On 10/28/16 19:38, Leo Duran wrote: > 1) Remove SmmGetProcessorLocation() from PiSmmCpuDxeSmm driver. > 2) Remove ExtractProcessorLocation() from MpInitLib library. > 3) Add GetProcessorLocation() to BaseXApicLib and BaseXApicX2ApicLib. > > Contributed-under: TianoCore Contribution Agreement 1.0 > Signed-off-by: Leo Duran <[email protected]> > --- > UefiCpuPkg/Include/Library/LocalApicLib.h | 18 +++ > UefiCpuPkg/Library/BaseXApicLib/BaseXApicLib.c | 130 > +++++++++++++++++++++ > .../BaseXApicX2ApicLib/BaseXApicX2ApicLib.c | 130 > +++++++++++++++++++++ > UefiCpuPkg/Library/MpInitLib/MpLib.c | 128 +------------------- > UefiCpuPkg/PiSmmCpuDxeSmm/CpuService.c | 121 +------------------ > 5 files changed, 280 insertions(+), 247 deletions(-) > > diff --git a/UefiCpuPkg/Include/Library/LocalApicLib.h > b/UefiCpuPkg/Include/Library/LocalApicLib.h > index cd4e613..4abf64c 100644 > --- a/UefiCpuPkg/Include/Library/LocalApicLib.h > +++ b/UefiCpuPkg/Include/Library/LocalApicLib.h > @@ -21,6 +21,9 @@ > #define LOCAL_APIC_MODE_XAPIC 0x1 ///< xAPIC mode. > #define LOCAL_APIC_MODE_X2APIC 0x2 ///< x2APIC mode. > > +#include <PiPei.h> > +#include <Protocol/MpService.h> > + > /** > Retrieve the base address of local APIC. > > @@ -410,6 +413,21 @@ GetApicMsiValue ( > IN BOOLEAN LevelTriggered, > IN BOOLEAN AssertionLevel > ); > + > +/** > +Get Package ID/Core ID/Thread ID of a processor. > + > +The algorithm assumes the target system has symmetry across physical package > boundaries > +with respect to the number of logical processors per package, number of > cores per package. > + > +@param InitialApicId Must be the initial APIC ID of the target logical > processor. > +@param Location Returns the processor location information. > +**/ > +VOID > +GetProcessorLocation( > + IN UINT32 InitialApicId, > + OUT EFI_CPU_PHYSICAL_LOCATION *Location > +); > > #endif > > diff --git a/UefiCpuPkg/Library/BaseXApicLib/BaseXApicLib.c > b/UefiCpuPkg/Library/BaseXApicLib/BaseXApicLib.c > index 8d0fb02..219f99f 100644 > --- a/UefiCpuPkg/Library/BaseXApicLib/BaseXApicLib.c > +++ b/UefiCpuPkg/Library/BaseXApicLib/BaseXApicLib.c > @@ -941,3 +941,133 @@ GetApicMsiValue ( > } > return MsiData.Uint64; > } > + > +/** > +Get Package ID/Core ID/Thread ID of a processor. > + > +The algorithm assumes the target system has symmetry across physical package > boundaries > +with respect to the number of logical processors per package, number of > cores per package. > + > +@param InitialApicId Must be the initial APIC ID of the target logical > processor. > +@param Location Returns the processor location information. > +**/ > +VOID > +GetProcessorLocation( > +IN UINT32 InitialApicId, > +OUT EFI_CPU_PHYSICAL_LOCATION *Location > +) > +{ > + BOOLEAN TopologyLeafSupported; > + UINTN ThreadBits; > + UINTN CoreBits; > + CPUID_VERSION_INFO_EBX VersionInfoEbx; > + CPUID_VERSION_INFO_EDX