//===--- AMDGPUMetadata.h ---------------------------------------*- C++ -*-===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// // /// \file /// AMDGPU metadata definitions and in-memory representations. /// // //===----------------------------------------------------------------------===// #ifndef LLVM_SUPPORT_AMDGPUMETADATA_H #define LLVM_SUPPORT_AMDGPUMETADATA_H #include "llvm/ADT/StringRef.h" #include #include #include #include namespace llvm { namespace AMDGPU { //===----------------------------------------------------------------------===// // HSA metadata. //===----------------------------------------------------------------------===// namespace HSAMD { /// HSA metadata major version. constexpr uint32_t VersionMajor = 1; /// HSA metadata minor version. constexpr uint32_t VersionMinor = 0; /// HSA metadata beginning assembler directive. constexpr char AssemblerDirectiveBegin[] = ".amd_amdgpu_hsa_metadata"; /// HSA metadata ending assembler directive. constexpr char AssemblerDirectiveEnd[] = ".end_amd_amdgpu_hsa_metadata"; /// Access qualifiers. enum class AccessQualifier : uint8_t { Default = 0, ReadOnly = 1, WriteOnly = 2, ReadWrite = 3, Unknown = 0xff }; /// Address space qualifiers. enum class AddressSpaceQualifier : uint8_t { Private = 0, Global = 1, Constant = 2, Local = 3, Generic = 4, Region = 5, Unknown = 0xff }; /// Value kinds. enum class ValueKind : uint8_t { ByValue = 0, GlobalBuffer = 1, DynamicSharedPointer = 2, Sampler = 3, Image = 4, Pipe = 5, Queue = 6, HiddenGlobalOffsetX = 7, HiddenGlobalOffsetY = 8, HiddenGlobalOffsetZ = 9, HiddenNone = 10, HiddenPrintfBuffer = 11, HiddenDefaultQueue = 12, HiddenCompletionAction = 13, HiddenMultiGridSyncArg = 14, HiddenHostcallBuffer = 15, Unknown = 0xff }; /// Value types. This is deprecated and only remains for compatibility parsing /// of old metadata. enum class ValueType : uint8_t { Struct = 0, I8 = 1, U8 = 2, I16 = 3, U16 = 4, F16 = 5, I32 = 6, U32 = 7, F32 = 8, I64 = 9, U64 = 10, F64 = 11, Unknown = 0xff }; //===----------------------------------------------------------------------===// // Kernel Metadata. //===----------------------------------------------------------------------===// namespace Kernel { //===----------------------------------------------------------------------===// // Kernel Attributes Metadata. //===----------------------------------------------------------------------===// namespace Attrs { namespace Key { /// Key for Kernel::Attr::Metadata::mReqdWorkGroupSize. constexpr char ReqdWorkGroupSize[] = "ReqdWorkGroupSize"; /// Key for Kernel::Attr::Metadata::mWorkGroupSizeHint. constexpr char WorkGroupSizeHint[] = "WorkGroupSizeHint"; /// Key for Kernel::Attr::Metadata::mVecTypeHint. constexpr char VecTypeHint[] = "VecTypeHint"; /// Key for Kernel::Attr::Metadata::mRuntimeHandle. constexpr char RuntimeHandle[] = "RuntimeHandle"; } // end namespace Key /// In-memory representation of kernel attributes metadata. struct Metadata final { /// 'reqd_work_group_size' attribute. Optional. std::vector mReqdWorkGroupSize = std::vector(); /// 'work_group_size_hint' attribute. Optional. std::vector mWorkGroupSizeHint = std::vector(); /// 'vec_type_hint' attribute. Optional. std::string mVecTypeHint = std::string(); /// External symbol created by runtime to store the kernel address /// for enqueued blocks. std::string mRuntimeHandle = std::string(); /// Default constructor. Metadata() = default; /// \returns