1.75 GHz | 58.2 % | 143227 1.65 GHz | 54.9 % | 135227 1500 MHz | 51.5 % | 126833 1400 MHz | 47.4 % | 116721 1300 MHz | 45.1 % | 111018 1200 MHz | 41.3 % | 101758 1100 MHz | 38.0 % | 93435 1000 MHz | 34.5 % | 84923 900 MHz | 31.8 % | 78199 800 MHz | 27.6 % | 67901 CPU 6: 15 CPU frequency steps supported. Frequency | Relative Speed | Bogo loops -----------+----------------+----------- 2.25 GHz | 100.0 % | 248821 2.25 GHz | 76.4 % | 190203 2.05 GHz | 69.5 % | 172863 1.95 GHz | 66.0 % | 164270 1.85 GHz | 62.5 % | 155504 1.75 GHz | 59.0 % | 146723 1.65 GHz | 55.4 % | 137960 1500 MHz | 52.4 % | 130312 1400 MHz | 49.3 % | 122681 1300 MHz | 46.2 % | 114952 1200 MHz | 43.2 % | 107545 1100 MHz | 40.1 % | 99765 1000 MHz | 36.7 % | 91306 900 MHz | 33.7 % | 83947 800 MHz | 28.3 % | 70333 CPU 7: 15 CPU frequency steps supported. Frequency | Relative Speed | Bogo loops -----------+----------------+----------- 2.25 GHz | 100.0 % | 250821 2.25 GHz | 75.8 % | 190093 2.05 GHz | 68.9 % | 172760 1.95 GHz | 65.4 % | 164012 1.85 GHz | 61.8 % | 155117 1.75 GHz | 58.5 % | 146807 1.65 GHz | 55.1 % | 138292 1500 MHz | 51.7 % | 129554 1400 MHz | 48.3 % | 121192 1300 MHz | 45.0 % | 112847 1200 MHz | 41.4 % | 103766 1100 MHz | 37.9 % | 95092 1000 MHz | 34.4 % | 86370 900 MHz | 31.0 % | 77736 800 MHz | 27.6 % | 69117 PASSED: Test 1, P-state coordination under hardware control. ================================================================================ 1 passed, 1 failed, 0 warnings, 0 aborted, 0 skipped, 0 info only. ================================================================================ maxfreq: Check max CPU frequencies against max scaling frequency. -------------------------------------------------------------------------------- Test 1 of 1: Maximum CPU frequency check. This test checks the maximum CPU frequency as detected by the kernel for each CPU against maxiumum frequency as specified by the BIOS frequency scaling settings. PASSED: Test 1, 8 CPUs passed the maximum frequency check. ================================================================================ 1 passed, 0 failed, 0 warnings, 0 aborted, 0 skipped, 0 info only. ================================================================================ virt: Test CPU Virtualisation Configuration. -------------------------------------------------------------------------------- Test 1 of 1: Check CPU Virtualisation Configuration. Check VT/VMX Virtualization extensions are set up correctly. PASSED: Test 1, Virtualization extensions supported and enabled by BIOS. ================================================================================ 1 passed, 0 failed, 0 warnings, 0 aborted, 0 skipped, 0 info only. ================================================================================ pnp: Check BIOS Support Installation structure. -------------------------------------------------------------------------------- Test 1 of 1: Check PnP BIOS Support Installation structure. This test tries to find and sanity check the Plug and Play BIOS Support Installation Check structure. Found PnP Installation Check structure at 0x000fe0f0 Signature : $PnP Version : 0x10 (1.0) Length : 0x0021 bytes Control Field : 0x0000 (Not supported) Event Notification Flag Address : 0x00000000 (undefined) Real Mode 16 bit Code Address : 0xf000:b89d Real Mode 16 bit Data Address : 0x0040:0000 16 bit Protected Mode Code Address : 0x000fb8a8 16 bit Protected Mode Data Address : 0x00000400 OEM Device Identifier : 0x8224744e (SST2482) PASSED: Test 1, Version 1.0 detected. PASSED: Test 1, PnP Installation Check structure is the correct length of 33 bytes. ================================================================================ 2 passed, 0 failed, 0 warnings, 0 aborted, 0 skipped, 0 info only. ================================================================================ pciirq: Check PCI IRQ Routing Table. -------------------------------------------------------------------------------- Test 1 of 1: PCI IRQ Routing Table. This test tries to find and sanity check the PCI IRQ Routing Table, as defined by http://www.microsoft.com/taiwan/whdc/archive/pciirq.mspx and described in pages 233-238 of PCI System Architecture, Fourth Edition, Mindshare, Inc. (1999). NOTE: The PCI IRQ Routing Table only really knows about ISA IRQs and is generally not used with APIC. Found PCI IRQ Routing Table at 0x000fe990 Signature : $PIR Version : 0x0100 (1.0) Table Size : 0x0100 bytes (14 slot entries) PCI Router ID : 00:1f.0 PCI Exclusive IRQs : 0x0000 (none) Compatible PCI Router : 8086:122e Miniport Data : 0x00000000 (none) Reserved : 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00 Checksum : 0xe6 Bus:Dev Slot INTA# INTB# INTC# INTD# 00:01 00 60/deb8 61/deb8 62/deb8 63/deb8 00:02 00 60/deb8 00:04 00 60/deb8 61/deb8 62/deb8 63/deb8 00:06 00 63/deb8 60/deb8 61/deb8 62/deb8 00:16 00 60/deb8 61/deb8 62/deb8 63/deb8 00:18 00 68/deb8 00:19 00 68/deb8 00:1a 00 60/deb8 69/deb8 63/deb8 62/deb8 00:1b 00 6a/deb8 00:1c 00 61/deb8 60/deb8 62/deb8 63/deb8 00:1d 00 6b/deb8 63/deb8 62/deb8 60/deb8 00:1f 00 69/deb8 63/deb8 63/deb8 60/deb8 01:00 00 60/deb8 61/deb8 62/deb8 63/deb8 02:00 00 60/deb8 61/deb8 62/deb8 63/deb8 PASSED: Test 1, The Compatible PCI Interrupt Router is defined. PASSED: Test 1, Table size was correct for 14 slot entries. PASSED: Test 1, Reserved region is set to zero. PASSED: Test 1, All 14 slots have sane looking link and IRQ bitmaps. ================================================================================ 4 passed, 0 failed, 0 warnings, 0 aborted, 0 skipped, 0 info only. ================================================================================ os2gap: OS/2 memory hole test. -------------------------------------------------------------------------------- Test 1 of 1: Check the OS/2 15Mb memory hole is absent. PASSED: Test 1, No OS/2 memory hole found. ================================================================================ 1 passed, 0 failed, 0 warnings, 0 aborted, 0 skipped, 0 info only. ================================================================================ mpcheck: Check MultiProcessor Tables. -------------------------------------------------------------------------------- Test 1 of 9: Check MP header. PASSED: Test 1, MP header looks sane. Test 2 of 9: Check MP CPU entries. PASSED: Test 2, All 4 CPU entries look sane. Test 3 of 9: Check MP Bus entries. PASSED: Test 3, All 5 Bus Entries looked sane. Test 4 of 9: Check MP IO APIC entries. PASSED: Test 4, All 1 IO APIC Entries look sane. Test 5 of 9: Check MP IO Interrupt entries. PASSED: Test 5, All 71 IO Interrupt Entries look sane. Test 6 of 9: Check MP Local Interrupt entries. PASSED: Test 6, All 2 Local Interrupt Entries look sane. Test 7 of 9: Check MP System Address entries. PASSED: Test 7, All 3 System Address Space Mapping Entries looks sane. Test 8 of 9: Check MP Bus Hierarchy entries. PASSED: Test 8, All 1 Bus Hierarchy Entries look sane. Test 9 of 9: Check MP Compatible Bus Address Space entries. PASSED: Test 9, All 2 Compatible Bus Address Space Entries look sane. ================================================================================ 9 passed, 0 failed, 0 warnings, 0 aborted, 0 skipped, 0 info only. ================================================================================ hda_audio: Check HDA Audio Pin Configs. -------------------------------------------------------------------------------- Test 1 of 1: Check HDA Audio Pin Configs. Checking 'hwC0D0': Vendor Name : Realtek Vendor ID : 0x10ec0269 Subsystem ID : 0x10250504 Revision ID : 0x100100 BIOS pin configurations: Pin Setting 0x0012 0x411111f0 0x0014 0x99130110 0x0017 0x411111f0 0x0018 0x03a19820 0x0019 0x411111f0 0x001a 0x411111f0 0x001b 0x99a30930 0x001d 0x598301f0 0x001e 0x411111f0 0x0021 0x0321101f PASSED: Test 1, Default BIOS pin configurations did not have software override. Checking 'hwC0D3': Vendor Name : Intel Vendor ID : 0x80862805 Subsystem ID : 0x80860101 Revision ID : 0x100000 BIOS pin configurations: Pin Setting 0x0005 0x18560010 0x0006 0x58560020 0x0007 0x58560030 PASSED: Test 1, Default BIOS pin configurations did not have software override. ================================================================================ 2 passed, 0 failed, 0 warnings, 0 aborted, 0 skipped, 0 info only. ================================================================================ ebda: Validate EBDA region is mapped and reserved in memory map table. -------------------------------------------------------------------------------- Test 1 of 1: Check EBDA is reserved in E820 table. The Extended BIOS Data Area (EBDA) is normally located at the end of the low 640K region and is typically 2-4K in size. It should be reserved in the Int 15 AX=E820 BIOS memory map table. PASSED: Test 1, EBDA region mapped at 0x9d800 and reserved as a 9K region in the Int 15 AX=E820 BIOS memory map table at 0x9d800..0x9ffff. ================================================================================ 1 passed, 0 failed, 0 warnings, 0 aborted, 0 skipped, 0 info only. ================================================================================ bios32: Check BIOS32 Service Directory. -------------------------------------------------------------------------------- Test 1 of 1: Check BIOS32 Service Directory. This test tries to find and sanity check the BIOS32 Service Directory as defined in the Standard BIOS 32-bit Service Directory Proposal, Revision 0.4 May 24, 1993, Phoenix Technologies