From 26a029d407be480d791972afb5975cf62c9360a6 Mon Sep 17 00:00:00 2001 From: Daniel Baumann Date: Fri, 19 Apr 2024 02:47:55 +0200 Subject: Adding upstream version 124.0.1. Signed-off-by: Daniel Baumann --- js/src/jit/Recover.cpp | 2156 ++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 2156 insertions(+) create mode 100644 js/src/jit/Recover.cpp (limited to 'js/src/jit/Recover.cpp') diff --git a/js/src/jit/Recover.cpp b/js/src/jit/Recover.cpp new file mode 100644 index 0000000000..e70722bffe --- /dev/null +++ b/js/src/jit/Recover.cpp @@ -0,0 +1,2156 @@ +/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- + * vim: set ts=8 sts=2 et sw=2 tw=80: + * This Source Code Form is subject to the terms of the Mozilla Public + * License, v. 2.0. If a copy of the MPL was not distributed with this + * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ + +#include "jit/Recover.h" + +#include "jsmath.h" + +#include "builtin/Object.h" +#include "builtin/RegExp.h" +#include "builtin/String.h" +#include "jit/Bailouts.h" +#include "jit/CompileInfo.h" +#include "jit/Ion.h" +#include "jit/JitSpewer.h" +#include "jit/JSJitFrameIter.h" +#include "jit/MIR.h" +#include "jit/MIRGraph.h" +#include "jit/VMFunctions.h" +#include "util/DifferentialTesting.h" +#include "vm/BigIntType.h" +#include "vm/EqualityOperations.h" +#include "vm/Interpreter.h" +#include "vm/Iteration.h" +#include "vm/JSContext.h" +#include "vm/JSObject.h" +#include "vm/PlainObject.h" // js::PlainObject +#include "vm/StringType.h" +#include "vm/Watchtower.h" + +#include "vm/Interpreter-inl.h" + +using namespace js; +using namespace js::jit; + +bool MNode::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_CRASH("This instruction is not serializable"); +} + +void RInstruction::readRecoverData(CompactBufferReader& reader, + RInstructionStorage* raw) { + uint32_t op = reader.readUnsigned(); + switch (Opcode(op)) { +#define MATCH_OPCODES_(op) \ + case Recover_##op: \ + static_assert(sizeof(R##op) <= sizeof(RInstructionStorage), \ + "storage space must be big enough to store R" #op); \ + static_assert(alignof(R##op) <= alignof(RInstructionStorage), \ + "storage space must be aligned adequate to store R" #op); \ + new (raw->addr()) R##op(reader); \ + break; + + RECOVER_OPCODE_LIST(MATCH_OPCODES_) +#undef MATCH_OPCODES_ + + case Recover_Invalid: + default: + MOZ_CRASH("Bad decoding of the previous instruction?"); + } +} + +bool MResumePoint::writeRecoverData(CompactBufferWriter& writer) const { + writer.writeUnsigned(uint32_t(RInstruction::Recover_ResumePoint)); + + MBasicBlock* bb = block(); + bool hasFun = bb->info().hasFunMaybeLazy(); + uint32_t nargs = bb->info().nargs(); + JSScript* script = bb->info().script(); + uint32_t exprStack = stackDepth() - bb->info().ninvoke(); + +#ifdef DEBUG + // Ensure that all snapshot which are encoded can safely be used for + // bailouts. + uint32_t numIntermediate = NumIntermediateValues(mode()); + if (JSContext* cx = GetJitContext()->cx) { + if (!AssertBailoutStackDepth(cx, script, pc(), mode(), + exprStack - numIntermediate)) { + return false; + } + } +#endif + + uint32_t formalArgs = CountArgSlots(script, hasFun, nargs); + + // Test if we honor the maximum of arguments at all times. This is a sanity + // check and not an algorithm limit. So check might be a bit too loose. +4 + // to account for scope chain, return value, this value and maybe + // arguments_object. + MOZ_ASSERT(formalArgs < SNAPSHOT_MAX_NARGS + 4); + +#ifdef JS_JITSPEW + uint32_t implicit = StartArgSlot(script); +#endif + uint32_t nallocs = formalArgs + script->nfixed() + exprStack; + + JitSpew(JitSpew_IonSnapshots, + "Starting frame; implicit %u, formals %u, fixed %zu, exprs %u", + implicit, formalArgs - implicit, script->nfixed(), exprStack); + + uint32_t pcOff = script->pcToOffset(pc()); + JitSpew(JitSpew_IonSnapshots, "Writing pc offset %u, mode %s, nslots %u", + pcOff, ResumeModeToString(mode()), nallocs); + + uint32_t pcOffAndMode = + (pcOff << RResumePoint::PCOffsetShift) | uint32_t(mode()); + MOZ_RELEASE_ASSERT((pcOffAndMode >> RResumePoint::PCOffsetShift) == pcOff, + "pcOff doesn't fit in pcOffAndMode"); + writer.writeUnsigned(pcOffAndMode); + + writer.writeUnsigned(nallocs); + return true; +} + +RResumePoint::RResumePoint(CompactBufferReader& reader) { + pcOffsetAndMode_ = reader.readUnsigned(); + numOperands_ = reader.readUnsigned(); + JitSpew(JitSpew_IonSnapshots, + "Read RResumePoint (pc offset %u, mode %s, nslots %u)", pcOffset(), + ResumeModeToString(mode()), numOperands_); +} + +bool RResumePoint::recover(JSContext* cx, SnapshotIterator& iter) const { + MOZ_CRASH("This instruction is not recoverable."); +} + +bool MBitNot::writeRecoverData(CompactBufferWriter& writer) const { + // 64-bit int bitnots exist only when compiling wasm; they exist neither for + // JS nor asm.js. So we don't expect them here. + MOZ_ASSERT(type() != MIRType::Int64); + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_BitNot)); + return true; +} + +RBitNot::RBitNot(CompactBufferReader& reader) {} + +bool RBitNot::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedValue operand(cx, iter.read()); + RootedValue result(cx); + + if (!js::BitNot(cx, &operand, &result)) { + return false; + } + + iter.storeInstructionResult(result); + return true; +} + +bool MBitAnd::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_BitAnd)); + return true; +} + +RBitAnd::RBitAnd(CompactBufferReader& reader) {} + +bool RBitAnd::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedValue lhs(cx, iter.read()); + RootedValue rhs(cx, iter.read()); + RootedValue result(cx); + MOZ_ASSERT(!lhs.isObject() && !rhs.isObject()); + + if (!js::BitAnd(cx, &lhs, &rhs, &result)) { + return false; + } + + iter.storeInstructionResult(result); + return true; +} + +bool MBitOr::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_BitOr)); + return true; +} + +RBitOr::RBitOr(CompactBufferReader& reader) {} + +bool RBitOr::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedValue lhs(cx, iter.read()); + RootedValue rhs(cx, iter.read()); + RootedValue result(cx); + MOZ_ASSERT(!lhs.isObject() && !rhs.isObject()); + + if (!js::BitOr(cx, &lhs, &rhs, &result)) { + return false; + } + + iter.storeInstructionResult(result); + return true; +} + +bool MBitXor::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_BitXor)); + return true; +} + +RBitXor::RBitXor(CompactBufferReader& reader) {} + +bool RBitXor::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedValue lhs(cx, iter.read()); + RootedValue rhs(cx, iter.read()); + RootedValue result(cx); + + if (!js::BitXor(cx, &lhs, &rhs, &result)) { + return false; + } + + iter.storeInstructionResult(result); + return true; +} + +bool MLsh::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_Lsh)); + return true; +} + +RLsh::RLsh(CompactBufferReader& reader) {} + +bool