True if kernel attributes metadata is empty, false otherwise. bool empty() const { return !notEmpty(); } /// \returns True if kernel attributes metadata is not empty, false otherwise. bool notEmpty() const { return !mReqdWorkGroupSize.empty() || !mWorkGroupSizeHint.empty() || !mVecTypeHint.empty() || !mRuntimeHandle.empty(); } }; } // end namespace Attrs //===----------------------------------------------------------------------===// // Kernel Argument Metadata. //===----------------------------------------------------------------------===// namespace Arg { namespace Key { /// Key for Kernel::Arg::Metadata::mName. constexpr char Name[] = "Name"; /// Key for Kernel::Arg::Metadata::mTypeName. constexpr char TypeName[] = "TypeName"; /// Key for Kernel::Arg::Metadata::mSize. constexpr char Size[] = "Size"; /// Key for Kernel::Arg::Metadata::mOffset. constexpr char Offset[] = "Offset"; /// Key for Kernel::Arg::Metadata::mAlign. constexpr char Align[] = "Align"; /// Key for Kernel::Arg::Metadata::mValueKind. constexpr char ValueKind[] = "ValueKind"; /// Key for Kernel::Arg::Metadata::mValueType. (deprecated) constexpr char ValueType[] = "ValueType"; /// Key for Kernel::Arg::Metadata::mPointeeAlign. constexpr char PointeeAlign[] = "PointeeAlign"; /// Key for Kernel::Arg::Metadata::mAddrSpaceQual. constexpr char AddrSpaceQual[] = "AddrSpaceQual"; /// Key for Kernel::Arg::Metadata::mAccQual. constexpr char AccQual[] = "AccQual"; /// Key for Kernel::Arg::Metadata::mActualAccQual. constexpr char ActualAccQual[] = "ActualAccQual"; /// Key for Kernel::Arg::Metadata::mIsConst. constexpr char IsConst[] = "IsConst"; /// Key for Kernel::Arg::Metadata::mIsRestrict. constexpr char IsRestrict[] = "IsRestrict"; /// Key for Kernel::Arg::Metadata::mIsVolatile. constexpr char IsVolatile[] = "IsVolatile"; /// Key for Kernel::Arg::Metadata::mIsPipe. constexpr char IsPipe[] = "IsPipe"; } // end namespace Key /// In-memory representation of kernel argument metadata. struct Metadata final { /// Name. Optional. std::string mName = std::string(); /// Type name. Optional. std::string mTypeName = std::string(); /// Size in bytes. Required. uint32_t mSize = 0; /// Offset in bytes. Required for code object v3, unused for code object v2. uint32_t mOffset = 0; /// Alignment in bytes. Required. uint32_t mAlign = 0; /// Value kind. Required. ValueKind mValueKind = ValueKind::Unknown; /// Pointee alignment in bytes. Optional. uint32_t mPointeeAlign = 0; /// Address space qualifier. Optional. AddressSpaceQualifier mAddrSpaceQual = AddressSpaceQualifier::Unknown; /// Access qualifier. Optional. AccessQualifier mAccQual = AccessQualifier::Unknown; /// Actual access qualifier. Optional. AccessQualifier mActualAccQual = AccessQualifier::Unknown; /// True if 'const' qualifier is specified. Optional. bool mIsConst = false; /// True if 'restrict' qualifier is specified. Optional. bool mIsRestrict = false; /// True if 'volatile' qualifier is specified. Optional. bool mIsVolatile = false; /// True if 'pipe' qualifier is specified. Optional. bool mIsPipe = false; /// Default constructor. Metadata() = default; }; } // end namespace Arg //===----------------------------------------------------------------------===// // Kernel Code Properties Metadata. //===----------------------------------------------------------------------===// namespace CodeProps { namespace Key { /// Key for Kernel::CodeProps::Metadata::mKernargSegmentSize. constexpr