| /* |
| * Copyright (C) 2016-2019 Apple Inc. All rights reserved. |
| * |
| * Redistribution and use in source and binary forms, with or without |
| * modification, are permitted provided that the following conditions |
| * are met: |
| * 1. Redistributions of source code must retain the above copyright |
| * notice, this list of conditions and the following disclaimer. |
| * 2. Redistributions in binary form must reproduce the above copyright |
| * notice, this list of conditions and the following disclaimer in the |
| * documentation and/or other materials provided with the distribution. |
| * |
| * THIS SOFTWARE IS PROVIDED BY APPLE INC. ``AS IS'' AND ANY |
| * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE |
| * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR |
| * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR |
| * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, |
| * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, |
| * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR |
| * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY |
| * OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT |
| * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE |
| * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. |
| */ |
| |
| #include "config.h" |
| #include "WasmB3IRGenerator.h" |
| |
| #if ENABLE(WEBASSEMBLY) |
| |
| #include "AllowMacroScratchRegisterUsageIf.h" |
| #include "B3BasicBlockInlines.h" |
| #include "B3CCallValue.h" |
| #include "B3Compile.h" |
| #include "B3ConstPtrValue.h" |
| #include "B3FixSSA.h" |
| #include "B3Generate.h" |
| #include "B3InsertionSet.h" |
| #include "B3SlotBaseValue.h" |
| #include "B3StackmapGenerationParams.h" |
| #include "B3SwitchValue.h" |
| #include "B3UpsilonValue.h" |
| #include "B3Validate.h" |
| #include "B3ValueInlines.h" |
| #include "B3ValueKey.h" |
| #include "B3Variable.h" |
| #include "B3VariableValue.h" |
| #include "B3WasmAddressValue.h" |
| #include "B3WasmBoundsCheckValue.h" |
| #include "DisallowMacroScratchRegisterUsage.h" |
| #include "JSCInlines.h" |
| #include "JSWebAssemblyInstance.h" |
| #include "ScratchRegisterAllocator.h" |
| #include "VirtualRegister.h" |
| #include "WasmCallingConvention.h" |
| #include "WasmContextInlines.h" |
| #include "WasmExceptionType.h" |
| #include "WasmFunctionParser.h" |
| #include "WasmInstance.h" |
| #include "WasmMemory.h" |
| #include "WasmOMGPlan.h" |
| #include "WasmOSREntryData.h" |
| #include "WasmOpcodeOrigin.h" |
| #include "WasmOperations.h" |
| #include "WasmSignatureInlines.h" |
| #include "WasmThunks.h" |
| #include <limits> |
| #include <wtf/Optional.h> |
| #include <wtf/StdLibExtras.h> |
| |
| void dumpProcedure(void* ptr) |
| { |
| JSC::B3::Procedure* proc = static_cast<JSC::B3::Procedure*>(ptr); |
| proc->dump(WTF::dataFile()); |
| } |
| |
| namespace JSC { namespace Wasm { |
| |
| using namespace B3; |
| |
| namespace { |
| namespace WasmB3IRGeneratorInternal { |
| static constexpr bool verbose = false; |
| } |
| } |
| |
| class B3IRGenerator { |
| public: |
| using ExpressionType = Value*; |
| using ResultList = Vector<ExpressionType, 8>; |
| |
| struct ControlData { |
| ControlData(Procedure& proc, Origin origin, BlockSignature signature, BlockType type, BasicBlock* continuation, BasicBlock* special = nullptr) |
| : controlBlockType(type) |
| , m_signature(signature) |
| , continuation(continuation) |
| , special(special) |
| { |
| if (type == BlockType::Loop) { |
| for (unsigned i = 0; i < signature->argumentCount(); ++i) |
| phis.append(proc.add<Value>(Phi, toB3Type(signature->argument(i)), origin)); |
| } else { |
| for (unsigned i = 0; i < signature->returnCount(); ++i) |
| phis.append(proc.add<Value>(Phi, toB3Type(signature->returnType(i)), origin)); |
| } |
| } |
| |
| ControlData() |
| { |
| } |
| |
| static bool isIf(const ControlData& control) { return control.blockType() == BlockType::If; } |
| static bool isTopLevel(const ControlData& control) { return control.blockType() == BlockType::TopLevel; } |
| |
| void dump(PrintStream& out) const |
| { |
| switch (blockType()) { |
| case BlockType::If: |
| out.print("If: "); |
| break; |
| case BlockType::Block: |
| out.print("Block: "); |
| break; |
| case BlockType::Loop: |
| out.print("Loop: "); |
| break; |
| case BlockType::TopLevel: |
| out.print("TopLevel: "); |
| break; |
| } |
| out.print("Continuation: ", *continuation, ", Special: "); |
| if (special) |
| out.print(*special); |
| else |
| out.print("None"); |
| } |
| |
| BlockType blockType() const { return controlBlockType; } |
| |
| BlockSignature signature() const { return m_signature; } |
| |
| bool hasNonVoidresult() const { return m_signature->returnsVoid(); } |
| |
| BasicBlock* targetBlockForBranch() |
| { |
| if (blockType() == BlockType::Loop) |
| return special; |
| return continuation; |
| } |
| |
| void convertIfToBlock() |
| { |
| ASSERT(blockType() == BlockType::If); |
| controlBlockType = BlockType::Block; |
| special = nullptr; |
| } |
| |
| SignatureArgCount branchTargetArity() const |
| { |
| if (blockType() == BlockType::Loop) |
| return m_signature->argumentCount(); |
| return m_signature->returnCount(); |
| } |
| |
| Type branchTargetType(unsigned i) const |
| { |
| ASSERT(i < branchTargetArity()); |
| if (blockType() == BlockType::Loop) |
| return m_signature->argument(i); |
| return m_signature->returnType(i); |
| } |
| |
| private: |
| friend class B3IRGenerator; |
| BlockType controlBlockType; |
| BlockSignature m_signature; |
| BasicBlock* continuation; |
| BasicBlock* special; |
| ResultList phis; |
| }; |
| |
| using ControlType = ControlData; |
| using ExpressionList = Vector<ExpressionType, 1>; |
| |
| using ControlEntry = FunctionParser<B3IRGenerator>::ControlEntry; |
| using ControlStack = FunctionParser<B3IRGenerator>::ControlStack; |
| using Stack = FunctionParser<B3IRGenerator>::Stack; |
| using TypedExpression = FunctionParser<B3IRGenerator>::TypedExpression; |
| |
| static_assert(std::is_same_v<ResultList, FunctionParser<B3IRGenerator>::ResultList>); |
| |
| typedef String ErrorType; |
| typedef Unexpected<ErrorType> UnexpectedResult; |
| typedef Expected<std::unique_ptr<InternalFunction>, ErrorType> Result; |
| typedef Expected<void, ErrorType> PartialResult; |
| |
| static ExpressionType emptyExpression() { return nullptr; }; |
| |
| template <typename ...Args> |
| NEVER_INLINE UnexpectedResult WARN_UNUSED_RETURN fail(Args... args) const |
| { |
| using namespace FailureHelper; // See ADL comment in WasmParser.h. |
| return UnexpectedResult(makeString("WebAssembly.Module failed compiling: "_s, makeString(args)...)); |
| } |
| #define WASM_COMPILE_FAIL_IF(condition, ...) do { \ |
| if (UNLIKELY(condition)) \ |
| return fail(__VA_ARGS__); \ |
| } while (0) |
| |
| B3IRGenerator(const ModuleInformation&, Procedure&, InternalFunction*, Vector<UnlinkedWasmToWasmCall>&, unsigned& osrEntryScratchBufferSize, MemoryMode, CompilationMode, unsigned functionIndex, unsigned loopIndexForOSREntry, TierUpCount*); |
| |
| PartialResult WARN_UNUSED_RETURN addArguments(const Signature&); |
| PartialResult WARN_UNUSED_RETURN addLocal(Type, uint32_t); |
| ExpressionType addConstant(Type, uint64_t); |
| |
| // References |
| PartialResult WARN_UNUSED_RETURN addRefIsNull(ExpressionType value, ExpressionType& result); |
| PartialResult WARN_UNUSED_RETURN addRefFunc(uint32_t index, ExpressionType& result); |
| |
| // Tables |
| PartialResult WARN_UNUSED_RETURN addTableGet(unsigned, ExpressionType index, ExpressionType& result); |
| PartialResult WARN_UNUSED_RETURN addTableSet(unsigned, ExpressionType index, ExpressionType value); |
| PartialResult WARN_UNUSED_RETURN addTableSize(unsigned, ExpressionType& result); |
| PartialResult WARN_UNUSED_RETURN addTableGrow(unsigned, ExpressionType fill, ExpressionType delta, ExpressionType& result); |
| PartialResult WARN_UNUSED_RETURN addTableFill(unsigned, ExpressionType offset, ExpressionType fill, ExpressionType count); |
| // Locals |
| PartialResult WARN_UNUSED_RETURN getLocal(uint32_t index, ExpressionType& result); |
| PartialResult WARN_UNUSED_RETURN setLocal(uint32_t index, ExpressionType value); |
| |
| // Globals |
| PartialResult WARN_UNUSED_RETURN getGlobal(uint32_t index, ExpressionType& result); |
| PartialResult WARN_UNUSED_RETURN setGlobal(uint32_t index, ExpressionType value); |
| |
| // Memory |
| PartialResult WARN_UNUSED_RETURN load(LoadOpType, ExpressionType pointer, ExpressionType& result, uint32_t offset); |
| PartialResult WARN_UNUSED_RETURN store(StoreOpType, ExpressionType pointer, ExpressionType value, uint32_t offset); |
| PartialResult WARN_UNUSED_RETURN addGrowMemory(ExpressionType delta, ExpressionType& result); |
| PartialResult WARN_UNUSED_RETURN addCurrentMemory(ExpressionType& result); |
| |
| // Basic operators |
| template<OpType> |
| PartialResult WARN_UNUSED_RETURN addOp(ExpressionType arg, ExpressionType& result); |
| template<OpType> |
| PartialResult WARN_UNUSED_RETURN addOp(ExpressionType left, ExpressionType right, ExpressionType& result); |
| PartialResult WARN_UNUSED_RETURN addSelect(ExpressionType condition, ExpressionType nonZero, ExpressionType zero, ExpressionType& result); |
| |
| |
| // Control flow |
| ControlData WARN_UNUSED_RETURN addTopLevel(BlockSignature); |
| PartialResult WARN_UNUSED_RETURN addBlock(BlockSignature, Stack& enclosingStack, ControlType& newBlock, Stack& newStack); |
| PartialResult WARN_UNUSED_RETURN addLoop(BlockSignature, Stack& enclosingStack, ControlType& block, Stack& newStack, uint32_t loopIndex); |
| PartialResult WARN_UNUSED_RETURN addIf(ExpressionType condition, BlockSignature, Stack& enclosingStack, ControlType& result, Stack& newStack); |
| PartialResult WARN_UNUSED_RETURN addElse(ControlData&, const Stack&); |
| PartialResult WARN_UNUSED_RETURN addElseToUnreachable(ControlData&); |
| |
| PartialResult WARN_UNUSED_RETURN addReturn(const ControlData&, const Stack& returnValues); |
| PartialResult WARN_UNUSED_RETURN addBranch(ControlData&, ExpressionType condition, const Stack& returnValues); |
| PartialResult WARN_UNUSED_RETURN addSwitch(ExpressionType condition, const Vector<ControlData*>& targets, ControlData& defaultTargets, const Stack& expressionStack); |
| PartialResult WARN_UNUSED_RETURN endBlock(ControlEntry&, Stack& expressionStack); |
| PartialResult WARN_UNUSED_RETURN addEndToUnreachable(ControlEntry&, const Stack& = { }); |
| |
| PartialResult WARN_UNUSED_RETURN endTopLevel(BlockSignature, const Stack&) { return { }; } |
| |
| // Calls |
| PartialResult WARN_UNUSED_RETURN addCall(uint32_t calleeIndex, const Signature&, Vector<ExpressionType>& args, ResultList& results); |
| PartialResult WARN_UNUSED_RETURN addCallIndirect(unsigned tableIndex, const Signature&, Vector<ExpressionType>& args, ResultList& results); |
| PartialResult WARN_UNUSED_RETURN addUnreachable(); |
| B3::Value* createCallPatchpoint(BasicBlock*, Origin, const Signature&, Vector<ExpressionType>& args, const ScopedLambda<void(PatchpointValue*)>& patchpointFunctor); |
| |
| void dump(const ControlStack&, const Stack* expressionStack); |
| void setParser(FunctionParser<B3IRGenerator>* parser) { m_parser = parser; }; |
| void didFinishParsingLocals() { } |
| void didPopValueFromStack() { } |
| |
| Value* constant(B3::Type, uint64_t bits, Optional<Origin> = WTF::nullopt); |
| Value* framePointer(); |
| void insertConstants(); |
| |
| B3::Type toB3ResultType(BlockSignature); |
| |
| private: |
| void emitExceptionCheck(CCallHelpers&, ExceptionType); |
| |
| void emitEntryTierUpCheck(); |
| void emitLoopTierUpCheck(uint32_t loopIndex, const Stack& enclosingStack); |
| |
| void emitWriteBarrierForJSWrapper(); |