RLsh::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedValue lhs(cx, iter.read()); + RootedValue rhs(cx, iter.read()); + RootedValue result(cx); + MOZ_ASSERT(!lhs.isObject() && !rhs.isObject()); + + if (!js::BitLsh(cx, &lhs, &rhs, &result)) { + return false; + } + + iter.storeInstructionResult(result); + return true; +} + +bool MRsh::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_Rsh)); + return true; +} + +RRsh::RRsh(CompactBufferReader& reader) {} + +bool RRsh::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedValue lhs(cx, iter.read()); + RootedValue rhs(cx, iter.read()); + RootedValue result(cx); + MOZ_ASSERT(!lhs.isObject() && !rhs.isObject()); + + if (!js::BitRsh(cx, &lhs, &rhs, &result)) { + return false; + } + + iter.storeInstructionResult(result); + return true; +} + +bool MUrsh::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_Ursh)); + return true; +} + +RUrsh::RUrsh(CompactBufferReader& reader) {} + +bool RUrsh::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedValue lhs(cx, iter.read()); + RootedValue rhs(cx, iter.read()); + MOZ_ASSERT(!lhs.isObject() && !rhs.isObject()); + + RootedValue result(cx); + if (!js::UrshValues(cx, &lhs, &rhs, &result)) { + return false; + } + + iter.storeInstructionResult(result); + return true; +} + +bool MSignExtendInt32::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_SignExtendInt32)); + MOZ_ASSERT(Mode(uint8_t(mode_)) == mode_); + writer.writeByte(uint8_t(mode_)); + return true; +} + +RSignExtendInt32::RSignExtendInt32(CompactBufferReader& reader) { + mode_ = reader.readByte(); +} + +bool RSignExtendInt32::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedValue operand(cx, iter.read()); + + int32_t i; + if (!ToInt32(cx, operand, &i)) { + return false; + } + + int32_t result; + switch (MSignExtendInt32::Mode(mode_)) { + case MSignExtendInt32::Byte: + result = static_cast(i); + break; + case MSignExtendInt32::Half: + result = static_cast(i); + break; + } + + iter.storeInstructionResult(JS::Int32Value(result)); + return true; +} + +bool MAdd::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_Add)); + writer.writeByte(type() == MIRType::Float32); + return true; +} + +RAdd::RAdd(CompactBufferReader& reader) { + isFloatOperation_ = reader.readByte(); +} + +bool RAdd::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedValue lhs(cx, iter.read()); + RootedValue rhs(cx, iter.read()); + RootedValue result(cx); + + MOZ_ASSERT(!lhs.isObject() && !rhs.isObject()); + if (!js::AddValues(cx, &lhs, &rhs, &result)) { + return false; + } + + // MIRType::Float32 is a specialization embedding the fact that the result is + // rounded to a Float32. + if (isFloatOperation_ && !RoundFloat32(cx, result, &result)) { + return false; + } + + iter.storeInstructionResult(result); + return true; +} + +bool MSub::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_Sub)); + writer.writeByte(type() == MIRType::Float32); + return true; +} + +RSub::RSub(CompactBufferReader& reader) { + isFloatOperation_ = reader.readByte(); +} + +bool RSub::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedValue lhs(cx, iter.read()); + RootedValue rhs(cx, iter.read()); + RootedValue result(cx); + + MOZ_ASSERT(!lhs.isObject() && !rhs.isObject()); + if (!js::SubValues(cx, &lhs, &rhs, &result)) { + return false; + } + + // MIRType::Float32 is a specialization embedding the fact that the result is + // rounded to a Float32. + if (isFloatOperation_ && !RoundFloat32(cx, result, &result)) { + return false; + } + + iter.storeInstructionResult(result); + return true; +} + +bool MMul::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_Mul)); + writer.writeByte(type() == MIRType::Float32); + MOZ_ASSERT(Mode(uint8_t(mode_)) == mode_); + writer.writeByte(uint8_t(mode_)); + return true; +} + +RMul::RMul(CompactBufferReader& reader) { + isFloatOperation_ = reader.readByte(); + mode_ = reader.readByte(); +} + +bool RMul::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedValue lhs(cx, iter.read()); + RootedValue rhs(cx, iter.read()); + RootedValue result(cx); + + if (MMul::Mode(mode_) == MMul::Normal) { + if (!js::MulValues(cx, &lhs, &rhs, &result)) { + return false; + } + + // MIRType::Float32 is a specialization embedding the fact that the + // result is rounded to a Float32. + if (isFloatOperation_ && !RoundFloat32(cx, result, &result)) { + return false; + } + } else { + MOZ_ASSERT(MMul::Mode(mode_) == MMul::Integer); + if (!js::math_imul_handle(cx, lhs, rhs, &result)) { + return false; + } + } + + iter.storeInstructionResult(result); + return true; +} + +bool MDiv::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_Div)); + writer.writeByte(type() == MIRType::Float32); + return true; +} + +RDiv::RDiv(CompactBufferReader& reader) { + isFloatOperation_ = reader.readByte(); +} + +bool RDiv::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedValue lhs(cx, iter.read()); + RootedValue rhs(cx, iter.read()); + RootedValue result(cx); + + if (!js::DivValues(cx, &lhs, &rhs, &result)) { + return false; + } + + // MIRType::Float32 is a specialization embedding the fact that the result is + // rounded to a Float32. + if (isFloatOperation_ && !RoundFloat32(cx, result, &result)) { + return false; + } + + iter.storeInstructionResult(result); + return true; +} + +bool MMod::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_Mod)); + return true; +} + +RMod::RMod(CompactBufferReader& reader) {} + +bool RMod::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedValue lhs(cx, iter.read()); + RootedValue rhs(cx, iter.read()); + RootedValue result(cx); + + MOZ_ASSERT(!lhs.isObject() && !rhs.isObject()); + if (!js::ModValues(cx, &lhs, &rhs, &result)) { + return false; + } + + iter.storeInstructionResult(result); + return true; +} + +bool MNot::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_Not)); + return true; +} + +RNot::RNot(CompactBufferReader& reader) {} + +bool RNot::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedValue v(cx, iter.read()); + RootedValue result(cx); + + result.setBoolean(!ToBoolean(v)); + + iter.storeInstructionResult(result); + return true; +} + +bool MBigIntAdd::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_BigIntAdd)); + return true; +} + +RBigIntAdd::RBigIntAdd(CompactBufferReader& reader) {} + +bool RBigIntAdd::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedValue lhs(cx, iter.read()); + RootedValue rhs(cx, iter.read()); + RootedValue result(cx); + + MOZ_ASSERT(lhs.isBigInt() && rhs.isBigInt()); + if (!js::AddValues(cx, &lhs, &rhs, &result)) { + return false; + } + + iter.storeInstructionResult(result); + return true; +} + +bool MBigIntSub::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_BigIntSub)); + return true; +} + +RBigIntSub::RBigIntSub(CompactBufferReader& reader) {} + +bool RBigIntSub::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedValue lhs(cx, iter.read()); + RootedValue rhs(cx, iter.read()); + RootedValue result(cx); + + MOZ_ASSERT(lhs.isBigInt() && rhs.isBigInt()); + if (!js::SubValues(cx, &lhs, &rhs, &result)) { + return false; + } + + iter.storeInstructionResult(result); + return true; +} + +bool MBigIntMul::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_BigIntMul)); + return true; +} + +RBigIntMul::RBigIntMul(CompactBufferReader& reader) {} + +bool RBigIntMul::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedValue lhs(cx, iter.read()); + RootedValue rhs(cx, iter.read()); + RootedValue result(cx); + + MOZ_ASSERT(lhs.isBigInt() && rhs.isBigInt()); + if (!js::MulValues(cx, &lhs, &rhs, &result)) { + return false; + } + + iter.storeInstructionResult(result); + return true; +} + +bool MBigIntDiv::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_BigIntDiv)); + return true; +} + +RBigIntDiv::RBigIntDiv(CompactBufferReader& reader) {} + +bool RBigIntDiv::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedValue lhs(cx, iter.read()); + RootedValue rhs(cx, iter.read()); + RootedValue result(cx); + + MOZ_ASSERT(lhs.isBigInt() && rhs.isBigInt()); + MOZ_ASSERT(!rhs.toBigInt()->isZero(), + "division by zero throws and therefore can't be recovered"); + if (!js::DivValues(cx, &lhs, &rhs, &result)) { + return false; + } + + iter.storeInstructionResult(result); + return true; +} + +bool MBigIntMod::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_BigIntMod)); + return true; +} + +RBigIntMod::RBigIntMod(CompactBufferReader& reader) {} + +bool RBigIntMod::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedValue lhs(cx, iter.read()); + RootedValue rhs(cx, iter.read()); + RootedValue result(cx); + + MOZ_ASSERT(lhs.isBigInt() && rhs.isBigInt()); + MOZ_ASSERT(!rhs.toBigInt()->isZero(), + "division by zero throws and therefore can't be recovered"); + if (!js::ModValues(cx, &lhs, &rhs, &result)) { + return false; + } + + iter.storeInstructionResult(result); + return true; +} + +bool MBigIntPow::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_BigIntPow)); + return true; +} + +RBigIntPow::RBigIntPow(CompactBufferReader& reader) {} + +bool RBigIntPow::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedValue lhs(cx, iter.read()); + RootedValue rhs(cx, iter.read()); + RootedValue result(cx); + + MOZ_ASSERT(lhs.isBigInt() && rhs.isBigInt()); + MOZ_ASSERT(!rhs.toBigInt()->isNegative(), + "negative exponent throws and therefore can't be recovered"); + if (!js::PowValues(cx, &lhs, &rhs, &result)) { + return false; + } + + iter.storeInstructionResult(result); + return true; +} + +bool MBigIntBitAnd::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_BigIntBitAnd)); + return true; +} + +RBigIntBitAnd::RBigIntBitAnd(CompactBufferReader& reader) {} + +bool RBigIntBitAnd::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedValue lhs(cx, iter.read()); + RootedValue rhs(cx, iter.read()); + RootedValue result(cx); + + MOZ_ASSERT(lhs.isBigInt() && rhs.isBigInt()); + if (!js::BitAnd(cx, &lhs, &rhs, &result)) { + return false; + } + + iter.storeInstructionResult(result); + return true; +} + +bool MBigIntBitOr::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_BigIntBitOr)); + return true; +} + +RBigIntBitOr::RBigIntBitOr(CompactBufferReader& reader) {} + +bool RBigIntBitOr::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedValue lhs(cx, iter.read()); + RootedValue rhs(cx, iter.read()); + RootedValue result(cx); + + MOZ_ASSERT(lhs.isBigInt() && rhs.isBigInt()); + if (!js::BitOr(cx, &lhs, &rhs, &result)) { + return false; + } + + iter.storeInstructionResult(result); + return true; +} + +bool MBigIntBitXor::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_BigIntBitXor)); + return true; +} + +RBigIntBitXor::RBigIntBitXor(CompactBufferReader& reader) {} + +bool RBigIntBitXor::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedValue lhs(cx, iter.read()); + RootedValue rhs(cx, iter.read()); + RootedValue result(cx); + + MOZ_ASSERT(lhs.isBigInt() && rhs.isBigInt()); + if (!js::BitXor(cx, &lhs, &rhs, &result)) { + return false; + } + + iter.storeInstructionResult(result); + return true; +} + +bool MBigIntLsh::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_BigIntLsh)); + return true; +} + +RBigIntLsh::RBigIntLsh(CompactBufferReader& reader) {} + +bool RBigIntLsh::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedValue lhs(cx, iter.read()); + RootedValue rhs(cx, iter.read()); + RootedValue result(cx); + + MOZ_ASSERT(lhs.isBigInt() && rhs.isBigInt()); + if (!js::BitLsh(cx, &lhs, &rhs, &result)) { + return false; + } + + iter.storeInstructionResult(result); + return true; +} + +bool MBigIntRsh::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_BigIntRsh)); + return true; +} + +RBigIntRsh::RBigIntRsh(CompactBufferReader& reader) {} + +bool RBigIntRsh::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedValue lhs(cx, iter.read()); + RootedValue rhs(cx, iter.read()); + RootedValue result(cx); + + MOZ_ASSERT(lhs.isBigInt() && rhs.isBigInt()); + if (!js::BitRsh(cx, &lhs, &rhs, &result)) { + return false; + } + + iter.storeInstructionResult(result); + return true; +} + +bool MBigIntIncrement::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_BigIntIncrement)); + return true; +} + +RBigIntIncrement::RBigIntIncrement(CompactBufferReader& reader) {} + +bool RBigIntIncrement::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedValue operand(cx, iter.read()); + RootedValue result(cx); + + MOZ_ASSERT(operand.isBigInt()); + if (!js::IncOperation(cx, operand, &result)) { + return false; + } + + iter.storeInstructionResult(result); + return true; +} + +bool MBigIntDecrement::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_BigIntDecrement)); + return true; +} + +RBigIntDecrement::RBigIntDecrement(CompactBufferReader& reader) {} + +bool RBigIntDecrement::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedValue operand(cx, iter.read()); + RootedValue result(cx); + + MOZ_ASSERT(operand.isBigInt()); + if (!js::DecOperation(cx, operand, &result)) { + return false; + } + + iter.storeInstructionResult(result); + return true; +} + +bool MBigIntNegate::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_BigIntNegate)); + return true; +} + +RBigIntNegate::RBigIntNegate(CompactBufferReader& reader) {} + +bool RBigIntNegate::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedValue operand(cx, iter.read()); + RootedValue result(cx); + + MOZ_ASSERT(operand.isBigInt()); + if (!js::NegOperation(cx, &operand, &result)) { + return false; + } + + iter.storeInstructionResult(result); + return true; +} + +bool MBigIntBitNot::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_BigIntBitNot)); + return true; +} + +RBigIntBitNot::RBigIntBitNot(CompactBufferReader& reader) {} + +bool RBigIntBitNot::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedValue operand(cx, iter.read()); + RootedValue result(cx); + + MOZ_ASSERT(operand.isBigInt()); + if (!js::BitNot(cx, &operand, &result)) { + return false; + } + + iter.storeInstructionResult(result); + return true; +} + +bool MCompare::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_Compare)); + + static_assert(sizeof(JSOp) == sizeof(uint8_t)); + writer.writeByte(uint8_t(jsop_)); + return true; +} + +RCompare::RCompare(CompactBufferReader& reader) { + jsop_ = JSOp(reader.readByte()); + + MOZ_ASSERT(IsEqualityOp(jsop_) || IsRelationalOp(jsop_)); +} + +bool RCompare::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedValue lhs(cx, iter.read()); + RootedValue rhs(cx, iter.read()); + + bool result; + switch (jsop_) { + case JSOp::Eq: + case JSOp::Ne: + if (!js::LooselyEqual(cx, lhs, rhs, &result)) { + return false; + } + if (jsop_ == JSOp::Ne) { + result = !result; + } + break; + case JSOp::StrictEq: + case JSOp::StrictNe: + if (!StrictlyEqual(cx, lhs, rhs, &result)) { + return false; + } + if (jsop_ == JSOp::StrictNe) { + result = !result; + } + break; + case JSOp::Lt: + if (!js::LessThan(cx, &lhs, &rhs, &result)) { + return false; + } + break; + case JSOp::Le: + if (!js::LessThanOrEqual(cx, &lhs, &rhs, &result)) { + return false; + } + break; + case JSOp::Gt: + if (!js::GreaterThan(cx, &lhs, &rhs, &result)) { + return false; + } + break; + case JSOp::Ge: + if (!js::GreaterThanOrEqual(cx, &lhs, &rhs, &result)) { + return false; + } + break; + default: + MOZ_CRASH("Unexpected op."); + } + + iter.storeInstructionResult(BooleanValue(result)); + return true; +} + +bool MConcat::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_Concat)); + return true; +} + +RConcat::RConcat(CompactBufferReader& reader) {} + +bool RConcat::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedValue lhs(cx, iter.read()); + RootedValue rhs(cx, iter.read()); + RootedValue result(cx); + + MOZ_ASSERT(!lhs.isObject() && !rhs.isObject()); + if (!js::AddValues(cx, &lhs, &rhs, &result)) { + return false; + } + + iter.storeInstructionResult(result); + return true; +} + +RStringLength::RStringLength(CompactBufferReader& reader) {} + +bool RStringLength::recover(JSContext* cx, SnapshotIterator& iter) const { + JSString* string = iter.read().toString(); + + static_assert(JSString::MAX_LENGTH <= INT32_MAX, + "Can cast string length to int32_t"); + + iter.storeInstructionResult(Int32Value(int32_t(string->length()))); + return true; +} + +bool MStringLength::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_StringLength)); + return true; +} + +bool MArgumentsLength::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_ArgumentsLength)); + return true; +} + +RArgumentsLength::RArgumentsLength(CompactBufferReader& reader) {} + +bool RArgumentsLength::recover(JSContext* cx, SnapshotIterator& iter) const { + uintptr_t numActualArgs = iter.frame()->numActualArgs(); + + static_assert(ARGS_LENGTH_MAX <= INT32_MAX, + "Can cast arguments count to int32_t"); + MOZ_ASSERT(numActualArgs <= ARGS_LENGTH_MAX); + + iter.storeInstructionResult(JS::Int32Value(int32_t(numActualArgs))); + return true; +} + +bool MFloor::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_Floor)); + return true; +} + +RFloor::RFloor(CompactBufferReader& reader) {} + +bool RFloor::recover(JSContext* cx, SnapshotIterator& iter) const { + double num = iter.read().toNumber(); + double result = js::math_floor_impl(num); + + iter.storeInstructionResult(NumberValue(result)); + return true; +} + +bool MCeil::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_Ceil)); + return true; +} + +RCeil::RCeil(CompactBufferReader& reader) {} + +bool RCeil::recover(JSContext* cx, SnapshotIterator& iter) const { + double num = iter.read().toNumber(); + double result = js::math_ceil_impl(num); + + iter.storeInstructionResult(NumberValue(result)); + return true; +} + +bool MRound::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_Round)); + return true; +} + +RRound::RRound(CompactBufferReader& reader) {} + +bool RRound::recover(JSContext* cx, SnapshotIterator& iter) const { + double num = iter.read().toNumber(); + double result = js::math_round_impl(num); + + iter.storeInstructionResult(NumberValue(result)); + return true; +} + +bool MTrunc::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_Trunc)); + return true; +} + +RTrunc::RTrunc(CompactBufferReader& reader) {} + +bool RTrunc::recover(JSContext* cx, SnapshotIterator& iter) const { + double num = iter.read().toNumber(); + double result = js::math_trunc_impl(num); + + iter.storeInstructionResult(NumberValue(result)); + return true; +} + +bool MCharCodeAt::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_CharCodeAt)); + return true; +} + +RCharCodeAt::RCharCodeAt(CompactBufferReader& reader) {} + +bool RCharCodeAt::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedString string(cx, iter.read().toString()); + int32_t index = iter.read().toInt32(); + + RootedValue result(cx); + if (0 <= index && size_t(index) < string->length()) { + char16_t c; + if (!string->getChar(cx, index, &c)) { + return false; + } + result.setInt32(c); + } else { + result.setNaN(); + } + + iter.storeInstructionResult(result); + return true; +} + +bool MFromCharCode::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_FromCharCode)); + return true; +} + +RFromCharCode::RFromCharCode(CompactBufferReader& reader) {} + +bool RFromCharCode::recover(JSContext* cx, SnapshotIterator& iter) const { + int32_t charCode = iter.read().toInt32(); + + JSString* str = StringFromCharCode(cx, charCode); + if (!str) { + return false; + } + + iter.storeInstructionResult(StringValue(str)); + return true; +} + +bool MFromCharCodeEmptyIfNegative::writeRecoverData( + CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned( + uint32_t(RInstruction::Recover_FromCharCodeEmptyIfNegative)); + return true; +} + +RFromCharCodeEmptyIfNegative::RFromCharCodeEmptyIfNegative( + CompactBufferReader& reader) {} + +bool RFromCharCodeEmptyIfNegative::recover(JSContext* cx, + SnapshotIterator& iter) const { + int32_t charCode = iter.read().toInt32(); + + JSString* str; + if (charCode < 0) { + str = cx->emptyString(); + } else { + str = StringFromCharCode(cx, charCode); + if (!str) { + return false; + } + } + + iter.storeInstructionResult(StringValue(str)); + return true; +} + +bool MPow::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_Pow)); + return true; +} + +RPow::RPow(CompactBufferReader& reader) {} + +bool RPow::recover(JSContext* cx, SnapshotIterator& iter) const { + double base = iter.read().toNumber(); + double power = iter.read().toNumber(); + double result = ecmaPow(base, power); + + iter.storeInstructionResult(NumberValue(result)); + return true; +} + +bool MPowHalf::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_PowHalf)); + return true; +} + +RPowHalf::RPowHalf(CompactBufferReader& reader) {} + +bool