char KernargSegmentSize[] = "KernargSegmentSize"; /// Key for Kernel::CodeProps::Metadata::mGroupSegmentFixedSize. constexpr char GroupSegmentFixedSize[] = "GroupSegmentFixedSize"; /// Key for Kernel::CodeProps::Metadata::mPrivateSegmentFixedSize. constexpr char PrivateSegmentFixedSize[] = "PrivateSegmentFixedSize"; /// Key for Kernel::CodeProps::Metadata::mKernargSegmentAlign. constexpr char KernargSegmentAlign[] = "KernargSegmentAlign"; /// Key for Kernel::CodeProps::Metadata::mWavefrontSize. constexpr char WavefrontSize[] = "WavefrontSize"; /// Key for Kernel::CodeProps::Metadata::mNumSGPRs. constexpr char NumSGPRs[] = "NumSGPRs"; /// Key for Kernel::CodeProps::Metadata::mNumVGPRs. constexpr char NumVGPRs[] = "NumVGPRs"; /// Key for Kernel::CodeProps::Metadata::mMaxFlatWorkGroupSize. constexpr char MaxFlatWorkGroupSize[] = "MaxFlatWorkGroupSize"; /// Key for Kernel::CodeProps::Metadata::mIsDynamicCallStack. constexpr char IsDynamicCallStack[] = "IsDynamicCallStack"; /// Key for Kernel::CodeProps::Metadata::mIsXNACKEnabled. constexpr char IsXNACKEnabled[] = "IsXNACKEnabled"; /// Key for Kernel::CodeProps::Metadata::mNumSpilledSGPRs. constexpr char NumSpilledSGPRs[] = "NumSpilledSGPRs"; /// Key for Kernel::CodeProps::Metadata::mNumSpilledVGPRs. constexpr char NumSpilledVGPRs[] = "NumSpilledVGPRs"; } // end namespace Key /// In-memory representation of kernel code properties metadata. struct Metadata final { /// Size in bytes of the kernarg segment memory. Kernarg segment memory /// holds the values of the arguments to the kernel. Required. uint64_t mKernargSegmentSize = 0; /// Size in bytes of the group segment memory required by a workgroup. /// This value does not include any dynamically allocated group segment memory /// that may be added when the kernel is dispatched. Required. uint32_t mGroupSegmentFixedSize = 0; /// Size in bytes of the private segment memory required by a workitem. /// Private segment memory includes arg, spill and private segments. Required. uint32_t mPrivateSegmentFixedSize = 0; /// Maximum byte alignment of variables used by the kernel in the /// kernarg memory segment. Required. uint32_t mKernargSegmentAlign = 0; /// Wavefront size. Required. uint32_t mWavefrontSize = 0; /// Total number of SGPRs used by a wavefront. Optional. uint16_t mNumSGPRs = 0; /// Total number of VGPRs used by a workitem. Optional. uint16_t mNumVGPRs = 0; /// Maximum flat work-group size supported by the kernel. Optional. uint32_t mMaxFlatWorkGroupSize = 0; /// True if the generated machine code is using a dynamically sized /// call stack. Optional. bool mIsDynamicCallStack = false; /// True if the generated machine code is capable of supporting XNACK. /// Optional. bool mIsXNACKEnabled = false; /// Number of SGPRs spilled by a wavefront. Optional. uint16_t mNumSpilledSGPRs = 0; /// Number of VGPRs spilled by a workitem. Optional. uint16_t mNumSpilledVGPRs = 0; /// Default constructor. Metadata() = default; /// \returns True if kernel code properties metadata is empty, false /// otherwise. bool empty() const { return !notEmpty(); } /// \returns True if kernel code properties metadata is not empty, false /// otherwise. bool notEmpty() const { return true; } }; } // end namespace CodeProps //===----------------------------------------------------------------------===// // Kernel Debug Properties Metadata. //===----------------------------------------------------------------------===// namespace