VersionInfoEdx; > + CPUID_CACHE_PARAMS_EAX CacheParamsEax; > + CPUID_EXTENDED_TOPOLOGY_EAX ExtendedTopologyEax; > + CPUID_EXTENDED_TOPOLOGY_EBX ExtendedTopologyEbx; > + CPUID_EXTENDED_TOPOLOGY_ECX ExtendedTopologyEcx; > + UINT32 MaxCpuIdIndex; > + UINT32 SubIndex; > + UINTN LevelType; > + UINT32 MaxLogicProcessorsPerPackage; > + UINT32 MaxCoresPerPackage; > + > + // > + // Check if the processor is capable of supporting more than one > logical processor. > + // > + AsmCpuid(CPUID_VERSION_INFO, NULL, NULL, NULL, &VersionInfoEdx.Uint32); > + if (VersionInfoEdx.Bits.HTT == 0) { > + Location->Thread = 0; > + Location->Core = 0; > + Location->Package = 0; > + return; > + } > + > + ThreadBits = 0; > + CoreBits = 0; > + > + // > + // Assume three-level mapping of APIC ID: Package:Core:SMT. > + // > + > + TopologyLeafSupported = FALSE; > + // > + // Get the max index of basic CPUID > + // > + AsmCpuid(CPUID_SIGNATURE, &MaxCpuIdIndex, NULL, NULL, NULL); > + > + // > + // If the extended topology enumeration leaf is available, it > + // is the preferred mechanism for enumerating topology. > + // > + if (MaxCpuIdIndex >= CPUID_EXTENDED_TOPOLOGY) { > + AsmCpuidEx( > + CPUID_EXTENDED_TOPOLOGY, > + 0, > + &ExtendedTopologyEax.Uint32, > + &ExtendedTopologyEbx.Uint32, > + &ExtendedTopologyEcx.Uint32, > + NULL > + ); > + // > + // If CPUID.(EAX=0BH, ECX=0H):EBX returns zero and maximum > input value for > + // basic CPUID information is greater than 0BH, then CPUID.0BH > leaf is not > + // supported on that processor. > + // > + if (ExtendedTopologyEbx.Uint32 != 0) { > + TopologyLeafSupported = TRUE; > + > + // > + // Sub-leaf index 0 (ECX= 0 as input) provides > enumeration parameters to extract > + // the SMT sub-field of x2APIC ID. > + // > + LevelType = ExtendedTopologyEcx.Bits.LevelType; > + ASSERT(LevelType == > CPUID_EXTENDED_TOPOLOGY_LEVEL_TYPE_SMT); > + ThreadBits = ExtendedTopologyEax.Bits.ApicIdShift; > + > + // > + // Software must not assume any "level type" encoding > + // value to be related to any sub-leaf index, except > sub-leaf 0. > + // > + SubIndex = 1; > + do { > + AsmCpuidEx( > + CPUID_EXTENDED_TOPOLOGY, > + SubIndex, > + &ExtendedTopologyEax.Uint32, > + NULL, > + &ExtendedTopologyEcx.Uint32, > + NULL > + ); > + LevelType = ExtendedTopologyEcx.Bits.LevelType; > + if (LevelType == > CPUID_EXTENDED_TOPOLOGY_LEVEL_TYPE_CORE) { > + CoreBits = > ExtendedTopologyEax.Bits.ApicIdShift - ThreadBits; > + break; > + } > + SubIndex++; > + } while (LevelType != > CPUID_EXTENDED_TOPOLOGY_LEVEL_TYPE_INVALID); > + } > + } > + > + if (!TopologyLeafSupported) { > + AsmCpuid(CPUID_VERSION_INFO, NULL, &VersionInfoEbx.Uint32, > NULL, NULL); > + MaxLogicProcessorsPerPackage = > VersionInfoEbx.Bits.MaximumAddressableIdsForLogicalProcessors; > + if (MaxCpuIdIndex >= CPUID_CACHE_PARAMS) { > + AsmCpuidEx(CPUID_CACHE_PARAMS, 