//===-- AMDGPUDisassembler.cpp - Disassembler for AMDGPU ISA --------------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // //===----------------------------------------------------------------------===// // /// \file /// /// This file contains definition for AMDGPU ISA disassembler // //===----------------------------------------------------------------------===// // ToDo: What to do with instruction suffixes (v_mov_b32 vs v_mov_b32_e32)? #include "AMDGPUDisassembler.h" #include "AMDGPU.h" #include "AMDGPURegisterInfo.h" #include "SIDefines.h" #include "Utils/AMDGPUBaseInfo.h" #include "llvm/MC/MCContext.h" #include "llvm/MC/MCFixedLenDisassembler.h" #include "llvm/MC/MCInst.h" #include "llvm/MC/MCInstrDesc.h" #include "llvm/MC/MCSubtargetInfo.h" #include "llvm/Support/Endian.h" #include "llvm/Support/Debug.h" #include "llvm/Support/TargetRegistry.h" using namespace llvm; #define DEBUG_TYPE "amdgpu-disassembler" typedef llvm::MCDisassembler::DecodeStatus DecodeStatus; inline static MCDisassembler::DecodeStatus addOperand(MCInst &Inst, const MCOperand& Opnd) { Inst.addOperand(Opnd); return Opnd.isValid() ? MCDisassembler::Success : MCDisassembler::SoftFail; } #define DECODE_OPERAND2(RegClass, DecName) \ static DecodeStatus Decode##RegClass##RegisterClass(MCInst &Inst, \ unsigned Imm, \ uint64_t /*Addr*/, \ const void *Decoder) { \ auto DAsm = static_cast(Decoder); \ return addOperand(Inst, DAsm->decodeOperand_##DecName(Imm)); \ } #define DECODE_OPERAND(RegClass) DECODE_OPERAND2(RegClass, RegClass) DECODE_OPERAND(VGPR_32) DECODE_OPERAND(VS_32) DECODE_OPERAND(VS_64) DECODE_OPERAND(VReg_64) DECODE_OPERAND(VReg_96) DECODE_OPERAND(VReg_128) DECODE_OPERAND(SReg_32) DECODE_OPERAND(SReg_32_XM0) DECODE_OPERAND(SReg_64) DECODE_OPERAND(SReg_128) DECODE_OPERAND(SReg_256) DECODE_OPERAND(SReg_512) #define GET_SUBTARGETINFO_ENUM #include "AMDGPUGenSubtargetInfo.inc" #undef GET_SUBTARGETINFO_ENUM #include "AMDGPUGenDisassemblerTables.inc" //===----------------------------------------------------------------------===// // //===----------------------------------------------------------------------===// template static inline T eatBytes(ArrayRef& Bytes) { assert(Bytes.size() >= sizeof(T)); const auto Res = support::endian::read(Bytes.data()); Bytes = Bytes.slice(sizeof(T)); return Res; } DecodeStatus AMDGPUDisassembler::tryDecodeInst(const uint8_t* Table, MCInst &MI, uint64_t Inst, uint64_t Address) const { assert(MI.getOpcode() == 0); assert(MI.getNumOperands() == 0); MCInst TmpInst; const auto SavedBytes = Bytes; if (decodeInstruction(Table, TmpInst, Inst, Address, this, STI)) { MI = TmpInst; return MCDisassembler::Success; } Bytes = SavedBytes; return MCDisassembler::Fail; } DecodeStatus AMDGPUDisassembler::getInstruction(MCInst &MI, uint64_t &Size, ArrayRef Bytes_, uint64_t Address, raw_ostream &WS, raw_ostream &CS) const { CommentStream = &CS; // ToDo: AMDGPUDisassembler supports only VI ISA. assert(AMDGPU::isVI(STI) && "Can disassemble only VI ISA."); const unsigned MaxInstBytesNum = (std::min)((size_t)8, Bytes_.size()); Bytes = Bytes_.slice(0, MaxInstBytesNum); DecodeStatus Res = MCDisassembler::Fail; do { // ToDo: better to switch encoding length using some bit