Ltd and also the PCI BIOS specification. Found BIOS32 Service Directory at 0x000fe140 Signature : _32_ Entry Point: 0x000ef735 Revsion : 0x00 Length : 0x01 Checksum : 0xa2 PASSED: Test 1, Service Directory Entry Point 0x000ef735 is not in high memory. PASSED: Test 1, Service Directory Length is 1 (1 x 16 bytes) as expected. PASSED: Test 1, Service Directory Revision is 0x00 and is supported by the kernel. PASSED: Test 1, Service Directory checksum passed. ================================================================================ 4 passed, 0 failed, 0 warnings, 0 aborted, 0 skipped, 0 info only. ================================================================================ apicedge: APIC Edge/Level Check. -------------------------------------------------------------------------------- Test 1 of 1: Legacy and PCI Interrupt Edge/Level trigger checks. PASSED: Test 1, Legacy interrupts are edge and PCI interrupts are level triggered. ================================================================================ 1 passed, 0 failed, 0 warnings, 0 aborted, 0 skipped, 0 info only. ================================================================================ wmi: Extract and analyse Windows Management Instrumentation (WMI). -------------------------------------------------------------------------------- Test 1 of 1: Check Windows Management Instrumentation \_SB_.PCI0.WMID._WDG (1 of 5) GUID: 676AA15E-6A47-4D9F-A2CC-1E6D18D14026 WMI Event: Flags : 0x08 (Event) Notification ID: 0xbc Reserved : 0x00 Instance : 0x01 Driver : acer-wmi (Acer) \_SB_.PCI0.WMID._WDG (2 of 5) GUID: 61EF69EA-865C-4BC3-A502-A0DEBA0CB531 WMI Method: Flags : 0x02 (Method) Object ID : AA Instance : 0x01 Driver : acer-wmi (Acer) PASSED: Test 1, 61EF69EA-865C-4BC3-A502-A0DEBA0CB531 has associated method \_SB_.PCI0.WMID.WMAA \_SB_.PCI0.WMID._WDG (3 of 5) GUID: FE1DBBDA-3014-4856-870C-5B3A744BF341 WMI Method: Flags : 0x02 (Method) Object ID : BL Instance : 0x01 PASSED: Test 1, FE1DBBDA-3014-4856-870C-5B3A744BF341 has associated method \_SB_.PCI0.WMID.WMBL \_SB_.PCI0.WMID._WDG (4 of 5) GUID: 79772EC5-04B1-4BFD-843C-61E7F77B6CC9 WMI Method: Flags : 0x02 (Method) Object ID : BE Instance : 0x01 PASSED: Test 1, 79772EC5-04B1-4BFD-843C-61E7F77B6CC9 has associated method \_SB_.PCI0.WMID.WMBE \_SB_.PCI0.WMID._WDG (5 of 5) GUID: 05901221-D566-11D1-B2F0-00A0C9062910 WMI Object: Flags : 0x00 (None) Object ID : AB Instance : 0x01 PASSED: Test 1, All events associated with \_SB_.PCI0.WMID._WDG are handled by a kernel driver. \_SB_.PCI0.CWMI._WDG (1 of 1) GUID: 37EC5FFF-1B99-4FBA-AC3C-0C820BC3D5CC WMI Method: Flags : 0x02 (Method) Object ID : 00 Instance : 0x01 PASSED: Test 1, 37EC5FFF-1B99-4FBA-AC3C-0C820BC3D5CC has associated method \_SB_.PCI0.CWMI.WM00 ================================================================================ 5 passed, 0 failed, 0 warnings, 0 aborted, 0 skipped, 0 info only. ================================================================================ wakealarm: Test ACPI Wakealarm. -------------------------------------------------------------------------------- Test 1 of 4: Check existence of /sys/class/rtc/rtc0/wakealarm. PASSED: Test 1, /sys/class/rtc/rtc0/wakealarm found. Test 2 of 4: Trigger wakealarm for 1 seconds in the future. Trigger wakealarm for 1 seconds in the future. PASSED: Test 2, RTC wakealarm was triggered successfully. Test 3 of 4: Check if wakealarm is fired. PASSED: Test 3, RTC wakealarm triggered and fired successfully. Test 4 of 4: Multiple wakealarm firing tests. Trigger wakealarm for 1 seconds in the future. Trigger wakealarm for 2 seconds in the future. Trigger wakealarm for 3 seconds in the future. Trigger wakealarm for 4 seconds in the future. PASSED: Test 4, RTC wakealarm triggered and fired successfully. ================================================================================ 4 passed, 0 failed, 0 warnings, 0 aborted, 0 skipped, 0 info only. ================================================================================ syntaxcheck: Re-assemble DSDT and find syntax errors and warnings. -------------------------------------------------------------------------------- Test 1 of 2: Disassemble and reassemble DSDT Checking ACPI table DSDT (#0) FAILED [MEDIUM] AMLAsmASL_MSG_RETURN_TYPES: Test 1, Assembler warning in line 4194 Line | AML source -------------------------------------------------------------------------------- 04191| /* 0008 */ 0xAC, 0x3C, 0x0C, 0x82, 0x0B, 0xC3, 0xD5, 0xCC, 04192| /* 0010 */ 0x30, 0x30, 0x01, 0x02 04193| }) 04194| Method (WM00, 3, NotSerialized) | ^ | Warning 3115: Not all control paths return a value (WM00) 04195| { 04196| Store ("00", MTNM) 04197| If (LEqual (Arg1, 0x06)) ================================================================================ ADVICE: (for Warning #3115, ASL_MSG_RETURN_TYPES): Some of the execution paths do not return a value. All control paths that return must return a value otherwise unexpected behaviour may occur. This error occurs because a branch on an conditional op-code returns a value and another does not, which is inconsistent behaviour. FAILED [HIGH] AMLAsmASL_MSG_RESULT_NOT_USED: Test 1, Assembler error in line 8130 Line | AML source -------------------------------------------------------------------------------- 08127| Not (Local0, Local0) 08128| If (LGreaterEqual (OSYS, 0x07D6)) 08129| { 08130| Add (Local0, 0x02) | ^ | Error 6114: Result is not used, operator has no effect 08131| \_SB.PCI0.GFX0.GLID (Local0) 08132| } 08133| ================================================================================ ADVICE: (for Error #6114, ASL_MSG_RESULT_NOT_USED): The result from an operation is not used. This is probably not intended and could be a bug and should be checked. FAILED [MEDIUM] AMLAsmASL_MSG_RETURN_TYPES: Test 1, Assembler warning in line 9955 Line | AML source -------------------------------------------------------------------------------- 09952| 0x00200000, // Address Length 09953| ) 09954| }) 09955| Method (_CRS, 0, NotSerialized) // _CRS: Current Resource Settings | ^ | Warning 3115: Not all control paths return a value (_CRS) 09956| { 09957| If (IGDS) 09958| { ================================================================================ ADVICE: (for Warning #3115, ASL_MSG_RETURN_TYPES): Some of the execution paths do not return a value. All control paths that return must return a value otherwise unexpected behaviour may occur. This error occurs because a branch on an conditional op-code returns a value and another does not, which is inconsistent behaviour. FAILED [MEDIUM] AMLAsmASL_MSG_RESERVED_RETURN_VALUE: Test 1, Assembler warning in line 9955 Line | AML source -------------------------------------------------------------------------------- 09952| 0x00200000, // Address Length 09953| ) 09954| }) 09955| Method (_CRS, 0, NotSerialized) // _CRS: Current Resource Settings | ^ | Warning 3107: Reserved method must return a value (Buffer required for _CRS) 09956| { 09957| If (IGDS) 09958| { ================================================================================ ADVICE: (for Warning #3107, ASL_MSG_RESERVED_RETURN_VALUE): A reserved method was expected to return a value, however, it does not. This is unexpected behaviour that does not conform the the ACPI specification. Table DSDT (0) reassembly: Found 1 errors, 3 warnings. Test 2 of 2: Disassemble and reassemble SSDT Checking ACPI table SSDT (#0) PASSED: Test 2, SSDT (0) reassembly, Found 0 errors, 0 warnings. Checking ACPI table SSDT (#1) FAILED [HIGH] AMLAsmASL_MSG_SYNTAX: Test 2, Assembler error in line 241 Line | AML source -------------------------------------------------------------------------------- 00238| 0x0000000E 00239| } 00240| }) 00241| Package (0x06) | ^ | Error 6126: syntax error, unexpected PARSEOP_PACKAGE 00242| { 00243| 0x80000000, 00244| 0x80000000, ================================================================================ ADVICE: (for Error #6126, ASL_MSG_SYNTAX): The disassembled code cannot be reassembled using the strict IASL compiler as it contains syntax errors. Table SSDT (1) reassembly: Found 1 errors, 0 warnings. Checking ACPI table SSDT (#2) FAILED [MEDIUM] AMLAsmASL_MSG_RESERVED_NO_RETURN_VAL: Test 2, Assembler warning in line 68 Line | AML source -------------------------------------------------------------------------------- 00065| { 00066| Store (CPDC (Arg0), Local0) 00067| GCAP (Local0) 00068| Return (Local0) | ^ | Warning 3104: Reserved method should not return a value (_PDC) 00069| } 00070| 00071| Method (_OSC, 4, NotSerialized) // _OSC: Operating System Capabilities ================================================================================ ADVICE: (for Warning #3104, ASL_MSG_RESERVED_NO_RETURN_VAL): A reserved method returned a value however it is not expected to return anything, so this does not conform to the expected behaviour. The kernel will most probably ignore the return value, so this is not going to produce any run time errors. FAILED [MEDIUM] AMLAsmASL_MSG_RESERVED_NO_RETURN_VAL: Test 2, Assembler warning in line 170 Line | AML source -------------------------------------------------------------------------------- 00167| { 00168| Store (\_PR.CPU0.CPDC (Arg0), Local0) 00169| GCAP (Local0) 00170| Return (Local0) | ^ | Warning 3104: Reserved method should not return a value (_PDC) 00171| } 00172| 00173| Method (_OSC, 4, NotSerialized) // _OSC: Operating System Capabilities ================================================================================ ADVICE: (for Warning #3104, ASL_MSG_RESERVED_NO_RETURN_VAL): A reserved method returned a value however it is not expected to return anything, so this does not conform to the expected behaviour. The kernel will most probably ignore the return value, so this is not going to produce any run time errors. FAILED [MEDIUM] AMLAsmASL_MSG_RESERVED_NO_RETURN_VAL: Test 2, Assembler warning in line 240 Line | AML source -------------------------------------------------------------------------------- 00237| { 00238| Store (\_PR.CPU0.CPDC (Arg0), Local0) 00239| GCAP (Local0) 00240| Return (Local0) | ^ | Warning 3104: Reserved method should not return a value (_PDC) 00241| } 00242| 00243| Method (_OSC, 4, NotSerialized) // _OSC: Operating System Capabilities ================================================================================ ADVICE: (for Warning #3104, ASL_MSG_RESERVED_NO_RETURN_VAL): A reserved method returned a value however it is not expected to return anything, so this does not conform to the expected behaviour. The kernel will most probably ignore the return value, so this is not going to produce any run time errors. FAILED [MEDIUM] AMLAsmASL_MSG_RESERVED_NO_RETURN_VAL: Test 2, Assembler warning in line 286 Line | AML source -------------------------------------------------------------------------------- 00283| { 00284| Store (\_PR.CPU0.CPDC (Arg0), Local0) 00285| GCAP (Local0) 00286| Return (Local0) | ^ | Warning 3104: Reserved method should not return a value (_PDC) 00287| } 00288| 00289| Method (_OSC, 4, NotSerialized) // _OSC: Operating System Capabilities ================================================================================ ADVICE: (for Warning #3104, ASL_MSG_RESERVED_NO_RETURN_VAL): A reserved method returned a value however it is not expected to return anything, so this does not conform to the expected behaviour. The kernel will most probably ignore the return value, so this is not going to produce any run time errors. FAILED [MEDIUM] AMLAsmASL_MSG_RESERVED_NO_RETURN_VAL: Test 2, Assembler warning in line 332 Line | AML source -------------------------------------------------------------------------------- 00329| { 00330| Store (\_PR.CPU0.CPDC (Arg0), Local0) 00331| GCAP (Local0) 00332| Return (Local0) | ^ | Warning 3104: Reserved method should not return a value (_PDC) 00333| } 00334| 00335| Method (_OSC, 4, NotSerialized) // _OSC: Operating System Capabilities ================================================================================ ADVICE: (for Warning #3104, ASL_MSG_RESERVED_NO_RETURN_VAL): A reserved method returned a value however it is not expected to return anything, so this does not conform to the expected behaviour. The kernel will most probably ignore the return value, so this is not going to produce any run time errors. FAILED [MEDIUM] AMLAsmASL_MSG_RESERVED_NO_RETURN_VAL: Test 2, Assembler warning in line 378 Line | AML source -------------------------------------------------------------------------------- 00375| { 00376| Store (\_PR.CPU0.CPDC (Arg0), Local0) 00377| GCAP (Local0) 00378| Return (Local0) | ^ | Warning 3104: Reserved method should not return a value (_PDC) 00379| } 00380| 00381| Method (_OSC, 4, NotSerialized) // _OSC: Operating System Capabilities ================================================================================ ADVICE: (for Warning #3104, ASL_MSG_RESERVED_NO_RETURN_VAL): A reserved method returned a value however it is not expected to return anything, so this does not conform to the expected behaviour. The kernel will most probably ignore the return value, so this is not going to produce any run time errors. FAILED [MEDIUM] AMLAsmASL_MSG_RESERVED_NO_RETURN_VAL: Test 2, Assembler warning in line 424 Line | AML source -------------------------------------------------------------------------------- 00421| { 00422| Store (\_PR.CPU0.CPDC (Arg0), Local0) 00423| GCAP (Local0) 00424| Return (Local0) | ^ | Warning 3104: Reserved method should not return a value (_PDC) 00425| } 00426| 00427| Method (_OSC, 4, NotSerialized) // _OSC: Operating System Capabilities ================================================================================ ADVICE: (for Warning #3104, ASL_MSG_RESERVED_NO_RETURN_VAL): A reserved method returned a value however it is not expected to return anything, so this does not conform to the expected behaviour. The kernel will most probably ignore the return value, so this is not going to produce any run time errors. FAILED [MEDIUM] AMLAsmASL_MSG_RESERVED_NO_RETURN_VAL: Test 2, Assembler warning in line 470 Line | AML source -------------------------------------------------------------------------------- 00467| { 00468| Store (\_PR.CPU0.CPDC (Arg0), Local0) 00469| GCAP (Local0) 00470| Return (Local0) | ^ | Warning 3104: Reserved method should not return a value (_PDC) 00471| } 00472| 00473| Method (_OSC, 4, NotSerialized) // _OSC: Operating System Capabilities ================================================================================ ADVICE: (for Warning #3104, ASL_MSG_RESERVED_NO_RETURN_VAL): A reserved method returned a value however it is not expected to return anything, so this does not conform to the expected behaviour. The kernel will most probably ignore the return value, so this is not going to produce any run time errors. Table SSDT (2) reassembly: Found 0 errors, 8 warnings. ================================================================================ 1 passed, 13 failed, 0 warnings, 0 aborted, 0 skipped, 0 info only. ================================================================================ pcc: Processor Clocking Control (PCC) Test. -------------------------------------------------------------------------------- Test 1 of 1: Check PCCH. This test checks the sanity of the Processor Clocking Control as found on some HP ProLiant machines. Most computers do not use this interface to control the CPU clock frequency, so this test will be skipped. This machine does not use Processor Clocking Control (PCC). ================================================================================ 0 passed, 0 failed, 0 warnings, 0 aborted, 0 skipped, 1 info only. ================================================================================ osilinux: Disassemble DSDT to check for _OSI("Linux"). -------------------------------------------------------------------------------- Test 1 of 1: Disassemble DSDT to check for _OSI("Linux"). This is not strictly a failure mode, it just alerts one that this has been defined in the DSDT and probably should be avoided since the Linux ACPI driver matches onto the Windows _OSI strings { Store (0x07DC, OSYS) Store (0x04, Local2) } If (_OSI ("Linux")) { Store (0x03E8, OSYS) Store (0x02, Local2) } If (LNotEqual (Local2, Local1)) { Or (Local2, 0x80, Local1) CMSW (0x7A, Local1) } } WARNING: Test 1, DSDT implements a deprecated _OSI("Linux") test. ================================================================================ 0 passed, 0 failed, 1 warnings, 0 aborted, 0 skipped, 0 info only. ================================================================================ method: ACPI DSDT Method Semantic Tests. -------------------------------------------------------------------------------- Test 1 of 144: Check Method Names. Found 1513 Objects PASSED: Test 1, Method names contain legal characters. Test 2 of 144: Check _AEI. SKIPPED: Test 2, Skipping test for non-existant object _AEI. Test 3 of 144: Check _DDN (DOS Device Name). SKIPPED: Test 3, Skipping test for non-existant object _DDN. Test 4 of 144: Check _HID (Hardware ID). PASSED: Test 4, \_SB_.PCI0._HID returned an integer 0x080ad041 (EISA ID PNP0A08). PASSED: Test 4, \_SB_.PCI0.LPCB.DMAC._HID returned an integer 0x0002d041 (EISA ID PNP0200). PASSED: Test 4, \_SB_.PCI0.LPCB.FWHD._HID returned an integer 0x0008d425 (EISA ID INT0800). PASSED: Test 4, \_SB_.PCI0.LPCB.HPET._HID returned an integer 0x0301d041 (EISA ID PNP0103). PASSED: Test 4, \_SB_.PCI0.LPCB.IPIC._HID returned an integer 0x0000d041 (EISA ID PNP0000). PASSED: Test 4, \_SB_.PCI0.LPCB.MATH._HID returned an integer 0x040cd041 (EISA ID PNP0C04). PASSED: Test 4, \_SB_.PCI0.LPCB.LDRC._HID returned an integer 0x020cd041 (EISA ID PNP0C02). PASSED: Test 4, \_SB_.PCI0.LPCB.RTC_._HID returned an integer 0x000bd041 (EISA ID PNP0B00). PASSED: Test 4, \_SB_.PCI0.LPCB.TIMR._HID returned an integer 0x0001d041 (EISA ID PNP0100). PASSED: Test 4, \_SB_.PCI0.LPCB.CWDT._HID returned an integer 0x0d3fd425 (EISA ID INT3F0D). PASSED: Test 4, \_SB_.PCI0.LPCB.EC0_._HID returned an integer 0x090cd041 (EISA ID PNP0C09). PASSED: Test 4, \_SB_.PCI0.LPCB.KBC0._HID returned an integer 0x0303d041 (EISA ID PNP0303). PASSED: Test 4, \_SB_.PCI0.LPCB.MSE0._HID returned an integer 0x00058416 (EISA ID ETD0500). PASSED: Test 4, \_SB_.PCI0.LPCB.MSS0._HID returned an integer 0x161b2e4f (EISA ID SYN1B16). PASSED: Test 4, \_SB_.PCI0.LPCB.ACAD._HID returned a string 'ACPI0003' as expected. PASSED: Test 4, \_SB_.PCI0.LPCB.BAT0._HID returned an integer 0x0a0cd041 (EISA ID PNP0C0A). PASSED: Test 4, \_SB_.PCI0.LPCB.PWRB._HID returned an integer 0x0c0cd041 (EISA ID PNP0C0C). PASSED: Test 4, \_SB_.PCI0.LPCB.LID0._HID returned an integer 0x0d0cd041 (EISA ID PNP0C0D). PASSED: Test 4, \_SB_.PCI0.LPCB.SLPB._HID returned an integer 0x0e0cd041 (EISA ID PNP0C0E). PASSED: Test 4, \_SB_.PCI0.WMID._HID returned a string 'PNP0C14' as expected. PASSED: Test 4, \_SB_.PCI0.CWMI._HID returned a string 'PNP0C14' as expected. PASSED: Test 4, \_SB_.PCI0.PDRC._HID