0, > &CacheParamsEax.Uint32, NULL, NULL, NULL); > + MaxCoresPerPackage = > CacheParamsEax.Bits.MaximumAddressableIdsForLogicalProcessors + 1; > + } > + else { > + // > + // Must be a single-core processor. > + // > + MaxCoresPerPackage = 1; > + } > + > + ThreadBits = (UINTN)(HighBitSet32(MaxLogicProcessorsPerPackage > / MaxCoresPerPackage - 1) + 1); > + CoreBits = (UINTN)(HighBitSet32(MaxCoresPerPackage - 1) + 1); > + } > + > + Location->Thread = InitialApicId & ((1 << ThreadBits) - 1); > + Location->Core = (InitialApicId >> ThreadBits) & ((1 << CoreBits) - 1); > + Location->Package = (InitialApicId >> (ThreadBits + CoreBits)); > +} > diff --git a/UefiCpuPkg/Library/BaseXApicX2ApicLib/BaseXApicX2ApicLib.c > b/UefiCpuPkg/Library/BaseXApicX2ApicLib/BaseXApicX2ApicLib.c > index 4c42696..16395a3 100644 > --- a/UefiCpuPkg/Library/BaseXApicX2ApicLib/BaseXApicX2ApicLib.c > +++ b/UefiCpuPkg/Library/BaseXApicX2ApicLib/BaseXApicX2ApicLib.c > @@ -1036,3 +1036,133 @@ GetApicMsiValue ( > } > return MsiData.Uint64; > } > + > +/** > +Get Package ID/Core ID/Thread ID of a processor. > + > +The algorithm assumes the target system has symmetry across physical package > boundaries > +with respect to the number of logical processors per package, number of > cores per package. > + > +@param InitialApicId Must be the initial APIC ID of the target logical > processor. > +@param Location Returns the processor location information. > +**/ > +VOID > +GetProcessorLocation( > +IN UINT32 InitialApicId, > +OUT EFI_CPU_PHYSICAL_LOCATION *Location > +) > +{ > + BOOLEAN TopologyLeafSupported; > + UINTN ThreadBits; > + UINTN CoreBits; > + CPUID_VERSION_INFO_EBX VersionInfoEbx; > + CPUID_VERSION_INFO_EDX VersionInfoEdx; > + CPUID_CACHE_PARAMS_EAX CacheParamsEax; > + CPUID_EXTENDED_TOPOLOGY_EAX ExtendedTopologyEax; > + CPUID_EXTENDED_TOPOLOGY_EBX ExtendedTopologyEbx; > + CPUID_EXTENDED_TOPOLOGY_ECX ExtendedTopologyEcx; > + UINT32 MaxCpuIdIndex; > + UINT32 SubIndex; > + UINTN LevelType; > + UINT32 MaxLogicProcessorsPerPackage; > + UINT32 MaxCoresPerPackage; > + > + // > + // Check if the processor is capable of supporting more than one > logical processor. > + // > + AsmCpuid(CPUID_VERSION_INFO, NULL, NULL, NULL, &VersionInfoEdx.Uint32); > + if (VersionInfoEdx.Bits.HTT == 0) { > + Location->Thread = 0; > + Location->Core = 0; > + Location->Package = 0; > + return; > + } > + > + ThreadBits = 0; > + CoreBits = 0; > + > + // > + // Assume three-level mapping of APIC ID: Package:Core:SMT. > + // > + > + TopologyLeafSupported = FALSE; > + // > + // Get the max index of basic CPUID > + // > + AsmCpuid(CPUID_SIGNATURE, &MaxCpuIdIndex, NULL, NULL, NULL); > + > + // > + // If the extended topology enumeration leaf is available, it > + // is the preferred mechanism for enumerating topology. > + // > + if (MaxCpuIdIndex >= CPUID_EXTENDED_TOPOLOGY) { > + AsmCpuidEx( > + CPUID_EXTENDED_TOPOLOGY, > + 0, > + &ExtendedTopologyEax.Uint32, > + &ExtendedTopologyEbx.Uint32, > + &ExtendedTopologyEcx.Uint32, > + NULL > + ); > + // > + // If CPUID.