predicate // but it is unknown yet, so try all we can // Try to decode DPP and SDWA first to solve conflict with VOP1 and VOP2 // encodings if (Bytes.size() >= 8) { const uint64_t QW = eatBytes(Bytes); Res = tryDecodeInst(DecoderTableDPP64, MI, QW, Address); if (Res) break; Res = tryDecodeInst(DecoderTableSDWA64, MI, QW, Address); if (Res) break; } // Reinitialize Bytes as DPP64 could have eaten too much Bytes = Bytes_.slice(0, MaxInstBytesNum); // Try decode 32-bit instruction if (Bytes.size() < 4) break; const uint32_t DW = eatBytes(Bytes); Res = tryDecodeInst(DecoderTableVI32, MI, DW, Address); if (Res) break; Res = tryDecodeInst(DecoderTableAMDGPU32, MI, DW, Address); if (Res) break; if (Bytes.size() < 4) break; const uint64_t QW = ((uint64_t)eatBytes(Bytes) << 32) | DW; Res = tryDecodeInst(DecoderTableVI64, MI, QW, Address); if (Res) break; Res = tryDecodeInst(DecoderTableAMDGPU64, MI, QW, Address); } while (false); Size = Res ? (MaxInstBytesNum - Bytes.size()) : 0; return Res; } const char* AMDGPUDisassembler::getRegClassName(unsigned RegClassID) const { return getContext().getRegisterInfo()-> getRegClassName(&AMDGPUMCRegisterClasses[RegClassID]); } inline MCOperand AMDGPUDisassembler::errOperand(unsigned V, const Twine& ErrMsg) const { *CommentStream << "Error: " + ErrMsg; // ToDo: add support for error operands to MCInst.h // return MCOperand::createError(V); return MCOperand(); } inline MCOperand AMDGPUDisassembler::createRegOperand(unsigned int RegId) const { return MCOperand::createReg(RegId); } inline MCOperand AMDGPUDisassembler::createRegOperand(unsigned RegClassID, unsigned Val) const { const auto& RegCl = AMDGPUMCRegisterClasses[RegClassID]; if (Val >= RegCl.getNumRegs()) return errOperand(Val, Twine(getRegClassName(RegClassID)) + ": unknown register " + Twine(Val)); return createRegOperand(RegCl.getRegister(Val)); } inline MCOperand AMDGPUDisassembler::createSRegOperand(unsigned SRegClassID, unsigned Val) const { // ToDo: SI/CI have 104 SGPRs, VI - 102 // Valery: here we accepting as much as we can, let assembler sort it out int shift = 0; switch (SRegClassID) { case AMDGPU::SGPR_32RegClassID: case AMDGPU::TTMP_32RegClassID: break; case AMDGPU::SGPR_64RegClassID: case AMDGPU::TTMP_64RegClassID: shift = 1; break; case AMDGPU::SGPR_128RegClassID: case AMDGPU::TTMP_128RegClassID: // ToDo: unclear if s[100:104] is available on VI. Can we use VCC as SGPR in // this bundle? case AMDGPU::SReg_256RegClassID: // ToDo: unclear if s[96:104] is available on VI. Can we use VCC as SGPR in // this bundle? case AMDGPU::SReg_512RegClassID: shift = 2; break; // ToDo: unclear if s[88:104] is available on VI. Can we use VCC as SGPR in // this bundle? default: assert(false); break; } if (Val % (1 << shift)) *CommentStream << "Warning: " << getRegClassName(SRegClassID) << ": scalar reg isn't aligned " << Val; return createRegOperand(SRegClassID, Val >> shift); } MCOperand AMDGPUDisassembler::decodeOperand_VS_32(unsigned Val) const { return decodeSrcOp(OPW32, Val); } MCOperand AMDGPUDisassembler::decodeOperand_VS_64(unsigned Val) const { return decodeSrcOp(OPW64, Val); } MCOperand AMDGPUDisassembler::decodeOperand_VGPR_32(unsigned Val) const { return