| ExpressionType emitCheckAndPreparePointer(ExpressionType pointer, uint32_t offset, uint32_t sizeOfOp); |
| B3::Kind memoryKind(B3::Opcode memoryOp); |
| ExpressionType emitLoadOp(LoadOpType, ExpressionType pointer, uint32_t offset); |
| void emitStoreOp(StoreOpType, ExpressionType pointer, ExpressionType value, uint32_t offset); |
| |
| void unify(const ExpressionType phi, const ExpressionType source); |
| void unifyValuesWithBlock(const Stack& resultStack, const ResultList& stack); |
| |
| void emitChecksForModOrDiv(B3::Opcode, ExpressionType left, ExpressionType right); |
| |
| int32_t WARN_UNUSED_RETURN fixupPointerPlusOffset(ExpressionType&, uint32_t); |
| |
| void restoreWasmContextInstance(Procedure&, BasicBlock*, Value*); |
| enum class RestoreCachedStackLimit { No, Yes }; |
| void restoreWebAssemblyGlobalState(RestoreCachedStackLimit, const MemoryInformation&, Value* instance, Procedure&, BasicBlock*); |
| |
| Origin origin(); |
| |
| uint32_t outerLoopIndex() const |
| { |
| if (m_outerLoops.isEmpty()) |
| return UINT32_MAX; |
| return m_outerLoops.last(); |
| } |
| |
| FunctionParser<B3IRGenerator>* m_parser { nullptr }; |
| const ModuleInformation& m_info; |
| const MemoryMode m_mode { MemoryMode::BoundsChecking }; |
| const CompilationMode m_compilationMode { CompilationMode::BBQMode }; |
| const unsigned m_functionIndex { UINT_MAX }; |
| const unsigned m_loopIndexForOSREntry { UINT_MAX }; |
| TierUpCount* m_tierUp { nullptr }; |
| |
| Procedure& m_proc; |
| BasicBlock* m_rootBlock { nullptr }; |
| BasicBlock* m_currentBlock { nullptr }; |
| Vector<uint32_t> m_outerLoops; |
| Vector<Variable*> m_locals; |
| Vector<UnlinkedWasmToWasmCall>& m_unlinkedWasmToWasmCalls; // List each call site and the function index whose address it should be patched with. |
| unsigned& m_osrEntryScratchBufferSize; |
| HashMap<ValueKey, Value*> m_constantPool; |
| HashMap<BlockSignature, B3::Type> m_tupleMap; |
| InsertionSet m_constantInsertionValues; |
| Value* m_framePointer { nullptr }; |
| GPRReg m_memoryBaseGPR { InvalidGPRReg }; |
| GPRReg m_memorySizeGPR { InvalidGPRReg }; |
| GPRReg m_wasmContextInstanceGPR { InvalidGPRReg }; |
| bool m_makesCalls { false }; |
| |
| Value* m_instanceValue { nullptr }; // Always use the accessor below to ensure the instance value is materialized when used. |
| bool m_usesInstanceValue { false }; |
| Value* instanceValue() |
| { |
| m_usesInstanceValue = true; |
| return m_instanceValue; |
| } |
| |
| uint32_t m_maxNumJSCallArguments { 0 }; |
| unsigned m_numImportFunctions; |
| }; |
| |
| // Memory accesses in WebAssembly have unsigned 32-bit offsets, whereas they have signed 32-bit offsets in B3. |
| int32_t B3IRGenerator::fixupPointerPlusOffset(ExpressionType& ptr, uint32_t offset) |
| { |
| if (static_cast<uint64_t>(offset) > static_cast<uint64_t>(std::numeric_limits<int32_t>::max())) { |
| ptr = m_currentBlock->appendNew<Value>(m_proc, Add, origin(), ptr, m_currentBlock->appendNew<Const64Value>(m_proc, origin(), offset)); |
| return 0; |
| } |
| return offset; |
| } |
| |
| void B3IRGenerator::restoreWasmContextInstance(Procedure& proc, BasicBlock* block, Value* arg) |
| { |
| if (Context::useFastTLS()) { |
| PatchpointValue* patchpoint = block->appendNew<PatchpointValue>(proc, B3::Void, Origin()); |
| if (CCallHelpers::storeWasmContextInstanceNeedsMacroScratchRegister()) |
| patchpoint->clobber(RegisterSet::macroScratchRegisters()); |
| patchpoint->append(ConstrainedValue(arg, ValueRep::SomeRegister)); |
| patchpoint->setGenerator( |
| [=] (CCallHelpers& jit, const StackmapGenerationParams& params) { |
| AllowMacroScratchRegisterUsageIf allowScratch(jit, CCallHelpers::storeWasmContextInstanceNeedsMacroScratchRegister()); |
| jit.storeWasmContextInstance(params[0].gpr()); |
| }); |
| return; |
| } |
| |
| // FIXME: Because WasmToWasm call clobbers wasmContextInstance register and does not restore it, we need to restore it in the caller side. |
| // This prevents us from using ArgumentReg to this (logically) immutable pinned register. |
| PatchpointValue* patchpoint = block->appendNew<PatchpointValue>(proc, B3::Void, Origin()); |
| Effects effects = Effects::none(); |
| effects.writesPinned = true; |
| effects.reads = B3::HeapRange::top(); |
| patchpoint->effects = effects; |
| patchpoint->clobberLate(RegisterSet(m_wasmContextInstanceGPR)); |
| patchpoint->append(arg, ValueRep::SomeRegister); |
| GPRReg wasmContextInstanceGPR = m_wasmContextInstanceGPR; |
| patchpoint->setGenerator([=] (CCallHelpers& jit, const StackmapGenerationParams& param) { |
| jit.move(param[0].gpr(), wasmContextInstanceGPR); |
| }); |
| } |
| |
| B3IRGenerator::B3IRGenerator(const ModuleInformation& info, Procedure& procedure, InternalFunction* compilation, Vector<UnlinkedWasmToWasmCall>& unlinkedWasmToWasmCalls, unsigned& osrEntryScratchBufferSize, MemoryMode mode, CompilationMode compilationMode, unsigned functionIndex, unsigned loopIndexForOSREntry, TierUpCount* tierUp) |
| : m_info(info) |
| , m_mode(mode) |
| , m_compilationMode(compilationMode) |
| , m_functionIndex(functionIndex) |
| , m_loopIndexForOSREntry(loopIndexForOSREntry) |
| , m_tierUp(tierUp) |
| , m_proc(procedure) |
| , m_unlinkedWasmToWasmCalls(unlinkedWasmToWasmCalls) |
| , m_osrEntryScratchBufferSize(osrEntryScratchBufferSize) |
| , m_constantInsertionValues(m_proc) |
| , m_numImportFunctions(info.importFunctionCount()) |
| { |
| m_rootBlock = m_proc.addBlock(); |
| m_currentBlock = m_rootBlock; |
| |
| // FIXME we don't really need to pin registers here if there's no memory. It makes wasm -> wasm thunks simpler for now. https://bugs.webkit.org/show_bug.cgi?id=166623 |
| const PinnedRegisterInfo& pinnedRegs = PinnedRegisterInfo::get(); |
| |
| m_memoryBaseGPR = pinnedRegs.baseMemoryPointer; |
| m_proc.pinRegister(m_memoryBaseGPR); |
| |
| m_wasmContextInstanceGPR = pinnedRegs.wasmContextInstancePointer; |
| if (!Context::useFastTLS()) |
| m_proc.pinRegister(m_wasmContextInstanceGPR); |
| |
| if (mode != MemoryMode::Signaling) { |
| m_memorySizeGPR = pinnedRegs.sizeRegister; |
| m_proc.pinRegister(m_memorySizeGPR); |
| } |
| |
| if (info.memory) { |
| m_proc.setWasmBoundsCheckGenerator([=] (CCallHelpers& jit, GPRReg pinnedGPR) { |
| AllowMacroScratchRegisterUsage allowScratch(jit); |
| switch (m_mode) { |
| case MemoryMode::BoundsChecking: |
| ASSERT_UNUSED(pinnedGPR, m_memorySizeGPR == pinnedGPR); |
| break; |
| case MemoryMode::Signaling: |
| ASSERT_UNUSED(pinnedGPR, InvalidGPRReg == pinnedGPR); |
| break; |
| } |
| this->emitExceptionCheck(jit, ExceptionType::OutOfBoundsMemoryAccess); |
| }); |
| |
| switch (m_mode) { |
| case MemoryMode::BoundsChecking: |
| break; |
| case MemoryMode::Signaling: |
| // Most memory accesses in signaling mode don't do an explicit |
| // exception check because they can rely on fault handling to detect |
| // out-of-bounds accesses. FaultSignalHandler nonetheless needs the |
| // thunk to exist so that it can jump to that thunk. |
| if (UNLIKELY(!Thunks::singleton().stub(throwExceptionFromWasmThunkGenerator))) |
| CRASH(); |
| break; |
| } |
| } |
| |
| { |
| auto* calleeMoveLocation = &compilation->calleeMoveLocation; |
| static_assert(CallFrameSlot::codeBlock * sizeof(Register) < WasmCallingConvention::headerSizeInBytes, "We rely on this here for now."); |
| static_assert(CallFrameSlot::callee * sizeof(Register) < WasmCallingConvention::headerSizeInBytes, "We rely on this here for now."); |
| B3::PatchpointValue* getCalleePatchpoint = m_currentBlock->appendNew<B3::PatchpointValue>(m_proc, B3::Int64, Origin()); |
| getCalleePatchpoint->resultConstraints = { B3::ValueRep::SomeRegister }; |
| getCalleePatchpoint->effects = B3::Effects::none(); |
| getCalleePatchpoint->setGenerator( |
| [=] (CCallHelpers& jit, const B3::StackmapGenerationParams& params) { |
| GPRReg result = params[0].gpr(); |
| MacroAssembler::DataLabelPtr moveLocation = jit.moveWithPatch(MacroAssembler::TrustedImmPtr(nullptr), result); |
| jit.addLinkTask([calleeMoveLocation, moveLocation] (LinkBuffer& linkBuffer) { |
| *calleeMoveLocation = linkBuffer.locationOf<WasmEntryPtrTag>(moveLocation); |
| }); |
| }); |
| |
| B3::Value* offsetOfCallee = m_currentBlock->appendNew<B3::Const64Value>(m_proc, Origin(), CallFrameSlot::callee * sizeof(Register)); |
| m_currentBlock->appendNew<B3::MemoryValue>(m_proc, B3::Store, Origin(), |
| getCalleePatchpoint, |
| m_currentBlock->appendNew<B3::Value>(m_proc, B3::Add, Origin(), framePointer(), offsetOfCallee)); |
| |
| // FIXME: We shouldn't have to store zero into the CodeBlock* spot in the call frame, |
| // but there are places that interpret non-null CodeBlock slot to mean a valid CodeBlock. |
| // When doing unwinding, we'll need to verify that the entire runtime is OK with a non-null |
| // CodeBlock not implying that the CodeBlock is valid. |
| // https://bugs.webkit.org/show_bug.cgi?id=165321 |
| B3::Value* offsetOfCodeBlock = m_currentBlock->appendNew<B3::Const64Value>(m_proc, Origin(), CallFrameSlot::codeBlock * sizeof(Register)); |
| m_currentBlock->appendNew<B3::MemoryValue>(m_proc, B3::Store, Origin(), |
| m_currentBlock->appendNew<B3::Const64Value>(m_proc, Origin(), 0), |
| m_currentBlock->appendNew<B3::Value>(m_proc, B3::Add, Origin(), framePointer(), offsetOfCodeBlock)); |
| } |
| |
| { |
| B3::PatchpointValue* stackOverflowCheck = m_currentBlock->appendNew<B3::PatchpointValue>(m_proc, pointerType(), Origin()); |
| m_instanceValue = stackOverflowCheck; |
| stackOverflowCheck->appendSomeRegister(framePointer()); |
| stackOverflowCheck->clobber(RegisterSet::macroScratchRegisters()); |
| if (!Context::useFastTLS()) { |
| // FIXME: Because WasmToWasm call clobbers wasmContextInstance register and does not restore it, we need to restore it in the caller side. |
| // This prevents us from using ArgumentReg to this (logically) immutable pinned register. |
| stackOverflowCheck->effects.writesPinned = false; |
| stackOverflowCheck->effects.readsPinned = true; |
| stackOverflowCheck->resultConstraints = { ValueRep::reg(m_wasmContextInstanceGPR) }; |
| } |
| stackOverflowCheck->numGPScratchRegisters = 2; |
| stackOverflowCheck->setGenerator([=] (CCallHelpers& jit, const B3::StackmapGenerationParams& params) { |
| const Checked<int32_t> wasmFrameSize = params.proc().frameSize(); |
| const unsigned minimumParentCheckSize = WTF::roundUpToMultipleOf(stackAlignmentBytes(), 1024); |
| const unsigned extraFrameSize = WTF::roundUpToMultipleOf(stackAlignmentBytes(), std::max<uint32_t>( |
| // This allows us to elide stack checks for functions that are terminal nodes in the call |
| // tree, (e.g they don't make any calls) and have a small enough frame size. This works by |
| // having any such terminal node have its parent caller include some extra size in its |
| // own check for it. The goal here is twofold: |
| // 1. Emit less code. |
| // 2. Try to speed things up by skipping stack checks. |
| minimumParentCheckSize, |
| // This allows us to elide stack checks in the Wasm -> Embedder call IC stub. Since these will |
| // spill all arguments to the stack, we ensure that a stack check here covers the |
| // stack that such a stub would use. |
| (Checked<uint32_t>(m_maxNumJSCallArguments) * sizeof(Register) + JSCallingConvention::headerSizeInBytes).unsafeGet() |
| )); |
| const int32_t checkSize = m_makesCalls ? (wasmFrameSize + extraFrameSize).unsafeGet() : wasmFrameSize.unsafeGet(); |
| bool needUnderflowCheck = static_cast<unsigned>(checkSize) > Options::reservedZoneSize(); |
| bool needsOverflowCheck = m_makesCalls || wasmFrameSize >= minimumParentCheckSize || needUnderflowCheck; |
| |
| GPRReg contextInstance = Context::useFastTLS() ? params[0].gpr() : m_wasmContextInstanceGPR; |
