//==- WebAssemblyMCTargetDesc.h - WebAssembly Target Descriptions -*- 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 /// This file provides WebAssembly-specific target descriptions. /// //===----------------------------------------------------------------------===// #ifndef LLVM_LIB_TARGET_WEBASSEMBLY_MCTARGETDESC_WEBASSEMBLYMCTARGETDESC_H #define LLVM_LIB_TARGET_WEBASSEMBLY_MCTARGETDESC_WEBASSEMBLYMCTARGETDESC_H #include "../WebAssemblySubtarget.h" #include "llvm/BinaryFormat/Wasm.h" #include "llvm/MC/MCInstrDesc.h" #include "llvm/Support/DataTypes.h" #include namespace llvm { class MCAsmBackend; class MCCodeEmitter; class MCInstrInfo; class MCObjectTargetWriter; class MVT; class Triple; MCCodeEmitter *createWebAssemblyMCCodeEmitter(const MCInstrInfo &MCII); MCAsmBackend *createWebAssemblyAsmBackend(const Triple &TT); std::unique_ptr createWebAssemblyWasmObjectWriter(bool Is64Bit, bool IsEmscripten); namespace WebAssembly { enum OperandType { /// Basic block label in a branch construct. OPERAND_BASIC_BLOCK = MCOI::OPERAND_FIRST_TARGET, /// Local index. OPERAND_LOCAL, /// Global index. OPERAND_GLOBAL, /// 32-bit integer immediates. OPERAND_I32IMM, /// 64-bit integer immediates. OPERAND_I64IMM, /// 32-bit floating-point immediates. OPERAND_F32IMM, /// 64-bit floating-point immediates. OPERAND_F64IMM, /// 8-bit vector lane immediate OPERAND_VEC_I8IMM, /// 16-bit vector lane immediate OPERAND_VEC_I16IMM, /// 32-bit vector lane immediate OPERAND_VEC_I32IMM, /// 64-bit vector lane immediate OPERAND_VEC_I64IMM, /// 32-bit unsigned function indices. OPERAND_FUNCTION32, /// 32-bit unsigned memory offsets. OPERAND_OFFSET32, /// 64-bit unsigned memory offsets. OPERAND_OFFSET64, /// p2align immediate for load and store address alignment. OPERAND_P2ALIGN, /// signature immediate for block/loop. OPERAND_SIGNATURE, /// type signature immediate for call_indirect. OPERAND_TYPEINDEX, /// Tag index. OPERAND_TAG, /// A list of branch targets for br_list. OPERAND_BRLIST, /// 32-bit unsigned table number. OPERAND_TABLE, /// heap type immediate for ref.null. OPERAND_HEAPTYPE, }; } // end namespace WebAssembly namespace WebAssemblyII { /// Target Operand Flag enum. enum TOF { MO_NO_FLAG = 0, // On a symbol operand this indicates that the immediate is a wasm global // index. The value of the wasm global will be set to the symbol address at // runtime. This adds a level of indirection similar to the GOT on native // platforms. MO_GOT, // On a symbol operand this indicates that the immediate is the symbol // address relative the __memory_base wasm global. // Only applicable to data symbols. MO_MEMORY_BASE_REL, // On a symbol operand this indicates that the immediate is the symbol // address relative the __tls_base wasm global. // Only applicable to data symbols. MO_TLS_BASE_REL, // On a symbol operand this