RPowHalf::recover(JSContext* cx, SnapshotIterator& iter) const { + double base = iter.read().toNumber(); + double power = 0.5; + double result = ecmaPow(base, power); + + iter.storeInstructionResult(NumberValue(result)); + return true; +} + +bool MMinMax::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_MinMax)); + writer.writeByte(isMax_); + return true; +} + +RMinMax::RMinMax(CompactBufferReader& reader) { isMax_ = reader.readByte(); } + +bool RMinMax::recover(JSContext* cx, SnapshotIterator& iter) const { + double x = iter.read().toNumber(); + double y = iter.read().toNumber(); + + double result; + if (isMax_) { + result = js::math_max_impl(x, y); + } else { + result = js::math_min_impl(x, y); + } + + iter.storeInstructionResult(NumberValue(result)); + return true; +} + +bool MAbs::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_Abs)); + return true; +} + +RAbs::RAbs(CompactBufferReader& reader) {} + +bool RAbs::recover(JSContext* cx, SnapshotIterator& iter) const { + double num = iter.read().toNumber(); + double result = js::math_abs_impl(num); + + iter.storeInstructionResult(NumberValue(result)); + return true; +} + +bool MSqrt::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_Sqrt)); + writer.writeByte(type() == MIRType::Float32); + return true; +} + +RSqrt::RSqrt(CompactBufferReader& reader) { + isFloatOperation_ = reader.readByte(); +} + +bool RSqrt::recover(JSContext* cx, SnapshotIterator& iter) const { + double num = iter.read().toNumber(); + double result = js::math_sqrt_impl(num); + + // MIRType::Float32 is a specialization embedding the fact that the result is + // rounded to a Float32. + if (isFloatOperation_) { + result = js::RoundFloat32(result); + } + + iter.storeInstructionResult(DoubleValue(result)); + return true; +} + +bool MAtan2::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_Atan2)); + return true; +} + +RAtan2::RAtan2(CompactBufferReader& reader) {} + +bool RAtan2::recover(JSContext* cx, SnapshotIterator& iter) const { + double y = iter.read().toNumber(); + double x = iter.read().toNumber(); + double result = js::ecmaAtan2(y, x); + + iter.storeInstructionResult(DoubleValue(result)); + return true; +} + +bool MHypot::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_Hypot)); + writer.writeUnsigned(uint32_t(numOperands())); + return true; +} + +RHypot::RHypot(CompactBufferReader& reader) + : numOperands_(reader.readUnsigned()) {} + +bool RHypot::recover(JSContext* cx, SnapshotIterator& iter) const { + JS::RootedValueVector vec(cx); + + if (!vec.reserve(numOperands_)) { + return false; + } + + for (uint32_t i = 0; i < numOperands_; ++i) { + vec.infallibleAppend(iter.read()); + } + + RootedValue result(cx); + + if (!js::math_hypot_handle(cx, vec, &result)) { + return false; + } + + iter.storeInstructionResult(result); + return true; +} + +bool MNearbyInt::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + switch (roundingMode_) { + case RoundingMode::Up: + writer.writeUnsigned(uint32_t(RInstruction::Recover_Ceil)); + return true; + case RoundingMode::Down: + writer.writeUnsigned(uint32_t(RInstruction::Recover_Floor)); + return true; + case RoundingMode::TowardsZero: + writer.writeUnsigned(uint32_t(RInstruction::Recover_Trunc)); + return true; + default: + MOZ_CRASH("Unsupported rounding mode."); + } +} + +RNearbyInt::RNearbyInt(CompactBufferReader& reader) { + roundingMode_ = reader.readByte(); +} + +bool RNearbyInt::recover(JSContext* cx, SnapshotIterator& iter) const { + MOZ_CRASH("Unsupported rounding mode."); +} + +bool MSign::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_Sign)); + return true; +} + +RSign::RSign(CompactBufferReader& reader) {} + +bool RSign::recover(JSContext* cx, SnapshotIterator& iter) const { + double num = iter.read().toNumber(); + double result = js::math_sign_impl(num); + + iter.storeInstructionResult(NumberValue(result)); + return true; +} + +bool MMathFunction::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + switch (function_) { + case UnaryMathFunction::Ceil: + writer.writeUnsigned(uint32_t(RInstruction::Recover_Ceil)); + return true; + case UnaryMathFunction::Floor: + writer.writeUnsigned(uint32_t(RInstruction::Recover_Floor)); + return true; + case UnaryMathFunction::Round: + writer.writeUnsigned(uint32_t(RInstruction::Recover_Round)); + return true; + case UnaryMathFunction::Trunc: + writer.writeUnsigned(uint32_t(RInstruction::Recover_Trunc)); + return true; + case UnaryMathFunction::SinNative: + case UnaryMathFunction::SinFdlibm: + case UnaryMathFunction::CosNative: + case UnaryMathFunction::CosFdlibm: + case UnaryMathFunction::TanNative: + case UnaryMathFunction::TanFdlibm: + case UnaryMathFunction::Log: + case UnaryMathFunction::Exp: + case UnaryMathFunction::ACos: + case UnaryMathFunction::ASin: + case UnaryMathFunction::ATan: + case UnaryMathFunction::Log10: + case UnaryMathFunction::Log2: + case UnaryMathFunction::Log1P: + case UnaryMathFunction::ExpM1: + case UnaryMathFunction::CosH: + case UnaryMathFunction::SinH: + case UnaryMathFunction::TanH: + case UnaryMathFunction::ACosH: + case UnaryMathFunction::ASinH: + case UnaryMathFunction::ATanH: + case UnaryMathFunction::Cbrt: + static_assert(sizeof(UnaryMathFunction) == sizeof(uint8_t)); + writer.writeUnsigned(uint32_t(RInstruction::Recover_MathFunction)); + writer.writeByte(uint8_t(function_)); + return true; + } + MOZ_CRASH("Unknown math function."); +} + +RMathFunction::RMathFunction(CompactBufferReader& reader) { + function_ = UnaryMathFunction(reader.readByte()); +} + +bool RMathFunction::recover(JSContext* cx, SnapshotIterator& iter) const { + double num = iter.read().toNumber(); + + double result; + switch (function_) { + case UnaryMathFunction::SinNative: + result = js::math_sin_native_impl(num); + break; + case UnaryMathFunction::SinFdlibm: + result = js::math_sin_fdlibm_impl(num); + break; + case UnaryMathFunction::CosNative: + result = js::math_cos_native_impl(num); + break; + case UnaryMathFunction::CosFdlibm: + result = js::math_cos_fdlibm_impl(num); + break; + case UnaryMathFunction::TanNative: + result = js::math_tan_native_impl(num); + break; + case UnaryMathFunction::TanFdlibm: + result = js::math_tan_fdlibm_impl(num); + break; + case UnaryMathFunction::Log: + result = js::math_log_impl(num); + break; + case UnaryMathFunction::Exp: + result = js::math_exp_impl(num); + break; + case UnaryMathFunction::ACos: + result = js::math_acos_impl(num); + break; + case UnaryMathFunction::ASin: + result = js::math_asin_impl(num); + break; + case UnaryMathFunction::ATan: + result = js::math_atan_impl(num); + break; + case UnaryMathFunction::Log10: + result = js::math_log10_impl(num); + break; + case UnaryMathFunction::Log2: + result = js::math_log2_impl(num); + break; + case UnaryMathFunction::Log1P: + result = js::math_log1p_impl(num); + break; + case UnaryMathFunction::ExpM1: + result = js::math_expm1_impl(num); + break; + case UnaryMathFunction::CosH: + result = js::math_cosh_impl(num); + break; + case UnaryMathFunction::SinH: + result = js::math_sinh_impl(num); + break; + case UnaryMathFunction::TanH: + result = js::math_tanh_impl(num); + break; + case UnaryMathFunction::ACosH: + result = js::math_acosh_impl(num); + break; + case UnaryMathFunction::ASinH: + result = js::math_asinh_impl(num); + break; + case UnaryMathFunction::ATanH: + result = js::math_atanh_impl(num); + break; + case UnaryMathFunction::Cbrt: + result = js::math_cbrt_impl(num); + break; + + case UnaryMathFunction::Trunc: + case UnaryMathFunction::Floor: + case UnaryMathFunction::Ceil: + case UnaryMathFunction::Round: + // These have their own recover instructions. + MOZ_CRASH("Unexpected rounding math function."); + } + + iter.storeInstructionResult(DoubleValue(result)); + return true; +} + +bool MRandom::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(this->canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_Random)); + return true; +} + +bool MRandom::canRecoverOnBailout() const { + return !js::SupportDifferentialTesting(); +} + +RRandom::RRandom(CompactBufferReader& reader) {} + +bool RRandom::recover(JSContext* cx, SnapshotIterator& iter) const { + iter.storeInstructionResult(DoubleValue(math_random_impl(cx))); + return true; +} + +bool MStringSplit::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_StringSplit)); + return true; +} + +RStringSplit::RStringSplit(CompactBufferReader& reader) {} + +bool RStringSplit::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedString str(cx, iter.read().toString()); + RootedString sep(cx, iter.read().toString()); + + JSObject* res = StringSplitString(cx, str, sep, INT32_MAX); + if (!res) { + return false; + } + + iter.storeInstructionResult(ObjectValue(*res)); + return true; +} + +bool MNaNToZero::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_NaNToZero)); + return true; +} + +RNaNToZero::RNaNToZero(CompactBufferReader& reader) {} + +bool RNaNToZero::recover(JSContext* cx, SnapshotIterator& iter) const { + double v = iter.read().toNumber(); + if (std::isnan(v) || mozilla::IsNegativeZero(v)) { + v = 0.0; + } + + iter.storeInstructionResult(DoubleValue(v)); + return true; +} + +bool MRegExpMatcher::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_RegExpMatcher)); + return true; +} + +RRegExpMatcher::RRegExpMatcher(CompactBufferReader& reader) {} + +bool RRegExpMatcher::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedObject regexp(cx, &iter.read().toObject()); + RootedString input(cx, iter.read().toString()); + int32_t lastIndex = iter.read().toInt32(); + + RootedValue result(cx); + if (!RegExpMatcherRaw(cx, regexp, input, lastIndex, nullptr, &result)) { + return false; + } + + iter.storeInstructionResult(result); + return true; +} + +bool MTypeOf::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_TypeOf)); + return true; +} + +RTypeOf::RTypeOf(CompactBufferReader& reader) {} + +bool RTypeOf::recover(JSContext* cx, SnapshotIterator& iter) const { + JS::Value v = iter.read(); + + iter.storeInstructionResult(Int32Value(TypeOfValue(v))); + return true; +} + +bool MTypeOfName::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_TypeOfName)); + return true; +} + +RTypeOfName::RTypeOfName(CompactBufferReader& reader) {} + +bool RTypeOfName::recover(JSContext* cx, SnapshotIterator& iter) const { + int32_t type = iter.read().toInt32(); + MOZ_ASSERT(JSTYPE_UNDEFINED <= type && type < JSTYPE_LIMIT); + + JSString* name = TypeName(JSType(type), *cx->runtime()->commonNames); + iter.storeInstructionResult(StringValue(name)); + return true; +} + +bool MToDouble::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_ToDouble)); + return true; +} + +RToDouble::RToDouble(CompactBufferReader& reader) {} + +bool RToDouble::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedValue v(cx, iter.read()); + + MOZ_ASSERT(!v.isObject()); + MOZ_ASSERT(!v.isSymbol()); + MOZ_ASSERT(!v.isBigInt()); + + double dbl; + if (!ToNumber(cx, v, &dbl)) { + return false; + } + + iter.storeInstructionResult(DoubleValue(dbl)); + return true; +} + +bool MToFloat32::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_ToFloat32)); + return true; +} + +RToFloat32::RToFloat32(CompactBufferReader& reader) {} + +bool RToFloat32::recover(JSContext* cx, SnapshotIterator& iter) const { + double num = iter.read().toNumber(); + double result = js::RoundFloat32(num); + + iter.storeInstructionResult(DoubleValue(result)); + return true; +} + +bool MTruncateToInt32::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_TruncateToInt32)); + return true; +} + +RTruncateToInt32::RTruncateToInt32(CompactBufferReader& reader) {} + +bool RTruncateToInt32::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedValue value(cx, iter.read()); + + int32_t trunc; + if (!JS::ToInt32(cx, value, &trunc)) { + return false; + } + + iter.storeInstructionResult(Int32Value(trunc)); + return true; +} + +bool MNewObject::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + + writer.writeUnsigned(uint32_t(RInstruction::Recover_NewObject)); + + // Recover instructions are only supported if we have a template object. + MOZ_ASSERT(mode_ == MNewObject::ObjectCreate); + return true; +} + +RNewObject::RNewObject(CompactBufferReader& reader) {} + +bool RNewObject::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedObject templateObject(cx, &iter.read().toObject()); + + // See CodeGenerator::visitNewObjectVMCall. + // Note that recover instructions are only used if mode == ObjectCreate. + JSObject* resultObject = + ObjectCreateWithTemplate(cx, templateObject.as()); + if (!resultObject) { + return false; + } + + iter.storeInstructionResult(ObjectValue(*resultObject)); + return true; +} + +bool MNewPlainObject::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_NewPlainObject)); + + MOZ_ASSERT(gc::AllocKind(uint8_t(allocKind_)) == allocKind_); + writer.writeByte(uint8_t(allocKind_)); + MOZ_ASSERT(gc::Heap(uint8_t(initialHeap_)) == initialHeap_); + writer.writeByte(uint8_t(initialHeap_)); + return true; +} + +RNewPlainObject::RNewPlainObject(CompactBufferReader& reader) { + allocKind_ = gc::AllocKind(reader.readByte()); + MOZ_ASSERT(gc::IsValidAllocKind(allocKind_)); + initialHeap_ = gc::Heap(reader.readByte()); + MOZ_ASSERT(initialHeap_ == gc::Heap::Default || + initialHeap_ == gc::Heap::Tenured); +} + +bool RNewPlainObject::recover(JSContext* cx, SnapshotIterator& iter) const { + Rooted shape(cx, + &iter.read().toGCCellPtr().as().asShared()); + + // See CodeGenerator::visitNewPlainObject. + JSObject* resultObject = + NewPlainObjectOptimizedFallback(cx, shape, allocKind_, initialHeap_); + if (!resultObject) { + return false; + } + + iter.storeInstructionResult(ObjectValue(*resultObject)); + return true; +} + +bool