returned an integer 0x020cd041 (EISA ID PNP0C02). PASSED: Test 4, \_SB_.LNKA._HID returned an integer 0x0f0cd041 (EISA ID PNP0C0F). PASSED: Test 4, \_SB_.LNKB._HID returned an integer 0x0f0cd041 (EISA ID PNP0C0F). PASSED: Test 4, \_SB_.LNKC._HID returned an integer 0x0f0cd041 (EISA ID PNP0C0F). PASSED: Test 4, \_SB_.LNKD._HID returned an integer 0x0f0cd041 (EISA ID PNP0C0F). PASSED: Test 4, \_SB_.LNKE._HID returned an integer 0x0f0cd041 (EISA ID PNP0C0F). PASSED: Test 4, \_SB_.LNKF._HID returned an integer 0x0f0cd041 (EISA ID PNP0C0F). PASSED: Test 4, \_SB_.LNKG._HID returned an integer 0x0f0cd041 (EISA ID PNP0C0F). PASSED: Test 4, \_SB_.LNKH._HID returned an integer 0x0f0cd041 (EISA ID PNP0C0F). PASSED: Test 4, \_SB_.MEM2._HID returned an integer 0x010cd041 (EISA ID PNP0C01). PASSED: Test 4, \_SB_.PTID._HID returned an integer 0x0e34d425 (EISA ID INT340E). Test 5 of 144: Check _HRV (Hardware Revision Number). SKIPPED: Test 5, Skipping test for non-existant object _HRV. Test 6 of 144: Check _PLD (Physical Device Location). PASSED: Test 6, \_SB_.PCI0.EHC1.HUBN.PR01._PLD correctly returned a sane looking package. PASSED: Test 6, \_SB_.PCI0.EHC1.HUBN.PR01.PR11._PLD correctly returned a sane looking package. PASSED: Test 6, \_SB_.PCI0.EHC1.HUBN.PR01.PR12._PLD correctly returned a sane looking package. PASSED: Test 6, \_SB_.PCI0.EHC1.HUBN.PR01.PR13._PLD correctly returned a sane looking package. PASSED: Test 6, \_SB_.PCI0.EHC1.HUBN.PR01.PR14._PLD correctly returned a sane looking package. PASSED: Test 6, \_SB_.PCI0.EHC2.HUBN.PR01._PLD correctly returned a sane looking package. PASSED: Test 6, \_SB_.PCI0.EHC2.HUBN.PR01.PR11._PLD correctly returned a sane looking package. PASSED: Test 6, \_SB_.PCI0.EHC2.HUBN.PR01.PR12._PLD correctly returned a sane looking package. PASSED: Test 6, \_SB_.PCI0.EHC2.HUBN.PR01.PR13._PLD correctly returned a sane looking package. PASSED: Test 6, \_SB_.PCI0.EHC2.HUBN.PR01.PR14._PLD correctly returned a sane looking package. PASSED: Test 6, \_SB_.PCI0.EHC2.HUBN.PR01.PR15._PLD correctly returned a sane looking package. PASSED: Test 6, \_SB_.PCI0.EHC2.HUBN.PR01.PR16._PLD correctly returned a sane looking package. Test 7 of 144: Check _SUB (Subsystem ID). SKIPPED: Test 7, Skipping test for non-existant object _SUB. Test 8 of 144: Check _SUN (Slot User Number). SKIPPED: Test 8, Skipping test for non-existant object _SUN. Test 9 of 144: Check _STR (String). SKIPPED: Test 9, Skipping test for non-existant object _STR. Test 10 of 144: Check _UID (Unique ID). PASSED: Test 10, \_SB_.PCI0._UID correctly returned sane looking value 0x00000000. PASSED: Test 10, \_SB_.PCI0.LPCB.HPET._UID correctly returned sane looking value 0x00000000. PASSED: Test 10, \_SB_.PCI0.LPCB.LDRC._UID correctly returned sane looking value 0x00000002. PASSED: Test 10, \_SB_.PCI0.LPCB.BAT0._UID correctly returned sane looking value 0x00000001. PASSED: Test 10, \_SB_.PCI0.WMID._UID returned a string 'APGe' as expected. PASSED: Test 10, \_SB_.PCI0.CWMI._UID returned a string 'COMP' as expected. PASSED: Test 10, \_SB_.PCI0.PDRC._UID correctly returned sane looking value 0x00000001. PASSED: Test 10, \_SB_.LNKA._UID correctly returned sane looking value 0x00000001. PASSED: Test 10, \_SB_.LNKB._UID correctly returned sane looking value 0x00000002. PASSED: Test 10, \_SB_.LNKC._UID correctly returned sane looking value 0x00000003. PASSED: Test 10, \_SB_.LNKD._UID correctly returned sane looking value 0x00000004. PASSED: Test 10, \_SB_.LNKE._UID correctly returned sane looking value 0x00000005. PASSED: Test 10, \_SB_.LNKF._UID correctly returned sane looking value 0x00000006. PASSED: Test 10, \_SB_.LNKG._UID correctly returned sane looking value 0x00000007. PASSED: Test 10, \_SB_.LNKH._UID correctly returned sane looking value 0x00000008. PASSED: Test 10, \_SB_.MEM2._UID correctly returned sane looking value 0x00000002. Test 11 of 144: Check _CRS (Current Resource Settings). PASSED: Test 11, \_SB_.PCI0._CRS (WORD Address Space Descriptor) looks sane. PASSED: Test 11, \_SB_.PCI0.LPCB.DMAC._CRS (I/O Port Descriptor) looks sane. PASSED: Test 11, \_SB_.PCI0.LPCB.FWHD._CRS (32-bit Fixed Location Memory Range Descriptor) looks sane. PASSED: Test 11, \_SB_.PCI0.LPCB.HPET._CRS (32-bit Fixed Location Memory Range Descriptor) looks sane. PASSED: Test 11, \_SB_.PCI0.LPCB.IPIC._CRS (I/O Port Descriptor) looks sane. PASSED: Test 11, \_SB_.PCI0.LPCB.MATH._CRS (I/O Port Descriptor) looks sane. PASSED: Test 11, \_SB_.PCI0.LPCB.LDRC._CRS (I/O Port Descriptor) looks sane. PASSED: Test 11, \_SB_.PCI0.LPCB.RTC_._CRS (I/O Port Descriptor) looks sane. PASSED: Test 11, \_SB_.PCI0.LPCB.TIMR._CRS (I/O Port Descriptor) looks sane. PASSED: Test 11, \_SB_.PCI0.LPCB.CWDT._CRS (I/O Port Descriptor) looks sane. PASSED: Test 11, \_SB_.PCI0.LPCB.EC0_._CRS (I/O Port Descriptor) looks sane. PASSED: Test 11, \_SB_.PCI0.LPCB.KBC0._CRS (I/O Port Descriptor) looks sane. PASSED: Test 11, \_SB_.PCI0.LPCB.MSE0._CRS (IRQ Descriptor) looks sane. PASSED: Test 11, \_SB_.PCI0.LPCB.MSS0._CRS (IRQ Descriptor) looks sane. PASSED: Test 11, \_SB_.PCI0.PDRC._CRS (32-bit Fixed Location Memory Range Descriptor) looks sane. PASSED: Test 11, \_SB_.LNKA._CRS (IRQ Descriptor) looks sane. PASSED: Test 11, \_SB_.LNKB._CRS (IRQ Descriptor) looks sane. PASSED: Test 11, \_SB_.LNKC._CRS (IRQ Descriptor) looks sane. PASSED: Test 11, \_SB_.LNKD._CRS (IRQ Descriptor) looks sane. PASSED: Test 11, \_SB_.LNKE._CRS (IRQ Descriptor) looks sane. PASSED: Test 11, \_SB_.LNKF._CRS (IRQ Descriptor) looks sane. PASSED: Test 11, \_SB_.LNKG._CRS (IRQ Descriptor) looks sane. PASSED: Test 11, \_SB_.LNKH._CRS (IRQ Descriptor) looks sane. PASSED: Test 11, \_SB_.MEM2._CRS (End Tag Descriptor) looks sane. Test 12 of 144: Check _DIS (Disable). PASSED: Test 12, \_SB_.LNKA._DIS returned no values as expected. PASSED: Test 12, \_SB_.LNKB._DIS returned no values as expected. PASSED: Test 12, \_SB_.LNKC._DIS returned no values as expected. PASSED: Test 12, \_SB_.LNKD._DIS returned no values as expected. PASSED: Test 12, \_SB_.LNKE._DIS returned no values as expected. PASSED: Test 12, \_SB_.LNKF._DIS returned no values as expected. PASSED: Test 12, \_SB_.LNKG._DIS returned no values as expected. PASSED: Test 12, \_SB_.LNKH._DIS returned no values as expected. Test 13 of 144: Check _DMA (Direct Memory Access). SKIPPED: Test 13, Skipping test for non-existant object _DMA. Test 14 of 144: Check _FIX (Fixed Register Resource Provider). SKIPPED: Test 14, Skipping test for non-existant object _FIX. Test 15 of 144: Check _GSB (Global System Interrupt Base). SKIPPED: Test 15, Skipping test for non-existant object _GSB. Test 16 of 144: Check _HPP (Hot Plug Parameters). SKIPPED: Test 16, Skipping test for non-existant object _HPP. Test 17 of 144: Check _PRS (Possible Resource Settings). PASSED: Test 17, \_SB_.LNKA._PRS (IRQ Descriptor) looks sane. PASSED: Test 17, \_SB_.LNKB._PRS (IRQ Descriptor) looks sane. PASSED: Test 17, \_SB_.LNKC._PRS (IRQ Descriptor) looks sane. PASSED: Test 17, \_SB_.LNKD._PRS (IRQ Descriptor) looks sane. PASSED: Test 17, \_SB_.LNKE._PRS (IRQ Descriptor) looks sane. PASSED: Test 17, \_SB_.LNKF._PRS (IRQ Descriptor) looks sane. PASSED: Test 17, \_SB_.LNKG._PRS (IRQ Descriptor) looks sane. PASSED: Test 17, \_SB_.LNKH._PRS (IRQ Descriptor) looks sane. Test 18 of 144: Check _PXM (Proximity). SKIPPED: Test 18, Skipping test for non-existant object _PXM. Test 19 of 144: Check _EDL (Eject Device List). SKIPPED: Test 19, Skipping test for non-existant object _EDL. Test 20 of 144: Check _EJD (Ejection Dependent Device). SKIPPED: Test 20, Skipping test for non-existant object _EJD. Test 21 of 144: Check _EJ0 (Eject). SKIPPED: Test 21, Skipping test for non-existant object _EJ0. Test 22 of 144: Check _EJ1 (Eject). SKIPPED: Test 22, Skipping test for non-existant object _EJ1. Test 23 of 144: Check _EJ2 (Eject). SKIPPED: Test 23, Skipping test for non-existant object _EJ2. Test 24 of 144: Check _EJ3 (Eject). SKIPPED: Test 24, Skipping test for non-existant object _EJ3. Test 25 of 144: Check _EJ4 (Eject). SKIPPED: Test 25, Skipping test for non-existant object _EJ4. Test 26 of 144: Check _LCK (Lock). SKIPPED: Test 26, Skipping test for non-existant object _LCK. Test 27 of 144: Check _RMV (Remove). SKIPPED: Test 27, Skipping test for non-existant object _RMV. Test 28 of 144: Check _STA (Status). PASSED: Test 28, \_SB_.PCI0.LPCB.HPET._STA correctly returned sane looking value 0x00000000. PASSED: Test 28, \_SB_.PCI0.LPCB.CWDT._STA correctly returned sane looking value 0x0000000f. PASSED: Test 28, \_SB_.PCI0.LPCB.KBC0._STA correctly returned sane looking value 0x0000000f. PASSED: Test 28, \_SB_.PCI0.LPCB.MSE0._STA correctly returned sane looking value 0x0000000f. PASSED: Test 28, \_SB_.PCI0.LPCB.MSS0._STA correctly returned sane looking value 0x00000000. PASSED: Test 28, \_SB_.PCI0.LPCB.BAT0._STA correctly returned sane looking value 0x0000000f. PASSED: Test 28, \_SB_.LNKA._STA correctly returned sane looking value 0x0000000b. PASSED: Test 28, \_SB_.LNKB._STA correctly returned sane looking value 0x0000000b. PASSED: Test 28, \_SB_.LNKC._STA correctly returned sane looking value 0x0000000b. PASSED: Test 28, \_SB_.LNKD._STA correctly returned sane looking value 0x0000000b. PASSED: Test 28, \_SB_.LNKE._STA correctly returned sane looking value 0x0000000b. PASSED: Test 28, \_SB_.LNKF._STA correctly returned sane looking value 0x0000000b. PASSED: Test 28, \_SB_.LNKG._STA correctly returned sane looking value 0x0000000b. PASSED: Test 28, \_SB_.LNKH._STA