| |
| // This allows leaf functions to not do stack checks if their frame size is within |
| // certain limits since their caller would have already done the check. |
| if (needsOverflowCheck) { |
| AllowMacroScratchRegisterUsage allowScratch(jit); |
| GPRReg fp = params[1].gpr(); |
| GPRReg scratch1 = params.gpScratch(0); |
| GPRReg scratch2 = params.gpScratch(1); |
| |
| if (Context::useFastTLS()) |
| jit.loadWasmContextInstance(contextInstance); |
| |
| jit.loadPtr(CCallHelpers::Address(contextInstance, Instance::offsetOfCachedStackLimit()), scratch2); |
| jit.addPtr(CCallHelpers::TrustedImm32(-checkSize), fp, scratch1); |
| MacroAssembler::JumpList overflow; |
| if (UNLIKELY(needUnderflowCheck)) |
| overflow.append(jit.branchPtr(CCallHelpers::Above, scratch1, fp)); |
| overflow.append(jit.branchPtr(CCallHelpers::Below, scratch1, scratch2)); |
| jit.addLinkTask([overflow] (LinkBuffer& linkBuffer) { |
| linkBuffer.link(overflow, CodeLocationLabel<JITThunkPtrTag>(Thunks::singleton().stub(throwStackOverflowFromWasmThunkGenerator).code())); |
| }); |
| } else if (m_usesInstanceValue && Context::useFastTLS()) { |
| // No overflow check is needed, but the instance values still needs to be correct. |
| AllowMacroScratchRegisterUsageIf allowScratch(jit, CCallHelpers::loadWasmContextInstanceNeedsMacroScratchRegister()); |
| jit.loadWasmContextInstance(contextInstance); |
| } else { |
| // We said we'd return a pointer. We don't actually need to because it isn't used, but the patchpoint conservatively said it had effects (potential stack check) which prevent it from getting removed. |
| } |
| }); |
| } |
| |
| emitEntryTierUpCheck(); |
| |
| if (m_compilationMode == CompilationMode::OMGForOSREntryMode) |
| m_currentBlock = m_proc.addBlock(); |
| } |
| |
| void B3IRGenerator::restoreWebAssemblyGlobalState(RestoreCachedStackLimit restoreCachedStackLimit, const MemoryInformation& memory, Value* instance, Procedure& proc, BasicBlock* block) |
| { |
| restoreWasmContextInstance(proc, block, instance); |
| |
| if (restoreCachedStackLimit == RestoreCachedStackLimit::Yes) { |
| // The Instance caches the stack limit, but also knows where its canonical location is. |
| Value* pointerToActualStackLimit = block->appendNew<MemoryValue>(m_proc, Load, pointerType(), origin(), instanceValue(), safeCast<int32_t>(Instance::offsetOfPointerToActualStackLimit())); |
| Value* actualStackLimit = block->appendNew<MemoryValue>(m_proc, Load, pointerType(), origin(), pointerToActualStackLimit); |
| block->appendNew<MemoryValue>(m_proc, Store, origin(), actualStackLimit, instanceValue(), safeCast<int32_t>(Instance::offsetOfCachedStackLimit())); |
| } |
| |
| if (!!memory) { |
| const PinnedRegisterInfo* pinnedRegs = &PinnedRegisterInfo::get(); |
| RegisterSet clobbers; |
| clobbers.set(pinnedRegs->baseMemoryPointer); |
| clobbers.set(pinnedRegs->sizeRegister); |
| if (!isARM64()) |
| clobbers.set(RegisterSet::macroScratchRegisters()); |
| |
| B3::PatchpointValue* patchpoint = block->appendNew<B3::PatchpointValue>(proc, B3::Void, origin()); |
| Effects effects = Effects::none(); |
| effects.writesPinned = true; |
| effects.reads = B3::HeapRange::top(); |
| patchpoint->effects = effects; |
| patchpoint->clobber(clobbers); |
| patchpoint->numGPScratchRegisters = Gigacage::isEnabled(Gigacage::Primitive) ? 1 : 0; |
| |
| patchpoint->append(instance, ValueRep::SomeRegister); |
| patchpoint->setGenerator([pinnedRegs] (CCallHelpers& jit, const B3::StackmapGenerationParams& params) { |
| AllowMacroScratchRegisterUsage allowScratch(jit); |
| GPRReg baseMemory = pinnedRegs->baseMemoryPointer; |
| GPRReg scratchOrSize = Gigacage::isEnabled(Gigacage::Primitive) ? params.gpScratch(0) : pinnedRegs->sizeRegister; |
| |
| jit.loadPtr(CCallHelpers::Address(params[0].gpr(), Instance::offsetOfCachedMemorySize()), pinnedRegs->sizeRegister); |
| jit.loadPtr(CCallHelpers::Address(params[0].gpr(), Instance::offsetOfCachedMemory()), baseMemory); |
| |
| jit.cageConditionally(Gigacage::Primitive, baseMemory, pinnedRegs->sizeRegister, scratchOrSize); |
| }); |
| } |
| } |
| |
| void B3IRGenerator::emitExceptionCheck(CCallHelpers& jit, ExceptionType type) |
| { |
| jit.move(CCallHelpers::TrustedImm32(static_cast<uint32_t>(type)), GPRInfo::argumentGPR1); |
| auto jumpToExceptionStub = jit.jump(); |
| |
| jit.addLinkTask([jumpToExceptionStub] (LinkBuffer& linkBuffer) { |
| linkBuffer.link(jumpToExceptionStub, CodeLocationLabel<JITThunkPtrTag>(Thunks::singleton().stub(throwExceptionFromWasmThunkGenerator).code())); |
| }); |
| } |
| |
| Value* B3IRGenerator::constant(B3::Type type, uint64_t bits, Optional<Origin> maybeOrigin) |
| { |
| auto result = m_constantPool.ensure(ValueKey(opcodeForConstant(type), type, static_cast<int64_t>(bits)), [&] { |
| Value* result = m_proc.addConstant(maybeOrigin ? *maybeOrigin : origin(), type, bits); |
| m_constantInsertionValues.insertValue(0, result); |
| return result; |
| }); |
| return result.iterator->value; |
| } |
| |
| Value* B3IRGenerator::framePointer() |
| { |
| if (!m_framePointer) { |
| m_framePointer = m_proc.add<B3::Value>(B3::FramePointer, Origin()); |
| ASSERT(m_framePointer); |
| m_constantInsertionValues.insertValue(0, m_framePointer); |
| } |
| return m_framePointer; |
| } |
| |
| void B3IRGenerator::insertConstants() |
| { |
| m_constantInsertionValues.execute(m_proc.at(0)); |
| } |
| |
| B3::Type B3IRGenerator::toB3ResultType(BlockSignature returnType) |
| { |
| if (returnType->returnsVoid()) |
| return B3::Void; |
| |
| if (returnType->returnCount() == 1) |
| return toB3Type(returnType->returnType(0)); |
| |
| auto result = m_tupleMap.ensure(returnType, [&] { |
| Vector<B3::Type> result; |
| for (unsigned i = 0; i < returnType->returnCount(); ++i) |
| result.append(toB3Type(returnType->returnType(i))); |
| return m_proc.addTuple(WTFMove(result)); |
| }); |
| return result.iterator->value; |
| } |
| |
| auto B3IRGenerator::addLocal(Type type, uint32_t count) -> PartialResult |
| { |
| size_t newSize = m_locals.size() + count; |
| ASSERT(!(CheckedUint32(count) + m_locals.size()).hasOverflowed()); |
| ASSERT(newSize <= maxFunctionLocals); |
| WASM_COMPILE_FAIL_IF(!m_locals.tryReserveCapacity(newSize), "can't allocate memory for ", newSize, " locals"); |
| |
| for (uint32_t i = 0; i < count; ++i) { |
| Variable* local = m_proc.addVariable(toB3Type(type)); |
| m_locals.uncheckedAppend(local); |
| auto val = isSubtype(type, Anyref) ? JSValue::encode(jsNull()) : 0; |
| m_currentBlock->appendNew<VariableValue>(m_proc, Set, Origin(), local, constant(toB3Type(type), val, Origin())); |
| } |
| return { }; |
| } |
| |
| auto B3IRGenerator::addArguments(const Signature& signature) -> PartialResult |
| { |
| ASSERT(!m_locals.size()); |
| WASM_COMPILE_FAIL_IF(!m_locals.tryReserveCapacity(signature.argumentCount()), "can't allocate memory for ", signature.argumentCount(), " arguments"); |
| |
| m_locals.grow(signature.argumentCount()); |
| CallInformation wasmCallInfo = wasmCallingConvention().callInformationFor(signature, CallRole::Callee); |
| |
| for (size_t i = 0; i < signature.argumentCount(); ++i) { |
| B3::Type type = toB3Type(signature.argument(i)); |
| B3::Value* argument; |
| auto rep = wasmCallInfo.params[i]; |
| if (rep.isReg()) { |
| argument = m_currentBlock->appendNew<B3::ArgumentRegValue>(m_proc, Origin(), rep.reg()); |
| if (type == B3::Int32 || type == B3::Float) |
| argument = m_currentBlock->appendNew<B3::Value>(m_proc, B3::Trunc, Origin(), argument); |
| } else { |
| ASSERT(rep.isStack()); |
| B3::Value* address = m_currentBlock->appendNew<B3::Value>(m_proc, B3::Add, Origin(), framePointer(), |
| m_currentBlock->appendNew<B3::Const64Value>(m_proc, Origin(), rep.offsetFromFP())); |
| argument = m_currentBlock->appendNew<B3::MemoryValue>(m_proc, B3::Load, type, Origin(), address); |
| } |
| |
| Variable* argumentVariable = m_proc.addVariable(argument->type()); |
| m_locals[i] = argumentVariable; |
| m_currentBlock->appendNew<VariableValue>(m_proc, Set, Origin(), argumentVariable, argument); |
| } |
| |
| return { }; |
| } |
| |
| auto B3IRGenerator::addRefIsNull(ExpressionType value, ExpressionType& result) -> PartialResult |
| { |
| result = m_currentBlock->appendNew<Value>(m_proc, B3::Equal, origin(), value, m_currentBlock->appendNew<Const64Value>(m_proc, origin(), JSValue::encode(jsNull()))); |
| return { }; |
| } |
| |
| auto B3IRGenerator::addTableGet(unsigned tableIndex, ExpressionType index, ExpressionType& result) -> PartialResult |
| { |
| // FIXME: Emit this inline <https://bugs.webkit.org/show_bug.cgi?id=198506>. |
| result = m_currentBlock->appendNew<CCallValue>(m_proc, toB3Type(Anyref), origin(), |
| m_currentBlock->appendNew<ConstPtrValue>(m_proc, origin(), tagCFunctionPtr<void*>(&operationGetWasmTableElement, B3CCallPtrTag)), |
| instanceValue(), m_currentBlock->appendNew<Const32Value>(m_proc, origin(), tableIndex), index); |
| |
| { |
| CheckValue* check = m_currentBlock->appendNew<CheckValue>(m_proc, Check, origin(), |
| m_currentBlock->appendNew<Value>(m_proc, Equal, origin(), result, m_currentBlock->appendNew<Const64Value>(m_proc, origin(), 0))); |
| |
| check->setGenerator([=] (CCallHelpers& jit, const B3::StackmapGenerationParams&) { |
| this->emitExceptionCheck(jit, ExceptionType::OutOfBoundsTableAccess); |
| }); |
| } |
| |
| return { }; |
| } |
| |
| auto B3IRGenerator::addTableSet(unsigned tableIndex, ExpressionType index, ExpressionType value) -> PartialResult |
| { |
| // FIXME: Emit this inline <https://bugs.webkit.org/show_bug.cgi?id=198506>. |
| auto shouldThrow = m_currentBlock->appendNew<CCallValue>(m_proc, B3::Int32, origin(), |
| m_currentBlock->appendNew<ConstPtrValue>(m_proc, origin(), tagCFunctionPtr<void*>(&operationSetWasmTableElement, B3CCallPtrTag)), |
| instanceValue(), m_currentBlock->appendNew<Const32Value>(m_proc, origin(), tableIndex), index, value); |
| |
| { |
| CheckValue* check = m_currentBlock->appendNew<CheckValue>(m_proc, Check, origin(), |
| m_currentBlock->appendNew<Value>(m_proc, Equal, origin(), shouldThrow, m_currentBlock->appendNew<Const32Value>(m_proc, origin(), 0))); |
| |
| check->setGenerator([=] (CCallHelpers& jit, const B3::StackmapGenerationParams&) { |
| this->emitExceptionCheck(jit, ExceptionType::OutOfBoundsTableAccess); |
| }); |
| } |
| |
| return { }; |
| } |
| |
| auto B3IRGenerator::addRefFunc(uint32_t index, ExpressionType& result) -> PartialResult |
| { |
| // FIXME: Emit this inline <https://bugs.webkit.org/show_bug.cgi?id=198506>. |
| |
| result = m_currentBlock->appendNew<CCallValue>(m_proc, B3::Int64, origin(), |
| m_currentBlock->appendNew<ConstPtrValue>(m_proc, origin(), tagCFunctionPtr<void*>(&operationWasmRefFunc, B3CCallPtrTag)), |
| instanceValue(), addConstant(Type::I32, index)); |
| |
| return { }; |
| } |
| |
| auto B3IRGenerator::addTableSize(unsigned tableIndex, ExpressionType& result) -> PartialResult |
| { |
| // FIXME: Emit this inline <https://bugs.webkit.org/show_bug.cgi?id=198506>. |
| result = m_currentBlock->appendNew<CCallValue>(m_proc, toB3Type(I32), origin(), |
| m_currentBlock->appendNew<ConstPtrValue>(m_proc, origin(), tagCFunctionPtr<void*>(&operationGetWasmTableSize, B3CCallPtrTag)), |
| instanceValue(), m_currentBlock->appendNew<Const32Value>(m_proc, origin(), tableIndex)); |
| |
| return { }; |
| } |
| |
| auto B3IRGenerator::addTableGrow(unsigned tableIndex, ExpressionType fill, ExpressionType delta, ExpressionType& result) -> PartialResult |
| { |
| result = m_currentBlock->appendNew<CCallValue>(m_proc, toB3Type(I32), origin(), |
| m_currentBlock->appendNew<ConstPtrValue>(m_proc, origin(), tagCFunctionPtr<void*>(&operationWasmTableGrow, B3CCallPtrTag)), |