MNewArrayObject::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_NewArrayObject)); + + writer.writeUnsigned(length_); + MOZ_ASSERT(gc::Heap(uint8_t(initialHeap_)) == initialHeap_); + writer.writeByte(uint8_t(initialHeap_)); + return true; +} + +RNewArrayObject::RNewArrayObject(CompactBufferReader& reader) { + length_ = reader.readUnsigned(); + initialHeap_ = gc::Heap(reader.readByte()); + MOZ_ASSERT(initialHeap_ == gc::Heap::Default || + initialHeap_ == gc::Heap::Tenured); +} + +bool RNewArrayObject::recover(JSContext* cx, SnapshotIterator& iter) const { + iter.read(); // Skip unused shape field. + + NewObjectKind kind = + initialHeap_ == gc::Heap::Tenured ? TenuredObject : GenericObject; + JSObject* array = NewArrayOperation(cx, length_, kind); + if (!array) { + return false; + } + + iter.storeInstructionResult(ObjectValue(*array)); + return true; +} + +bool MNewTypedArray::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_NewTypedArray)); + return true; +} + +RNewTypedArray::RNewTypedArray(CompactBufferReader& reader) {} + +bool RNewTypedArray::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedObject templateObject(cx, &iter.read().toObject()); + + size_t length = templateObject.as()->length(); + MOZ_ASSERT(length <= INT32_MAX, + "Template objects are only created for int32 lengths"); + + JSObject* resultObject = + NewTypedArrayWithTemplateAndLength(cx, templateObject, length); + if (!resultObject) { + return false; + } + + iter.storeInstructionResult(ObjectValue(*resultObject)); + return true; +} + +bool MNewArray::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_NewArray)); + writer.writeUnsigned(length()); + return true; +} + +RNewArray::RNewArray(CompactBufferReader& reader) { + count_ = reader.readUnsigned(); +} + +bool RNewArray::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedObject templateObject(cx, &iter.read().toObject()); + Rooted shape(cx, templateObject->shape()); + + ArrayObject* resultObject = NewArrayWithShape(cx, count_, shape); + if (!resultObject) { + return false; + } + + iter.storeInstructionResult(ObjectValue(*resultObject)); + return true; +} + +bool MNewIterator::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_NewIterator)); + writer.writeByte(type_); + return true; +} + +RNewIterator::RNewIterator(CompactBufferReader& reader) { + type_ = reader.readByte(); +} + +bool RNewIterator::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedObject templateObject(cx, &iter.read().toObject()); + + JSObject* resultObject = nullptr; + switch (MNewIterator::Type(type_)) { + case MNewIterator::ArrayIterator: + resultObject = NewArrayIterator(cx); + break; + case MNewIterator::StringIterator: + resultObject = NewStringIterator(cx); + break; + case MNewIterator::RegExpStringIterator: + resultObject = NewRegExpStringIterator(cx); + break; + } + + if (!resultObject) { + return false; + } + + iter.storeInstructionResult(ObjectValue(*resultObject)); + return true; +} + +bool MLambda::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_Lambda)); + return true; +} + +RLambda::RLambda(CompactBufferReader& reader) {} + +bool RLambda::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedObject scopeChain(cx, &iter.read().toObject()); + RootedFunction fun(cx, &iter.read().toObject().as()); + + JSObject* resultObject = js::Lambda(cx, fun, scopeChain); + if (!resultObject) { + return false; + } + + iter.storeInstructionResult(ObjectValue(*resultObject)); + return true; +} + +bool MFunctionWithProto::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_FunctionWithProto)); + return true; +} + +RFunctionWithProto::RFunctionWithProto(CompactBufferReader& reader) {} + +bool RFunctionWithProto::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedObject scopeChain(cx, &iter.read().toObject()); + RootedObject prototype(cx, &iter.read().toObject()); + RootedFunction fun(cx, &iter.read().toObject().as()); + + JSObject* resultObject = + js::FunWithProtoOperation(cx, fun, scopeChain, prototype); + if (!resultObject) { + return false; + } + + iter.storeInstructionResult(ObjectValue(*resultObject)); + return true; +} + +bool MNewCallObject::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_NewCallObject)); + return true; +} + +RNewCallObject::RNewCallObject(CompactBufferReader& reader) {} + +bool RNewCallObject::recover(JSContext* cx, SnapshotIterator& iter) const { + Rooted templateObj(cx, &iter.read().toObject().as()); + + Rooted shape(cx, templateObj->sharedShape()); + + JSObject* resultObject = CallObject::createWithShape(cx, shape); + if (!resultObject) { + return false; + } + + iter.storeInstructionResult(ObjectValue(*resultObject)); + return true; +} + +bool MObjectKeys::canRecoverOnBailout() const { + // Only claim that this operation can be recovered on bailout if some other + // optimization already marked it as such. + return isRecoveredOnBailout(); +} + +bool MObjectKeys::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_ObjectKeys)); + return true; +} + +RObjectKeys::RObjectKeys(CompactBufferReader& reader) {} + +bool RObjectKeys::recover(JSContext* cx, SnapshotIterator& iter) const { + Rooted obj(cx, &iter.read().toObject()); + + JSObject* resultKeys = ObjectKeys(cx, obj); + if (!resultKeys) { + return false; + } + + iter.storeInstructionResult(ObjectValue(*resultKeys)); + return true; +} + +bool MObjectState::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_ObjectState)); + writer.writeUnsigned(numSlots()); + return true; +} + +RObjectState::RObjectState(CompactBufferReader& reader) { + numSlots_ = reader.readUnsigned(); +} + +bool RObjectState::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedObject object(cx, &iter.read().toObject()); + Handle nativeObject = object.as(); + MOZ_ASSERT(!Watchtower::watchesPropertyModification(nativeObject)); + MOZ_ASSERT(nativeObject->slotSpan() == numSlots()); + + for (size_t i = 0; i < numSlots(); i++) { + Value val = iter.read(); + nativeObject->setSlot(i, val); + } + + iter.storeInstructionResult(ObjectValue(*object)); + return true; +} + +bool MArrayState::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_ArrayState)); + writer.writeUnsigned(numElements()); + return true; +} + +RArrayState::RArrayState(CompactBufferReader& reader) { + numElements_ = reader.readUnsigned(); +} + +bool RArrayState::recover(JSContext* cx, SnapshotIterator& iter) const { + ArrayObject* object = &iter.read().toObject().as(); + uint32_t initLength = iter.read().toInt32(); + + MOZ_ASSERT(object->getDenseInitializedLength() == 0, + "initDenseElement call below relies on this"); + object->setDenseInitializedLength(initLength); + + for (size_t index = 0; index < numElements(); index++) { + Value val = iter.read(); + + if (index >= initLength) { + MOZ_ASSERT(val.isUndefined()); + continue; + } + + object->initDenseElement(index, val); + } + + iter.storeInstructionResult(ObjectValue(*object)); + return