correctly returned sane looking value 0x0000000b. PASSED: Test 28, \_SB_.PTID._STA correctly returned sane looking value 0x0000000f. Test 29 of 144: Check _BDN (BIOS Dock Name). SKIPPED: Test 29, Skipping test for non-existant object _BDN. Test 30 of 144: Check _BBN (Base Bus Number). PASSED: Test 30, \_SB_.PCI0._BBN correctly returned an integer. Test 31 of 144: Check _DCK (Dock). SKIPPED: Test 31, Skipping test for non-existant object _DCK. Test 32 of 144: Check _INI (Initialize). PASSED: Test 32, \_SB_.PCI0._INI returned no values as expected. Test 33 of 144: Check _SEG (Segment). SKIPPED: Test 33, Skipping test for non-existant object _SEG. Test 34 of 144: Check _OFF (Set resource off). SKIPPED: Test 34, Skipping test for non-existant object _OFF. Test 35 of 144: Check _ON (Set resource on). SKIPPED: Test 35, Skipping test for non-existant object _ON. Test 36 of 144: Check _DSW (Device Sleep Wake). SKIPPED: Test 36, Skipping test for non-existant object _DSW. Test 37 of 144: Check _IRC (In Rush Current). SKIPPED: Test 37, Skipping test for non-existant object _IRC. Test 38 of 144: Check _PRE (Power Resources for Enumeration). SKIPPED: Test 38, Skipping test for non-existant object _PRE. Test 39 of 144: Check _PR0 (Power Resources for D0). SKIPPED: Test 39, Skipping test for non-existant object _PR0. Test 40 of 144: Check _PR1 (Power Resources for D1). SKIPPED: Test 40, Skipping test for non-existant object _PR1. Test 41 of 144: Check _PR2 (Power Resources for D2). SKIPPED: Test 41, Skipping test for non-existant object _PR2. Test 42 of 144: Check _PR3 (Power Resources for D3). SKIPPED: Test 42, Skipping test for non-existant object _PR3. Test 43 of 144: Check _PS0 (Power State 0). SKIPPED: Test 43, Skipping test for non-existant object _PS0. Test 44 of 144: Check _PS1 (Power State 1). SKIPPED: Test 44, Skipping test for non-existant object _PS1. Test 45 of 144: Check _PS2 (Power State 2). SKIPPED: Test 45, Skipping test for non-existant object _PS2. Test 46 of 144: Check _PS3 (Power State 3). SKIPPED: Test 46, Skipping test for non-existant object _PS3. Test 47 of 144: Check _PSC (Power State Current). SKIPPED: Test 47, Skipping test for non-existant object _PSC. Test 48 of 144: Check _PSE (Power State for Enumeration). SKIPPED: Test 48, Skipping test for non-existant object _PSE. Test 49 of 144: Check _PSW (Power State Wake). PASSED: Test 49, \_SB_.PCI0.EHC1._PSW returned no values as expected. PASSED: Test 49, \_SB_.PCI0.EHC2._PSW returned no values as expected. Test 50 of 144: Check _S1D (S1 Device State). SKIPPED: Test 50, Skipping test for non-existant object _S1D. Test 51 of 144: Check _S2D (S2 Device State). SKIPPED: Test 51, Skipping test for non-existant object _S2D. Test 52 of 144: Check _S3D (S3 Device State). PASSED: Test 52, \_SB_.PCI0.EHC1._S3D correctly returned an integer. PASSED: Test 52, \_SB_.PCI0.EHC2._S3D correctly returned an integer. Test 53 of 144: Check _S4D (S4 Device State). PASSED: Test 53, \_SB_.PCI0.EHC1._S4D correctly returned an integer. PASSED: Test 53, \_SB_.PCI0.EHC2._S4D correctly returned an integer. Test 54 of 144: Check _S0W (S0 Device Wake State). SKIPPED: Test 54, Skipping test for non-existant object _S0W. Test 55 of 144: Check _S1W (S1 Device Wake State). SKIPPED: Test 55, Skipping test for non-existant object _S1W. Test 56 of 144: Check _S2W (S2 Device Wake State). SKIPPED: Test 56, Skipping test for non-existant object _S2W. Test 57 of 144: Check _S3W (S3 Device Wake State). SKIPPED: Test 57, Skipping test for non-existant object _S3W. Test 58 of 144: Check _S4W (S4 Device Wake State). SKIPPED: Test 58, Skipping test for non-existant object _S4W. Test 59 of 144: Check _S0_ (S0 System State). \_S0_ PM1a_CNT.SLP_TYP value: 0x00000000 \_S0_ PM1b_CNT.SLP_TYP value: 0x00000000 PASSED: Test 59, \_S0_ correctly returned a sane looking package. Test 60 of 144: Check _S1_ (S1 System State). SKIPPED: Test 60, Skipping test for non-existant object _S1_. Test 61 of 144: Check _S2_ (S2 System State). SKIPPED: Test 61, Skipping test for non-existant object _S2_. Test 62 of 144: Check _S3_ (S3 System State). SKIPPED: Test 62, Skipping test for non-existant object _S3_. Test 63 of 144: Check _S4_ (S4 System State). \_S4_ PM1a_CNT.SLP_TYP value: 0x00000006 \_S4_ PM1b_CNT.SLP_TYP value: 0x00000000 PASSED: Test 63, \_S4_ correctly returned a sane looking package. Test 64 of 144: Check _S5_ (S5 System State). \_S5_ PM1a_CNT.SLP_TYP value: 0x00000007 \_S5_ PM1b_CNT.SLP_TYP value: 0x00000000 PASSED: Test 64, \_S5_ correctly returned a sane looking package. Test 65 of 144: Check _SWS (System Wake Source). SKIPPED: Test 65, Skipping test for non-existant object _SWS. Test 66 of 144: Check _PSS (Performance Supported States). \_PR_.CPU0._PSS values: P-State Freq Power Latency Bus Master (MHz) (mW) (us) Latency (us) 0 2201 45000 10 10 1 2200 45000 10 10 2 2000 39581 10 10 3 1900 37387 10 10 4 1800 34806 10 10 5 1700 32703 10 10 6 1600 30227 10 10 7 1500 28212 10 10 8 1400 25828 10 10 9 1300 23900 10 10 10 1200 21613 10 10 11 1100 19775 10 10 12 1000 17582 10 10 13 900 15437 10 10 14 800 13723 10 10 PASSED: Test 66, \_PR_.CPU0._PSS correctly returned a sane looking package. Test 67 of 144: Check _CPC (Continuous Performance Control). SKIPPED: Test 67, Skipping test for non-existant object _CPC. Test 68 of 144: Check _CSD (C State Dependencies). SKIPPED: Test 68, Skipping test for non-existant object _CSD. Test 69 of 144: Check _CST (C States). SKIPPED: Test 69, Skipping test for non-existant object _CST. Test 70 of 144: Check _PCT (Performance Control). PASSED: Test 70, \_PR_.CPU0._PCT correctly returned a sane looking package. Test 71 of 144: Check _PDL (P-State Depth Limit). SKIPPED: Test 71, Skipping test for non-existant object _PDL. Test 72 of 144: Check _PPC (Performance Present Capabilities). PASSED: Test 72, \_PR_.CPU0._PPC correctly returned an integer. Test 73 of 144: Check _PPE (Polling for Platform Error). SKIPPED: Test 73, Skipping test for non-existant object _PPE. Test 74 of 144: Check _TDL (T-State Depth Limit). SKIPPED: Test 74, Skipping test for non-existant object _TDL. Test 75 of 144: Check _TPC (Throttling Present Capabilities). SKIPPED: Test 75, Skipping test for non-existant object _TPC. Test 76 of 144: Check _TSD (Throttling State Dependencies). SKIPPED: Test 76, Skipping test for non-existant object _TSD. Test 77 of 144: Check _TSS (Throttling Supported States). SKIPPED: Test 77, Skipping test for non-existant object _TSS. Test 78 of 144: Check _ALC (Ambient Light Colour Chromaticity). SKIPPED: Test 78, Skipping test for non-existant object _ALC. Test 79 of 144: Check _ALI (Ambient Light Illuminance). SKIPPED: Test 79, Skipping test for non-existant object _ALI. Test 80 of 144: Check _ALT (Ambient Light Temperature). SKIPPED: Test 80, Skipping test for non-existant object _ALT. Test 81 of 144: Check _ALP (Ambient Light Polling). SKIPPED: Test 81, Skipping test for non-existant object _ALP. Test 82 of 144: Check _LID (Lid Status). PASSED: Test 82, \_SB_.PCI0.LPCB.LID0._LID correctly returned sane looking value 0x00000000. Test 83 of 144: Check _GCP (Get Capabilities). SKIPPED: Test 83, Skipping test for non-existant object _GCP. Test 84 of 144: Check _GRT (Get Real Time). SKIPPED: Test 84, Skipping test for non-existant object _GRT. Test 85 of 144: Check _GWS (Get Wake Status). SKIPPED: Test 85, Skipping test for non-existant object _GWS. Test 86 of 144: Check _STP (Set Expired Timer Wake Policy). SKIPPED: Test 86, Skipping test for non-existant object _STP. Test 87 of 144: Check _STV (Set Timer Value). SKIPPED: Test 87, Skipping test for non-existant object _STV. Test 88 of 144: Check _TIP (Expired Timer Wake Policy). SKIPPED: Test 88, Skipping test for non-existant object _TIP. Test 89 of 144: Check _TIV (Timer Values). SKIPPED: Test 89, Skipping test for non-existant object _TIV. Test 90 of 144: Check _SBS (Smart Battery Subsystem). SKIPPED: Test 90, Skipping test for non-existant object _SBS. Test 91 of 144: Check _BCT (Battery Charge Time). SKIPPED: Test 91, Skipping test for non-existant object _BCT. Test 92 of 144: Check _BIF (Battery Information). PASSED: Test 92, \_SB_.PCI0.LPCB.BAT0._BIF correctly returned a sane looking package. Test 93 of 144: Check _BIX (Battery Information Extended). SKIPPED: Test 93, Skipping test for non-existant object _BIX. Test 94 of 144: Check _BMA (Battery Measurement Averaging). SKIPPED: Test 94, Skipping test for non-existant object _BMA. Test 95 of 144: Check _BMC (Battery Maintenance Control). SKIPPED: Test 95, Skipping test for non-existant object _BMC. Test 96 of 144: Check _BMD (Battery Maintenance Data). SKIPPED: Test 96, Skipping test for non-existant object _BMD. Test 97 of 144: Check _BMS (Battery Measurement Sampling Time). SKIPPED: Test 97, Skipping test for non-existant object _BMS. Test 98 of 144: Check _BST (Battery Status). PASSED: Test 98, \_SB_.PCI0.LPCB.BAT0._BST correctly returned a sane looking package. Test 99 of 144: Check _BTP (Battery Trip Point). SKIPPED: Test 99, Skipping test for non-existant object _BTP. Test 100 of 144: Check _BTM (Battery Time). SKIPPED: Test 100, Skipping test for non-existant object _BTM. Test 101 of 144: Check _PCL (Power Consumer List). Test 102 of 144: Check _PIF (Power Source Information). SKIPPED: Test 102, Skipping test for non-existant object _PIF. Test 103 of 144: Check _PSR (Power Source). PASSED: Test 103, \_SB_.PCI0.LPCB.ACAD._PSR correctly returned sane looking value 0x00000000. Test 104 of 144: Check _FIF (Fan Information). SKIPPED: Test 104, Skipping test for non-existant object _FIF. Test 105 of 144: Check _FSL (Fan Set Level). SKIPPED: Test 105, Skipping test for non-existant object _FSL. Test 106 of 144: Check _FST (Fan Status). SKIPPED: Test 106, Skipping test for non-existant object _FST. Test 107 of 144: Check _ACx (Active Cooling). PASSED: Test 107, \_SB_.PCI0.LPCB.EC0_.BAC0 correctly returned a sane looking return type. SKIPPED: Test 107, Skipping test for non-existant object AC1. SKIPPED: Test 107, Skipping test for non-existant object AC2. SKIPPED: Test 107, Skipping test for non-existant object AC3. SKIPPED: Test 107, Skipping test for non-existant object AC4. SKIPPED: Test 107, Skipping test for non-existant object AC5. SKIPPED: Test 107, Skipping test for non-existant object AC6. SKIPPED: Test 107, Skipping test for non-existant object AC7. SKIPPED: Test 107, Skipping test for non-existant object AC8. SKIPPED: Test 107, Skipping test for non-existant object AC9. Test 108 of 144: Check _CRT (Critical Trip Point). SKIPPED: Test 108, Skipping test for non-existant object _CRT. Test 109 of 144: Check _DTI (Device Temperature Indication). SKIPPED: Test 109, Skipping test for non-existant object _DTI. Test 110 of 144: Check _HOT (Hot Temperature). SKIPPED: Test 110, Skipping test for non-existant object _HOT. Test 111 of 144: Check _NTT (Notification Temp Threshold). SKIPPED: Test 111, Skipping test for non-existant object _NTT. Test 112 of 144: Check _PSV (Passive Temp). SKIPPED: Test 112, Skipping test for non-existant object _PSV. Test 113 of 144: Check _RTV (Relative Temp Values). SKIPPED: Test 113, Skipping test for non-existant object _RTV. Test 114 of 144: Check _SCP (Set Cooling Policy). SKIPPED: Test 114, Skipping test for non-existant object _DTI. Test 115 of 144: Check _TC1 (Thermal Constant 1). SKIPPED: Test 115, Skipping test for non-existant object _TC1. Test 116 of 144: Check _TC2 (Thermal Constant 2). SKIPPED: Test 116, Skipping test for non-existant object _TC2. Test 117 of 144: Check _TMP (Thermal Zone Current Temp). SKIPPED: Test 117, Skipping test for non-existant object _TMP. Test 118 of 144: Check _TPT (Trip Point Temperature). SKIPPED: Test 118, Skipping test for non-existant object _TPT. Test 119 of 144: Check _TSP (Thermal Sampling Period). SKIPPED: Test 119, Skipping test for non-existant object _TSP. Test 120 of 144: Check _TST (Temperature Sensor Threshold). SKIPPED: Test 120, Skipping test for non-existant object _TST. Test 121 of 144: Check _TZP (Thermal Zone Polling). SKIPPED: Test 121, Skipping test for non-existant object _TZP. Test 122 of 144: Check _PTS (Prepare to Sleep). Test _PTS(1). PASSED: Test 122, \_PTS returned no values as expected. Test _PTS(2). PASSED: Test 122, \_PTS returned no values as expected. Test _PTS(3). PASSED: Test 122, \_PTS returned no values as expected. Test _PTS(4). PASSED: Test 122, \_PTS returned no values as expected. Test _PTS(5). PASSED: Test 122, \_PTS returned no values as expected. Test 123 of 144: Check _TTS (Transition to State). SKIPPED: Test 123, Optional control method _TTS does not exist. Test 124 of 144: Check _S0 (System S0 State). SKIPPED: Test 124, Skipping test for non-existant object _S0. Test 125 of 144: Check _S1 (System S1 State). SKIPPED: Test 125, Skipping test for non-existant object _S1. Test 126 of 144: Check _S2 (System S2 State). SKIPPED: Test 126, Skipping test for non-existant object _S2. Test 127 of 144: Check _S3 (System S3 State). SKIPPED: Test 127, Skipping test for non-existant object _S3. Test 128 of 144: Check _S4 (System S4 State). SKIPPED: Test 128, Skipping test for non-existant object _S4. Test 129 of 144: Check _S5 (System S5 State). SKIPPED: Test 129, Skipping test for non-existant object _S5. Test 130 of 144: Check _WAK (System Wake). Test _WAK(1) System Wake, State S1. PASSED: Test 130, \_WAK correctly returned a sane looking package. Test _WAK(2) System Wake, State S2. PASSED: Test 130, \_WAK correctly returned a sane looking package. Test _WAK(3) System Wake, State S3. PASSED: Test 130, \_WAK correctly returned a sane looking package. Test _WAK(4) System Wake, State S4. PASSED: Test 130, \_WAK correctly returned a sane looking package. Test _WAK(5) System Wake, State S5. PASSED: Test 130, \_WAK correctly returned a sane looking package. Test 131 of 144: Check _ADR (Return Unique ID for Device). PASSED: Test 131, \_SB_.PCI0._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.P0P1._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.LPCB._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.GLAN._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.EHC1._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.EHC1.HUBN._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.EHC1.HUBN.PR01._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.EHC1.HUBN.PR01.PR11._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.EHC1.HUBN.PR01.PR12._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.EHC1.HUBN.PR01.PR13._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.EHC1.HUBN.PR01.PR14._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.EHC1.HUBN.PR01.PR15._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.EHC1.HUBN.PR01.PR16._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.EHC1.HUBN.PR01.PR17._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.EHC1.HUBN.PR01.PR18._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.EHC2._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.EHC2.HUBN._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.EHC2.HUBN.PR01._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.EHC2.HUBN.PR01.PR11._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.EHC2.HUBN.PR01.PR12._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.EHC2.HUBN.PR01.PR13._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.EHC2.HUBN.PR01.PR14._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.EHC2.HUBN.PR01.PR15._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.EHC2.HUBN.PR01.PR16._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.HDEF._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.RP01._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.RP01.PXSX._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.RP02._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.RP02.PXSX._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.RP03._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.RP03.PXSX._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.RP04._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.RP04.PXSX._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.RP05._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.RP05.PXSX._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.RP06._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.RP06.PXSX._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.RP07._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.RP07.PXSX._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.RP08._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.RP08.PXSX._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.SAT0._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.SAT0.PRT2._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.SAT1._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.SBUS._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.GFX0._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.GFX0.DD01._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.GFX0.DD02._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.GFX0.DD03._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.GFX0.DD04._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.GFX0.DD05._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.GFX0.DD06._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.GFX0.DD07._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.GFX0.DD08._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.PEG0._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.PEG0.PEGP._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.PEG1._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.PEG2._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.PEG3._ADR correctly returned an integer. PASSED: Test 131, \_SB_.PCI0.B0D4._ADR correctly returned an integer. Test 132 of 144: Check _BCL (Query List of Brightness Control Levels Supported). Brightness levels for \_SB_.PCI0.GFX0.DD03._BCL: Level on full power : 70 Level on battery power: 40 Brightness Levels : 10, 20, 30, 40, 50, 60, 70, 80, 90, 100 PASSED: Test 132, \_SB_.PCI0.GFX0.DD03._BCL returned a sane package of 12 integers. Test 133 of 144: Check _BCM (Set Brightness Level). PASSED: Test 133, \_SB_.PCI0.GFX0.DD03._BCM returned no values as expected. Test 134 of 144: Check _BQC (Brightness Query Current Level). PASSED: Test 134, \_SB_.PCI0.GFX0.DD03._BQC correctly returned an integer. Test 135 of 144: Check _DCS (Return the Status of Output Device). PASSED: Test 135, \_SB_.PCI0.GFX0.DD01._DCS correctly returned an integer. PASSED: Test 135, \_SB_.PCI0.GFX0.DD02._DCS correctly returned an integer. PASSED: Test 135, \_SB_.PCI0.GFX0.DD03._DCS correctly returned an integer. PASSED: Test 135, \_SB_.PCI0.GFX0.DD04._DCS correctly returned an integer. PASSED: Test 135, \_SB_.PCI0.GFX0.DD05._DCS correctly returned an integer. PASSED: Test 135, \_SB_.PCI0.GFX0.DD06._DCS correctly returned an integer. PASSED: Test 135, \_SB_.PCI0.GFX0.DD07._DCS correctly returned an