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|
/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*-
* vim: set ts=8 sts=2 et sw=2 tw=80:
*
* Copyright 2015 Mozilla Foundation
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#ifndef wasm_constants_h
#define wasm_constants_h
#include <stdint.h>
#include "wasm/WasmBuiltinModuleGenerated.h"
#include "wasm/WasmSerialize.h"
namespace js {
namespace wasm {
static const uint32_t MagicNumber = 0x6d736100; // "\0asm"
static const uint32_t EncodingVersion = 0x01;
enum class SectionId {
Custom = 0,
Type = 1,
Import = 2,
Function = 3,
Table = 4,
Memory = 5,
Global = 6,
Export = 7,
Start = 8,
Elem = 9,
Code = 10,
Data = 11,
DataCount = 12,
Tag = 13,
};
// WebAssembly type encodings are all single-byte negative SLEB128s, hence:
// forall tc:TypeCode. ((tc & SLEB128SignMask) == SLEB128SignBit
static const uint8_t SLEB128SignMask = 0xc0;
static const uint8_t SLEB128SignBit = 0x40;
enum class TypeCode {
// If more "simple primitive" (non-reference, non-constructor,
// non-special-purpose) types are added here then you MUST update
// LowestPrimitiveTypeCode, below.
I32 = 0x7f, // SLEB128(-0x01)
I64 = 0x7e, // SLEB128(-0x02)
F32 = 0x7d, // SLEB128(-0x03)
F64 = 0x7c, // SLEB128(-0x04)
V128 = 0x7b, // SLEB128(-0x05)
I8 = 0x78, // SLEB128(-0x08)
I16 = 0x77, // SLEB128(-0x09)
// A function pointer with any signature
FuncRef = 0x70, // SLEB128(-0x10)
// A reference to any host value.
ExternRef = 0x6f, // SLEB128(-0x11)
// A reference to any wasm gc value.
AnyRef = 0x6e, // SLEB128(-0x12)
// A reference to a struct/array value.
EqRef = 0x6d, // SLEB128(-0x13)
// Type constructor for nullable reference types.
NullableRef = 0x63, // SLEB128(-0x1D)
// Type constructor for non-nullable reference types.
Ref = 0x64, // SLEB128(-0x1C)
// A reference to an unboxed 31-bit integer.
I31Ref = 0x6c, // SLEB128(-0x14)
// A null reference in the extern hierarchy.
NullExternRef = 0x72, // SLEB128(-0x0E)
// A null reference in the func hierarchy.
NullFuncRef = 0x73, // SLEB128(-0x0D)
// A reference to any struct value.
StructRef = 0x6b, // SLEB128(-0x15)
// A reference to any array value.
ArrayRef = 0x6a, // SLEB128(-0x16)
// A reference to an exception value.
ExnRef = 0x69, // SLEB128(-0x17)
// A null reference in the any hierarchy.
NullAnyRef = 0x71, // SLEB128(-0x0F)
// Type constructor for function types
Func = 0x60, // SLEB128(-0x20)
// Type constructor for structure types - gc proposal
Struct = 0x5f, // SLEB128(-0x21)
// Type constructor for array types - gc proposal
Array = 0x5e, // SLEB128(-0x22)
// Value for non-nullable type present.
TableHasInitExpr = 0x40,
// The 'empty' case of blocktype.
BlockVoid = 0x40, // SLEB128(-0x40)
// Type constructor for recursion groups - gc proposal
RecGroup = 0x4e, // SLEB128(-0x31)
// Type prefix for parent types - gc proposal
SubNoFinalType = 0x50, // SLEB128(-0x30)
// Type prefix for final types - gc proposal
SubFinalType = 0x4f, // SLEB128(-0x32)
Limit = 0x80
};
// This is the lowest-valued TypeCode that is a primitive type, used in
// UnpackTypeCodeTypeAbstracted(). If primitive typecodes are added below any
// reference typecode then the logic in that function MUST change.
static constexpr TypeCode LowestPrimitiveTypeCode = TypeCode::I16;
// An arbitrary reference type used as the result of
// UnpackTypeCodeTypeAbstracted() when a value type is a reference.
static constexpr TypeCode AbstractReferenceTypeCode = TypeCode::ExternRef;
// A type code used to represent (ref null? T) whether or not the type
// is encoded with 'Ref' or 'NullableRef'.
static constexpr TypeCode AbstractTypeRefCode = TypeCode::Ref;
// wasm traps are machine instructions that can fail to execute for reasons
// that have to do with some condition in the wasm that they were compiled
// from. The failure manifests as a (machine-level) exception of some sort,
// which leads execution to a signal handler, and is eventually reported as a
// WebAssembly.RuntimeError. Generated code may also jump to a Trap
// symbolically, passing the bytecode offset to report as the trap offset.
// The generated jump will be bound to a tiny stub which fills the offset and
// then jumps to a per-Trap shared stub at the end of the module.
