// 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 "src/messages.h"
#include "src/runtime/runtime.h"
#include "src/signature.h"
namespace v8 {
namespace internal {
namespace wasm {
typedef Signature<ValueType> FunctionSig;
#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_S128_OP(name, str) CASE_OP(S128##name, "s128." 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_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_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_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_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")
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")
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_ALL_OP(StoreMem, "store")
CASE_INT_OP(StoreMem8, "store8")
CASE_INT_OP(StoreMem16, "store16")
CASE_I64_OP(StoreMem32, "store32")
// Non-standard opcodes.
CASE_OP(Try, "try")
CASE_OP(Throw, "throw")
CASE_OP(Catch, "catch")
// 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(Sqrt, "sqrt")
CASE_F32x4_OP(Div, "div")
CASE_F32x4_OP(RecipApprox, "recip_approx")
CASE_F32x4_OP(SqrtApprox, "sqrt_approx")
CASE_F32x4_OP(Min, "min")
CASE_F32x4_OP(Max, "max")
CASE_F32x4_OP(MinNum, "min_num")
CASE_F32x4_OP(MaxNum, "max_num")
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_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_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(Or, "or")
CASE_S128_OP(Xor, "xor")
CASE_S128_OP(And, "and")
CASE_S128_OP(Not, "not")
CASE_S32x4_OP(Select, "select")
CASE_S32x4_OP(Swizzle, "swizzle")
CASE_S32x4_OP(Shuffle, "shuffle")
CASE_S16x8_OP(Select, "select")
CASE_S16x8_OP(Swizzle, "swizzle")
CASE_S16x8_OP(Shuffle, "shuffle")
CASE_S8x16_OP(Select, "select")
CASE_S8x16_OP(Swizzle, "swizzle")
CASE_S8x16_OP(Shuffle, "shuffle")
// Atomic operations.
CASE_L32_OP(AtomicAdd, "atomic_add")
CASE_L32_OP(AtomicAnd, "atomic_and")
CASE_L32_OP(AtomicCompareExchange, "atomic_cmpxchng")
CASE_L32_OP(AtomicExchange, "atomic_xchng")
CASE_L32_OP(AtomicOr, "atomic_or")
CASE_L32_OP(AtomicSub, "atomic_sub")
CASE_L32_OP(AtomicXor, "atomic_xor")
default : return "unknown";
// clang-format on
}
}
bool WasmOpcodes::IsPrefixOpcode(WasmOpcode opcode) {
switch (opcode) {
#define CHECK_PREFIX(name, opcode) \
case k##name##Prefix: \
return true;
FOREACH_PREFIX(CHECK_PREFIX)
#undef CHECK_PREFIX
default:
return false;
}
}
std::ostream& operator<<(std::ostream& os, const FunctionSig& sig) {
if (sig.return_count() == 0) os << "v";
for (size_t i = 0; i < sig.return_count(); ++i) {
os << WasmOpcodes::ShortNameOf(sig.GetReturn(i));
}
os << "_";
if (sig.parameter_count() == 0) os << "v";
for (size_t i = 0; i < sig.parameter_count(); ++i) {
os << WasmOpcodes::ShortNameOf(sig.GetParam(i));
}
return os;
}
#define DECLARE_SIG_ENUM(name, ...) kSigEnum_##name,
enum WasmOpcodeSig { FOREACH_SIGNATURE(DECLARE_SIG_ENUM) };
// TODO(titzer): not static-initializer safe. Wrap in LazyInstance.