DebugProps { namespace Key { /// Key for Kernel::DebugProps::Metadata::mDebuggerABIVersion. constexpr char DebuggerABIVersion[] = "DebuggerABIVersion"; /// Key for Kernel::DebugProps::Metadata::mReservedNumVGPRs. constexpr char ReservedNumVGPRs[] = "ReservedNumVGPRs"; /// Key for Kernel::DebugProps::Metadata::mReservedFirstVGPR. constexpr char ReservedFirstVGPR[] = "ReservedFirstVGPR"; /// Key for Kernel::DebugProps::Metadata::mPrivateSegmentBufferSGPR. constexpr char PrivateSegmentBufferSGPR[] = "PrivateSegmentBufferSGPR"; /// Key for /// Kernel::DebugProps::Metadata::mWavefrontPrivateSegmentOffsetSGPR. constexpr char WavefrontPrivateSegmentOffsetSGPR[] = "WavefrontPrivateSegmentOffsetSGPR"; } // end namespace Key /// In-memory representation of kernel debug properties metadata. struct Metadata final { /// Debugger ABI version. Optional. std::vector mDebuggerABIVersion = std::vector(); /// Consecutive number of VGPRs reserved for debugger use. Must be 0 if /// mDebuggerABIVersion is not set. Optional. uint16_t mReservedNumVGPRs = 0; /// First fixed VGPR reserved. Must be uint16_t(-1) if /// mDebuggerABIVersion is not set or mReservedFirstVGPR is 0. Optional. uint16_t mReservedFirstVGPR = uint16_t(-1); /// Fixed SGPR of the first of 4 SGPRs used to hold the scratch V# used /// for the entire kernel execution. Must be uint16_t(-1) if /// mDebuggerABIVersion is not set or SGPR not used or not known. Optional. uint16_t mPrivateSegmentBufferSGPR = uint16_t(-1); /// Fixed SGPR used to hold the wave scratch offset for the entire /// kernel execution. Must be uint16_t(-1) if mDebuggerABIVersion is not set /// or SGPR is not used or not known. Optional. uint16_t mWavefrontPrivateSegmentOffsetSGPR = uint16_t(-1); /// Default constructor. Metadata() = default; /// \returns True if kernel debug properties metadata is empty, false /// otherwise. bool empty() const { return !notEmpty(); } /// \returns True if kernel debug properties metadata is not empty, false /// otherwise. bool notEmpty() const { return !mDebuggerABIVersion.empty(); } }; } // end namespace DebugProps namespace Key { /// Key for Kernel::Metadata::mName. constexpr char Name[] = "Name"; /// Key for Kernel::Metadata::mSymbolName. constexpr char SymbolName[] = "SymbolName"; /// Key for Kernel::Metadata::mLanguage. constexpr char Language[] = "Language"; /// Key for Kernel::Metadata::mLanguageVersion. constexpr char LanguageVersion[] = "LanguageVersion"; /// Key for Kernel::Metadata::mAttrs. constexpr char Attrs[] = "Attrs"; /// Key for Kernel::Metadata::mArgs. constexpr char Args[] = "Args"; /// Key for Kernel::Metadata::mCodeProps. constexpr char CodeProps[] = "CodeProps"; /// Key for Kernel::Metadata::mDebugProps. constexpr char DebugProps[] = "DebugProps"; } // end namespace Key /// In-memory representation of kernel metadata. struct Metadata final { /// Kernel source name. Required. std::string mName = std::string(); /// Kernel descriptor name. Required. std::string mSymbolName = std::string(); /// Language. Optional. std::string mLanguage = std::string(); /// Language version. Optional. std::vector mLanguageVersion = std::vector(); /// Attributes metadata. Optional. Attrs::Metadata mAttrs = Attrs::Metadata(); /// Arguments metadata. Optional. std::vector mArgs = std::vector(); /// Code properties metadata. Optional. CodeProps::Metadata mCodeProps = CodeProps::Metadata(); /// Debug properties metadata. Optional. DebugProps::Metadata