(EAX=0BH, ECX=0H):EBX returns zero and maximum > input value for > + // basic CPUID information is greater than 0BH, then CPUID.0BH > leaf is not > + // supported on that processor. > + // > + if (ExtendedTopologyEbx.Uint32 != 0) { > + TopologyLeafSupported = TRUE; > + > + // > + // Sub-leaf index 0 (ECX= 0 as input) provides > enumeration parameters to extract > + // the SMT sub-field of x2APIC ID. > + // > + LevelType = ExtendedTopologyEcx.Bits.LevelType; > + ASSERT(LevelType == > CPUID_EXTENDED_TOPOLOGY_LEVEL_TYPE_SMT); > + ThreadBits = ExtendedTopologyEax.Bits.ApicIdShift; > + > + // > + // Software must not assume any "level type" encoding > + // value to be related to any sub-leaf index, except > sub-leaf 0. > + // > + SubIndex = 1; > + do { > + AsmCpuidEx( > + CPUID_EXTENDED_TOPOLOGY, > + SubIndex, > + &ExtendedTopologyEax.Uint32, > + NULL, > + &ExtendedTopologyEcx.Uint32, > + NULL > + ); > + LevelType = ExtendedTopologyEcx.Bits.LevelType; > + if (LevelType == > CPUID_EXTENDED_TOPOLOGY_LEVEL_TYPE_CORE) { > + CoreBits = > ExtendedTopologyEax.Bits.ApicIdShift - ThreadBits; > + break; > + } > + SubIndex++; > + } while (LevelType != > CPUID_EXTENDED_TOPOLOGY_LEVEL_TYPE_INVALID); > + } > + } > + > + if (!TopologyLeafSupported) { > + AsmCpuid(CPUID_VERSION_INFO, NULL, &VersionInfoEbx.Uint32, > NULL, NULL); > + MaxLogicProcessorsPerPackage = > VersionInfoEbx.Bits.MaximumAddressableIdsForLogicalProcessors; > + if (MaxCpuIdIndex >= CPUID_CACHE_PARAMS) { > + AsmCpuidEx(CPUID_CACHE_PARAMS, 0, > &CacheParamsEax.Uint32, NULL, NULL, NULL); > + MaxCoresPerPackage = > CacheParamsEax.Bits.MaximumAddressableIdsForLogicalProcessors + 1; > + } > + else { > + // > + // Must be a single-core processor. > + // > + MaxCoresPerPackage = 1; > + } > + > + ThreadBits = (UINTN)(HighBitSet32(MaxLogicProcessorsPerPackage > / MaxCoresPerPackage - 1) + 1); > + CoreBits = (UINTN)(HighBitSet32(MaxCoresPerPackage - 1) + 1); > + } > + > + Location->Thread = InitialApicId & ((1 << ThreadBits) - 1); > + Location->Core = (InitialApicId >> ThreadBits) & ((1 << CoreBits) - 1); > + Location->Package = (InitialApicId >> (ThreadBits + CoreBits)); > +} > diff --git a/UefiCpuPkg/Library/MpInitLib/MpLib.c > b/UefiCpuPkg/Library/MpInitLib/MpLib.c > index c3fe721..f3380bb 100644 > --- a/UefiCpuPkg/Library/MpInitLib/MpLib.c > +++ b/UefiCpuPkg/Library/MpInitLib/MpLib.c > @@ -58,132 +58,6 @@ IsBspExecuteDisableEnabled ( > } > > /** > - Get CPU Package/Core/Thread location information. > - > - @param[in] InitialApicId CPU APIC ID > - @param[out] Location Pointer to CPU location information > -**/ > -VOID > -ExtractProcessorLocation ( > - IN UINT32 InitialApicId, > - OUT EFI_CPU_PHYSICAL_LOCATION *Location > - ) > -{ > - BOOLEAN TopologyLeafSupported; > - UINTN