//
// Traps are described by a value from Trap and, in debug builds only, a value
// from TrapInsn.
//
// * A Trap indicates why the trap has happened and is used to construct the
// WebAssembly.Runtime message.
//
// * A TrapMachineInsn (not defined in this file) describes roughly what kind
// of machine instruction has caused the trap. This is used only for
// validation of trap placement in debug builds, in
// ModuleGenerator::finishMetadataTier, and is not necessary for execution
// of wasm code.
enum class Trap {
// The Unreachable opcode has been executed.
Unreachable,
// An integer arithmetic operation led to an overflow.
IntegerOverflow,
// Trying to coerce NaN to an integer.
InvalidConversionToInteger,
// Integer division by zero.
IntegerDivideByZero,
// Out of bounds on wasm memory accesses.
OutOfBounds,
// Unaligned on wasm atomic accesses; also used for non-standard ARM
// unaligned access faults.
UnalignedAccess,
// call_indirect to null.
IndirectCallToNull,
// call_indirect signature mismatch.
IndirectCallBadSig,
// Dereference null pointer in operation on (Ref T)
NullPointerDereference,
// Failed to cast a (Ref T) in a ref.cast instruction
BadCast,
// The internal stack space was exhausted. For compatibility, this throws
// the same over-recursed error as JS.
StackOverflow,
// The wasm execution has potentially run too long and the engine must call
// CheckForInterrupt(). This trap is resumable.
CheckInterrupt,
// Signal an error that was reported in C++ code.
ThrowReported,
Limit
};
enum class DefinitionKind {
Function = 0x00,
Table = 0x01,
Memory = 0x02,
Global = 0x03,
Tag = 0x04,
};
enum class GlobalTypeImmediate { IsMutable = 0x1, AllowedMask = 0x1 };
enum class LimitsFlags {
Default = 0x0,
HasMaximum = 0x1,
IsShared = 0x2,
IsI64 = 0x4,
};
enum class LimitsMask {
Table = uint8_t(LimitsFlags::HasMaximum),
#ifdef ENABLE_WASM_MEMORY64
Memory = uint8_t(LimitsFlags::HasMaximum) | uint8_t(LimitsFlags::IsShared) |
uint8_t(LimitsFlags::IsI64),
#else
Memory = uint8_t(LimitsFlags::HasMaximum) | uint8_t(LimitsFlags::IsShared),
#endif
};
enum class DataSegmentKind {
Active = 0x00,
Passive = 0x01,
ActiveWithMemoryIndex = 0x02
};
enum class ElemSegmentKind : uint32_t {
Active = 0x0,
Passive = 0x1,
ActiveWithTableIndex = 0x2,
Declared = 0x3,
};
enum class ElemSegmentPayload : uint32_t {
Indices = 0x0,
Expressions = 0x4,
};
enum class TagKind {
Exception = 0x0,
};
enum class Op {
// Control flow operators
Unreachable = 0x00,
Nop = 0x01,
Block = 0x02,
Loop = 0x03,
If = 0x04,
Else = 0x05,
Try = 0x06,
Catch = 0x07,
Throw = 0x08,
Rethrow = 0x09,
ThrowRef = 0x0a,
End = 0x0b,
Br = 0x0c,
BrIf = 0x0d,
BrTable = 0x0e,
Return = 0x0f,
// Call operators
Call = 0x10,
CallIndirect = 0x11,
ReturnCall = 0x12,
ReturnCallIndirect = 0x13,
CallRef = 0x14,
ReturnCallRef = 0x15,
// Additional exception operators
Delegate = 0x18,
CatchAll = 0x19,
// Parametric operators
Drop = 0x1a,
SelectNumeric = 0x1b,
SelectTyped = 0x1c,
// Additional exception operators
TryTable = 0x1f,
// Variable access
LocalGet = 0x20,
LocalSet = 0x21,
LocalTee = 0x22,
GlobalGet = 0x23,
GlobalSet = 0x24,
TableGet = 0x25, // Reftypes,
TableSet = 0x26, // per proposal as of February 2019
// Memory-related operators
I32Load = 0x28,