mDebugProps = DebugProps::Metadata(); /// Default constructor. Metadata() = default; }; } // end namespace Kernel namespace Key { /// Key for HSA::Metadata::mVersion. constexpr char Version[] = "Version"; /// Key for HSA::Metadata::mPrintf. constexpr char Printf[] = "Printf"; /// Key for HSA::Metadata::mKernels. constexpr char Kernels[] = "Kernels"; } // end namespace Key /// In-memory representation of HSA metadata. struct Metadata final { /// HSA metadata version. Required. std::vector mVersion = std::vector(); /// Printf metadata. Optional. std::vector mPrintf = std::vector(); /// Kernels metadata. Required. std::vector mKernels = std::vector(); /// Default constructor. Metadata() = default; }; /// Converts \p String to \p HSAMetadata. std::error_code fromString(StringRef String, Metadata &HSAMetadata); /// Converts \p HSAMetadata to \p String. std::error_code toString(Metadata HSAMetadata, std::string &String); //===----------------------------------------------------------------------===// // HSA metadata for v3 code object. //===----------------------------------------------------------------------===// namespace V3 { /// HSA metadata major version. constexpr uint32_t VersionMajor = 1; /// HSA metadata minor version. constexpr uint32_t VersionMinor = 0; /// HSA metadata beginning assembler directive. constexpr char AssemblerDirectiveBegin[] = ".amdgpu_metadata"; /// HSA metadata ending assembler directive. constexpr char AssemblerDirectiveEnd[] = ".end_amdgpu_metadata"; } // end namespace V3 } // end namespace HSAMD //===----------------------------------------------------------------------===// // PAL metadata. //===----------------------------------------------------------------------===// namespace PALMD { /// PAL metadata (old linear format) assembler directive. constexpr char AssemblerDirective[] = ".amd_amdgpu_pal_metadata"; /// PAL metadata (new MsgPack format) beginning assembler directive. constexpr char AssemblerDirectiveBegin[] = ".amdgpu_pal_metadata"; /// PAL metadata (new MsgPack format) ending assembler directive. constexpr char AssemblerDirectiveEnd[] = ".end_amdgpu_pal_metadata"; /// PAL metadata keys. enum Key : uint32_t { R_2E12_COMPUTE_PGM_RSRC1 = 0x2e12, R_2D4A_SPI_SHADER_PGM_RSRC1_LS = 0x2d4a, R_2D0A_SPI_SHADER_PGM_RSRC1_HS = 0x2d0a, R_2CCA_SPI_SHADER_PGM_RSRC1_ES = 0x2cca, R_2C8A_SPI_SHADER_PGM_RSRC1_GS = 0x2c8a, R_2C4A_SPI_SHADER_PGM_RSRC1_VS = 0x2c4a, R_2C0A_SPI_SHADER_PGM_RSRC1_PS = 0x2c0a, R_2E00_COMPUTE_DISPATCH_INITIATOR = 0x2e00, R_A1B3_SPI_PS_INPUT_ENA = 0xa1b3, R_A1B4_SPI_PS_INPUT_ADDR = 0xa1b4, R_A1B6_SPI_PS_IN_CONTROL = 0xa1b6, R_A2D5_VGT_SHADER_STAGES_EN = 0xa2d5, LS_NUM_USED_VGPRS = 0x10000021, HS_NUM_USED_VGPRS = 0x10000022, ES_NUM_USED_VGPRS = 0x10000023, GS_NUM_USED_VGPRS = 0x10000024, VS_NUM_USED_VGPRS = 0x10000025, PS_NUM_USED_VGPRS = 0x10000026, CS_NUM_USED_VGPRS = 0x10000027, LS_NUM_USED_SGPRS = 0x10000028, HS_NUM_USED_SGPRS = 0x10000029, ES_NUM_USED_SGPRS = 0x1000002a, GS_NUM_USED_SGPRS = 0x1000002b, VS_NUM_USED_SGPRS = 0x1000002c, PS_NUM_USED_SGPRS = 0x1000002d, CS_NUM_USED_SGPRS = 0x1000002e, LS_SCRATCH_SIZE = 0x10000044, HS_SCRATCH_SIZE = 0x10000045, ES_SCRATCH_SIZE = 0x10000046, GS_SCRATCH_SIZE = 0x10000047, VS_SCRATCH_SIZE = 0x10000048, PS_SCRATCH_SIZE = 0x10000049, CS_SCRATCH_SIZE = 0x1000004a }; } // end namespace PALMD } // end namespace AMDGPU } // end namespace llvm #endif // LLVM_SUPPORT_AMDGPUMETADATA_H