ThreadBits; > - UINTN CoreBits; > - CPUID_VERSION_INFO_EBX VersionInfoEbx; > - CPUID_VERSION_INFO_EDX VersionInfoEdx; > - CPUID_CACHE_PARAMS_EAX CacheParamsEax; > - CPUID_EXTENDED_TOPOLOGY_EAX ExtendedTopologyEax; > - CPUID_EXTENDED_TOPOLOGY_EBX ExtendedTopologyEbx; > - CPUID_EXTENDED_TOPOLOGY_ECX ExtendedTopologyEcx; > - UINT32 MaxCpuIdIndex; > - UINT32 SubIndex; > - UINTN LevelType; > - UINT32 MaxLogicProcessorsPerPackage; > - UINT32 MaxCoresPerPackage; > - > - // > - // Check if the processor is capable of supporting more than one logical > processor. > - // > - AsmCpuid (CPUID_VERSION_INFO, NULL, NULL, NULL, &VersionInfoEdx.Uint32); > - if (VersionInfoEdx.Bits.HTT == 0) { > - Location->Thread = 0; > - Location->Core = 0; > - Location->Package = 0; > - return; > - } > - > - ThreadBits = 0; > - CoreBits = 0; > - > - // > - // Assume three-level mapping of APIC ID: Package:Core:SMT. > - // > - > - TopologyLeafSupported = FALSE; > - // > - // Get the max index of basic CPUID > - // > - AsmCpuid (CPUID_SIGNATURE, &MaxCpuIdIndex, NULL, NULL, NULL); > - > - // > - // If the extended topology enumeration leaf is available, it > - // is the preferred mechanism for enumerating topology. > - // > - if (MaxCpuIdIndex >= CPUID_EXTENDED_TOPOLOGY) { > - AsmCpuidEx ( > - CPUID_EXTENDED_TOPOLOGY, > - 0, > - &ExtendedTopologyEax.Uint32, > - &ExtendedTopologyEbx.Uint32, > - &ExtendedTopologyEcx.Uint32, > - NULL > - ); > - // > - // If CPUID.(EAX=0BH, ECX=0H):EBX returns zero and maximum input value > for > - // basic CPUID information is greater than 0BH, then CPUID.0BH leaf is > not > - // supported on that processor. > - // > - if (ExtendedTopologyEbx.Uint32 != 0) { > - TopologyLeafSupported = TRUE; > - > - // > - // Sub-leaf index 0 (ECX= 0 as input) provides enumeration parameters > to extract > - // the SMT sub-field of x2APIC ID. > - // > - LevelType = ExtendedTopologyEcx.Bits.LevelType; > - ASSERT (LevelType == CPUID_EXTENDED_TOPOLOGY_LEVEL_TYPE_SMT); > - ThreadBits = ExtendedTopologyEax.Bits.ApicIdShift; > - > - // > - // Software must not assume any "level type" encoding > - // value to be related to any sub-leaf index, except sub-leaf 0. > - // > - SubIndex = 1; > - do { > - AsmCpuidEx ( > - CPUID_EXTENDED_TOPOLOGY, > - SubIndex, > - &ExtendedTopologyEax.Uint32, > - NULL, > - &ExtendedTopologyEcx.Uint32, > - NULL > - ); > - LevelType = ExtendedTopologyEcx.Bits.LevelType; > - if (LevelType == CPUID_EXTENDED_TOPOLOGY_LEVEL_TYPE_CORE) { > - CoreBits = ExtendedTopologyEax.Bits.ApicIdShift - ThreadBits; > - break; > - } > - SubIndex++; > - } while (LevelType != CPUID_EXTENDED_TOPOLOGY_LEVEL_TYPE_INVALID); > - } > - } > - > - if (!TopologyLeafSupported) { > - AsmCpuid (CPUID_VERSION_INFO, NULL, &VersionInfoEbx.Uint32, NULL, NULL); > - MaxLogicProcessorsPerPackage = > VersionInfoEbx.Bits.MaximumAddressableIdsForLogicalProcessors; > - if (MaxCpuIdIndex >= CPUID_CACHE_PARAMS) { > - AsmCpuidEx (CPUID_CACHE_PARAMS, 0, &CacheParamsEax.Uint32, NULL, NULL, > NULL); > - MaxCoresPerPackage = > CacheParamsEax.Bits.MaximumAddressableIdsForLogicalProcessors + 1; > - } else { > - // > - // Must be a single-core processor. > - // > - MaxCoresPerPackage = 1; > - } > - > - ThreadBits = (UINTN) (HighBitSet32 (MaxLogicProcessorsPerPackage / > MaxCoresPerPackage - 1) + 1); > - CoreBits = (UINTN) (HighBitSet32 (MaxCoresPerPackage - 1) + 1); > - } > - > - Location->Thread = InitialApicId & ((1 << ThreadBits) - 1); > - Location->Core = (InitialApicId >> ThreadBits) & ((1 << CoreBits) - 1); > - Location->Package = (InitialApicId >> (ThreadBits + CoreBits)); > -} > - > -/** > Worker function for SwitchBSP(). > > Worker function for SwitchBSP(), assigned to the AP which is intended > @@ -1451,7 +1325,7 @@ MpInitLibGetProcessorInfo ( > // > // Get processor location information > // > - ExtractProcessorLocation (CpuMpData->CpuData[ProcessorNumber].ApicId, > &ProcessorInfoBuffer->Location); > + GetProcessorLocation (CpuMpData->CpuData[ProcessorNumber].ApicId, > &ProcessorInfoBuffer->Location); > > if (HealthData != NULL) { > HealthData->Uint32 = CpuMpData->CpuData[ProcessorNumber].Health; > diff --git a/UefiCpuPkg/PiSmmCpuDxeSmm/CpuService.c > b/UefiCpuPkg/PiSmmCpuDxeSmm/CpuService.c > index 40f2a17..67cd0a0 100644 > --- a/UefiCpuPkg/PiSmmCpuDxeSmm/CpuService.c > +++ b/UefiCpuPkg/PiSmmCpuDxeSmm/CpuService.c > @@ -27,125 +27,6 @@ EFI_SMM_CPU_SERVICE_PROTOCOL mSmmCpuService = { > }; > > /** > - Get Package ID/Core ID/Thread ID of a processor. > - > - APIC ID must be an initial APIC ID. > - > - The algorithm below assumes the target system has symmetry across physical > package boundaries > - with respect to the number of logical processors per package, number of > cores per package. > - > - @param ApicId APIC ID of the target logical processor. > - @param Location Returns the processor location information. > -**/ > -VOID > -SmmGetProcessorLocation ( > - IN UINT32 ApicId, > - OUT EFI_CPU_PHYSICAL_LOCATION *Location > - ) > -{ > - UINTN ThreadBits; > - UINTN CoreBits; > - UINT32 RegEax; > - UINT32 RegEbx; > - UINT32 RegEcx; > - UINT32 RegEdx; > - UINT32 MaxCpuIdIndex; > - UINT32 SubIndex; > - UINTN LevelType; > - UINT32 MaxLogicProcessorsPerPackage; > - UINT32 MaxCoresPerPackage; > - BOOLEAN TopologyLeafSupported; > - > - ASSERT (Location != NULL); > - > - ThreadBits = 0; > - CoreBits = 0; > - TopologyLeafSupported = FALSE; > - > - // > - // Check if the processor is capable of supporting more than one logical > processor. > - // > - AsmCpuid (CPUID_VERSION_INFO, NULL, NULL, NULL, &RegEdx); > - ASSERT ((RegEdx & BIT28) != 0); > - > - // > - // Assume three-level mapping of APIC ID: Package:Core:SMT. > - // > - > - // > - // Get the max index of basic CPUID > - // > - AsmCpuid (CPUID_SIGNATURE, &MaxCpuIdIndex, NULL, NULL, NULL); > - > - // > - // If the extended topology enumeration leaf is available, it > - // is the preferred mechanism for enumerating topology. > - // > - if (MaxCpuIdIndex >= CPUID_EXTENDED_TOPOLOGY) { > - AsmCpuidEx (CPUID_EXTENDED_TOPOLOGY, 0, &RegEax, &RegEbx, &RegEcx, NULL); > - // > - // If CPUID.