I64Load = 0x29,
F32Load = 0x2a,
F64Load = 0x2b,
I32Load8S = 0x2c,
I32Load8U = 0x2d,
I32Load16S = 0x2e,
I32Load16U = 0x2f,
I64Load8S = 0x30,
I64Load8U = 0x31,
I64Load16S = 0x32,
I64Load16U = 0x33,
I64Load32S = 0x34,
I64Load32U = 0x35,
I32Store = 0x36,
I64Store = 0x37,
F32Store = 0x38,
F64Store = 0x39,
I32Store8 = 0x3a,
I32Store16 = 0x3b,
I64Store8 = 0x3c,
I64Store16 = 0x3d,
I64Store32 = 0x3e,
MemorySize = 0x3f,
MemoryGrow = 0x40,
// Constants
I32Const = 0x41,
I64Const = 0x42,
F32Const = 0x43,
F64Const = 0x44,
// Comparison operators
I32Eqz = 0x45,
I32Eq = 0x46,
I32Ne = 0x47,
I32LtS = 0x48,
I32LtU = 0x49,
I32GtS = 0x4a,
I32GtU = 0x4b,
I32LeS = 0x4c,
I32LeU = 0x4d,
I32GeS = 0x4e,
I32GeU = 0x4f,
I64Eqz = 0x50,
I64Eq = 0x51,
I64Ne = 0x52,
I64LtS = 0x53,
I64LtU = 0x54,
I64GtS = 0x55,
I64GtU = 0x56,
I64LeS = 0x57,
I64LeU = 0x58,
I64GeS = 0x59,
I64GeU = 0x5a,
F32Eq = 0x5b,
F32Ne = 0x5c,
F32Lt = 0x5d,
F32Gt = 0x5e,
F32Le = 0x5f,
F32Ge = 0x60,
F64Eq = 0x61,
F64Ne = 0x62,
F64Lt = 0x63,
F64Gt = 0x64,
F64Le = 0x65,
F64Ge = 0x66,
// Numeric operators
I32Clz = 0x67,
I32Ctz = 0x68,
I32Popcnt = 0x69,
I32Add = 0x6a,
I32Sub = 0x6b,
I32Mul = 0x6c,
I32DivS = 0x6d,
I32DivU = 0x6e,
I32RemS = 0x6f,
I32RemU = 0x70,
I32And = 0x71,
I32Or = 0x72,
I32Xor = 0x73,
I32Shl = 0x74,
I32ShrS = 0x75,
I32ShrU = 0x76,
I32Rotl = 0x77,
I32Rotr = 0x78,
I64Clz = 0x79,
I64Ctz = 0x7a,
I64Popcnt = 0x7b,
I64Add = 0x7c,
I64Sub = 0x7d,
I64Mul = 0x7e,
I64DivS = 0x7f,
I64DivU = 0x80,
I64RemS = 0x81,
I64RemU = 0x82,
I64And = 0x83,
I64Or = 0x84,
I64Xor = 0x85,
I64Shl = 0x86,
I64ShrS = 0x87,
I64ShrU = 0x88,
I64Rotl = 0x89,
I64Rotr = 0x8a,
F32Abs = 0x8b,
F32Neg = 0x8c,
F32Ceil = 0x8d,
F32Floor = 0x8e,
F32Trunc = 0x8f,
F32Nearest = 0x90,
F32Sqrt = 0x91,
F32Add = 0x92,
F32Sub = 0x93,
F32Mul = 0x94,
F32Div = 0x95,
F32Min = 0x96,
F32Max = 0x97,
F32CopySign = 0x98,
F64Abs = 0x99,
F64Neg = 0x9a,
F64Ceil = 0x9b,
F64Floor = 0x9c,
F64Trunc = 0x9d,
F64Nearest = 0x9e,
F64Sqrt = 0x9f,
F64Add = 0xa0,
F64Sub = 0xa1,
F64Mul = 0xa2,
F64Div = 0xa3,
F64Min = 0xa4,
F64Max = 0xa5,
F64CopySign = 0xa6,
// Conversions
I32WrapI64 = 0xa7,
I32TruncF32S = 0xa8,
I32TruncF32U = 0xa9,
I32TruncF64S = 0xaa,
I32TruncF64U = 0xab,
I64ExtendI32S = 0xac,
I64ExtendI32U = 0xad,
I64TruncF32S = 0xae,
I64TruncF32U = 0xaf,
I64TruncF64S = 0xb0,
I64TruncF64U = 0xb1,
F32ConvertI32S = 0xb2,
F32ConvertI32U = 0xb3,
F32ConvertI64S = 0xb4,
F32ConvertI64U = 0xb5,
F32DemoteF64 = 0xb6,
F64ConvertI32S = 0xb7,
F64ConvertI32U = 0xb8,
F64ConvertI64S = 0xb9,
F64ConvertI64U = 0xba,
F64PromoteF32 = 0xbb,
// Reinterpretations
I32ReinterpretF32 = 0xbc,
I64ReinterpretF64 = 0xbd,
F32ReinterpretI32 = 0xbe,
F64ReinterpretI64 = 0xbf,
// Sign extension
I32Extend8S = 0xc0,
I32Extend16S = 0xc1,
I64Extend8S = 0xc2,
I64Extend16S = 0xc3,
I64Extend32S = 0xc4,
// Reference types
RefNull = 0xd0,
RefIsNull = 0xd1,
RefFunc = 0xd2,
// Function references
RefAsNonNull = 0xd4,
BrOnNull = 0xd5,
// GC (experimental)
RefEq = 0xd3,
// Function references
BrOnNonNull = 0xd6,
FirstPrefix = 0xfa,
GcPrefix = 0xfb,
MiscPrefix = 0xfc,
SimdPrefix = 0xfd,
ThreadPrefix = 0xfe,
MozPrefix = 0xff,
Limit = 0x100
};
inline bool IsPrefixByte(uint8_t b) { return b >= uint8_t(Op::FirstPrefix); }
// Opcodes in the GC opcode space.
