// Copyright 2015 the V8 project authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "src/wasm/wasm-opcodes.h" #include #include "src/base/template-utils.h" #include "src/messages.h" #include "src/runtime/runtime.h" #include "src/signature.h" namespace v8 { namespace internal { namespace wasm { #define CASE_OP(name, str) \ case kExpr##name: \ return str; #define CASE_I32_OP(name, str) CASE_OP(I32##name, "i32." str) #define CASE_I64_OP(name, str) CASE_OP(I64##name, "i64." str) #define CASE_F32_OP(name, str) CASE_OP(F32##name, "f32." str) #define CASE_F64_OP(name, str) CASE_OP(F64##name, "f64." str) #define CASE_F32x4_OP(name, str) CASE_OP(F32x4##name, "f32x4." str) #define CASE_I32x4_OP(name, str) CASE_OP(I32x4##name, "i32x4." str) #define CASE_I16x8_OP(name, str) CASE_OP(I16x8##name, "i16x8." str) #define CASE_I8x16_OP(name, str) CASE_OP(I8x16##name, "i8x16." str) #define CASE_S128_OP(name, str) CASE_OP(S128##name, "s128." str) #define CASE_S32x4_OP(name, str) CASE_OP(S32x4##name, "s32x4." str) #define CASE_S16x8_OP(name, str) CASE_OP(S16x8##name, "s16x8." str) #define CASE_S8x16_OP(name, str) CASE_OP(S8x16##name, "s8x16." str) #define CASE_S1x4_OP(name, str) CASE_OP(S1x4##name, "s1x4." str) #define CASE_S1x8_OP(name, str) CASE_OP(S1x8##name, "s1x8." str) #define CASE_S1x16_OP(name, str) CASE_OP(S1x16##name, "s1x16." str) #define CASE_INT_OP(name, str) CASE_I32_OP(name, str) CASE_I64_OP(name, str) #define CASE_FLOAT_OP(name, str) CASE_F32_OP(name, str) CASE_F64_OP(name, str) #define CASE_ALL_OP(name, str) CASE_FLOAT_OP(name, str) CASE_INT_OP(name, str) #define CASE_SIMD_OP(name, str) \ CASE_F32x4_OP(name, str) CASE_I32x4_OP(name, str) CASE_I16x8_OP(name, str) \ CASE_I8x16_OP(name, str) #define CASE_SIMDI_OP(name, str) \ CASE_I32x4_OP(name, str) CASE_I16x8_OP(name, str) CASE_I8x16_OP(name, str) #define CASE_SIGN_OP(TYPE, name, str) \ CASE_##TYPE##_OP(name##S, str "_s") CASE_##TYPE##_OP(name##U, str "_u") #define CASE_UNSIGNED_OP(TYPE, name, str) CASE_##TYPE##_OP(name##U, str "_u") #define CASE_ALL_SIGN_OP(name, str) \ CASE_FLOAT_OP(name, str) CASE_SIGN_OP(INT, name, str) #define CASE_CONVERT_OP(name, RES, SRC, src_suffix, str) \ CASE_##RES##_OP(U##name##SRC, str "_u/" src_suffix) \ CASE_##RES##_OP(S##name##SRC, str "_s/" src_suffix) #define CASE_CONVERT_SAT_OP(name, RES, SRC, src_suffix, str) \ CASE_##RES##_OP(U##name##Sat##SRC, str "_u:sat/" src_suffix) \ CASE_##RES##_OP(S##name##Sat##SRC, str "_s:sat/" src_suffix) #define CASE_L32_OP(name, str) \ CASE_SIGN_OP(I32, name##8, str "8") \ CASE_SIGN_OP(I32, name##16, str "16") \ CASE_I32_OP(name, str "32") #define CASE_U32_OP(name, str) \ CASE_I32_OP(name, str "32") \ CASE_UNSIGNED_OP(I32, name##8, str "8") \ CASE_UNSIGNED_OP(I32, name##16, str "16") const char* WasmOpcodes::OpcodeName(WasmOpcode opcode) { switch (opcode) { // clang-format off // Standard opcodes