| instanceValue(), m_currentBlock->appendNew<Const32Value>(m_proc, origin(), tableIndex), fill, delta); |
| |
| return { }; |
| } |
| |
| auto B3IRGenerator::addTableFill(unsigned tableIndex, ExpressionType offset, ExpressionType fill, ExpressionType count) -> PartialResult |
| { |
| auto result = m_currentBlock->appendNew<CCallValue>(m_proc, toB3Type(I32), origin(), |
| m_currentBlock->appendNew<ConstPtrValue>(m_proc, origin(), tagCFunctionPtr<void*>(&operationWasmTableFill, B3CCallPtrTag)), |
| instanceValue(), m_currentBlock->appendNew<Const32Value>(m_proc, origin(), tableIndex), offset, fill, count); |
| |
| { |
| CheckValue* check = m_currentBlock->appendNew<CheckValue>(m_proc, Check, origin(), |
| m_currentBlock->appendNew<Value>(m_proc, Equal, origin(), result, m_currentBlock->appendNew<Const32Value>(m_proc, origin(), 0))); |
| |
| check->setGenerator([=] (CCallHelpers& jit, const B3::StackmapGenerationParams&) { |
| this->emitExceptionCheck(jit, ExceptionType::OutOfBoundsTableAccess); |
| }); |
| } |
| |
| return { }; |
| } |
| |
| auto B3IRGenerator::getLocal(uint32_t index, ExpressionType& result) -> PartialResult |
| { |
| ASSERT(m_locals[index]); |
| result = m_currentBlock->appendNew<VariableValue>(m_proc, B3::Get, origin(), m_locals[index]); |
| return { }; |
| } |
| |
| auto B3IRGenerator::addUnreachable() -> PartialResult |
| { |
| B3::PatchpointValue* unreachable = m_currentBlock->appendNew<B3::PatchpointValue>(m_proc, B3::Void, origin()); |
| unreachable->setGenerator([this] (CCallHelpers& jit, const B3::StackmapGenerationParams&) { |
| this->emitExceptionCheck(jit, ExceptionType::Unreachable); |
| }); |
| unreachable->effects.terminal = true; |
| return { }; |
| } |
| |
| auto B3IRGenerator::addGrowMemory(ExpressionType delta, ExpressionType& result) -> PartialResult |
| { |
| result = m_currentBlock->appendNew<CCallValue>(m_proc, Int32, origin(), |
| m_currentBlock->appendNew<ConstPtrValue>(m_proc, origin(), tagCFunctionPtr<void*>(&operationGrowMemory, B3CCallPtrTag)), |
| framePointer(), instanceValue(), delta); |
| |
| restoreWebAssemblyGlobalState(RestoreCachedStackLimit::No, m_info.memory, instanceValue(), m_proc, m_currentBlock); |
| |
| return { }; |
| } |
| |
| auto B3IRGenerator::addCurrentMemory(ExpressionType& result) -> PartialResult |
| { |
| static_assert(sizeof(decltype(static_cast<Memory*>(nullptr)->size())) == sizeof(uint64_t), "codegen relies on this size"); |
| Value* size = m_currentBlock->appendNew<MemoryValue>(m_proc, Load, Int64, origin(), instanceValue(), safeCast<int32_t>(Instance::offsetOfCachedMemorySize())); |
| |
| constexpr uint32_t shiftValue = 16; |
| static_assert(PageCount::pageSize == 1ull << shiftValue, "This must hold for the code below to be correct."); |
| Value* numPages = m_currentBlock->appendNew<Value>(m_proc, ZShr, origin(), |
| size, m_currentBlock->appendNew<Const32Value>(m_proc, origin(), shiftValue)); |
| |
| result = m_currentBlock->appendNew<Value>(m_proc, Trunc, origin(), numPages); |
| |
| return { }; |
| } |
| |
| auto B3IRGenerator::setLocal(uint32_t index, ExpressionType value) -> PartialResult |
| { |
| ASSERT(m_locals[index]); |
| m_currentBlock->appendNew<VariableValue>(m_proc, B3::Set, origin(), m_locals[index], value); |
| return { }; |
| } |
| |
| auto B3IRGenerator::getGlobal(uint32_t index, ExpressionType& result) -> PartialResult |
| { |
| const Wasm::GlobalInformation& global = m_info.globals[index]; |
| Value* globalsArray = m_currentBlock->appendNew<MemoryValue>(m_proc, Load, pointerType(), origin(), instanceValue(), safeCast<int32_t>(Instance::offsetOfGlobals())); |
| switch (global.bindingMode) { |
| case Wasm::GlobalInformation::BindingMode::EmbeddedInInstance: |
| result = m_currentBlock->appendNew<MemoryValue>(m_proc, Load, toB3Type(global.type), origin(), globalsArray, safeCast<int32_t>(index * sizeof(Register))); |
| break; |
| case Wasm::GlobalInformation::BindingMode::Portable: { |
| ASSERT(global.mutability == Wasm::GlobalInformation::Mutability::Mutable); |
| Value* pointer = m_currentBlock->appendNew<MemoryValue>(m_proc, Load, B3::Int64, origin(), globalsArray, safeCast<int32_t>(index * sizeof(Register))); |
| result = m_currentBlock->appendNew<MemoryValue>(m_proc, Load, toB3Type(global.type), origin(), pointer); |
| break; |
| } |
| } |
| return { }; |
| } |
| |
| auto B3IRGenerator::setGlobal(uint32_t index, ExpressionType value) -> PartialResult |
| { |
| const Wasm::GlobalInformation& global = m_info.globals[index]; |
| ASSERT(toB3Type(global.type) == value->type()); |
| Value* globalsArray = m_currentBlock->appendNew<MemoryValue>(m_proc, Load, pointerType(), origin(), instanceValue(), safeCast<int32_t>(Instance::offsetOfGlobals())); |
| switch (global.bindingMode) { |
| case Wasm::GlobalInformation::BindingMode::EmbeddedInInstance: |
| m_currentBlock->appendNew<MemoryValue>(m_proc, Store, origin(), value, globalsArray, safeCast<int32_t>(index * sizeof(Register))); |
| if (isSubtype(global.type, Anyref)) |
| emitWriteBarrierForJSWrapper(); |
| break; |
| case Wasm::GlobalInformation::BindingMode::Portable: { |
| ASSERT(global.mutability == Wasm::GlobalInformation::Mutability::Mutable); |
| Value* pointer = m_currentBlock->appendNew<MemoryValue>(m_proc, Load, B3::Int64, origin(), globalsArray, safeCast<int32_t>(index * sizeof(Register))); |
| m_currentBlock->appendNew<MemoryValue>(m_proc, Store, origin(), value, pointer); |
| // We emit a write-barrier onto JSWebAssemblyGlobal, not JSWebAssemblyInstance. |
| if (isSubtype(global.type, Anyref)) { |
| Value* instance = m_currentBlock->appendNew<MemoryValue>(m_proc, Load, pointerType(), origin(), instanceValue(), safeCast<int32_t>(Instance::offsetOfOwner())); |
| Value* cell = m_currentBlock->appendNew<MemoryValue>(m_proc, Load, pointerType(), origin(), pointer, Wasm::Global::offsetOfOwner() - Wasm::Global::offsetOfValue()); |
| Value* cellState = m_currentBlock->appendNew<MemoryValue>(m_proc, Load8Z, Int32, origin(), cell, safeCast<int32_t>(JSCell::cellStateOffset())); |
| Value* vm = m_currentBlock->appendNew<MemoryValue>(m_proc, Load, pointerType(), origin(), instance, safeCast<int32_t>(JSWebAssemblyInstance::offsetOfVM())); |
| Value* threshold = m_currentBlock->appendNew<MemoryValue>(m_proc, Load, Int32, origin(), vm, safeCast<int32_t>(VM::offsetOfHeapBarrierThreshold())); |
| |
| BasicBlock* fenceCheckPath = m_proc.addBlock(); |
| BasicBlock* fencePath = m_proc.addBlock(); |
| BasicBlock* doSlowPath = m_proc.addBlock(); |
| BasicBlock* continuation = m_proc.addBlock(); |
| |
| m_currentBlock->appendNewControlValue(m_proc, B3::Branch, origin(), |
| m_currentBlock->appendNew<Value>(m_proc, Above, origin(), cellState, threshold), |
| FrequentedBlock(continuation), FrequentedBlock(fenceCheckPath, FrequencyClass::Rare)); |
| fenceCheckPath->addPredecessor(m_currentBlock); |
| continuation->addPredecessor(m_currentBlock); |
| m_currentBlock = fenceCheckPath; |
| |
| Value* shouldFence = m_currentBlock->appendNew<MemoryValue>(m_proc, Load8Z, Int32, origin(), vm, safeCast<int32_t>(VM::offsetOfHeapMutatorShouldBeFenced())); |
| m_currentBlock->appendNewControlValue(m_proc, B3::Branch, origin(), |
| shouldFence, |
| FrequentedBlock(fencePath), FrequentedBlock(doSlowPath)); |
| fencePath->addPredecessor(m_currentBlock); |
| doSlowPath->addPredecessor(m_currentBlock); |
| m_currentBlock = fencePath; |
| |
| B3::PatchpointValue* doFence = m_currentBlock->appendNew<B3::PatchpointValue>(m_proc, B3::Void, origin()); |
| doFence->setGenerator([] (CCallHelpers& jit, const B3::StackmapGenerationParams&) { |
| jit.memoryFence(); |
| }); |
| |
| Value* cellStateLoadAfterFence = m_currentBlock->appendNew<MemoryValue>(m_proc, Load8Z, Int32, origin(), cell, safeCast<int32_t>(JSCell::cellStateOffset())); |
| m_currentBlock->appendNewControlValue(m_proc, B3::Branch, origin(), |
| m_currentBlock->appendNew<Value>(m_proc, Above, origin(), cellStateLoadAfterFence, m_currentBlock->appendNew<Const32Value>(m_proc, origin(), blackThreshold)), |
| FrequentedBlock(continuation), FrequentedBlock(doSlowPath, FrequencyClass::Rare)); |
| doSlowPath->addPredecessor(m_currentBlock); |
| continuation->addPredecessor(m_currentBlock); |
| m_currentBlock = doSlowPath; |
| |
| Value* writeBarrierAddress = m_currentBlock->appendNew<ConstPtrValue>(m_proc, origin(), tagCFunctionPtr<void*>(&operationWasmWriteBarrierSlowPath, B3CCallPtrTag)); |
| m_currentBlock->appendNew<CCallValue>(m_proc, B3::Void, origin(), writeBarrierAddress, cell, vm); |
| m_currentBlock->appendNewControlValue(m_proc, Jump, origin(), continuation); |
| |
| continuation->addPredecessor(m_currentBlock); |
| m_currentBlock = continuation; |
| } |
| break; |
| } |
| } |
| return { }; |
| } |
| |
| inline void B3IRGenerator::emitWriteBarrierForJSWrapper() |
| { |
| Value* cell = m_currentBlock->appendNew<MemoryValue>(m_proc, Load, pointerType(), origin(), instanceValue(), safeCast<int32_t>(Instance::offsetOfOwner())); |
| Value* cellState = m_currentBlock->appendNew<MemoryValue>(m_proc, Load8Z, Int32, origin(), cell, safeCast<int32_t>(JSCell::cellStateOffset())); |
| Value* vm = m_currentBlock->appendNew<MemoryValue>(m_proc, Load, pointerType(), origin(), cell, safeCast<int32_t>(JSWebAssemblyInstance::offsetOfVM())); |
| Value* threshold = m_currentBlock->appendNew<MemoryValue>(m_proc, Load, Int32, origin(), vm, safeCast<int32_t>(VM::offsetOfHeapBarrierThreshold())); |
| |
| BasicBlock* fenceCheckPath = m_proc.addBlock(); |
| BasicBlock* fencePath = m_proc.addBlock(); |
| BasicBlock* doSlowPath = m_proc.addBlock(); |
| BasicBlock* continuation = m_proc.addBlock(); |
| |
| m_currentBlock->appendNewControlValue(m_proc, B3::Branch, origin(), |
| m_currentBlock->appendNew<Value>(m_proc, Above, origin(), cellState, threshold), |
| FrequentedBlock(continuation), FrequentedBlock(fenceCheckPath, FrequencyClass::Rare)); |
| fenceCheckPath->addPredecessor(m_currentBlock); |
| continuation->addPredecessor(m_currentBlock); |
| m_currentBlock = fenceCheckPath; |
| |
| Value* shouldFence = m_currentBlock->appendNew<MemoryValue>(m_proc, Load8Z, Int32, origin(), vm, safeCast<int32_t>(VM::offsetOfHeapMutatorShouldBeFenced())); |
| m_currentBlock->appendNewControlValue(m_proc, B3::Branch, origin(), |
| shouldFence, |
| FrequentedBlock(fencePath), FrequentedBlock(doSlowPath)); |
| fencePath->addPredecessor(m_currentBlock); |
| doSlowPath->addPredecessor(m_currentBlock); |
| m_currentBlock = fencePath; |
| |
| B3::PatchpointValue* doFence = m_currentBlock->appendNew<B3::PatchpointValue>(m_proc, B3::Void, origin()); |
| doFence->setGenerator([] (CCallHelpers& jit, const B3::StackmapGenerationParams&) { |
| jit.memoryFence(); |
| }); |
| |
| Value* cellStateLoadAfterFence = m_currentBlock->appendNew<MemoryValue>(m_proc, Load8Z, Int32, origin(), cell, safeCast<int32_t>(JSCell::cellStateOffset())); |
| m_currentBlock->appendNewControlValue(m_proc, B3::Branch, origin(), |
| m_currentBlock->appendNew<Value>(m_proc, Above, origin(), cellStateLoadAfterFence, m_currentBlock->appendNew<Const32Value>(m_proc, origin(), blackThreshold)), |
| FrequentedBlock(continuation), FrequentedBlock(doSlowPath, FrequencyClass::Rare)); |
| doSlowPath->addPredecessor(m_currentBlock); |
| continuation->addPredecessor(m_currentBlock); |
| m_currentBlock = doSlowPath; |
| |
| Value* writeBarrierAddress = m_currentBlock->appendNew<ConstPtrValue>(m_proc, origin(), tagCFunctionPtr<void*>(&operationWasmWriteBarrierSlowPath, B3CCallPtrTag)); |
| m_currentBlock->appendNew<CCallValue>(m_proc, B3::Void, origin(), writeBarrierAddress, cell, vm); |
| m_currentBlock->appendNewControlValue(m_proc, Jump, origin(), continuation); |