enum class GcOp {
// Structure operations
StructNew = 0x0,
StructNewDefault = 0x1,
StructGet = 0x02,
StructGetS = 0x03,
StructGetU = 0x04,
StructSet = 0x05,
// Array operations
ArrayNew = 0x6,
ArrayNewDefault = 0x7,
ArrayNewFixed = 0x8,
ArrayNewData = 0x9,
ArrayNewElem = 0xa,
ArrayGet = 0xb,
ArrayGetS = 0xc,
ArrayGetU = 0xd,
ArraySet = 0xe,
ArrayLen = 0xf,
ArrayFill = 0x10,
ArrayCopy = 0x11,
ArrayInitData = 0x12,
ArrayInitElem = 0x13,
// Ref operations
RefTest = 0x14,
RefTestNull = 0x15,
RefCast = 0x16,
RefCastNull = 0x17,
BrOnCast = 0x18,
BrOnCastFail = 0x19,
// Extern/any coercion operations
AnyConvertExtern = 0x1a,
ExternConvertAny = 0x1b,
// I31 operations
RefI31 = 0x1c,
I31GetS = 0x1d,
I31GetU = 0x1e,
Limit
};
// Opcode list from the SIMD proposal post-renumbering in May, 2020.
// Opcodes with suffix 'Experimental' are proposed but not standardized, and are
// compatible with those same opcodes in V8. No opcode labeled 'Experimental'
// will ship in a Release build where SIMD is enabled by default.
enum class SimdOp {
V128Load = 0x00,
V128Load8x8S = 0x01,
V128Load8x8U = 0x02,
V128Load16x4S = 0x03,
V128Load16x4U = 0x04,
V128Load32x2S = 0x05,
V128Load32x2U = 0x06,
V128Load8Splat = 0x07,
V128Load16Splat = 0x08,
V128Load32Splat = 0x09,
V128Load64Splat = 0x0a,
V128Store = 0x0b,
V128Const = 0x0c,
I8x16Shuffle = 0x0d,
I8x16Swizzle = 0x0e,
I8x16Splat = 0x0f,
I16x8Splat = 0x10,
I32x4Splat = 0x11,
I64x2Splat = 0x12,
F32x4Splat = 0x13,
F64x2Splat = 0x14,
I8x16ExtractLaneS = 0x15,
I8x16ExtractLaneU = 0x16,
I8x16ReplaceLane = 0x17,
I16x8ExtractLaneS = 0x18,
I16x8ExtractLaneU = 0x19,
I16x8ReplaceLane = 0x1a,
I32x4ExtractLane = 0x1b,
I32x4ReplaceLane = 0x1c,
I64x2ExtractLane = 0x1d,
I64x2ReplaceLane = 0x1e,
F32x4ExtractLane = 0x1f,
F32x4ReplaceLane = 0x20,
F64x2ExtractLane = 0x21,
F64x2ReplaceLane = 0x22,
I8x16Eq = 0x23,
I8x16Ne = 0x24,
I8x16LtS = 0x25,
I8x16LtU = 0x26,
I8x16GtS = 0x27,
I8x16GtU = 0x28,
I8x16LeS = 0x29,
I8x16LeU = 0x2a,
I8x16GeS = 0x2b,
I8x16GeU = 0x2c,
I16x8Eq = 0x2d,
I16x8Ne = 0x2e,
I16x8LtS = 0x2f,
I16x8LtU = 0x30,
I16x8GtS = 0x31,
I16x8GtU = 0x32,
I16x8LeS = 0x33,
I16x8LeU = 0x34,
I16x8GeS = 0x35,
I16x8GeU = 0x36,
I32x4Eq = 0x37,
I32x4Ne = 0x38,
I32x4LtS = 0x39,
I32x4LtU = 0x3a,
I32x4GtS = 0x3b,
I32x4GtU = 0x3c,
I32x4LeS = 0x3d,
I32x4LeU = 0x3e,
I32x4GeS = 0x3f,
I32x4GeU = 0x40,
F32x4Eq = 0x41,
F32x4Ne = 0x42,
F32x4Lt = 0x43,
F32x4Gt = 0x44,
F32x4Le = 0x45,
F32x4Ge = 0x46,
F64x2Eq = 0x47,
F64x2Ne = 0x48,
F64x2Lt = 0x49,
F64x2Gt = 0x4a,
F64x2Le = 0x4b,