CASE_INT_OP(Eqz, "eqz") CASE_ALL_OP(Eq, "eq") CASE_ALL_OP(Ne, "ne") CASE_ALL_OP(Add, "add") CASE_ALL_OP(Sub, "sub") CASE_ALL_OP(Mul, "mul") CASE_ALL_SIGN_OP(Lt, "lt") CASE_ALL_SIGN_OP(Gt, "gt") CASE_ALL_SIGN_OP(Le, "le") CASE_ALL_SIGN_OP(Ge, "ge") CASE_INT_OP(Clz, "clz") CASE_INT_OP(Ctz, "ctz") CASE_INT_OP(Popcnt, "popcnt") CASE_ALL_SIGN_OP(Div, "div") CASE_SIGN_OP(INT, Rem, "rem") CASE_INT_OP(And, "and") CASE_INT_OP(Ior, "or") CASE_INT_OP(Xor, "xor") CASE_INT_OP(Shl, "shl") CASE_SIGN_OP(INT, Shr, "shr") CASE_INT_OP(Rol, "rol") CASE_INT_OP(Ror, "ror") CASE_FLOAT_OP(Abs, "abs") CASE_FLOAT_OP(Neg, "neg") CASE_FLOAT_OP(Ceil, "ceil") CASE_FLOAT_OP(Floor, "floor") CASE_FLOAT_OP(Trunc, "trunc") CASE_FLOAT_OP(NearestInt, "nearest") CASE_FLOAT_OP(Sqrt, "sqrt") CASE_FLOAT_OP(Min, "min") CASE_FLOAT_OP(Max, "max") CASE_FLOAT_OP(CopySign, "copysign") CASE_I32_OP(ConvertI64, "wrap/i64") CASE_CONVERT_OP(Convert, INT, F32, "f32", "trunc") CASE_CONVERT_OP(Convert, INT, F64, "f64", "trunc") // TODO(kschimpf): Add I64 versions of saturating conversions. CASE_CONVERT_SAT_OP(Convert, I32, F32, "f32", "trunc") CASE_CONVERT_SAT_OP(Convert, I32, F64, "f64", "trunc") CASE_CONVERT_OP(Convert, I64, I32, "i32", "extend") CASE_CONVERT_OP(Convert, F32, I32, "i32", "convert") CASE_CONVERT_OP(Convert, F32, I64, "i64", "convert") CASE_F32_OP(ConvertF64, "demote/f64") CASE_CONVERT_OP(Convert, F64, I32, "i32", "convert") CASE_CONVERT_OP(Convert, F64, I64, "i64", "convert") CASE_F64_OP(ConvertF32, "promote/f32") CASE_I32_OP(ReinterpretF32, "reinterpret/f32") CASE_I64_OP(ReinterpretF64, "reinterpret/f64") CASE_F32_OP(ReinterpretI32, "reinterpret/i32") CASE_F64_OP(ReinterpretI64, "reinterpret/i64") CASE_OP(Unreachable, "unreachable") CASE_OP(Nop, "nop") CASE_OP(Block, "block") CASE_OP(Loop, "loop") CASE_OP(If, "if") CASE_OP(Else, "else") CASE_OP(End, "end") CASE_OP(Br, "br") CASE_OP(BrIf, "br_if") CASE_OP(BrTable, "br_table") CASE_OP(Return, "return") CASE_OP(CallFunction, "call") CASE_OP(CallIndirect, "call_indirect") CASE_OP(Drop, "drop") CASE_OP(Select, "select") CASE_OP(GetLocal, "get_local") CASE_OP(SetLocal, "set_local") CASE_OP(TeeLocal, "tee_local") CASE_OP(GetGlobal, "get_global") CASE_OP(SetGlobal, "set_global") CASE_ALL_OP(Const, "const") CASE_OP(MemorySize, "current_memory") CASE_OP(GrowMemory, "grow_memory") CASE_ALL_OP(LoadMem, "load") CASE_SIGN_OP(INT, LoadMem8, "load8") CASE_SIGN_OP(INT, LoadMem16, "load16") CASE_SIGN_OP(I64, LoadMem32, "load32") CASE_S128_OP(LoadMem, "load128") CASE_ALL_OP(StoreMem, "store") CASE_INT_OP(StoreMem8, "store8") CASE_INT_OP(StoreMem16, "store16") CASE_I64_OP(StoreMem32, "store32") CASE_S128_OP(StoreMem, "store128") // Non-standard opcodes. CASE_OP(Try, "try") CASE_OP(Throw, "throw") CASE_OP(Rethrow, "rethrow") CASE_OP(Catch, "catch") CASE_OP(CatchAll, "catch_all") // asm.js-only