(EAX=0BH, ECX=0H):EBX returns zero and maximum input value > for > - // basic CPUID information is greater than 0BH, then CPUID.0BH leaf is > not > - // supported on that processor. > - // > - if ((RegEbx & 0xffff) != 0) { > - TopologyLeafSupported = TRUE; > - > - // > - // Sub-leaf index 0 (ECX= 0 as input) provides enumeration parameters > to extract > - // the SMT sub-field of x2APIC ID. > - // > - LevelType = (RegEcx >> 8) & 0xff; > - ASSERT (LevelType == CPUID_EXTENDED_TOPOLOGY_LEVEL_TYPE_SMT); > - if ((RegEbx & 0xffff) > 1 ) { > - ThreadBits = RegEax & 0x1f; > - } else { > - // > - // HT is not supported > - // > - ThreadBits = 0; > - } > - > - // > - // Software must not assume any "level type" encoding > - // value to be related to any sub-leaf index, except sub-leaf 0. > - // > - SubIndex = 1; > - do { > - AsmCpuidEx (CPUID_EXTENDED_TOPOLOGY, SubIndex, &RegEax, NULL, > &RegEcx, NULL); > - LevelType = (RegEcx >> 8) & 0xff; > - if (LevelType == CPUID_EXTENDED_TOPOLOGY_LEVEL_TYPE_CORE) { > - CoreBits = (RegEax & 0x1f) - ThreadBits; > - break; > - } > - SubIndex++; > - } while (LevelType != CPUID_EXTENDED_TOPOLOGY_LEVEL_TYPE_INVALID); > - } > - } > - > - if (!TopologyLeafSupported) { > - AsmCpuid (CPUID_VERSION_INFO, NULL, &RegEbx, NULL, NULL); > - MaxLogicProcessorsPerPackage = (RegEbx >> 16) & 0xff; > - if (MaxCpuIdIndex >= CPUID_CACHE_PARAMS) { > - AsmCpuidEx (CPUID_CACHE_PARAMS, 0, &RegEax, NULL, NULL, NULL); > - MaxCoresPerPackage = (RegEax >> 26) + 1; > - } else { > - // > - // Must be a single-core processor. > - // > - MaxCoresPerPackage = 1; > - } > - > - ThreadBits = (UINTN) (HighBitSet32 (MaxLogicProcessorsPerPackage / > MaxCoresPerPackage - 1) + 1); > - CoreBits = (UINTN) (HighBitSet32 (MaxCoresPerPackage - 1) + 1); > - } > - > - Location->Thread = ApicId & ~((-1) << ThreadBits); > - Location->Core = (ApicId >> ThreadBits) & ~((-1) << CoreBits); > - Location->Package = (ApicId >> (ThreadBits+ CoreBits)); > -} > - > -/** > Gets processor information on the requested processor at the instant this > call is made. > > @param[in] This A pointer to the > EFI_SMM_CPU_SERVICE_PROTOCOL instance. > @@ -280,7 +161,7 @@ SmmAddProcessor ( > gSmmCpuPrivate->ProcessorInfo[Index].ProcessorId == INVALID_APIC_ID) > { > gSmmCpuPrivate->ProcessorInfo[Index].ProcessorId = ProcessorId; > gSmmCpuPrivate->ProcessorInfo[Index].StatusFlag = 0; > - SmmGetProcessorLocation ((UINT32)ProcessorId, > &gSmmCpuPrivate->ProcessorInfo[Index].Location); > + GetProcessorLocation ((UINT32)ProcessorId, > &gSmmCpuPrivate->ProcessorInfo[Index].Location); > > *ProcessorNumber = Index; > gSmmCpuPrivate->Operation[Index] = SmmCpuAdd; >