integer. PASSED: Test 135, \_SB_.PCI0.GFX0.DD08._DCS correctly returned an integer. Test 136 of 144: Check _DDC (Return the EDID for this Device). SKIPPED: Test 136, Skipping test for non-existant object _DDC. Test 137 of 144: Check _DSS (Device Set State). PASSED: Test 137, \_SB_.PCI0.GFX0.DD01._DSS returned no values as expected. PASSED: Test 137, \_SB_.PCI0.GFX0.DD02._DSS returned no values as expected. PASSED: Test 137, \_SB_.PCI0.GFX0.DD03._DSS returned no values as expected. PASSED: Test 137, \_SB_.PCI0.GFX0.DD04._DSS returned no values as expected. PASSED: Test 137, \_SB_.PCI0.GFX0.DD05._DSS returned no values as expected. PASSED: Test 137, \_SB_.PCI0.GFX0.DD06._DSS returned no values as expected. PASSED: Test 137, \_SB_.PCI0.GFX0.DD07._DSS returned no values as expected. PASSED: Test 137, \_SB_.PCI0.GFX0.DD08._DSS returned no values as expected. Test 138 of 144: Check _DGS (Query Graphics State). PASSED: Test 138, \_SB_.PCI0.GFX0.DD01._DGS correctly returned an integer. PASSED: Test 138, \_SB_.PCI0.GFX0.DD02._DGS correctly returned an integer. PASSED: Test 138, \_SB_.PCI0.GFX0.DD03._DGS correctly returned an integer. PASSED: Test 138, \_SB_.PCI0.GFX0.DD04._DGS correctly returned an integer. PASSED: Test 138, \_SB_.PCI0.GFX0.DD05._DGS correctly returned an integer. PASSED: Test 138, \_SB_.PCI0.GFX0.DD06._DGS correctly returned an integer. PASSED: Test 138, \_SB_.PCI0.GFX0.DD07._DGS correctly returned an integer. PASSED: Test 138, \_SB_.PCI0.GFX0.DD08._DGS correctly returned an integer. Test 139 of 144: Check _DOD (Enumerate All Devices Attached to Display Adapter). Device 0: Instance: 0 Display port attachment: 0 Type of display: 4 (Internal/Integrated Digital Flat Panel) BIOS can detect device: 0 Non-VGA device: 0 Head or pipe ID: 0 PASSED: Test 139, \_SB_.PCI0.GFX0._DOD correctly returned a sane looking package. Test 140 of 144: Check _DOS (Enable/Disable Output Switching). PASSED: Test 140, \_SB_.PCI0.GFX0._DOS returned no values as expected. Test 141 of 144: Check _GPD (Get POST Device). SKIPPED: Test 141, Skipping test for non-existant object _GPD. Test 142 of 144: Check _ROM (Get ROM Data). SKIPPED: Test 142, Skipping test for non-existant object _ROM. Test 143 of 144: Check _SPD (Set POST Device). SKIPPED: Test 143, Skipping test for non-existant object _SPD. Test 144 of 144: Check _VPO (Video POST Options). SKIPPED: Test 144, Skipping test for non-existant object _VPO. ================================================================================ 234 passed, 0 failed, 0 warnings, 0 aborted, 117 skipped, 0 info only. ================================================================================ mcfg: MCFG PCI Express* memory mapped config space. -------------------------------------------------------------------------------- Test 1 of 2: Validate MCFG table. This test tries to validate the MCFG table by comparing the first 16 bytes in the MMIO mapped config space with the 'traditional' config space of the first PCI device (root bridge). The MCFG data is only trusted if it is marked reserved in the Int 15 AX=E820 BIOS memory map Memory Map Layout ----------------- 0x0000000000000000 - 0x000000000009d7ff (System RAM) 0x000000000009d800 - 0x000000000009ffff (reserved) 0x00000000000e0000 - 0x00000000000fffff (reserved) 0x0000000000100000 - 0x0000000096e3efff (System RAM) 0x0000000096e3f000 - 0x0000000096ebefff (reserved) 0x0000000096ebf000 - 0x0000000096fbefff (ACPI Non-volatile Storage) 0x0000000096fbf000 - 0x0000000096ffefff (ACPI Non-volatile Storage) 0x0000000096fff000 - 0x0000000096ffffff (System RAM) 0x0000000097000000 - 0x000000009f9fffff (reserved) 0x00000000e0000000 - 0x00000000efffffff (reserved) 0x00000000feb00000 - 0x00000000feb03fff (reserved) 0x00000000fec00000 - 0x00000000fec00fff (reserved) 0x00000000fed10000 - 0x00000000fed19fff (reserved) 0x00000000fed1c000 - 0x00000000fed1ffff (reserved) 0x00000000fee00000 - 0x00000000fee00fff (reserved) 0x00000000ffd80000 - 0x00000000ffffffff (reserved) 0x0000000100000000 - 0x000000025fdfffff (System RAM) MCFG table found, size is 16 bytes (excluding header) (1 entries). Configuration Entry #0: Base Address : 0xe0000000 Segment : 0 Start bus : 0 End bus : 255 PASSED: Test 1, MCFG mmio config space is reserved in memory map table. Test 2 of 2: Validate MCFG PCI config space. PASSED: Test 2, PCI config space verified. ================================================================================ 2 passed, 0 failed, 0 warnings, 0 aborted, 0 skipped, 0 info only. ================================================================================ fan: Simple Fan Tests. -------------------------------------------------------------------------------- Test 1 of 2: Check fan status. Test how many fans there are in the system. Check for the current status of the fan(s). PASSED: Test 1, Fan cooling_device0 of type Processor has max cooling state 10 and current cooling state 0. PASSED: Test 1, Fan cooling_device1 of type Processor has max cooling state 10 and current cooling state 0. PASSED: Test 1, Fan cooling_device2 of type Processor has max cooling state 10 and current cooling state 0. PASSED: Test 1, Fan cooling_device3 of type Processor has max cooling state 10 and current cooling state 0. PASSED: Test 1, Fan cooling_device4 of type Processor has max cooling state 10 and current cooling state 0. PASSED: Test 1, Fan cooling_device5 of type Processor has max cooling state 10 and current cooling state 0. PASSED: Test 1, Fan cooling_device6 of type Processor has max cooling state 10 and current cooling state 0. PASSED: Test 1, Fan cooling_device7 of type Processor has max cooling state 10 and current cooling state 0. FAILED [MEDIUM] NoFanCurState: Test 1, Fan present but has no cur_state present. PASSED: Test 1, Fan cooling_device9 of type LCD has max cooling state 10 and current cooling state 0. Test 2 of 2: Load system, check CPU fan status. Test how many fans there are in the system. Check for the current status of the fan(s). Loading CPUs for 20 seconds to try and get fan speeds to change. Fan cooling_device0 current state did not change from value 0 while CPUs were busy. Fan cooling_device1 current state did not change from value 0 while CPUs were busy. Fan cooling_device2 current state did not change from value 0 while CPUs were busy. Fan cooling_device3 current state did not change from value 0 while CPUs were busy. Fan cooling_device4 current state did not change from value 0 while CPUs were busy. Fan cooling_device5 current state did not change from value 0 while CPUs were busy. Fan cooling_device6 current state did not change from value 0 while CPUs were busy. Fan cooling_device7 current state did not change from value 0 while CPUs were busy. ADVICE: Did not detect any change in the CPU related thermal cooling device states. It could be that the devices are returning static information back to the driver and/or the fan speed is automatically being controlled by firmware using System Management Mode in which case the kernel interfaces being examined may not work anyway. ================================================================================ 9 passed, 1 failed, 0 warnings, 0 aborted, 0 skipped, 0 info only. ================================================================================ fadt: FADT SCI_EN enabled check. -------------------------------------------------------------------------------- Test 1 of 1: Check FADT SCI_EN bit is enabled. FADT Preferred PM Profile: 2 (Mobile) FADT is greater than ACPI version 1.0 PASSED: Test 1, SCI_EN bit in PM1a Control Register Block is enabled. ================================================================================ 1 passed, 0 failed, 0 warnings, 0 aborted, 0 skipped, 0 info only. ================================================================================ dmar: Check sane DMA Remapping (VT-d). -------------------------------------------------------------------------------- Test 1 of 1: Check DMA Remapping. SKIPPED: Test 1, No DMAR table. This is not necessarily a failure as most systems do not have this table. ================================================================================ 0 passed, 0 failed, 0 warnings, 0 aborted, 1 skipped, 0 info only. ================================================================================ cstates: Check processor C state support. -------------------------------------------------------------------------------- Test 1 of 1: Check all CPUs C-states. This test checks if all processors have the same number of C-states, if the C-state counter works and if C-state transitions happen. PASSED: Test 1, Processor 0 has reached all C-states: PASSED: Test 1, Processor 1 has reached all C-states: PASSED: Test 1, Processor 1 has the same number of C-states as processor 0 PASSED: Test 1, Processor 2 has reached all C-states: PASSED: Test 1, Processor 2 has the same number of C-states as processor 0 PASSED: Test 1, Processor 3 has reached all C-states: PASSED: Test 1, Processor 3 has the same number of C-states as processor 0 PASSED: Test 1, Processor 4 has reached all C-states: PASSED: Test 1, Processor 4 has the same number of C-states as processor 0 PASSED: Test 1, Processor 5 has reached all C-states: PASSED: Test 1, Processor 5 has the same number of C-states as processor 0 PASSED: Test 1, Processor 6 has reached all C-states: PASSED: Test 1, Processor 6 has the same number of C-states as processor 0 PASSED: Test 1, Processor 7 has reached all C-states: PASSED: Test 1, Processor 7 has