F64x2Ge = 0x4c,
V128Not = 0x4d,
V128And = 0x4e,
V128AndNot = 0x4f,
V128Or = 0x50,
V128Xor = 0x51,
V128Bitselect = 0x52,
V128AnyTrue = 0x53,
V128Load8Lane = 0x54,
V128Load16Lane = 0x55,
V128Load32Lane = 0x56,
V128Load64Lane = 0x57,
V128Store8Lane = 0x58,
V128Store16Lane = 0x59,
V128Store32Lane = 0x5a,
V128Store64Lane = 0x5b,
V128Load32Zero = 0x5c,
V128Load64Zero = 0x5d,
F32x4DemoteF64x2Zero = 0x5e,
F64x2PromoteLowF32x4 = 0x5f,
I8x16Abs = 0x60,
I8x16Neg = 0x61,
I8x16Popcnt = 0x62,
I8x16AllTrue = 0x63,
I8x16Bitmask = 0x64,
I8x16NarrowI16x8S = 0x65,
I8x16NarrowI16x8U = 0x66,
F32x4Ceil = 0x67,
F32x4Floor = 0x68,
F32x4Trunc = 0x69,
F32x4Nearest = 0x6a,
I8x16Shl = 0x6b,
I8x16ShrS = 0x6c,
I8x16ShrU = 0x6d,
I8x16Add = 0x6e,
I8x16AddSatS = 0x6f,
I8x16AddSatU = 0x70,
I8x16Sub = 0x71,
I8x16SubSatS = 0x72,
I8x16SubSatU = 0x73,
F64x2Ceil = 0x74,
F64x2Floor = 0x75,
I8x16MinS = 0x76,
I8x16MinU = 0x77,
I8x16MaxS = 0x78,
I8x16MaxU = 0x79,
F64x2Trunc = 0x7a,
I8x16AvgrU = 0x7b,
I16x8ExtaddPairwiseI8x16S = 0x7c,
I16x8ExtaddPairwiseI8x16U = 0x7d,
I32x4ExtaddPairwiseI16x8S = 0x7e,
I32x4ExtaddPairwiseI16x8U = 0x7f,
I16x8Abs = 0x80,
I16x8Neg = 0x81,
I16x8Q15MulrSatS = 0x82,
I16x8AllTrue = 0x83,
I16x8Bitmask = 0x84,
I16x8NarrowI32x4S = 0x85,
I16x8NarrowI32x4U = 0x86,
I16x8ExtendLowI8x16S = 0x87,
I16x8ExtendHighI8x16S = 0x88,
I16x8ExtendLowI8x16U = 0x89,
I16x8ExtendHighI8x16U = 0x8a,
I16x8Shl = 0x8b,
I16x8ShrS = 0x8c,
I16x8ShrU = 0x8d,
I16x8Add = 0x8e,
I16x8AddSatS = 0x8f,
I16x8AddSatU = 0x90,
I16x8Sub = 0x91,
I16x8SubSatS = 0x92,
I16x8SubSatU = 0x93,
F64x2Nearest = 0x94,
I16x8Mul = 0x95,
I16x8MinS = 0x96,
I16x8MinU = 0x97,
I16x8MaxS = 0x98,
I16x8MaxU = 0x99,
// Unused = 0x9a
I16x8AvgrU = 0x9b,
I16x8ExtmulLowI8x16S = 0x9c,
I16x8ExtmulHighI8x16S = 0x9d,
I16x8ExtmulLowI8x16U = 0x9e,
I16x8ExtmulHighI8x16U = 0x9f,
I32x4Abs = 0xa0,
I32x4Neg = 0xa1,
// Unused = 0xa2
I32x4AllTrue = 0xa3,
I32x4Bitmask = 0xa4,
// Unused = 0xa5
// Unused = 0xa6
I32x4ExtendLowI16x8S = 0xa7,
I32x4ExtendHighI16x8S = 0xa8,
I32x4ExtendLowI16x8U = 0xa9,
I32x4ExtendHighI16x8U = 0xaa,
I32x4Shl = 0xab,
I32x4ShrS = 0xac,
I32x4ShrU = 0xad,
I32x4Add = 0xae,
// Unused = 0xaf
// Unused = 0xb0
I32x4Sub = 0xb1,
// Unused = 0xb2
// Unused = 0xb3
// Unused = 0xb4
I32x4Mul = 0xb5,
I32x4MinS = 0xb6,
I32x4MinU = 0xb7,
I32x4MaxS = 0xb8,
I32x4MaxU = 0xb9,
I32x4DotI16x8S = 0xba,
// Unused = 0xbb
I32x4ExtmulLowI16x8S = 0xbc,
I32x4ExtmulHighI16x8S = 0xbd,
I32x4ExtmulLowI16x8U = 0xbe,
I32x4ExtmulHighI16x8U = 0xbf,
I64x2Abs = 0xc0,
I64x2Neg = 0xc1,