#define DECLARE_SIG(name, ...) \
static ValueType kTypes_##name[] = {__VA_ARGS__}; \
static const FunctionSig kSig_##name( \
1, static_cast<int>(arraysize(kTypes_##name)) - 1, kTypes_##name);
FOREACH_SIGNATURE(DECLARE_SIG)
#define DECLARE_SIG_ENTRY(name, ...) &kSig_##name,
static const FunctionSig* kSimpleExprSigs[] = {
nullptr, FOREACH_SIGNATURE(DECLARE_SIG_ENTRY)};
#define DECLARE_SIMD_SIG_ENTRY(name, ...) &kSig_##name,
static const FunctionSig* kSimdExprSigs[] = {
nullptr, FOREACH_SIMD_SIGNATURE(DECLARE_SIMD_SIG_ENTRY)};
static byte kSimpleExprSigTable[256];
static byte kSimpleAsmjsExprSigTable[256];
static byte kSimdExprSigTable[256];
static byte kAtomicExprSigTable[256];
// Initialize the signature table.
static void InitSigTables() {
#define SET_SIG_TABLE(name, opcode, sig) \
kSimpleExprSigTable[opcode] = static_cast<int>(kSigEnum_##sig) + 1;
FOREACH_SIMPLE_OPCODE(SET_SIG_TABLE);
#undef SET_SIG_TABLE
#define SET_ASMJS_SIG_TABLE(name, opcode, sig) \
kSimpleAsmjsExprSigTable[opcode] = static_cast<int>(kSigEnum_##sig) + 1;
FOREACH_ASMJS_COMPAT_OPCODE(SET_ASMJS_SIG_TABLE);
#undef SET_ASMJS_SIG_TABLE
byte simd_index;
#define SET_SIG_TABLE(name, opcode, sig) \
simd_index = opcode & 0xff; \
kSimdExprSigTable[simd_index] = static_cast<int>(kSigEnum_##sig) + 1;
FOREACH_SIMD_0_OPERAND_OPCODE(SET_SIG_TABLE)
#undef SET_SIG_TABLE
byte atomic_index;
#define SET_ATOMIC_SIG_TABLE(name, opcode, sig) \
atomic_index = opcode & 0xff; \
kAtomicExprSigTable[atomic_index] = static_cast<int>(kSigEnum_##sig) + 1;
FOREACH_ATOMIC_OPCODE(SET_ATOMIC_SIG_TABLE)
#undef SET_ATOMIC_SIG_TABLE
}
class SigTable {
public:
SigTable() {
// TODO(ahaas): Move {InitSigTable} into the class.
InitSigTables();
}
FunctionSig* Signature(WasmOpcode opcode) const {
return const_cast<FunctionSig*>(
kSimpleExprSigs[kSimpleExprSigTable[static_cast<byte>(opcode)]]);
}
FunctionSig* AsmjsSignature(WasmOpcode opcode) const {
return const_cast<FunctionSig*>(
kSimpleExprSigs[kSimpleAsmjsExprSigTable[static_cast<byte>(opcode)]]);
}
FunctionSig* SimdSignature(WasmOpcode opcode) const {
return const_cast<FunctionSig*>(
kSimdExprSigs[kSimdExprSigTable[static_cast<byte>(opcode & 0xff)]]);
}
FunctionSig* AtomicSignature(WasmOpcode opcode) const {
return const_cast<FunctionSig*>(
kSimpleExprSigs[kAtomicExprSigTable[static_cast<byte>(opcode & 0xff)]]);
}
};
static base::LazyInstance<SigTable>::type sig_table = LAZY_INSTANCE_INITIALIZER;
FunctionSig* WasmOpcodes::Signature(WasmOpcode opcode) {
if (opcode >> 8 == kSimdPrefix) {
return sig_table.Get().SimdSignature(opcode);
} else {
return sig_table.Get().Signature(opcode);
}
}
FunctionSig* WasmOpcodes::AsmjsSignature(WasmOpcode opcode) {
return sig_table.Get().AsmjsSignature(opcode);
}
FunctionSig* WasmOpcodes::AtomicSignature(WasmOpcode opcode) {
return sig_table.Get().AtomicSignature(opcode);
}
// TODO(titzer): pull WASM_64 up to a common header.
#if !V8_TARGET_ARCH_32_BIT || V8_TARGET_ARCH_X64
#define WASM_64 1
#else
#define WASM_64 0
#endif
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