createRegOperand(AMDGPU::VGPR_32RegClassID, Val); } MCOperand AMDGPUDisassembler::decodeOperand_VReg_64(unsigned Val) const { return createRegOperand(AMDGPU::VReg_64RegClassID, Val); } MCOperand AMDGPUDisassembler::decodeOperand_VReg_96(unsigned Val) const { return createRegOperand(AMDGPU::VReg_96RegClassID, Val); } MCOperand AMDGPUDisassembler::decodeOperand_VReg_128(unsigned Val) const { return createRegOperand(AMDGPU::VReg_128RegClassID, Val); } MCOperand AMDGPUDisassembler::decodeOperand_SReg_32(unsigned Val) const { // table-gen generated disassembler doesn't care about operand types // leaving only registry class so SSrc_32 operand turns into SReg_32 // and therefore we accept immediates and literals here as well return decodeSrcOp(OPW32, Val); } MCOperand AMDGPUDisassembler::decodeOperand_SReg_32_XM0(unsigned Val) const { // SReg_32_XM0 is SReg_32 without M0 return decodeOperand_SReg_32(Val); } MCOperand AMDGPUDisassembler::decodeOperand_SReg_64(unsigned Val) const { // see decodeOperand_SReg_32 comment return decodeSrcOp(OPW64, Val); } MCOperand AMDGPUDisassembler::decodeOperand_SReg_128(unsigned Val) const { return decodeSrcOp(OPW128, Val); } MCOperand AMDGPUDisassembler::decodeOperand_SReg_256(unsigned Val) const { return createSRegOperand(AMDGPU::SReg_256RegClassID, Val); } MCOperand AMDGPUDisassembler::decodeOperand_SReg_512(unsigned Val) const { return createSRegOperand(AMDGPU::SReg_512RegClassID, Val); } MCOperand AMDGPUDisassembler::decodeLiteralConstant() const { // For now all literal constants are supposed to be unsigned integer // ToDo: deal with signed/unsigned 64-bit integer constants // ToDo: deal with float/double constants if (Bytes.size() < 4) return errOperand(0, "cannot read literal, inst bytes left " + Twine(Bytes.size())); return MCOperand::createImm(eatBytes(Bytes)); } MCOperand AMDGPUDisassembler::decodeIntImmed(unsigned Imm) { using namespace AMDGPU::EncValues; assert(Imm >= INLINE_INTEGER_C_MIN && Imm <= INLINE_INTEGER_C_MAX); return MCOperand::createImm((Imm <= INLINE_INTEGER_C_POSITIVE_MAX) ? (static_cast(Imm) - INLINE_INTEGER_C_MIN) : (INLINE_INTEGER_C_POSITIVE_MAX - static_cast(Imm))); // Cast prevents negative overflow. } MCOperand AMDGPUDisassembler::decodeFPImmed(bool Is32, unsigned Imm) { assert(Imm >= AMDGPU::EncValues::INLINE_FLOATING_C_MIN && Imm <= AMDGPU::EncValues::INLINE_FLOATING_C_MAX); // ToDo: case 248: 1/(2*PI) - is allowed only on VI // ToDo: AMDGPUInstPrinter does not support 1/(2*PI). It consider 1/(2*PI) as // literal constant. float V = 0.0f; switch (Imm) { case 240: V = 0.5f; break; case 241: V = -0.5f; break; case 242: V = 1.0f; break; case 243: V = -1.0f; break; case 244: V = 2.0f; break; case 245: V = -2.0f; break; case 246: V = 4.0f; break; case 247: V = -4.0f; break; case 248: return MCOperand::createImm(Is32 ? // 1/(2*PI) 0x3e22f983 : 0x3fc45f306dc9c882); default: break; } return MCOperand::createImm(Is32? FloatToBits(V) : DoubleToBits(V)); } unsigned AMDGPUDisassembler::getVgprClassId(const OpWidthTy Width) const { using namespace AMDGPU; assert(OPW_FIRST_ <= Width && Width < OPW_LAST_); switch (Width) { default: // fall case OPW32: return VGPR_32RegClassID; case OPW64: return VReg_64RegClassID; case OPW128: return VReg_128RegClassID; } } unsigned AMDGPUDisassembler::getSgprClassId(const OpWidthTy Width) const { using namespace AMDGPU; assert(OPW_FIRST_ <= Width && Width < OPW_LAST_); switch (Width) { default: // fall case OPW32: return SGPR_32RegClassID; case OPW64: return SGPR_64RegClassID; case OPW128: return SGPR_128RegClassID; } } unsigned AMDGPUDisassembler::getTtmpClassId(const OpWidthTy Width) const { using namespace AMDGPU; assert(OPW_FIRST_ <= Width && Width < OPW_LAST_); switch (Width) { default: // fall case OPW32: return TTMP_32RegClassID; case OPW64: return TTMP_64RegClassID; case OPW128: return TTMP_128RegClassID; } } MCOperand AMDGPUDisassembler::decodeSrcOp(const OpWidthTy Width, unsigned Val) const { using namespace AMDGPU::EncValues; assert(Val < 512); // enum9 if (VGPR_MIN <= Val && Val <= VGPR_MAX) { return createRegOperand(getVgprClassId(Width), Val - VGPR_MIN); } if (Val <= SGPR_MAX) { assert(SGPR_MIN == 0); // "SGPR_MIN <= Val" is always true and causes compilation warning. return createSRegOperand(getSgprClassId(Width), Val - SGPR_MIN); } if (TTMP_MIN <= Val && Val <= TTMP_MAX) { return createSRegOperand(getTtmpClassId(Width), Val - TTMP_MIN); } assert(Width == OPW32 || Width == OPW64); const bool Is32 = (Width == OPW32); if (INLINE_INTEGER_C_MIN <= Val && Val <= INLINE_INTEGER_C_MAX) return decodeIntImmed(Val); if (INLINE_FLOATING_C_MIN <= Val && Val <= INLINE_FLOATING_C_MAX) return decodeFPImmed(Is32, Val); if (Val == LITERAL_CONST) return decodeLiteralConstant(); return Is32 ? decodeSpecialReg32(Val) : decodeSpecialReg64(Val); } MCOperand AMDGPUDisassembler::decodeSpecialReg32(unsigned Val) const { using namespace AMDGPU; switch (Val) { case 102: return createRegOperand(getMCReg(FLAT_SCR_LO, STI)); case 103: return createRegOperand(getMCReg(FLAT_SCR_HI, STI)); // ToDo: no support for xnack_mask_lo/_hi register case 104: case 105: break; case 106: return createRegOperand(VCC_LO); case 107: return createRegOperand(VCC_HI); case 108: return createRegOperand(TBA_LO); case 109: return createRegOperand(TBA_HI); case 110: return createRegOperand(TMA_LO); case 111: return createRegOperand(TMA_HI); case 124: return createRegOperand(M0); case 126: return createRegOperand(EXEC_LO); case 127: return createRegOperand(EXEC_HI); // ToDo: no support for vccz register case 251: break; // ToDo: no support for execz register case 252: break; case 253: return createRegOperand(SCC); default: break; } return errOperand(Val, "unknown operand encoding " + Twine(Val)); } MCOperand AMDGPUDisassembler::decodeSpecialReg64(unsigned Val) const { using namespace AMDGPU; switch (Val) { case 102: return createRegOperand(getMCReg(FLAT_SCR, STI)); case 106: return createRegOperand(VCC); case 108: return createRegOperand(TBA); case 110: return createRegOperand(TMA); case 126: return createRegOperand(EXEC); default: break; } return errOperand(Val, "unknown operand encoding " + Twine(Val)); } static MCDisassembler *createAMDGPUDisassembler(const Target &T, const MCSubtargetInfo &STI, MCContext &Ctx) { return new AMDGPUDisassembler(STI, Ctx); } extern "C" void LLVMInitializeAMDGPUDisassembler() { TargetRegistry::RegisterMCDisassembler(TheGCNTarget, createAMDGPUDisassembler); }