// AnyTrue = 0xc2
I64x2AllTrue = 0xc3,
I64x2Bitmask = 0xc4,
// Unused = 0xc5
// Unused = 0xc6
I64x2ExtendLowI32x4S = 0xc7,
I64x2ExtendHighI32x4S = 0xc8,
I64x2ExtendLowI32x4U = 0xc9,
I64x2ExtendHighI32x4U = 0xca,
I64x2Shl = 0xcb,
I64x2ShrS = 0xcc,
I64x2ShrU = 0xcd,
I64x2Add = 0xce,
// Unused = 0xcf
// Unused = 0xd0
I64x2Sub = 0xd1,
// Unused = 0xd2
// Unused = 0xd3
// Unused = 0xd4
I64x2Mul = 0xd5,
I64x2Eq = 0xd6,
I64x2Ne = 0xd7,
I64x2LtS = 0xd8,
I64x2GtS = 0xd9,
I64x2LeS = 0xda,
I64x2GeS = 0xdb,
I64x2ExtmulLowI32x4S = 0xdc,
I64x2ExtmulHighI32x4S = 0xdd,
I64x2ExtmulLowI32x4U = 0xde,
I64x2ExtmulHighI32x4U = 0xdf,
F32x4Abs = 0xe0,
F32x4Neg = 0xe1,
// Unused = 0xe2
F32x4Sqrt = 0xe3,
F32x4Add = 0xe4,
F32x4Sub = 0xe5,
F32x4Mul = 0xe6,
F32x4Div = 0xe7,
F32x4Min = 0xe8,
F32x4Max = 0xe9,
F32x4PMin = 0xea,
F32x4PMax = 0xeb,
F64x2Abs = 0xec,
F64x2Neg = 0xed,
// Unused = 0xee
F64x2Sqrt = 0xef,
F64x2Add = 0xf0,
F64x2Sub = 0xf1,
F64x2Mul = 0xf2,
F64x2Div = 0xf3,
F64x2Min = 0xf4,
F64x2Max = 0xf5,
F64x2PMin = 0xf6,
F64x2PMax = 0xf7,
I32x4TruncSatF32x4S = 0xf8,
I32x4TruncSatF32x4U = 0xf9,
F32x4ConvertI32x4S = 0xfa,
F32x4ConvertI32x4U = 0xfb,
I32x4TruncSatF64x2SZero = 0xfc,
I32x4TruncSatF64x2UZero = 0xfd,
F64x2ConvertLowI32x4S = 0xfe,
F64x2ConvertLowI32x4U = 0xff,
I8x16RelaxedSwizzle = 0x100,
I32x4RelaxedTruncF32x4S = 0x101,
I32x4RelaxedTruncF32x4U = 0x102,
I32x4RelaxedTruncF64x2SZero = 0x103,
I32x4RelaxedTruncF64x2UZero = 0x104,
F32x4RelaxedMadd = 0x105,
F32x4RelaxedNmadd = 0x106,
F64x2RelaxedMadd = 0x107,
F64x2RelaxedNmadd = 0x108,
I8x16RelaxedLaneSelect = 0x109,
I16x8RelaxedLaneSelect = 0x10a,
I32x4RelaxedLaneSelect = 0x10b,
I64x2RelaxedLaneSelect = 0x10c,
F32x4RelaxedMin = 0x10d,
F32x4RelaxedMax = 0x10e,
F64x2RelaxedMin = 0x10f,
F64x2RelaxedMax = 0x110,
I16x8RelaxedQ15MulrS = 0x111,
I16x8DotI8x16I7x16S = 0x112,
I32x4DotI8x16I7x16AddS = 0x113,
// Reserved for Relaxed SIMD = 0x114-0x12f
// Unused = 0x130 and up
// Mozilla extensions
MozPMADDUBSW = 0x201,
Limit
};
// Opcodes in the "miscellaneous" opcode space.
enum class MiscOp {
// Saturating float-to-int conversions
I32TruncSatF32S = 0x00,
I32TruncSatF32U = 0x01,
I32TruncSatF64S = 0x02,
I32TruncSatF64U = 0x03,
I64TruncSatF32S = 0x04,
I64TruncSatF32U = 0x05,
I64TruncSatF64S = 0x06,
I64TruncSatF64U = 0x07,
// Bulk memory operations, per proposal as of February 2019.
MemoryInit = 0x08,
DataDrop = 0x09,
MemoryCopy = 0x0a,
MemoryFill = 0x0b,
TableInit = 0x0c,
ElemDrop = 0x0d,
TableCopy = 0x0e,
// Reftypes, per proposal as of February 2019.