| |
| continuation->addPredecessor(m_currentBlock); |
| m_currentBlock = continuation; |
| } |
| |
| inline Value* B3IRGenerator::emitCheckAndPreparePointer(ExpressionType pointer, uint32_t offset, uint32_t sizeOfOperation) |
| { |
| ASSERT(m_memoryBaseGPR); |
| |
| switch (m_mode) { |
| case MemoryMode::BoundsChecking: { |
| // We're not using signal handling at all, we must therefore check that no memory access exceeds the current memory size. |
| ASSERT(m_memorySizeGPR); |
| ASSERT(sizeOfOperation + offset > offset); |
| m_currentBlock->appendNew<WasmBoundsCheckValue>(m_proc, origin(), m_memorySizeGPR, pointer, sizeOfOperation + offset - 1); |
| break; |
| } |
| |
| case MemoryMode::Signaling: { |
| // We've virtually mapped 4GiB+redzone for this memory. Only the user-allocated pages are addressable, contiguously in range [0, current], |
| // and everything above is mapped PROT_NONE. We don't need to perform any explicit bounds check in the 4GiB range because WebAssembly register |
| // memory accesses are 32-bit. However WebAssembly register + offset accesses perform the addition in 64-bit which can push an access above |
| // the 32-bit limit (the offset is unsigned 32-bit). The redzone will catch most small offsets, and we'll explicitly bounds check any |
| // register + large offset access. We don't think this will be generated frequently. |
| // |
| // We could check that register + large offset doesn't exceed 4GiB+redzone since that's technically the limit we need to avoid overflowing the |
| // PROT_NONE region, but it's better if we use a smaller immediate because it can codegens better. We know that anything equal to or greater |
| // than the declared 'maximum' will trap, so we can compare against that number. If there was no declared 'maximum' then we still know that |
| // any access equal to or greater than 4GiB will trap, no need to add the redzone. |
| if (offset >= Memory::fastMappedRedzoneBytes()) { |
| size_t maximum = m_info.memory.maximum() ? m_info.memory.maximum().bytes() : std::numeric_limits<uint32_t>::max(); |
| m_currentBlock->appendNew<WasmBoundsCheckValue>(m_proc, origin(), pointer, sizeOfOperation + offset - 1, maximum); |
| } |
| break; |
| } |
| } |
| |
| pointer = m_currentBlock->appendNew<Value>(m_proc, ZExt32, origin(), pointer); |
| return m_currentBlock->appendNew<WasmAddressValue>(m_proc, origin(), pointer, m_memoryBaseGPR); |
| } |
| |
| inline uint32_t sizeOfLoadOp(LoadOpType op) |
| { |
| switch (op) { |
| case LoadOpType::I32Load8S: |
| case LoadOpType::I32Load8U: |
| case LoadOpType::I64Load8S: |
| case LoadOpType::I64Load8U: |
| return 1; |
| case LoadOpType::I32Load16S: |
| case LoadOpType::I64Load16S: |
| case LoadOpType::I32Load16U: |
| case LoadOpType::I64Load16U: |
| return 2; |
| case LoadOpType::I32Load: |
| case LoadOpType::I64Load32S: |
| case LoadOpType::I64Load32U: |
| case LoadOpType::F32Load: |
| return 4; |
| case LoadOpType::I64Load: |
| case LoadOpType::F64Load: |
| return 8; |
| } |
| RELEASE_ASSERT_NOT_REACHED(); |
| } |
| |
| inline B3::Kind B3IRGenerator::memoryKind(B3::Opcode memoryOp) |
| { |
| if (m_mode == MemoryMode::Signaling) |
| return trapping(memoryOp); |
| return memoryOp; |
| } |
| |
| inline Value* B3IRGenerator::emitLoadOp(LoadOpType op, ExpressionType pointer, uint32_t uoffset) |
| { |
| int32_t offset = fixupPointerPlusOffset(pointer, uoffset); |
| |
| switch (op) { |
| case LoadOpType::I32Load8S: { |
| return m_currentBlock->appendNew<MemoryValue>(m_proc, memoryKind(Load8S), origin(), pointer, offset); |
| } |
| |
| case LoadOpType::I64Load8S: { |
| Value* value = m_currentBlock->appendNew<MemoryValue>(m_proc, memoryKind(Load8S), origin(), pointer, offset); |
| return m_currentBlock->appendNew<Value>(m_proc, SExt32, origin(), value); |
| } |
| |
| case LoadOpType::I32Load8U: { |
| return m_currentBlock->appendNew<MemoryValue>(m_proc, memoryKind(Load8Z), origin(), pointer, offset); |
| } |
| |
| case LoadOpType::I64Load8U: { |
| Value* value = m_currentBlock->appendNew<MemoryValue>(m_proc, memoryKind(Load8Z), origin(), pointer, offset); |
| return m_currentBlock->appendNew<Value>(m_proc, ZExt32, origin(), value); |
| } |
| |
| case LoadOpType::I32Load16S: { |
| return m_currentBlock->appendNew<MemoryValue>(m_proc, memoryKind(Load16S), origin(), pointer, offset); |
| } |
| |
| case LoadOpType::I64Load16S: { |
| Value* value = m_currentBlock->appendNew<MemoryValue>(m_proc, memoryKind(Load16S), origin(), pointer, offset); |
| return m_currentBlock->appendNew<Value>(m_proc, SExt32, origin(), value); |
| } |
| |
| case LoadOpType::I32Load16U: { |
| return m_currentBlock->appendNew<MemoryValue>(m_proc, memoryKind(Load16Z), origin(), pointer, offset); |
| } |
| |
| case LoadOpType::I64Load16U: { |
| Value* value = m_currentBlock->appendNew<MemoryValue>(m_proc, memoryKind(Load16Z), origin(), pointer, offset); |
| return m_currentBlock->appendNew<Value>(m_proc, ZExt32, origin(), value); |
| } |
| |
| case LoadOpType::I32Load: { |
| return m_currentBlock->appendNew<MemoryValue>(m_proc, memoryKind(Load), Int32, origin(), pointer, offset); |
| } |
| |
| case LoadOpType::I64Load32U: { |
| Value* value = m_currentBlock->appendNew<MemoryValue>(m_proc, memoryKind(Load), Int32, origin(), pointer, offset); |
| return m_currentBlock->appendNew<Value>(m_proc, ZExt32, origin(), value); |
| } |
| |
| case LoadOpType::I64Load32S: { |
| Value* value = m_currentBlock->appendNew<MemoryValue>(m_proc, memoryKind(Load), Int32, origin(), pointer, offset); |
| return m_currentBlock->appendNew<Value>(m_proc, SExt32, origin(), value); |
| } |
| |
| case LoadOpType::I64Load: { |
| return m_currentBlock->appendNew<MemoryValue>(m_proc, memoryKind(Load), Int64, origin(), pointer, offset); |
| } |
| |
| case LoadOpType::F32Load: { |
| return m_currentBlock->appendNew<MemoryValue>(m_proc, memoryKind(Load), Float, origin(), pointer, offset); |
| } |
| |
| case LoadOpType::F64Load: { |
| return m_currentBlock->appendNew<MemoryValue>(m_proc, memoryKind(Load), Double, origin(), pointer, offset); |
| } |
| } |
| RELEASE_ASSERT_NOT_REACHED(); |
| } |
| |
| auto B3IRGenerator::load(LoadOpType op, ExpressionType pointer, ExpressionType& result, uint32_t offset) -> PartialResult |
| { |
| ASSERT(pointer->type() == Int32); |
| |
| if (UNLIKELY(sumOverflows<uint32_t>(offset, sizeOfLoadOp(op)))) { |
| // FIXME: Even though this is provably out of bounds, it's not a validation error, so we have to handle it |
| // as a runtime exception. However, this may change: https://bugs.webkit.org/show_bug.cgi?id=166435 |
| B3::PatchpointValue* throwException = m_currentBlock->appendNew<B3::PatchpointValue>(m_proc, B3::Void, origin()); |
| throwException->setGenerator([this] (CCallHelpers& jit, const B3::StackmapGenerationParams&) { |
| this->emitExceptionCheck(jit, ExceptionType::OutOfBoundsMemoryAccess); |
| }); |
| |
| switch (op) { |
| case LoadOpType::I32Load8S: |
| case LoadOpType::I32Load16S: |
| case LoadOpType::I32Load: |
| case LoadOpType::I32Load16U: |
| case LoadOpType::I32Load8U: |
| result = constant(Int32, 0); |
| break; |
| case LoadOpType::I64Load8S: |
| case LoadOpType::I64Load8U: |
| case LoadOpType::I64Load16S: |
| case LoadOpType::I64Load32U: |
| case LoadOpType::I64Load32S: |
| case LoadOpType::I64Load: |
| case LoadOpType::I64Load16U: |
| result = constant(Int64, 0); |
| break; |
| case LoadOpType::F32Load: |
| result = constant(Float, 0); |
| break; |
| case LoadOpType::F64Load: |
| result = constant(Double, 0); |
| break; |
| } |
| |
| } else |
| result = emitLoadOp(op, emitCheckAndPreparePointer(pointer, offset, sizeOfLoadOp(op)), offset); |
| |
| return { }; |
| } |
| |
| inline uint32_t sizeOfStoreOp(StoreOpType op) |
| { |
| switch (op) { |
| case StoreOpType::I32Store8: |
| case StoreOpType::I64Store8: |
| return 1; |
| case StoreOpType::I32Store16: |
| case StoreOpType::I64Store16: |
| return 2; |
| case StoreOpType::I32Store: |
| case StoreOpType::I64Store32: |
| case StoreOpType::F32Store: |
| return 4; |
| case StoreOpType::I64Store: |
| case StoreOpType::F64Store: |
| return 8; |
| } |
| RELEASE_ASSERT_NOT_REACHED(); |
| } |
| |
| |
| inline void B3IRGenerator::emitStoreOp(StoreOpType op, ExpressionType pointer, ExpressionType value, uint32_t uoffset) |
| { |
| int32_t offset = fixupPointerPlusOffset(pointer, uoffset); |
| |
| switch (op) { |
| case StoreOpType::I64Store8: |
| value = m_currentBlock->appendNew<Value>(m_proc, Trunc, origin(), value); |
| FALLTHROUGH; |
| |
| case StoreOpType::I32Store8: |
| m_currentBlock->appendNew<MemoryValue>(m_proc, memoryKind(Store8), origin(), value, pointer, offset); |
| return; |
| |
| case StoreOpType::I64Store16: |
| value = m_currentBlock->appendNew<Value>(m_proc, Trunc, origin(), value); |
| FALLTHROUGH; |
| |
| case StoreOpType::I32Store16: |
| m_currentBlock->appendNew<MemoryValue>(m_proc, memoryKind(Store16), origin(), value, pointer, offset); |
| return; |
| |
| case StoreOpType::I64Store32: |
| value = m_currentBlock->appendNew<Value>(m_proc, Trunc, origin(), value); |
| FALLTHROUGH; |
| |
| case StoreOpType::I64Store: |
| case StoreOpType::I32Store: |
| case StoreOpType::F32Store: |
| case StoreOpType::F64Store: |
| m_currentBlock->appendNew<MemoryValue>(m_proc, memoryKind(Store), origin(), value, pointer, offset); |
| return; |
| } |
| RELEASE_ASSERT_NOT_REACHED(); |
| } |
| |
| auto B3IRGenerator::store(StoreOpType op, ExpressionType pointer, ExpressionType value, uint32_t offset) -> PartialResult |
| { |
| ASSERT(pointer->type() == Int32); |
| |
| if (UNLIKELY(sumOverflows<uint32_t>(offset, sizeOfStoreOp(op)))) { |
| // FIXME: Even though this is provably out of bounds, it's not a validation error, so we have to handle it |
| // as a runtime exception. However, this may change: https://bugs.webkit.org/show_bug.cgi?id=166435 |
| B3::PatchpointValue* throwException = m_currentBlock->appendNew<B3::PatchpointValue>(m_proc, B3::Void, origin()); |
| throwException->setGenerator([this] (CCallHelpers& jit, const B3::StackmapGenerationParams&) { |
| this->emitExceptionCheck(jit, ExceptionType::OutOfBoundsMemoryAccess); |
| }); |
| } else |
| emitStoreOp(op, emitCheckAndPreparePointer(pointer, offset, sizeOfStoreOp(op)), value, offset); |
| |
| return { }; |
| } |
| |
| auto B3IRGenerator::addSelect(ExpressionType condition, ExpressionType nonZero, ExpressionType zero, ExpressionType& result) -> PartialResult |
| { |
| result = m_currentBlock->appendNew<Value>(m_proc, B3::Select, origin(), condition, nonZero, zero); |
| return { }; |
| } |
| |
| B3IRGenerator::ExpressionType B3IRGenerator::addConstant(Type type, uint64_t value) |
| { |
| |
| return constant(toB3Type(type), value); |
| } |
| |
| void B3IRGenerator::emitEntryTierUpCheck() |
| { |
| if (!m_tierUp) |
| return; |
| |
| ASSERT(m_tierUp); |
| Value* countDownLocation = constant(pointerType(), reinterpret_cast<uint64_t>(&m_tierUp->m_counter), Origin()); |
| |
| PatchpointValue* patch = m_currentBlock->appendNew<PatchpointValue>(m_proc, B3::Void, Origin()); |
| Effects effects = Effects::none(); |
| // FIXME: we should have a more precise heap range for the tier up count. |
| effects.reads = B3::HeapRange::top(); |
| effects.writes = B3::HeapRange::top(); |
| patch->effects = effects; |
| patch->clobber(RegisterSet::macroScratchRegisters()); |
| |
| patch->append(countDownLocation, ValueRep::SomeRegister); |
| patch->setGenerator([=] (CCallHelpers& jit, const StackmapGenerationParams& params) { |
| AllowMacroScratchRegisterUsage allowScratch(jit); |
| CCallHelpers::Jump tierUp = jit.branchAdd32(CCallHelpers::PositiveOrZero, CCallHelpers::TrustedImm32(TierUpCount::functionEntryIncrement()), CCallHelpers::Address(params[0].gpr())); |