true; +} + +bool MSetArrayLength::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + // For simplicity, we capture directly the object instead of the elements + // pointer. + MOZ_ASSERT(elements()->type() != MIRType::Elements); + writer.writeUnsigned(uint32_t(RInstruction::Recover_SetArrayLength)); + return true; +} + +bool MSetArrayLength::canRecoverOnBailout() const { + return isRecoveredOnBailout(); +} + +RSetArrayLength::RSetArrayLength(CompactBufferReader& reader) {} + +bool RSetArrayLength::recover(JSContext* cx, SnapshotIterator& iter) const { + Rooted obj(cx, &iter.read().toObject().as()); + RootedValue len(cx, iter.read()); + + RootedId id(cx, NameToId(cx->names().length)); + Rooted desc( + cx, PropertyDescriptor::Data(len, JS::PropertyAttribute::Writable)); + ObjectOpResult error; + if (!ArraySetLength(cx, obj, id, desc, error)) { + return false; + } + + iter.storeInstructionResult(ObjectValue(*obj)); + return true; +} + +bool MAssertRecoveredOnBailout::writeRecoverData( + CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + MOZ_RELEASE_ASSERT(input()->isRecoveredOnBailout() == mustBeRecovered_, + "assertRecoveredOnBailout failed during compilation"); + writer.writeUnsigned( + uint32_t(RInstruction::Recover_AssertRecoveredOnBailout)); + return true; +} + +RAssertRecoveredOnBailout::RAssertRecoveredOnBailout( + CompactBufferReader& reader) {} + +bool RAssertRecoveredOnBailout::recover(JSContext* cx, + SnapshotIterator& iter) const { + iter.read(); // skip the unused operand. + iter.storeInstructionResult(UndefinedValue()); + return true; +} + +bool MStringReplace::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_StringReplace)); + writer.writeByte(isFlatReplacement_); + return true; +} + +RStringReplace::RStringReplace(CompactBufferReader& reader) { + isFlatReplacement_ = reader.readByte(); +} + +bool RStringReplace::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedString string(cx, iter.read().toString()); + RootedString pattern(cx, iter.read().toString()); + RootedString replace(cx, iter.read().toString()); + + JSString* result = + isFlatReplacement_ + ? js::StringFlatReplaceString(cx, string, pattern, replace) + : js::str_replace_string_raw(cx, string, pattern, replace); + + if (!result) { + return false; + } + + iter.storeInstructionResult(StringValue(result)); + return true; +} + +bool MSubstr::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_Substr)); + return true; +} + +RSubstr::RSubstr(CompactBufferReader& reader) {} + +bool RSubstr::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedString str(cx, iter.read().toString()); + int32_t begin = iter.read().toInt32(); + int32_t length = iter.read().toInt32(); + + JSString* result = SubstringKernel(cx, str, begin, length); + if (!result) { + return false; + } + + iter.storeInstructionResult(StringValue(result)); + return true; +} + +bool MAtomicIsLockFree::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_AtomicIsLockFree)); + return true; +} + +RAtomicIsLockFree::RAtomicIsLockFree(CompactBufferReader& reader) {} + +bool RAtomicIsLockFree::recover(JSContext* cx, SnapshotIterator& iter) const { + RootedValue operand(cx, iter.read()); + MOZ_ASSERT(operand.isInt32()); + + int32_t result; + if (!js::AtomicIsLockFree(cx, operand, &result)) { + return false; + } + + iter.storeInstructionResult(Int32Value(result)); + return true; +} + +bool MBigIntAsIntN::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_BigIntAsIntN)); + return true; +} + +RBigIntAsIntN::RBigIntAsIntN(CompactBufferReader& reader) {} + +bool RBigIntAsIntN::recover(JSContext* cx, SnapshotIterator& iter) const { + int32_t bits = iter.read().toInt32(); + RootedBigInt input(cx, iter.read().toBigInt()); + + MOZ_ASSERT(bits >= 0); + BigInt* result = BigInt::asIntN(cx, input, bits); + if (!result) { + return false; + } + + iter.storeInstructionResult(JS::BigIntValue(result)); + return true; +} + +bool MBigIntAsUintN::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_BigIntAsUintN)); + return true; +} + +RBigIntAsUintN::RBigIntAsUintN(CompactBufferReader& reader) {} + +bool RBigIntAsUintN::recover(JSContext* cx, SnapshotIterator& iter) const { + int32_t bits = iter.read().toInt32(); + RootedBigInt input(cx, iter.read().toBigInt()); + + MOZ_ASSERT(bits >= 0); + BigInt* result = BigInt::asUintN(cx, input, bits); + if (!result) { + return false; + } + + iter.storeInstructionResult(JS::BigIntValue(result)); + return true; +} + +bool MCreateArgumentsObject::writeRecoverData( + CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_CreateArgumentsObject)); + return true; +} + +RCreateArgumentsObject::RCreateArgumentsObject(CompactBufferReader& reader) {} + +bool RCreateArgumentsObject::recover(JSContext* cx, + SnapshotIterator& iter) const { + RootedObject callObject(cx, &iter.read().toObject()); + RootedObject result( + cx, ArgumentsObject::createForIon(cx, iter.frame(), callObject)); + if (!result) { + return false; + } + + iter.storeInstructionResult(JS::ObjectValue(*result)); + return true; +} + +bool MCreateInlinedArgumentsObject::writeRecoverData( + CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned( + uint32_t(RInstruction::Recover_CreateInlinedArgumentsObject)); + writer.writeUnsigned(numActuals()); + return true; +} + +RCreateInlinedArgumentsObject::RCreateInlinedArgumentsObject( + CompactBufferReader& reader) { + numActuals_ = reader.readUnsigned(); +} + +bool RCreateInlinedArgumentsObject::recover(JSContext* cx, + SnapshotIterator& iter) const { + RootedObject callObject(cx, &iter.read().toObject()); + RootedFunction callee(cx, &iter.read().toObject().as()); + + JS::RootedValueArray argsArray(cx); + for (uint32_t i = 0; i < numActuals_; i++) { + argsArray[i].set(iter.read()); + } + + ArgumentsObject* result = ArgumentsObject::createFromValueArray( + cx, argsArray, callee, callObject, numActuals_); + if (!result) { + return false; + } + + iter.storeInstructionResult(JS::ObjectValue(*result)); + return true; +} + +bool MRest::writeRecoverData(CompactBufferWriter& writer) const { + MOZ_ASSERT(canRecoverOnBailout()); + writer.writeUnsigned(uint32_t(RInstruction::Recover_Rest)); + writer.writeUnsigned(numFormals()); + return true; +} + +RRest::RRest(CompactBufferReader& reader) { + numFormals_ = reader.readUnsigned(); +} + +bool RRest::recover(JSContext* cx, SnapshotIterator& iter) const { + JitFrameLayout* frame = iter.frame(); + + uint32_t numActuals = iter.read().toInt32(); + MOZ_ASSERT(numActuals == frame->numActualArgs()); + + uint32_t numFormals = numFormals_; + + uint32_t length = std::max(numActuals, numFormals) - numFormals; + Value* src = frame->actualArgs() + numFormals; + JSObject* rest = jit::InitRestParameter(cx, length, src, nullptr); + if (!rest) { + return false; + } + + iter.storeInstructionResult(ObjectValue(*rest)); + return true; +} -- cgit v1.2.3