TableGrow = 0x0f,
TableSize = 0x10,
TableFill = 0x11,
MemoryDiscard = 0x12,
Limit
};
// Opcodes from threads proposal as of June 30, 2017
enum class ThreadOp {
// Wait and wake
Wake = 0x00,
I32Wait = 0x01,
I64Wait = 0x02,
Fence = 0x03,
// Load and store
I32AtomicLoad = 0x10,
I64AtomicLoad = 0x11,
I32AtomicLoad8U = 0x12,
I32AtomicLoad16U = 0x13,
I64AtomicLoad8U = 0x14,
I64AtomicLoad16U = 0x15,
I64AtomicLoad32U = 0x16,
I32AtomicStore = 0x17,
I64AtomicStore = 0x18,
I32AtomicStore8U = 0x19,
I32AtomicStore16U = 0x1a,
I64AtomicStore8U = 0x1b,
I64AtomicStore16U = 0x1c,
I64AtomicStore32U = 0x1d,
// Read-modify-write operations
I32AtomicAdd = 0x1e,
I64AtomicAdd = 0x1f,
I32AtomicAdd8U = 0x20,
I32AtomicAdd16U = 0x21,
I64AtomicAdd8U = 0x22,
I64AtomicAdd16U = 0x23,
I64AtomicAdd32U = 0x24,
I32AtomicSub = 0x25,
I64AtomicSub = 0x26,
I32AtomicSub8U = 0x27,
I32AtomicSub16U = 0x28,
I64AtomicSub8U = 0x29,
I64AtomicSub16U = 0x2a,
I64AtomicSub32U = 0x2b,
I32AtomicAnd = 0x2c,
I64AtomicAnd = 0x2d,
I32AtomicAnd8U = 0x2e,
I32AtomicAnd16U = 0x2f,
I64AtomicAnd8U = 0x30,
I64AtomicAnd16U = 0x31,
I64AtomicAnd32U = 0x32,
I32AtomicOr = 0x33,
I64AtomicOr = 0x34,
I32AtomicOr8U = 0x35,
I32AtomicOr16U = 0x36,
I64AtomicOr8U = 0x37,
I64AtomicOr16U = 0x38,
I64AtomicOr32U = 0x39,
I32AtomicXor = 0x3a,
I64AtomicXor = 0x3b,
I32AtomicXor8U = 0x3c,
I32AtomicXor16U = 0x3d,
I64AtomicXor8U = 0x3e,
I64AtomicXor16U = 0x3f,
I64AtomicXor32U = 0x40,
I32AtomicXchg = 0x41,
I64AtomicXchg = 0x42,
I32AtomicXchg8U = 0x43,
I32AtomicXchg16U = 0x44,
I64AtomicXchg8U = 0x45,
I64AtomicXchg16U = 0x46,
I64AtomicXchg32U = 0x47,
// CompareExchange
I32AtomicCmpXchg = 0x48,
I64AtomicCmpXchg = 0x49,
I32AtomicCmpXchg8U = 0x4a,
I32AtomicCmpXchg16U = 0x4b,
I64AtomicCmpXchg8U = 0x4c,
I64AtomicCmpXchg16U = 0x4d,
I64AtomicCmpXchg32U = 0x4e,
Limit
};
enum class BuiltinModuleFuncId {
// ------------------------------------------------------------------------
// These are part/suffix of the MozOp::CallBuiltinModuleFunc operators that are
// emitted internally when compiling intrinsic modules and are rejected by wasm
// validation.
// See wasm/WasmBuiltinModule.yaml for the list.
#define VISIT_BUILTIN_FUNC(op, export, sa_name, abitype, entry, has_memory, \
idx) \
op = idx, // NOLINT
FOR_EACH_BUILTIN_MODULE_FUNC(VISIT_BUILTIN_FUNC)
#undef VISIT_BUILTIN_FUNC
// Op limit.
Limit
};
enum class BuiltinModuleId {
SelfTest = 0,
IntGemm,
JSString,
};
struct BuiltinModuleIds {
BuiltinModuleIds() = default;
bool selfTest = false;
bool intGemm = false;
bool jsString = false;
bool hasNone() const { return !selfTest && !intGemm && !jsString; }
WASM_CHECK_CACHEABLE_POD(selfTest, intGemm, jsString)
};
WASM_DECLARE_CACHEABLE_POD(BuiltinModuleIds)
enum class MozOp {
// ------------------------------------------------------------------------
// These operators are emitted internally when compiling asm.js and are
// rejected by wasm validation. They are prefixed by MozPrefix.
// asm.js-specific operators. They start at 1 so as to check for
// uninitialized (zeroed) storage.
TeeGlobal = 0x01,
I32Min,
I32Max,
I32Neg,
I32BitNot,
I32Abs,
F32TeeStoreF64,
F64TeeStoreF32,
I32TeeStore8,
I32TeeStore16,
I64TeeStore8,
I64TeeStore16,
I64TeeStore32,
I32TeeStore,
I64TeeStore,
F32TeeStore,
F64TeeStore,
F64Mod,
F64SinNative,
F64SinFdlibm,
F64CosNative,
F64CosFdlibm,
F64TanNative,
F64TanFdlibm,
F64Asin,
F64Acos,
F64Atan,
F64Exp,
F64Log,
F64Pow,
F64Atan2,
// asm.js-style call_indirect with the callee evaluated first.
OldCallDirect,
OldCallIndirect,
// Call a builtin module funcs. The operator has argument leb u32 to specify
// particular operation id. See BuiltinModuleFuncId above.