| CCallHelpers::Label tierUpResume = jit.label(); |
| |
| params.addLatePath([=] (CCallHelpers& jit) { |
| tierUp.link(&jit); |
| |
| const unsigned extraPaddingBytes = 0; |
| RegisterSet registersToSpill = { }; |
| registersToSpill.add(GPRInfo::argumentGPR1); |
| unsigned numberOfStackBytesUsedForRegisterPreservation = ScratchRegisterAllocator::preserveRegistersToStackForCall(jit, registersToSpill, extraPaddingBytes); |
| |
| jit.move(MacroAssembler::TrustedImm32(m_functionIndex), GPRInfo::argumentGPR1); |
| MacroAssembler::Call call = jit.nearCall(); |
| |
| ScratchRegisterAllocator::restoreRegistersFromStackForCall(jit, registersToSpill, RegisterSet(), numberOfStackBytesUsedForRegisterPreservation, extraPaddingBytes); |
| jit.jump(tierUpResume); |
| |
| jit.addLinkTask([=] (LinkBuffer& linkBuffer) { |
| MacroAssembler::repatchNearCall(linkBuffer.locationOfNearCall<NoPtrTag>(call), CodeLocationLabel<JITThunkPtrTag>(Thunks::singleton().stub(triggerOMGEntryTierUpThunkGenerator).code())); |
| }); |
| }); |
| }); |
| } |
| |
| void B3IRGenerator::emitLoopTierUpCheck(uint32_t loopIndex, const Stack& enclosingStack) |
| { |
| uint32_t outerLoopIndex = this->outerLoopIndex(); |
| m_outerLoops.append(loopIndex); |
| |
| if (!m_tierUp) |
| return; |
| |
| Origin origin = this->origin(); |
| ASSERT(m_tierUp->osrEntryTriggers().size() == loopIndex); |
| m_tierUp->osrEntryTriggers().append(TierUpCount::TriggerReason::DontTrigger); |
| m_tierUp->outerLoops().append(outerLoopIndex); |
| |
| Value* countDownLocation = constant(pointerType(), reinterpret_cast<uint64_t>(&m_tierUp->m_counter), origin); |
| |
| Vector<ExpressionType> stackmap; |
| for (auto& local : m_locals) { |
| Value* result = m_currentBlock->appendNew<VariableValue>(m_proc, B3::Get, origin, local); |
| stackmap.append(result); |
| } |
| for (unsigned controlIndex = 0; controlIndex < m_parser->controlStack().size(); ++controlIndex) { |
| auto& expressionStack = m_parser->controlStack()[controlIndex].enclosedExpressionStack; |
| for (TypedExpression value : expressionStack) |
| stackmap.append(value); |
| } |
| for (TypedExpression value : enclosingStack) |
| stackmap.append(value); |
| |
| PatchpointValue* patch = m_currentBlock->appendNew<PatchpointValue>(m_proc, B3::Void, origin); |
| Effects effects = Effects::none(); |
| // FIXME: we should have a more precise heap range for the tier up count. |
| effects.reads = B3::HeapRange::top(); |
| effects.writes = B3::HeapRange::top(); |
| effects.exitsSideways = true; |
| patch->effects = effects; |
| |
| patch->clobber(RegisterSet::macroScratchRegisters()); |
| RegisterSet clobberLate; |
| clobberLate.add(GPRInfo::argumentGPR0); |
| patch->clobberLate(clobberLate); |
| |
| patch->append(countDownLocation, ValueRep::SomeRegister); |
| patch->appendVectorWithRep(stackmap, ValueRep::ColdAny); |
| |
| TierUpCount::TriggerReason* forceEntryTrigger = &(m_tierUp->osrEntryTriggers().last()); |
| static_assert(!static_cast<uint8_t>(TierUpCount::TriggerReason::DontTrigger), "the JIT code assumes non-zero means 'enter'"); |
| static_assert(sizeof(TierUpCount::TriggerReason) == 1, "branchTest8 assumes this size"); |
| patch->setGenerator([=] (CCallHelpers& jit, const StackmapGenerationParams& params) { |
| AllowMacroScratchRegisterUsage allowScratch(jit); |
| CCallHelpers::Jump forceOSREntry = jit.branchTest8(CCallHelpers::NonZero, CCallHelpers::AbsoluteAddress(forceEntryTrigger)); |
| CCallHelpers::Jump tierUp = jit.branchAdd32(CCallHelpers::PositiveOrZero, CCallHelpers::TrustedImm32(TierUpCount::loopIncrement()), CCallHelpers::Address(params[0].gpr())); |
| MacroAssembler::Label tierUpResume = jit.label(); |
| |
| OSREntryData& osrEntryData = m_tierUp->addOSREntryData(m_functionIndex, loopIndex); |
| // First argument is the countdown location. |
| for (unsigned i = 1; i < params.value()->numChildren(); ++i) |
| osrEntryData.values().constructAndAppend(params[i], params.value()->child(i)->type()); |
| OSREntryData* osrEntryDataPtr = &osrEntryData; |
| |
| params.addLatePath([=] (CCallHelpers& jit) { |
| AllowMacroScratchRegisterUsage allowScratch(jit); |
| forceOSREntry.link(&jit); |
| tierUp.link(&jit); |
| |
| jit.probe(operationWasmTriggerOSREntryNow, osrEntryDataPtr); |
| jit.branchTestPtr(CCallHelpers::Zero, GPRInfo::argumentGPR0).linkTo(tierUpResume, &jit); |
| jit.farJump(GPRInfo::argumentGPR1, WasmEntryPtrTag); |
| }); |
| }); |
| } |
| |
| auto B3IRGenerator::addLoop(BlockSignature signature, Stack& enclosingStack, ControlType& block, Stack& newStack, uint32_t loopIndex) -> PartialResult |
| { |
| BasicBlock* body = m_proc.addBlock(); |
| BasicBlock* continuation = m_proc.addBlock(); |
| |
| block = ControlData(m_proc, origin(), signature, BlockType::Loop, continuation, body); |
| |
| ExpressionList args; |
| { |
| unsigned offset = enclosingStack.size() - signature->argumentCount(); |
| for (unsigned i = 0; i < signature->argumentCount(); ++i) { |
| TypedExpression value = enclosingStack.at(offset + i); |
| auto* upsilon = m_currentBlock->appendNew<UpsilonValue>(m_proc, origin(), value); |
| Value* phi = block.phis[i]; |
| body->append(phi); |
| upsilon->setPhi(phi); |
| newStack.constructAndAppend(value.type(), phi); |
| } |
| enclosingStack.shrink(offset); |
| } |
| |
| m_currentBlock->appendNewControlValue(m_proc, Jump, origin(), body); |
| if (loopIndex == m_loopIndexForOSREntry) { |
| dataLogLnIf(WasmB3IRGeneratorInternal::verbose, "Setting up for OSR entry"); |
| |
| m_currentBlock = m_rootBlock; |
| Value* pointer = m_rootBlock->appendNew<ArgumentRegValue>(m_proc, Origin(), GPRInfo::argumentGPR0); |
| |
| unsigned indexInBuffer = 0; |
| auto loadFromScratchBuffer = [&] (B3::Type type) { |
| size_t offset = sizeof(uint64_t) * indexInBuffer++; |
| RELEASE_ASSERT(type.isNumeric()); |
| return m_currentBlock->appendNew<MemoryValue>(m_proc, Load, type, origin(), pointer, offset); |
| }; |
| |
| for (auto& local : m_locals) |
| m_currentBlock->appendNew<VariableValue>(m_proc, Set, Origin(), local, loadFromScratchBuffer(local->type())); |
| |
| auto connectControlEntry = [&](const ControlData& data, Stack& expressionStack) { |
| // For each stack entry enclosed by this loop we need to replace the value with a phi so we can fill it on OSR entry. |
| BasicBlock* sourceBlock = nullptr; |
| unsigned blockIndex = 0; |
| B3::InsertionSet insertionSet(m_proc); |
| for (unsigned i = 0; i < expressionStack.size(); i++) { |
| TypedExpression value = expressionStack[i]; |
| if (value->isConstant()) { |
| ++indexInBuffer; |
| continue; |
| } |
| |
| if (value->owner != sourceBlock) { |
| if (sourceBlock) |
| insertionSet.execute(sourceBlock); |
| ASSERT(insertionSet.isEmpty()); |
| dataLogLnIf(WasmB3IRGeneratorInternal::verbose && sourceBlock, "Executed insertion set into: ", *sourceBlock); |
| blockIndex = 0; |
| sourceBlock = value->owner; |
| } |
| |
| while (sourceBlock->at(blockIndex++) != value) |
| ASSERT(blockIndex < sourceBlock->size()); |
| ASSERT(sourceBlock->at(blockIndex - 1) == value); |
| |
| auto* phi = data.continuation->appendNew<Value>(m_proc, Phi, value->type(), value->origin()); |
| expressionStack[i] = TypedExpression { value.type(), phi }; |
| m_currentBlock->appendNew<UpsilonValue>(m_proc, value->origin(), loadFromScratchBuffer(value->type()), phi); |
| |
| auto* sourceUpsilon = m_proc.add<UpsilonValue>(value->origin(), value, phi); |
| insertionSet.insertValue(blockIndex, sourceUpsilon); |
| } |
| if (sourceBlock) |
| insertionSet.execute(sourceBlock); |
| }; |
| |
| for (unsigned controlIndex = 0; controlIndex < m_parser->controlStack().size(); ++controlIndex) { |
| auto& data = m_parser->controlStack()[controlIndex].controlData; |
| auto& expressionStack = m_parser->controlStack()[controlIndex].enclosedExpressionStack; |
| connectControlEntry(data, expressionStack); |
| } |
| connectControlEntry(block, enclosingStack); |
| |
| m_osrEntryScratchBufferSize = indexInBuffer; |
| m_currentBlock->appendNewControlValue(m_proc, Jump, origin(), body); |
| body->addPredecessor(m_currentBlock); |
| } |
| |
| m_currentBlock = body; |
| emitLoopTierUpCheck(loopIndex, enclosingStack); |
| return { }; |
| } |
| |
| B3IRGenerator::ControlData B3IRGenerator::addTopLevel(BlockSignature signature) |
| { |
| return ControlData(m_proc, Origin(), signature, BlockType::TopLevel, m_proc.addBlock()); |
| } |
| |
| auto B3IRGenerator::addBlock(BlockSignature signature, Stack& enclosingStack, ControlType& newBlock, Stack& newStack) -> PartialResult |
| { |
| BasicBlock* continuation = m_proc.addBlock(); |
| |
| splitStack(signature, enclosingStack, newStack); |
| newBlock = ControlData(m_proc, origin(), signature, BlockType::Block, continuation); |
| return { }; |
| } |
| |
| auto B3IRGenerator::addIf(ExpressionType condition, BlockSignature signature, Stack& enclosingStack, ControlType& result, Stack& newStack) -> PartialResult |
| { |
| // FIXME: This needs to do some kind of stack passing. |
| |
| BasicBlock* taken = m_proc.addBlock(); |
| BasicBlock* notTaken = m_proc.addBlock(); |
| BasicBlock* continuation = m_proc.addBlock(); |
| |
| m_currentBlock->appendNew<Value>(m_proc, B3::Branch, origin(), condition); |
| m_currentBlock->setSuccessors(FrequentedBlock(taken), FrequentedBlock(notTaken)); |
| taken->addPredecessor(m_currentBlock); |
| notTaken->addPredecessor(m_currentBlock); |
| |
| m_currentBlock = taken; |
| splitStack(signature, enclosingStack, newStack); |
| result = ControlData(m_proc, origin(), signature, BlockType::If, continuation, notTaken); |
| return { }; |
| } |
| |
| auto B3IRGenerator::addElse(ControlData& data, const Stack& currentStack) -> PartialResult |
| { |
| unifyValuesWithBlock(currentStack, data.phis); |
| m_currentBlock->appendNewControlValue(m_proc, Jump, origin(), data.continuation); |
| return addElseToUnreachable(data); |
| } |
| |
| auto B3IRGenerator::addElseToUnreachable(ControlData& data) -> PartialResult |
| { |
| ASSERT(data.blockType() == BlockType::If); |
| m_currentBlock = data.special; |
| data.convertIfToBlock(); |
| return { }; |
| } |
| |
| auto B3IRGenerator::addReturn(const ControlData&, const Stack& returnValues) -> PartialResult |
| { |
| CallInformation wasmCallInfo = wasmCallingConvention().callInformationFor(m_parser->signature(), CallRole::Callee); |
| |
| PatchpointValue* patch = m_proc.add<PatchpointValue>(B3::Void, origin()); |
| patch->setGenerator([] (CCallHelpers& jit, const B3::StackmapGenerationParams& params) { |
| auto calleeSaves = params.code().calleeSaveRegisterAtOffsetList(); |
| |
| for (RegisterAtOffset calleeSave : calleeSaves) |
| jit.load64ToReg(CCallHelpers::Address(GPRInfo::callFrameRegister, calleeSave.offset()), calleeSave.reg()); |
| |
| jit.emitFunctionEpilogue(); |
| jit.ret(); |
| }); |
| patch->effects.terminal = true; |
| |
| RELEASE_ASSERT(returnValues.size() >= wasmCallInfo.results.size()); |
| unsigned offset = returnValues.size() - wasmCallInfo.results.size(); |
| for (unsigned i = 0; i < wasmCallInfo.results.size(); ++i) { |
| B3::ValueRep rep = wasmCallInfo.results[i]; |
| if (rep.isStack()) { |
| B3::Value* address = m_currentBlock->appendNew<B3::Value>(m_proc, B3::Add, Origin(), framePointer(), constant(pointerType(), rep.offsetFromFP())); |
| m_currentBlock->appendNew<B3::MemoryValue>(m_proc, B3::Store, Origin(), returnValues[offset + i], address); |
| } else { |
| ASSERT(rep.isReg()); |
| patch->append(returnValues[offset + i], rep); |
| } |
| } |
| |
| m_currentBlock->append(patch); |
| return { }; |
| } |
| |
| auto B3IRGenerator::addBranch(ControlData& data, ExpressionType condition, const Stack& returnValues) -> PartialResult |
| { |
| unifyValuesWithBlock(returnValues, data.phis); |