I tested this as follows: * X64 OVMF, build without -D SMM_REQUIRE. I retested the MSR_IA32_FEATURE_CONTROL setting feature at <https://bugzilla.tianocore.org/show_bug.cgi?id=86> (commit range 51773d4..dbab994), with S3 suspend/resume, using QEMU's i440fx machine type. This test is relevant because it exercises EFI_PEI_MPSERVICES_PPI, provided by CpuMpPei, both at cold boot and at S3 resume. CpuMpPei in turn depends on MpInitLib. Here's the log snippet: > Loading PEIM at 0x000BFD29000 EntryPoint=0x000BFD29240 CpuMpPei.efi > AP Loop Mode is 1 > WakeupBufferStart = 9F000, WakeupBufferSize = 1000 > APIC MODE is 1 > MpInitLib: Find 8 processors in system. > Register PPI Notify: [EfiEndOfPeiSignalPpi] > Does not find any stored CPU BIST information from PPI! > APICID - 0x00000000, BIST - 0x00000000 > APICID - 0x00000001, BIST - 0x00000000 > APICID - 0x00000002, BIST - 0x00000000 > APICID - 0x00000003, BIST - 0x00000000 > APICID - 0x00000004, BIST - 0x00000000 > APICID - 0x00000005, BIST - 0x00000000 > APICID - 0x00000006, BIST - 0x00000000 > APICID - 0x00000007, BIST - 0x00000000 > Install PPI: [EfiSecPlatformInformation2Ppi] > Install PPI: [EfiPeiMpServicesPpi] > Notify: PPI Guid: [EfiPeiMpServicesPpi], Peim notify entry point: 83BAC5 > PlatformPei: OnMpServicesAvailable * Ia32X64 OVMF, built with -D SMM_REQUIRE, using the Q35 machine type. S3 suspend/resume works. SMM variable access works after resumption too, when bound to CPU#0 (BSP) or to CPU#1 (AP) alike (with "taskset -c 0/1" in the Fedora guest). > Loading SMM driver at 0x0007FFCE000 EntryPoint=0x0007FFCE271 > PiSmmCpuDxeSmm.efi > SMRR Base: 0x7F800000, SMRR Size: 0x800000 > PcdCpuSmmCodeAccessCheckEnable = 1 > SMRAM TileSize = 0x00002000 (0x00001000, 0x00001000) > SMRAM SaveState Buffer (0x7FFC0000, 0x0000E000) > CPU[000] APIC ID=0000 SMBASE=7FFB8000 SaveState=7FFC7C00 Size=00000400 > CPU[001] APIC ID=0001 SMBASE=7FFBA000 SaveState=7FFC9C00 Size=00000400 > CPU[002] APIC ID=0002 SMBASE=7FFBC000 SaveState=7FFCBC00 Size=00000400 > CPU[003] APIC ID=0003 SMBASE=7FFBE000 SaveState=7FFCDC00 Size=00000400 > One Semaphore Size = 0x40 > Total Semaphores Size = 0x840 > InstallProtocolInterface: [gEfiSmmConfigurationProtocolGuid] 7FFDEFD0 > SMM IPL registered SMM Entry Point address 7FFF0A27 > SmmInstallProtocolInterface: [EfiSmmCpuProtocol] 7FFDEF10 > SmmInstallProtocolInterface: [EfiSmmCpuServiceProtocol] 7FFDEFF0 > SMM S3 SMRAM Structure = 7F0AF9C0 > SMM S3 Structure = 7F800000 > SMM CPU Module exit from SMRAM with EFI_SUCCESS * Same as the previous point, just with the Ia32 build. Tested-by: Laszlo Ersek <[email protected]> Thanks Laszlo _______________________________________________ edk2-devel mailing list [email protected] https://lists.01.org/mailman/listinfo/edk2-devel