opcodes. CASE_F64_OP(Acos, "acos") CASE_F64_OP(Asin, "asin") CASE_F64_OP(Atan, "atan") CASE_F64_OP(Cos, "cos") CASE_F64_OP(Sin, "sin") CASE_F64_OP(Tan, "tan") CASE_F64_OP(Exp, "exp") CASE_F64_OP(Log, "log") CASE_F64_OP(Atan2, "atan2") CASE_F64_OP(Pow, "pow") CASE_F64_OP(Mod, "mod") CASE_F32_OP(AsmjsLoadMem, "asmjs_load") CASE_F64_OP(AsmjsLoadMem, "asmjs_load") CASE_L32_OP(AsmjsLoadMem, "asmjs_load") CASE_I32_OP(AsmjsStoreMem, "asmjs_store") CASE_F32_OP(AsmjsStoreMem, "asmjs_store") CASE_F64_OP(AsmjsStoreMem, "asmjs_store") CASE_I32_OP(AsmjsStoreMem8, "asmjs_store8") CASE_I32_OP(AsmjsStoreMem16, "asmjs_store16") CASE_SIGN_OP(I32, AsmjsDiv, "asmjs_div") CASE_SIGN_OP(I32, AsmjsRem, "asmjs_rem") CASE_I32_OP(AsmjsSConvertF32, "asmjs_convert_s/f32") CASE_I32_OP(AsmjsUConvertF32, "asmjs_convert_u/f32") CASE_I32_OP(AsmjsSConvertF64, "asmjs_convert_s/f64") CASE_I32_OP(AsmjsUConvertF64, "asmjs_convert_u/f64") // SIMD opcodes. CASE_SIMD_OP(Splat, "splat") CASE_SIMD_OP(Neg, "neg") CASE_SIMD_OP(Eq, "eq") CASE_SIMD_OP(Ne, "ne") CASE_SIMD_OP(Add, "add") CASE_SIMD_OP(Sub, "sub") CASE_SIMD_OP(Mul, "mul") CASE_F32x4_OP(Abs, "abs") CASE_F32x4_OP(AddHoriz, "add_horizontal") CASE_F32x4_OP(RecipApprox, "recip_approx") CASE_F32x4_OP(RecipSqrtApprox, "recip_sqrt_approx") CASE_F32x4_OP(Min, "min") CASE_F32x4_OP(Max, "max") CASE_F32x4_OP(Lt, "lt") CASE_F32x4_OP(Le, "le") CASE_F32x4_OP(Gt, "gt") CASE_F32x4_OP(Ge, "ge") CASE_CONVERT_OP(Convert, F32x4, I32x4, "i32", "convert") CASE_CONVERT_OP(Convert, I32x4, F32x4, "f32", "convert") CASE_CONVERT_OP(Convert, I32x4, I16x8Low, "i32", "convert") CASE_CONVERT_OP(Convert, I32x4, I16x8High, "i32", "convert") CASE_CONVERT_OP(Convert, I16x8, I32x4, "i32", "convert") CASE_CONVERT_OP(Convert, I16x8, I8x16Low, "i32", "convert") CASE_CONVERT_OP(Convert, I16x8, I8x16High, "i32", "convert") CASE_CONVERT_OP(Convert, I8x16, I16x8, "i32", "convert") CASE_F32x4_OP(ExtractLane, "extract_lane") CASE_F32x4_OP(ReplaceLane, "replace_lane") CASE_SIMDI_OP(ExtractLane, "extract_lane") CASE_SIMDI_OP(ReplaceLane, "replace_lane") CASE_SIGN_OP(SIMDI, Min, "min") CASE_SIGN_OP(SIMDI, Max, "max") CASE_SIGN_OP(SIMDI, Lt, "lt") CASE_SIGN_OP(SIMDI, Le, "le") CASE_SIGN_OP(SIMDI, Gt, "gt") CASE_SIGN_OP(SIMDI, Ge, "ge") CASE_SIGN_OP(SIMDI, Shr, "shr") CASE_SIMDI_OP(Shl, "shl") CASE_I32x4_OP(AddHoriz, "add_horizontal") CASE_I16x8_OP(AddHoriz, "add_horizontal") CASE_SIGN_OP(I16x8, AddSaturate, "add_saturate") CASE_SIGN_OP(I8x16, AddSaturate, "add_saturate") CASE_SIGN_OP(I16x8, SubSaturate, "sub_saturate") CASE_SIGN_OP(I8x16, SubSaturate, "sub_saturate") CASE_S128_OP(And, "and") CASE_S128_OP(Or, "or") CASE_S128_OP(Xor, "xor") CASE_S128_OP(Not, "not") CASE_S128_OP(Select, "select") CASE_S8x16_OP(Shuffle, "shuffle") CASE_S1x4_OP(AnyTrue, "any_true") CASE_S1x4_OP(AllTrue, "all_true") CASE_S1x8_OP(AnyTrue, "any_true") CASE_S1x8_OP(AllTrue, "all_true") CASE_S1x16_OP(AnyTrue, "any_true") CASE_S1x16_OP(AllTrue, "all_true") // Atomic operations. CASE_U32_OP(AtomicLoad, "atomic_load") CASE_U32_OP(AtomicStore, "atomic_store") CASE_U32_OP(AtomicAdd, "atomic_add") CASE_U32_OP(AtomicSub, "atomic_sub") CASE_U32_OP(AtomicAnd, "atomic_and") CASE_U32_OP(AtomicOr, "atomic_or") CASE_U32_OP(AtomicXor, "atomic_xor") CASE_U32_OP(AtomicExchange, "atomic_xchng") CASE_U32_OP(AtomicCompareExchange, "atomic_cmpxchng") default : return "unknown"; // clang-format on } } #undef CASE_OP #undef CASE_I32_OP #undef CASE_I64_OP #undef CASE_F32_OP #undef CASE_F64_OP #undef CASE_F32x4_OP #undef CASE_I32x4_OP #undef CASE_I16x8_OP #undef CASE_I8x16_OP #undef CASE_S128_OP #undef CASE_S32x4_OP #undef CASE_S16x8_OP #undef CASE_S8x16_OP #undef CASE_S1x4_OP #undef CASE_S1x8_OP #undef CASE_S1x16_OP #undef CASE_INT_OP #undef CASE_FLOAT_OP #undef CASE_ALL_OP #undef CASE_SIMD_OP #undef CASE_SIMDI_OP #undef CASE_SIGN_OP #undef CASE_UNSIGNED_OP #undef CASE_ALL_SIGN_OP #undef CASE_CONVERT_OP #undef CASE_CONVERT_SAT_OP #undef CASE_L32_OP #undef CASE_U32_OP bool WasmOpcodes::IsPrefixOpcode(WasmOpcode opcode) { switch (opcode) { #define CHECK_PREFIX(name, opcode) case k##name##Prefix: FOREACH_PREFIX(CHECK_PREFIX) #undef CHECK_PREFIX return true; default: return false; } } bool WasmOpcodes::IsControlOpcode(WasmOpcode opcode) { switch (opcode) { #define CHECK_OPCODE(name, opcode, _) case kExpr##name: FOREACH_CONTROL_OPCODE(CHECK_OPCODE) #undef CHECK_OPCODE return true; default: return false; } } bool WasmOpcodes::IsUnconditionalJump(WasmOpcode opcode) { switch (opcode) { case kExprUnreachable: case kExprBr: case kExprBrTable: case kExprReturn: return true; default: return false; } } std::ostream& operator<<(std::ostream& os, const FunctionSig& sig) { if (sig.return_count() == 0) os << "v"; for (auto ret : sig.returns()) { os << WasmOpcodes::ShortNameOf(ret); } os << "_"; if (sig.parameter_count() == 0) os << "v"; for (auto param : sig.parameters()) { os << WasmOpcodes::ShortNameOf(param); } return os; } bool IsJSCompatibleSignature(const FunctionSig* sig) { for (auto type : sig->all()) { if (type == wasm::kWasmI64 || type == wasm::kWasmS128) return false; } return sig->return_count() <= 1; } namespace { #define DECLARE_SIG_ENUM(name, ...) kSigEnum_##name, enum WasmOpcodeSig : byte { kSigEnum_None, FOREACH_SIGNATURE(DECLARE_SIG_ENUM) }; #undef DECLARE_SIG_ENUM #define DECLARE_SIG(name, ...) \ constexpr ValueType kTypes_##name[] = {__VA_ARGS__}; \ constexpr int kReturnsCount_##name = kTypes_##name[0] == kWasmStmt ? 0 : 1; \ constexpr FunctionSig kSig_##name( \ kReturnsCount_##name, static_cast(arraysize(kTypes_##name)) - 1, \ kTypes_##name + (1 - kReturnsCount_##name)); FOREACH_SIGNATURE(DECLARE_SIG) #undef DECLARE_SIG #define DECLARE_SIG_ENTRY(name, ...) &kSig_##name, constexpr const FunctionSig* kSimpleExprSigs[] = { nullptr, FOREACH_SIGNATURE(DECLARE_SIG_ENTRY)}; #undef DECLARE_SIG_ENTRY // gcc 4.7 - 4.9 has a bug which causes the constexpr attribute to get lost when // passing functions (https://gcc.gnu.org/bugzilla/show_bug.cgi?id=52892). Hence // encapsulate these constexpr functions in functors. // TODO(clemensh): Remove this once we require gcc >= 5.0. struct GetOpcodeSigIndex { constexpr WasmOpcodeSig operator()(byte opcode) const { #define