| |
| BasicBlock* target = data.targetBlockForBranch(); |
| if (condition) { |
| BasicBlock* continuation = m_proc.addBlock(); |
| m_currentBlock->appendNew<Value>(m_proc, B3::Branch, origin(), condition); |
| m_currentBlock->setSuccessors(FrequentedBlock(target), FrequentedBlock(continuation)); |
| target->addPredecessor(m_currentBlock); |
| continuation->addPredecessor(m_currentBlock); |
| m_currentBlock = continuation; |
| } else { |
| m_currentBlock->appendNewControlValue(m_proc, Jump, origin(), FrequentedBlock(target)); |
| target->addPredecessor(m_currentBlock); |
| } |
| |
| return { }; |
| } |
| |
| auto B3IRGenerator::addSwitch(ExpressionType condition, const Vector<ControlData*>& targets, ControlData& defaultTarget, const Stack& expressionStack) -> PartialResult |
| { |
| for (size_t i = 0; i < targets.size(); ++i) |
| unifyValuesWithBlock(expressionStack, targets[i]->phis); |
| unifyValuesWithBlock(expressionStack, defaultTarget.phis); |
| |
| SwitchValue* switchValue = m_currentBlock->appendNew<SwitchValue>(m_proc, origin(), condition); |
| switchValue->setFallThrough(FrequentedBlock(defaultTarget.targetBlockForBranch())); |
| for (size_t i = 0; i < targets.size(); ++i) |
| switchValue->appendCase(SwitchCase(i, FrequentedBlock(targets[i]->targetBlockForBranch()))); |
| |
| return { }; |
| } |
| |
| auto B3IRGenerator::endBlock(ControlEntry& entry, Stack& expressionStack) -> PartialResult |
| { |
| ControlData& data = entry.controlData; |
| |
| ASSERT(expressionStack.size() == data.signature()->returnCount()); |
| if (data.blockType() != BlockType::Loop) |
| unifyValuesWithBlock(expressionStack, data.phis); |
| |
| m_currentBlock->appendNewControlValue(m_proc, Jump, origin(), data.continuation); |
| data.continuation->addPredecessor(m_currentBlock); |
| |
| return addEndToUnreachable(entry, expressionStack); |
| } |
| |
| auto B3IRGenerator::addEndToUnreachable(ControlEntry& entry, const Stack& expressionStack) -> PartialResult |
| { |
| ControlData& data = entry.controlData; |
| m_currentBlock = data.continuation; |
| |
| if (data.blockType() == BlockType::If) { |
| data.special->appendNewControlValue(m_proc, Jump, origin(), m_currentBlock); |
| m_currentBlock->addPredecessor(data.special); |
| } |
| |
| if (data.blockType() != BlockType::Loop) { |
| for (unsigned i = 0; i < data.signature()->returnCount(); ++i) { |
| Value* result = data.phis[i]; |
| m_currentBlock->append(result); |
| entry.enclosedExpressionStack.constructAndAppend(data.signature()->returnType(i), result); |
| } |
| } else { |
| m_outerLoops.removeLast(); |
| for (unsigned i = 0; i < data.signature()->returnCount(); ++i) { |
| if (i < expressionStack.size()) |
| entry.enclosedExpressionStack.append(expressionStack[i]); |
| else { |
| Type returnType = data.signature()->returnType(i); |
| entry.enclosedExpressionStack.constructAndAppend(returnType, constant(toB3Type(returnType), 0xbbadbeef)); |
| } |
| } |
| } |
| |
| // TopLevel does not have any code after this so we need to make sure we emit a return here. |
| if (data.blockType() == BlockType::TopLevel) |
| return addReturn(entry.controlData, entry.enclosedExpressionStack); |
| |
| return { }; |
| } |
| |
| |
| B3::Value* B3IRGenerator::createCallPatchpoint(BasicBlock* block, Origin origin, const Signature& signature, Vector<ExpressionType>& args, const ScopedLambda<void(PatchpointValue*)>& patchpointFunctor) |
| { |
| Vector<B3::ConstrainedValue> constrainedArguments; |
| CallInformation wasmCallInfo = wasmCallingConvention().callInformationFor(signature); |
| for (unsigned i = 0; i < args.size(); ++i) |
| constrainedArguments.append(B3::ConstrainedValue(args[i], wasmCallInfo.params[i])); |
| |
| m_proc.requestCallArgAreaSizeInBytes(WTF::roundUpToMultipleOf(stackAlignmentBytes(), wasmCallInfo.headerAndArgumentStackSizeInBytes)); |
| |
| B3::Type returnType = toB3ResultType(&signature); |
| B3::PatchpointValue* patchpoint = block->appendNew<B3::PatchpointValue>(m_proc, returnType, origin); |
| patchpoint->clobberEarly(RegisterSet::macroScratchRegisters()); |
| patchpoint->clobberLate(RegisterSet::volatileRegistersForJSCall()); |
| patchpointFunctor(patchpoint); |
| patchpoint->appendVector(constrainedArguments); |
| |
| if (returnType != B3::Void) |
| patchpoint->resultConstraints = WTFMove(wasmCallInfo.results); |
| return patchpoint; |
| } |
| |
| auto B3IRGenerator::addCall(uint32_t functionIndex, const Signature& signature, Vector<ExpressionType>& args, ResultList& results) -> PartialResult |
| { |
| ASSERT(signature.argumentCount() == args.size()); |
| |
| m_makesCalls = true; |
| B3::Type returnType = toB3ResultType(&signature); |
| |
| auto fillResults = [&] (Value* callResult) { |
| ASSERT(returnType == callResult->type()); |
| |
| switch (returnType.kind()) { |
| case B3::Void: { |
| break; |
| } |
| case B3::Tuple: { |
| const Vector<B3::Type>& tuple = m_proc.tupleForType(returnType); |
| ASSERT(signature.returnCount() == tuple.size()); |
| for (unsigned i = 0; i < signature.returnCount(); ++i) |
| results.append(m_currentBlock->appendNew<ExtractValue>(m_proc, origin(), tuple[i], callResult, i)); |
| break; |
| } |
| default: { |
| results.append(callResult); |
| break; |
| } |
| } |
| }; |
| |
| Vector<UnlinkedWasmToWasmCall>* unlinkedWasmToWasmCalls = &m_unlinkedWasmToWasmCalls; |
| |
| if (m_info.isImportedFunctionFromFunctionIndexSpace(functionIndex)) { |
| m_maxNumJSCallArguments = std::max(m_maxNumJSCallArguments, static_cast<uint32_t>(args.size())); |
| |
| // FIXME: imports can be linked here, instead of generating a patchpoint, because all import stubs are generated before B3 compilation starts. https://bugs.webkit.org/show_bug.cgi?id=166462 |
| Value* targetInstance = m_currentBlock->appendNew<MemoryValue>(m_proc, Load, pointerType(), origin(), instanceValue(), safeCast<int32_t>(Instance::offsetOfTargetInstance(functionIndex))); |
| // The target instance is 0 unless the call is wasm->wasm. |
| Value* isWasmCall = m_currentBlock->appendNew<Value>(m_proc, NotEqual, origin(), targetInstance, m_currentBlock->appendNew<Const64Value>(m_proc, origin(), 0)); |
| |
| BasicBlock* isWasmBlock = m_proc.addBlock(); |
| BasicBlock* isEmbedderBlock = m_proc.addBlock(); |
| BasicBlock* continuation = m_proc.addBlock(); |
| m_currentBlock->appendNewControlValue(m_proc, B3::Branch, origin(), isWasmCall, FrequentedBlock(isWasmBlock), FrequentedBlock(isEmbedderBlock)); |
| |
| Value* wasmCallResult = createCallPatchpoint(isWasmBlock, origin(), signature, args, |
| scopedLambdaRef<void(PatchpointValue*)>([=] (PatchpointValue* patchpoint) -> void { |
| patchpoint->effects.writesPinned = true; |
| patchpoint->effects.readsPinned = true; |
| // We need to clobber all potential pinned registers since we might be leaving the instance. |
| // We pessimistically assume we could be calling to something that is bounds checking. |
| // FIXME: We shouldn't have to do this: https://bugs.webkit.org/show_bug.cgi?id=172181 |
| patchpoint->clobberLate(PinnedRegisterInfo::get().toSave(MemoryMode::BoundsChecking)); |
| patchpoint->setGenerator([unlinkedWasmToWasmCalls, functionIndex] (CCallHelpers& jit, const B3::StackmapGenerationParams&) { |
| AllowMacroScratchRegisterUsage allowScratch(jit); |
| CCallHelpers::Call call = jit.threadSafePatchableNearCall(); |
| jit.addLinkTask([unlinkedWasmToWasmCalls, call, functionIndex] (LinkBuffer& linkBuffer) { |
| unlinkedWasmToWasmCalls->append({ linkBuffer.locationOfNearCall<WasmEntryPtrTag>(call), functionIndex }); |
| }); |
| }); |
| })); |
| UpsilonValue* wasmCallResultUpsilon = returnType == B3::Void ? nullptr : isWasmBlock->appendNew<UpsilonValue>(m_proc, origin(), wasmCallResult); |
| isWasmBlock->appendNewControlValue(m_proc, Jump, origin(), continuation); |
| |
| // FIXME: Let's remove this indirection by creating a PIC friendly IC |
| // for calls out to the embedder. This shouldn't be that hard to do. We could probably |
| // implement the IC to be over Context*. |
| // https://bugs.webkit.org/show_bug.cgi?id=170375 |
| Value* jumpDestination = isEmbedderBlock->appendNew<MemoryValue>(m_proc, |
| Load, pointerType(), origin(), instanceValue(), safeCast<int32_t>(Instance::offsetOfWasmToEmbedderStub(functionIndex))); |
| |
| Value* embedderCallResult = createCallPatchpoint(isEmbedderBlock, origin(), signature, args, |
| scopedLambdaRef<void(PatchpointValue*)>([=] (PatchpointValue* patchpoint) -> void { |
| patchpoint->effects.writesPinned = true; |
| patchpoint->effects.readsPinned = true; |
| patchpoint->append(jumpDestination, ValueRep::SomeRegister); |
| // We need to clobber all potential pinned registers since we might be leaving the instance. |
| // We pessimistically assume we could be calling to something that is bounds checking. |
| // FIXME: We shouldn't have to do this: https://bugs.webkit.org/show_bug.cgi?id=172181 |
| patchpoint->clobberLate(PinnedRegisterInfo::get().toSave(MemoryMode::BoundsChecking)); |
| patchpoint->setGenerator([returnType] (CCallHelpers& jit, const B3::StackmapGenerationParams& params) { |
| AllowMacroScratchRegisterUsage allowScratch(jit); |
| jit.call(params[params.proc().resultCount(returnType)].gpr(), WasmEntryPtrTag); |
| }); |
| })); |
| UpsilonValue* embedderCallResultUpsilon = returnType == B3::Void ? nullptr : isEmbedderBlock->appendNew<UpsilonValue>(m_proc, origin(), embedderCallResult); |
| isEmbedderBlock->appendNewControlValue(m_proc, Jump, origin(), continuation); |
| |
| m_currentBlock = continuation; |
| |
| if (returnType != B3::Void) { |
| Value* phi = continuation->appendNew<Value>(m_proc, Phi, returnType, origin()); |
| wasmCallResultUpsilon->setPhi(phi); |
| embedderCallResultUpsilon->setPhi(phi); |
| fillResults(phi); |
| } |
| |
| // The call could have been to another WebAssembly instance, and / or could have modified our Memory. |
| restoreWebAssemblyGlobalState(RestoreCachedStackLimit::Yes, m_info.memory, instanceValue(), m_proc, continuation); |
| } else { |
| |
| Value* patch = createCallPatchpoint(m_currentBlock, origin(), signature, args, |
| scopedLambdaRef<void(PatchpointValue*)>([=] (PatchpointValue* patchpoint) -> void { |
| patchpoint->effects.writesPinned = true; |
| patchpoint->effects.readsPinned = true; |
| |
| patchpoint->setGenerator([unlinkedWasmToWasmCalls, functionIndex] (CCallHelpers& jit, const B3::StackmapGenerationParams&) { |
| AllowMacroScratchRegisterUsage allowScratch(jit); |
| CCallHelpers::Call call = jit.threadSafePatchableNearCall(); |
| jit.addLinkTask([unlinkedWasmToWasmCalls, call, functionIndex] (LinkBuffer& linkBuffer) { |
| unlinkedWasmToWasmCalls->append({ linkBuffer.locationOfNearCall<WasmEntryPtrTag>(call), functionIndex }); |
| }); |
| }); |
| })); |
| fillResults(patch); |
| } |
| |
| return { }; |
| } |
| |
| auto B3IRGenerator::addCallIndirect(unsigned tableIndex, const Signature& signature, Vector<ExpressionType>& args, ResultList& results) -> PartialResult |
| { |
| ExpressionType calleeIndex = args.takeLast(); |
| ASSERT(signature.argumentCount() == args.size()); |
| |
| m_makesCalls = true; |
| // Note: call indirect can call either WebAssemblyFunction or WebAssemblyWrapperFunction. Because |
| // WebAssemblyWrapperFunction is like calling into the embedder, we conservatively assume all call indirects |
| // can be to the embedder for our stack check calculation. |
| m_maxNumJSCallArguments = std::max(m_maxNumJSCallArguments, static_cast<uint32_t>(args.size())); |
| |
| ExpressionType callableFunctionBuffer; |
| ExpressionType instancesBuffer; |
| ExpressionType callableFunctionBufferLength; |
| ExpressionType mask; |
| { |
| ExpressionType table = m_currentBlock->appendNew<MemoryValue>(m_proc, Load, pointerType(), origin(), |