indicates that the immediate is the symbol // address relative the __table_base wasm global. // Only applicable to function symbols. MO_TABLE_BASE_REL, }; } // end namespace WebAssemblyII } // end namespace llvm // Defines symbolic names for WebAssembly registers. This defines a mapping from // register name to register number. // #define GET_REGINFO_ENUM #include "WebAssemblyGenRegisterInfo.inc" // Defines symbolic names for the WebAssembly instructions. // #define GET_INSTRINFO_ENUM #include "WebAssemblyGenInstrInfo.inc" namespace llvm { namespace WebAssembly { /// Instruction opcodes emitted via means other than CodeGen. static const unsigned Nop = 0x01; static const unsigned End = 0x0b; /// Return the default p2align value for a load or store with the given opcode. inline unsigned GetDefaultP2AlignAny(unsigned Opc) { switch (Opc) { #define WASM_LOAD_STORE(NAME) \ case WebAssembly::NAME##_A32: \ case WebAssembly::NAME##_A64: \ case WebAssembly::NAME##_A32_S: \ case WebAssembly::NAME##_A64_S: WASM_LOAD_STORE(LOAD8_S_I32) WASM_LOAD_STORE(LOAD8_U_I32) WASM_LOAD_STORE(LOAD8_S_I64) WASM_LOAD_STORE(LOAD8_U_I64) WASM_LOAD_STORE(ATOMIC_LOAD8_U_I32) WASM_LOAD_STORE(ATOMIC_LOAD8_U_I64) WASM_LOAD_STORE(STORE8_I32) WASM_LOAD_STORE(STORE8_I64) WASM_LOAD_STORE(ATOMIC_STORE8_I32) WASM_LOAD_STORE(ATOMIC_STORE8_I64) WASM_LOAD_STORE(ATOMIC_RMW8_U_ADD_I32) WASM_LOAD_STORE(ATOMIC_RMW8_U_ADD_I64) WASM_LOAD_STORE(ATOMIC_RMW8_U_SUB_I32) WASM_LOAD_STORE(ATOMIC_RMW8_U_SUB_I64) WASM_LOAD_STORE(ATOMIC_RMW8_U_AND_I32) WASM_LOAD_STORE(ATOMIC_RMW8_U_AND_I64) WASM_LOAD_STORE(ATOMIC_RMW8_U_OR_I32) WASM_LOAD_STORE(ATOMIC_RMW8_U_OR_I64) WASM_LOAD_STORE(ATOMIC_RMW8_U_XOR_I32) WASM_LOAD_STORE(ATOMIC_RMW8_U_XOR_I64) WASM_LOAD_STORE(ATOMIC_RMW8_U_XCHG_I32) WASM_LOAD_STORE(ATOMIC_RMW8_U_XCHG_I64) WASM_LOAD_STORE(ATOMIC_RMW8_U_CMPXCHG_I32) WASM_LOAD_STORE(ATOMIC_RMW8_U_CMPXCHG_I64) WASM_LOAD_STORE(LOAD8_SPLAT) WASM_LOAD_STORE(LOAD_LANE_I8x16) WASM_LOAD_STORE(STORE_LANE_I8x16) return 0; WASM_LOAD_STORE(LOAD16_S_I32) WASM_LOAD_STORE(LOAD16_U_I32) WASM_LOAD_STORE(LOAD16_S_I64) WASM_LOAD_STORE(LOAD16_U_I64) WASM_LOAD_STORE(ATOMIC_LOAD16_U_I32) WASM_LOAD_STORE(ATOMIC_LOAD16_U_I64) WASM_LOAD_STORE(STORE16_I32) WASM_LOAD_STORE(STORE16_I64) WASM_LOAD_STORE(ATOMIC_STORE16_I32) WASM_LOAD_STORE(ATOMIC_STORE16_I64) WASM_LOAD_STORE(ATOMIC_RMW16_U_ADD_I32) WASM_LOAD_STORE(ATOMIC_RMW16_U_ADD_I64) WASM_LOAD_STORE(ATOMIC_RMW16_U_SUB_I32) WASM_LOAD_STORE(ATOMIC_RMW16_U_SUB_I64) WASM_LOAD_STORE(ATOMIC_RMW16_U_AND_I32) WASM_LOAD_STORE(ATOMIC_RMW16_U_AND_I64) WASM_LOAD_STORE(ATOMIC_RMW16_U_OR_I32) WASM_LOAD_STORE(ATOMIC_RMW16_U_OR_I64) WASM_LOAD_STORE(ATOMIC_RMW16_U_XOR_I32) WASM_LOAD_STORE(ATOMIC_RMW16_U_XOR_I64) WASM_LOAD_STORE(ATOMIC_RMW16_U_XCHG_I32) WASM_LOAD_STORE(ATOMIC_RMW16_U_XCHG_I64) WASM_LOAD_STORE(ATOMIC_RMW16_U_CMPXCHG_I32) WASM_LOAD_STORE(ATOMIC_RMW16_U_CMPXCHG_I64) WASM_LOAD_STORE(LOAD16_SPLAT) WASM_LOAD_STORE(LOAD_LANE_I16x8) WASM_LOAD_STORE(STORE_LANE_I16x8) return 