CASE(name, opc, sig) opcode == opc ? kSigEnum_##sig: return FOREACH_SIMPLE_OPCODE(CASE) kSigEnum_None; #undef CASE } }; struct GetAsmJsOpcodeSigIndex { constexpr WasmOpcodeSig operator()(byte opcode) const { #define CASE(name, opc, sig) opcode == opc ? kSigEnum_##sig: return FOREACH_ASMJS_COMPAT_OPCODE(CASE) kSigEnum_None; #undef CASE } }; struct GetSimdOpcodeSigIndex { constexpr WasmOpcodeSig operator()(byte opcode) const { #define CASE(name, opc, sig) opcode == (opc & 0xFF) ? kSigEnum_##sig: return FOREACH_SIMD_0_OPERAND_OPCODE(CASE) kSigEnum_None; #undef CASE } }; struct GetAtomicOpcodeSigIndex { constexpr WasmOpcodeSig operator()(byte opcode) const { #define CASE(name, opc, sig) opcode == (opc & 0xFF) ? kSigEnum_##sig: return FOREACH_ATOMIC_OPCODE(CASE) kSigEnum_None; #undef CASE } }; struct GetNumericOpcodeSigIndex { constexpr WasmOpcodeSig operator()(byte opcode) const { #define CASE(name, opc, sig) opcode == (opc & 0xFF) ? kSigEnum_##sig: return FOREACH_NUMERIC_OPCODE(CASE) kSigEnum_None; #undef CASE } }; constexpr std::array kSimpleExprSigTable = base::make_array<256>(GetOpcodeSigIndex{}); constexpr std::array kSimpleAsmjsExprSigTable = base::make_array<256>(GetAsmJsOpcodeSigIndex{}); constexpr std::array kSimdExprSigTable = base::make_array<256>(GetSimdOpcodeSigIndex{}); constexpr std::array kAtomicExprSigTable = base::make_array<256>(GetAtomicOpcodeSigIndex{}); constexpr std::array kNumericExprSigTable = base::make_array<256>(GetNumericOpcodeSigIndex{}); } // namespace FunctionSig* WasmOpcodes::Signature(WasmOpcode opcode) { switch (opcode >> 8) { case kSimdPrefix: return const_cast( kSimpleExprSigs[kSimdExprSigTable[opcode & 0xFF]]); case kAtomicPrefix: return const_cast( kSimpleExprSigs[kAtomicExprSigTable[opcode & 0xFF]]); case kNumericPrefix: return const_cast( kSimpleExprSigs[kNumericExprSigTable[opcode & 0xFF]]); default: DCHECK_GT(kSimpleExprSigTable.size(), opcode); return const_cast( kSimpleExprSigs[kSimpleExprSigTable[opcode]]); } } FunctionSig* WasmOpcodes::AsmjsSignature(WasmOpcode opcode) { DCHECK_GT(kSimpleAsmjsExprSigTable.size(), opcode); return const_cast( kSimpleExprSigs[kSimpleAsmjsExprSigTable[opcode]]); } // Define constexpr arrays. constexpr uint8_t LoadType::kLoadSizeLog2[]; constexpr ValueType LoadType::kValueType[]; constexpr MachineType LoadType::kMemType[]; constexpr uint8_t StoreType::kStoreSizeLog2[]; constexpr ValueType StoreType::kValueType[]; constexpr MachineRepresentation StoreType::kMemRep[]; int WasmOpcodes::TrapReasonToMessageId(TrapReason reason) { switch (reason) { #define TRAPREASON_TO_MESSAGE(name) \ case k##name: \ return MessageTemplate::kWasm##name; FOREACH_WASM_TRAPREASON(TRAPREASON_TO_MESSAGE) #undef TRAPREASON_TO_MESSAGE default: return MessageTemplate::kNone; } } const char* WasmOpcodes::TrapReasonMessage(TrapReason reason) { return MessageTemplate::TemplateString(TrapReasonToMessageId(reason)); } } // namespace wasm } // namespace internal } // namespace v8