CallBuiltinModuleFunc,
Limit
};
struct OpBytes {
// b0 is a byte value but has a 16-bit representation to allow for a full
// 256-value range plus a sentinel Limit value.
uint16_t b0;
// b1 is a LEB128 value but 32 bits is enough for now.
uint32_t b1;
explicit OpBytes(Op x) {
b0 = uint16_t(x);
b1 = 0;
}
OpBytes() = default;
// Whether this opcode should have a breakpoint site inserted directly before
// the opcode in baseline when debugging. We use this as a heuristic to
// reduce the number of breakpoint sites.
bool shouldHaveBreakpoint() const {
switch (Op(b0)) {
// Block-like instructions don't get their own breakpoint site, a
// breakpoint can be used on instructions in the block.
case Op::Block:
case Op::Loop:
case Op::If:
case Op::Else:
case Op::Try:
case Op::Delegate:
case Op::Catch:
case Op::CatchAll:
case Op::End:
// Effect-less instructions without inputs are leaf nodes in expressions,
// a breakpoint can be used on instructions that consume these values.
case Op::LocalGet:
case Op::GlobalGet:
case Op::I32Const:
case Op::I64Const:
case Op::F32Const:
case Op::F64Const:
case Op::RefNull:
case Op::Drop:
return false;
default:
return true;
}
}
};
static const char NameSectionName[] = "name";
static const char SourceMappingURLSectionName[] = "sourceMappingURL";
enum class NameType { Module = 0, Function = 1, Local = 2 };
enum class FieldFlags { Mutable = 0x01, AllowedMask = 0x01 };
enum class FieldWideningOp { None, Signed, Unsigned };
// The WebAssembly spec hard-codes the virtual page size to be 64KiB and
// requires the size of linear memory to always be a multiple of 64KiB.
static const unsigned PageSize = 64 * 1024;
static const unsigned PageBits = 16;
static_assert(PageSize == (1u << PageBits));
static const unsigned PageMask = ((1u << PageBits) - 1);
// These limits are agreed upon with other engines for consistency.
static const unsigned MaxRecGroups = 1000000;
static const unsigned MaxTypes = 1000000;
static const unsigned MaxSubTypingDepth = 63;
static const unsigned MaxTags = 1000000;
static const unsigned MaxFuncs = 1000000;
static const unsigned MaxTables = 100000;
static const unsigned MaxMemories = 100000;
static const unsigned MaxImports = 100000;
static const unsigned MaxExports = 100000;
static const unsigned MaxGlobals = 1000000;
static const unsigned MaxDataSegments = 100000;
static const unsigned MaxDataSegmentLengthPages = 16384;
static const unsigned MaxElemSegments = 10000000;
static const unsigned MaxElemSegmentLength = 10000000;
static const unsigned MaxTableLimitField = UINT32_MAX;
static const unsigned MaxTableLength = 10000000;
static const unsigned MaxLocals = 50000;
static const unsigned MaxParams = 1000;
static const unsigned MaxResults = 1000;
static const unsigned MaxStructFields = 10000;
static const uint64_t MaxMemory32LimitField = uint64_t(1) << 16;
static const uint64_t MaxMemory64LimitField = uint64_t(1) << 48;
static const unsigned MaxStringBytes = 100000;
static const unsigned MaxModuleBytes = 1024 * 1024 * 1024;
static const unsigned MaxFunctionBytes = 7654321;
static const unsigned MaxArrayNewFixedElements = 10000;
// Maximum payload size, in bytes, of a gc-proposal Array. Puts it fairly
// close to 2^31 without exposing us to potential danger at the signed-i32
// wraparound boundary. Note that gc-proposal Struct sizes are limited by
// MaxStructFields above. Some code assumes that the payload size will fit in
// a uint32_t, hence the static assert.
static const unsigned MaxArrayPayloadBytes = 1987654321;
static_assert(uint64_t(MaxArrayPayloadBytes) <
(uint64_t(1) << (8 * sizeof(uint32_t))));
// These limits pertain to our WebAssembly implementation only.
static const unsigned MaxTryTableCatches = 10000;
static const unsigned MaxBrTableElems = 1000000;
static const unsigned MaxCodeSectionBytes = MaxModuleBytes;
// 512KiB should be enough, considering how Rabaldr uses the stack and
// what the standard limits are:
//
// - 1,000 parameters
// - 50,000 locals
// - 10,000 values on the eval stack (not an official limit)
//
// At sizeof(int64) bytes per slot this works out to about 480KiB.
static const unsigned MaxFrameSize = 512 * 1024;
// Asserted by Decoder::readVarU32.
static const unsigned MaxVarU32DecodedBytes = 5;
// The CompileMode controls how compilation of a module is performed (notably,
// how many times we compile it).
enum class CompileMode { Once, Tier1, Tier2 };
// Typed enum for whether debugging is enabled.
enum class DebugEnabled { False, True };
} // namespace wasm
} // namespace js
#endif // wasm_constants_h
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