the same number of C-states as processor 0 ================================================================================ 15 passed, 0 failed, 0 warnings, 0 aborted, 0 skipped, 0 info only. ================================================================================ checksum: Check ACPI table checksum. -------------------------------------------------------------------------------- Test 1 of 1: Check ACPI table checksums. PASSED: Test 1, Table RSDP has correct checksum 0xe9. PASSED: Test 1, Table RSDP has correct extended checksum 0x46. PASSED: Test 1, Table RSDT has correct checksum 0x34. PASSED: Test 1, Table DSDT has correct checksum 0xcf. PASSED: Test 1, Table FACP has correct checksum 0x39. PASSED: Test 1, Table ASF! has correct checksum 0xdb. PASSED: Test 1, Table HPET has correct checksum 0xaa. PASSED: Test 1, Table APIC has correct checksum 0xf5. PASSED: Test 1, Table MCFG has correct checksum 0xd2. PASSED: Test 1, Table SLIC has correct checksum 0xba. PASSED: Test 1, Table SSDT has correct checksum 0xc3. PASSED: Test 1, Table BOOT has correct checksum 0x6a. PASSED: Test 1, Table ASPT has correct checksum 0x98. PASSED: Test 1, Table SSDT has correct checksum 0x85. PASSED: Test 1, Table SSDT has correct checksum 0xf1. PASSED: Test 1, Table XSDT has correct checksum 0x2. ================================================================================ 16 passed, 0 failed, 0 warnings, 0 aborted, 0 skipped, 0 info only. ================================================================================ apicinstance: Check for single instance of APIC/MADT table. -------------------------------------------------------------------------------- Test 1 of 1: Check single instance of APIC/MADT table. Found APIC/MADT table APIC @ 96ffa000, length 0x140 PASSED: Test 1, Found 1 APIC/MADT table(s), as expected. ================================================================================ 1 passed, 0 failed, 0 warnings, 0 aborted, 0 skipped, 0 info only. ================================================================================ acpitables: ACPI table settings sanity checks. -------------------------------------------------------------------------------- Test 1 of 1: Check ACPI tables. PASSED: Test 1, Table APIC passed. Table ECDT not present to check. FAILED [MEDIUM] FADT32And64BothDefined: Test 1, FADT 32 bit FIRMWARE_CONTROL is non-zero, and X_FIRMWARE_CONTROL is also non-zero. Section 5.2.9 of the ACPI specification states that if the FIRMWARE_CONTROL is non-zero then X_FIRMWARE_CONTROL must be set to zero. ADVICE: The FADT FIRMWARE_CTRL is a 32 bit pointer that points to the physical memory address of the Firmware ACPI Control Structure (FACS). There is also an extended 64 bit version of this, the X_FIRMWARE_CTRL pointer that also can point to the FACS. Section 5.2.9 of the ACPI specification states that if the X_FIRMWARE_CTRL field contains a non zero value then the FIRMWARE_CTRL field *must* be zero. This error is also detected by the Linux kernel. If FIRMWARE_CTRL and X_FIRMWARE_CTRL are defined, then the kernel just uses the 64 bit version of the pointer. PASSED: Test 1, Table HPET passed. PASSED: Test 1, Table MCFG passed. PASSED: Test 1, Table RSDT passed. PASSED: Test 1, Table RSDP passed. Table SBST not present to check. PASSED: Test 1, Table XSDT passed. ================================================================================ 6 passed, 1 failed, 0 warnings, 0 aborted, 0 skipped, 0 info only. ================================================================================ 496 passed, 41 failed, 4 warnings, 1 aborted, 119 skipped, 10 info only. Test Failure Summary ================================================================================ Critical failures: NONE High failures: 5 klog: HIGH Kernel message: [ 0.263083] ACPI Exception: AE_NOT_FOUND, While evaluating Sleep State [\_S1_] (20130517/hwxface-571) klog: HIGH Kernel message: [ 0.263088] ACPI Exception: AE_NOT_FOUND, While evaluating Sleep State [\_S2_] (20130517/hwxface-571) klog: HIGH Kernel message: [ 0.386793] \_SB_.PCI0:_OSC invalid UUID syntaxcheck: Assembler error in line 8130 syntaxcheck: Assembler error in line 241 Medium failures: 23 dmicheck: String index 0x03 in table entry 'Chassis Information (Type 3)' @ 0x000e6649, field 'Serial Number', offset 0x07 has a default value 'Chassis Serial Number' and probably has not been updated by the BIOS vendor. microcode: The kernel did not report that CPU 0 has had a microcode update. The current firmware is revision 0x25 and probably has not been updated. microcode: The kernel did not report that CPU 1 has had a microcode update. The current firmware is revision 0x25 and probably has not been updated. microcode: The kernel did not report that CPU 2 has had a microcode update. The current firmware is revision 0x25 and probably has not been updated. microcode: The kernel did not report that CPU 3 has had a microcode update. The current firmware is revision 0x25 and probably has not been updated. microcode: The kernel did not report that CPU 4 has had a microcode update. The current firmware is revision 0x25 and probably has not been updated. microcode: The kernel did not report that CPU 5 has had a microcode update. The current firmware is revision 0x25 and probably has not been updated. microcode: The kernel did not report that CPU 6 has had a microcode update. The current firmware is revision 0x25 and probably has not been updated. microcode: The kernel did not report that CPU 7 has had a microcode update. The current firmware is revision 0x25 and probably has not been updated. msr: MSR CLOCK_MODULATION (0x19a) has 7 inconsistent values across 8 CPUs for (shift: 0 mask: 0x1f). cpufreq: Supposedly higher frequency 1000 MHz is slower (100593 bogo loops) than frequency 1000 MHz (105337 bogo loops) on CPU 4. syntaxcheck: Assembler warning in line 4194 syntaxcheck: Assembler warning in line 9955 syntaxcheck: Assembler warning in line 68 syntaxcheck: Assembler warning in line 170 syntaxcheck: Assembler warning in line 240 syntaxcheck: Assembler warning in line 286 syntaxcheck: Assembler warning in line 332 syntaxcheck: Assembler warning in line 378 syntaxcheck: Assembler warning in line 424 syntaxcheck: Assembler warning in line 470 fan: Fan present but has no cur_state present. acpitables: FADT 32 bit FIRMWARE_CONTROL is non-zero, and X_FIRMWARE_CONTROL is also non-zero. Section 5.2.9 of the ACPI specification states that if the FIRMWARE_CONTROL is non-zero then X_FIRMWARE_CONTROL must be set to zero. Low failures: 11 klog: LOW Kernel message: [ 18.464767] ACPI Warning: 0x0000000000000428-0x000000000000042f SystemIO conflicts with Region \PMIO 1 (20130517/utaddress-251) klog: LOW Kernel message: [ 18.464778] ACPI Warning: 0x0000000000000540-0x000000000000054f SystemIO conflicts with Region \GPIO 1 (20130517/utaddress-251) klog: LOW Kernel message: [ 18.464784] ACPI Warning: 0x0000000000000530-0x000000000000053f SystemIO conflicts with Region \GPIO 1 (20130517/utaddress-251) klog: LOW Kernel message: [ 18.464790] ACPI Warning: 0x0000000000000500-0x000000000000052f SystemIO conflicts with Region \GPIO 1 (20130517/utaddress-251) klog: LOW Kernel message: [ 18.464795] lpc_ich: Resource conflict(s) found affecting gpio_ich maxreadreq: 1 devices have low MaxReadReq settings. Firmware may have configured these too low. dmicheck: Out of range string index 0x06 while accessing entry 'Portable Battery (Type 22)' @ 0x000e6a28, field 'Device Chemistry', offset 0x09 dmicheck: String index 0x05 in table entry 'Memory Device (Type 17)' @ 0x000e6ad7, field 'Asset Tag', offset 0x19 has a default value '0123456789' and probably has not been updated by the BIOS vendor. dmicheck: String index 0x03 in table entry 'Memory Device (Type 17)' @ 0x000e6b99, field 'Asset Tag', offset 0x19 has a default value '0123456789' and probably has not been updated by the BIOS vendor. dmicheck: String index 0x05 in table entry 'Memory Device (Type 17)' @ 0x000e6bf9, field 'Asset Tag', offset 0x19 has a default value '0123456789' and probably has not been updated by the BIOS vendor. dmicheck: String index 0x03 in table entry 'Memory Device (Type 17)' @ 0x000e6cbb, field 'Asset Tag', offset 0x19 has a default value '0123456789' and probably has not been updated by the BIOS vendor. Other failures: NONE Test |Pass |Fail |Abort|Warn |Skip |Info | ---------------+-----+-----+-----+-----+-----+-----+ acpiinfo | | | | | | 3| acpitables | 6| 1| | | | | apicedge | 1| | | | | | apicinstance | 1| | | | | | aspm | 3| | | 3| | | bios32 | 4| | | | | | bios_info | | | | | | 1| checksum | 16| | | | | | cpufreq | 1| 1| | | | | crs | 1| | | | | | csm | | | | | | 1| cstates | 15| | | | | | dmar | | | | | 1| | dmicheck | 52| 6| | | | | ebda | 1| | | | | | fadt | 1| | | | | | fan | 9| 1| | | | | hda_audio | 2| | | | | | hpet_check | 5| | | | | | klog | | 8| | | | | maxfreq | 1| | | | | | maxreadreq | | 1| | | | | mcfg | 2| | | | | | method | 234| | | | 117| | microcode | | 8| | | | | mpcheck | 9| | | | | | msr | 107| 2| | | | | mtrr | 2| | | | 1| | nx | 3| | | | | | oops | 2| | | | | | os2gap | 1| | | | | | osilinux | | | | 1| | | pcc | | | | | | 1| pciirq | 4| | | | | | pnp | 2| | | | | | securebootcert | | | 1| | | | syntaxcheck | 1| 13| | | | | version | | | | | | 4| virt | 1| | | | | | wakealarm | 4| | | | | | wmi | 5| | | | | | ---------------+-----+-----+-----+-----+-----+-----+ Total: | 496| 41| 1| 4| 119| 10| ---------------+-----+-----+-----+-----+-----+-----+