1; WASM_LOAD_STORE(LOAD_I32) WASM_LOAD_STORE(LOAD_F32) WASM_LOAD_STORE(STORE_I32) WASM_LOAD_STORE(STORE_F32) WASM_LOAD_STORE(LOAD32_S_I64) WASM_LOAD_STORE(LOAD32_U_I64) WASM_LOAD_STORE(STORE32_I64) WASM_LOAD_STORE(ATOMIC_LOAD_I32) WASM_LOAD_STORE(ATOMIC_LOAD32_U_I64) WASM_LOAD_STORE(ATOMIC_STORE_I32) WASM_LOAD_STORE(ATOMIC_STORE32_I64) WASM_LOAD_STORE(ATOMIC_RMW_ADD_I32) WASM_LOAD_STORE(ATOMIC_RMW32_U_ADD_I64) WASM_LOAD_STORE(ATOMIC_RMW_SUB_I32) WASM_LOAD_STORE(ATOMIC_RMW32_U_SUB_I64) WASM_LOAD_STORE(ATOMIC_RMW_AND_I32) WASM_LOAD_STORE(ATOMIC_RMW32_U_AND_I64) WASM_LOAD_STORE(ATOMIC_RMW_OR_I32) WASM_LOAD_STORE(ATOMIC_RMW32_U_OR_I64) WASM_LOAD_STORE(ATOMIC_RMW_XOR_I32) WASM_LOAD_STORE(ATOMIC_RMW32_U_XOR_I64) WASM_LOAD_STORE(ATOMIC_RMW_XCHG_I32) WASM_LOAD_STORE(ATOMIC_RMW32_U_XCHG_I64) WASM_LOAD_STORE(ATOMIC_RMW_CMPXCHG_I32) WASM_LOAD_STORE(ATOMIC_RMW32_U_CMPXCHG_I64) WASM_LOAD_STORE(MEMORY_ATOMIC_NOTIFY) WASM_LOAD_STORE(MEMORY_ATOMIC_WAIT32) WASM_LOAD_STORE(LOAD32_SPLAT) WASM_LOAD_STORE(LOAD_ZERO_I32x4) WASM_LOAD_STORE(LOAD_LANE_I32x4) WASM_LOAD_STORE(STORE_LANE_I32x4) return 2; WASM_LOAD_STORE(LOAD_I64) WASM_LOAD_STORE(LOAD_F64) WASM_LOAD_STORE(STORE_I64) WASM_LOAD_STORE(STORE_F64) WASM_LOAD_STORE(ATOMIC_LOAD_I64) WASM_LOAD_STORE(ATOMIC_STORE_I64) WASM_LOAD_STORE(ATOMIC_RMW_ADD_I64) WASM_LOAD_STORE(ATOMIC_RMW_SUB_I64) WASM_LOAD_STORE(ATOMIC_RMW_AND_I64) WASM_LOAD_STORE(ATOMIC_RMW_OR_I64) WASM_LOAD_STORE(ATOMIC_RMW_XOR_I64) WASM_LOAD_STORE(ATOMIC_RMW_XCHG_I64) WASM_LOAD_STORE(ATOMIC_RMW_CMPXCHG_I64) WASM_LOAD_STORE(MEMORY_ATOMIC_WAIT64) WASM_LOAD_STORE(LOAD64_SPLAT) WASM_LOAD_STORE(LOAD_EXTEND_S_I16x8) WASM_LOAD_STORE(LOAD_EXTEND_U_I16x8) WASM_LOAD_STORE(LOAD_EXTEND_S_I32x4) WASM_LOAD_STORE(LOAD_EXTEND_U_I32x4) WASM_LOAD_STORE(LOAD_EXTEND_S_I64x2) WASM_LOAD_STORE(LOAD_EXTEND_U_I64x2) WASM_LOAD_STORE(LOAD_ZERO_I64x2) WASM_LOAD_STORE(LOAD_LANE_I64x2) WASM_LOAD_STORE(STORE_LANE_I64x2) return 3; WASM_LOAD_STORE(LOAD_V128) WASM_LOAD_STORE(STORE_V128) return 4; default: return -1; } #undef WASM_LOAD_STORE } inline unsigned GetDefaultP2Align(unsigned Opc) { auto Align = GetDefaultP2AlignAny(Opc); if (Align == -1U) { llvm_unreachable("Only loads and stores have p2align values"); } return Align; } inline bool isArgument(unsigned Opc) { switch (Opc) { case WebAssembly::ARGUMENT_i32: case WebAssembly::ARGUMENT_i32_S: case WebAssembly::ARGUMENT_i64: case WebAssembly::ARGUMENT_i64_S: case WebAssembly::ARGUMENT_f32: case WebAssembly::ARGUMENT_f32_S: case WebAssembly::ARGUMENT_f64: case WebAssembly::ARGUMENT_f64_S: case WebAssembly::ARGUMENT_v16i8: case WebAssembly::ARGUMENT_v16i8_S: case WebAssembly::ARGUMENT_v8i16: case WebAssembly::ARGUMENT_v8i16_S: case WebAssembly::ARGUMENT_v4i32: case WebAssembly::ARGUMENT_v4i32_S: case WebAssembly::ARGUMENT_v2i64: case WebAssembly::ARGUMENT_v2i64_S: case WebAssembly::ARGUMENT_v4f32: case WebAssembly::ARGUMENT_v4f32_S: case WebAssembly::ARGUMENT_v2f64: case WebAssembly::ARGUMENT_v2f64_S: case WebAssembly::ARGUMENT_funcref: case WebAssembly::ARGUMENT_funcref_S: case WebAssembly::ARGUMENT_externref: case WebAssembly::ARGUMENT_externref_S: return true; default: return false; } } inline bool isCopy(unsigned Opc) { switch (Opc) { case WebAssembly::COPY_I32: case WebAssembly::COPY_I32_S: case WebAssembly::COPY_I64: case WebAssembly::COPY_I64_S: case WebAssembly::COPY_F32: case WebAssembly::COPY_F32_S: case WebAssembly::COPY_F64: case WebAssembly::COPY_F64_S: case WebAssembly::COPY_V128: case WebAssembly::COPY_V128_S: case WebAssembly::COPY_FUNCREF: case WebAssembly::COPY_FUNCREF_S: case WebAssembly::COPY_EXTERNREF: case WebAssembly::COPY_EXTERNREF_S: return true; default: return false; } } inline bool isTee(unsigned Opc) { switch (Opc) { case WebAssembly::TEE_I32: case WebAssembly::TEE_I32_S: case WebAssembly::TEE_I64: case WebAssembly::TEE_I64_S: case WebAssembly::TEE_F32: case WebAssembly::TEE_F32_S: case WebAssembly::TEE_F64: case WebAssembly::TEE_F64_S: case WebAssembly::TEE_V128: case WebAssembly::TEE_V128_S: case WebAssembly::TEE_FUNCREF: case WebAssembly::TEE_FUNCREF_S: case WebAssembly::TEE_EXTERNREF: case WebAssembly::TEE_EXTERNREF_S: return true; default: return false; } } inline bool isCallDirect(unsigned Opc) { switch (Opc) { case WebAssembly::CALL: case WebAssembly::CALL_S: case WebAssembly::RET_CALL: case WebAssembly::RET_CALL_S: return true; default: return false; } } inline bool isCallIndirect(unsigned Opc) { switch (Opc) { case WebAssembly::CALL_INDIRECT: case WebAssembly::CALL_INDIRECT_S: case WebAssembly::RET_CALL_INDIRECT: case WebAssembly::RET_CALL_INDIRECT_S: return true; default: return false; } } inline bool isBrTable(const MachineInstr &MI) { switch (MI.getOpcode()) { case WebAssembly::BR_TABLE_I32: case WebAssembly::BR_TABLE_I32_S: case WebAssembly::BR_TABLE_I64: case WebAssembly::BR_TABLE_I64_S: return true; default: return false; } } inline bool isMarker(unsigned Opc) { switch (Opc) { case WebAssembly::BLOCK: case WebAssembly::BLOCK_S: case WebAssembly::END_BLOCK: case WebAssembly::END_BLOCK_S: case WebAssembly::LOOP: case WebAssembly::LOOP_S: case WebAssembly::END_LOOP: case WebAssembly::END_LOOP_S: case WebAssembly::TRY: case WebAssembly::TRY_S: case WebAssembly::END_TRY: case WebAssembly::END_TRY_S: return true; default: return false; } } inline bool isCatch(unsigned Opc) { switch (Opc) { case WebAssembly::CATCH: case WebAssembly::CATCH_S: case WebAssembly::CATCH_ALL: case WebAssembly::CATCH_ALL_S: return true; default: return false; } } } // end namespace WebAssembly } // end namespace llvm #endif