| instanceValue(), safeCast<int32_t>(Instance::offsetOfTablePtr(m_numImportFunctions, tableIndex))); |
| callableFunctionBuffer = m_currentBlock->appendNew<MemoryValue>(m_proc, Load, pointerType(), origin(), |
| table, safeCast<int32_t>(FuncRefTable::offsetOfFunctions())); |
| instancesBuffer = m_currentBlock->appendNew<MemoryValue>(m_proc, Load, pointerType(), origin(), |
| table, safeCast<int32_t>(FuncRefTable::offsetOfInstances())); |
| callableFunctionBufferLength = m_currentBlock->appendNew<MemoryValue>(m_proc, Load, Int32, origin(), |
| table, safeCast<int32_t>(Table::offsetOfLength())); |
| mask = m_currentBlock->appendNew<Value>(m_proc, ZExt32, origin(), |
| m_currentBlock->appendNew<MemoryValue>(m_proc, Load, Int32, origin(), |
| table, safeCast<int32_t>(Table::offsetOfMask()))); |
| } |
| |
| // Check the index we are looking for is valid. |
| { |
| CheckValue* check = m_currentBlock->appendNew<CheckValue>(m_proc, Check, origin(), |
| m_currentBlock->appendNew<Value>(m_proc, AboveEqual, origin(), calleeIndex, callableFunctionBufferLength)); |
| |
| check->setGenerator([=] (CCallHelpers& jit, const B3::StackmapGenerationParams&) { |
| this->emitExceptionCheck(jit, ExceptionType::OutOfBoundsCallIndirect); |
| }); |
| } |
| |
| calleeIndex = m_currentBlock->appendNew<Value>(m_proc, ZExt32, origin(), calleeIndex); |
| |
| if (Options::enableSpectreMitigations()) |
| calleeIndex = m_currentBlock->appendNew<Value>(m_proc, BitAnd, origin(), mask, calleeIndex); |
| |
| ExpressionType callableFunction; |
| { |
| // Compute the offset in the table index space we are looking for. |
| ExpressionType offset = m_currentBlock->appendNew<Value>(m_proc, Mul, origin(), |
| calleeIndex, constant(pointerType(), sizeof(WasmToWasmImportableFunction))); |
| callableFunction = m_currentBlock->appendNew<Value>(m_proc, Add, origin(), callableFunctionBuffer, offset); |
| |
| // Check that the WasmToWasmImportableFunction is initialized. We trap if it isn't. An "invalid" SignatureIndex indicates it's not initialized. |
| // FIXME: when we have trap handlers, we can just let the call fail because Signature::invalidIndex is 0. https://bugs.webkit.org/show_bug.cgi?id=177210 |
| static_assert(sizeof(WasmToWasmImportableFunction::signatureIndex) == sizeof(uint64_t), "Load codegen assumes i64"); |
| ExpressionType calleeSignatureIndex = m_currentBlock->appendNew<MemoryValue>(m_proc, Load, Int64, origin(), callableFunction, safeCast<int32_t>(WasmToWasmImportableFunction::offsetOfSignatureIndex())); |
| { |
| CheckValue* check = m_currentBlock->appendNew<CheckValue>(m_proc, Check, origin(), |
| m_currentBlock->appendNew<Value>(m_proc, Equal, origin(), |
| calleeSignatureIndex, |
| m_currentBlock->appendNew<Const64Value>(m_proc, origin(), Signature::invalidIndex))); |
| |
| check->setGenerator([=] (CCallHelpers& jit, const B3::StackmapGenerationParams&) { |
| this->emitExceptionCheck(jit, ExceptionType::NullTableEntry); |
| }); |
| } |
| |
| // Check the signature matches the value we expect. |
| { |
| ExpressionType expectedSignatureIndex = m_currentBlock->appendNew<Const64Value>(m_proc, origin(), SignatureInformation::get(signature)); |
| CheckValue* check = m_currentBlock->appendNew<CheckValue>(m_proc, Check, origin(), |
| m_currentBlock->appendNew<Value>(m_proc, NotEqual, origin(), calleeSignatureIndex, expectedSignatureIndex)); |
| |
| check->setGenerator([=] (CCallHelpers& jit, const B3::StackmapGenerationParams&) { |
| this->emitExceptionCheck(jit, ExceptionType::BadSignature); |
| }); |
| } |
| } |
| |
| // Do a context switch if needed. |
| { |
| Value* offset = m_currentBlock->appendNew<Value>(m_proc, Mul, origin(), |
| calleeIndex, constant(pointerType(), sizeof(Instance*))); |
| Value* newContextInstance = m_currentBlock->appendNew<MemoryValue>(m_proc, Load, pointerType(), origin(), |
| m_currentBlock->appendNew<Value>(m_proc, Add, origin(), instancesBuffer, offset)); |
| |
| BasicBlock* continuation = m_proc.addBlock(); |
| BasicBlock* doContextSwitch = m_proc.addBlock(); |
| |
| Value* isSameContextInstance = m_currentBlock->appendNew<Value>(m_proc, Equal, origin(), |
| newContextInstance, instanceValue()); |
| m_currentBlock->appendNewControlValue(m_proc, B3::Branch, origin(), |
| isSameContextInstance, FrequentedBlock(continuation), FrequentedBlock(doContextSwitch)); |
| |
| PatchpointValue* patchpoint = doContextSwitch->appendNew<PatchpointValue>(m_proc, B3::Void, origin()); |
| patchpoint->effects.writesPinned = true; |
| // We pessimistically assume we're calling something with BoundsChecking memory. |
| // FIXME: We shouldn't have to do this: https://bugs.webkit.org/show_bug.cgi?id=172181 |
| patchpoint->clobber(PinnedRegisterInfo::get().toSave(MemoryMode::BoundsChecking)); |
| patchpoint->clobber(RegisterSet::macroScratchRegisters()); |
| patchpoint->append(newContextInstance, ValueRep::SomeRegister); |
| patchpoint->append(instanceValue(), ValueRep::SomeRegister); |
| patchpoint->numGPScratchRegisters = Gigacage::isEnabled(Gigacage::Primitive) ? 1 : 0; |
| |
| patchpoint->setGenerator([=] (CCallHelpers& jit, const B3::StackmapGenerationParams& params) { |
| AllowMacroScratchRegisterUsage allowScratch(jit); |
| GPRReg newContextInstance = params[0].gpr(); |
| GPRReg oldContextInstance = params[1].gpr(); |
| const PinnedRegisterInfo& pinnedRegs = PinnedRegisterInfo::get(); |
| GPRReg baseMemory = pinnedRegs.baseMemoryPointer; |
| ASSERT(newContextInstance != baseMemory); |
| jit.loadPtr(CCallHelpers::Address(oldContextInstance, Instance::offsetOfCachedStackLimit()), baseMemory); |
| jit.storePtr(baseMemory, CCallHelpers::Address(newContextInstance, Instance::offsetOfCachedStackLimit())); |
| jit.storeWasmContextInstance(newContextInstance); |
| ASSERT(pinnedRegs.sizeRegister != baseMemory); |
| // FIXME: We should support more than one memory size register |
| // see: https://bugs.webkit.org/show_bug.cgi?id=162952 |
| ASSERT(pinnedRegs.sizeRegister != newContextInstance); |
| GPRReg scratchOrSize = Gigacage::isEnabled(Gigacage::Primitive) ? params.gpScratch(0) : pinnedRegs.sizeRegister; |
| |
| jit.loadPtr(CCallHelpers::Address(newContextInstance, Instance::offsetOfCachedMemorySize()), pinnedRegs.sizeRegister); // Memory size. |
| jit.loadPtr(CCallHelpers::Address(newContextInstance, Instance::offsetOfCachedMemory()), baseMemory); // Memory::void*. |
| |
| jit.cageConditionally(Gigacage::Primitive, baseMemory, pinnedRegs.sizeRegister, scratchOrSize); |
| }); |
| doContextSwitch->appendNewControlValue(m_proc, Jump, origin(), continuation); |
| |
| m_currentBlock = continuation; |
| } |
| |
| ExpressionType calleeCode = m_currentBlock->appendNew<MemoryValue>(m_proc, Load, pointerType(), origin(), |
| m_currentBlock->appendNew<MemoryValue>(m_proc, Load, pointerType(), origin(), callableFunction, |
| safeCast<int32_t>(WasmToWasmImportableFunction::offsetOfEntrypointLoadLocation()))); |
| |
| B3::Type returnType = toB3ResultType(&signature); |
| ExpressionType callResult = createCallPatchpoint(m_currentBlock, origin(), signature, args, |
| scopedLambdaRef<void(PatchpointValue*)>([=] (PatchpointValue* patchpoint) -> void { |
| patchpoint->effects.writesPinned = true; |
| patchpoint->effects.readsPinned = true; |
| // We need to clobber all potential pinned registers since we might be leaving the instance. |
| // We pessimistically assume we're always calling something that is bounds checking so |
| // because the wasm->wasm thunk unconditionally overrides the size registers. |
| // FIXME: We should not have to do this, but the wasm->wasm stub assumes it can |
| // use all the pinned registers as scratch: https://bugs.webkit.org/show_bug.cgi?id=172181 |
| patchpoint->clobberLate(PinnedRegisterInfo::get().toSave(MemoryMode::BoundsChecking)); |
| |
| patchpoint->append(calleeCode, ValueRep::SomeRegister); |
| patchpoint->setGenerator([=] (CCallHelpers& jit, const B3::StackmapGenerationParams& params) { |
| AllowMacroScratchRegisterUsage allowScratch(jit); |
| jit.call(params[params.proc().resultCount(returnType)].gpr(), WasmEntryPtrTag); |
| }); |
| })); |
| |
| switch (returnType.kind()) { |
| case B3::Void: { |
| break; |
| } |
| case B3::Tuple: { |
| const Vector<B3::Type>& tuple = m_proc.tupleForType(returnType); |
| for (unsigned i = 0; i < signature.returnCount(); ++i) |
| results.append(m_currentBlock->appendNew<ExtractValue>(m_proc, origin(), tuple[i], callResult, i)); |
| break; |
| } |
| default: { |
| results.append(callResult); |
| break; |
| } |
| } |
| |
| // The call could have been to another WebAssembly instance, and / or could have modified our Memory. |
| restoreWebAssemblyGlobalState(RestoreCachedStackLimit::Yes, m_info.memory, instanceValue(), m_proc, m_currentBlock); |
| |
| return { }; |
| } |
| |
| void B3IRGenerator::unify(const ExpressionType phi, const ExpressionType source) |
| { |
| m_currentBlock->appendNew<UpsilonValue>(m_proc, origin(), source, phi); |
| } |
| |
| void B3IRGenerator::unifyValuesWithBlock(const Stack& resultStack, const ResultList& result) |
| { |
| ASSERT(result.size() <= resultStack.size()); |
| |
| for (size_t i = 0; i < result.size(); ++i) |
| unify(result[result.size() - 1 - i], resultStack.at(resultStack.size() - 1 - i)); |
| } |
| |
| static void dumpExpressionStack(const CommaPrinter& comma, const B3IRGenerator::Stack& expressionStack) |
| { |
| dataLog(comma, "ExpressionStack:"); |
| for (const auto& expression : expressionStack) |
| dataLog(comma, *expression); |
| } |
| |
| void B3IRGenerator::dump(const ControlStack& controlStack, const Stack* expressionStack) |
| { |
| dataLogLn("Constants:"); |
| for (const auto& constant : m_constantPool) |
| dataLogLn(deepDump(m_proc, constant.value)); |
| |
| dataLogLn("Processing Graph:"); |
| dataLog(m_proc); |
| dataLogLn("With current block:", *m_currentBlock); |
| dataLogLn("Control stack:"); |
| ASSERT(controlStack.size()); |
| for (size_t i = controlStack.size(); i--;) { |
| dataLog(" ", controlStack[i].controlData, ": "); |
| CommaPrinter comma(", ", ""); |
| dumpExpressionStack(comma, *expressionStack); |
| expressionStack = &controlStack[i].enclosedExpressionStack; |
| dataLogLn(); |
| } |
| dataLogLn(); |
| } |
| |
| auto B3IRGenerator::origin() -> Origin |
| { |
| OpcodeOrigin origin(m_parser->currentOpcode(), m_parser->currentOpcodeStartingOffset()); |
| ASSERT(isValidOpType(static_cast<uint8_t>(origin.opcode()))); |
| return bitwise_cast<Origin>(origin); |
| } |
| |
| Expected<std::unique_ptr<InternalFunction>, String> parseAndCompile(CompilationContext& compilationContext, const FunctionData& function, const Signature& signature, Vector<UnlinkedWasmToWasmCall>& unlinkedWasmToWasmCalls, unsigned& osrEntryScratchBufferSize, const ModuleInformation& info, MemoryMode mode, CompilationMode compilationMode, uint32_t functionIndex, uint32_t loopIndexForOSREntry, TierUpCount* tierUp) |
| { |
| auto result = makeUnique<InternalFunction>(); |
| |
| compilationContext.embedderEntrypointJIT = makeUnique<CCallHelpers>(); |
| compilationContext.wasmEntrypointJIT = makeUnique<CCallHelpers>(); |
| |
| Procedure procedure; |
| |
| procedure.setOriginPrinter([] (PrintStream& out, Origin origin) { |
| if (origin.data()) |
| out.print("Wasm: ", bitwise_cast<OpcodeOrigin>(origin)); |
| }); |
| |
| // This means we cannot use either StackmapGenerationParams::usedRegisters() or |
| // StackmapGenerationParams::unavailableRegisters(). In exchange for this concession, we |
| // don't strictly need to run Air::reportUsedRegisters(), which saves a bit of CPU time at |
| // optLevel=1. |
| procedure.setNeedsUsedRegisters(false); |
| |
| procedure.setOptLevel(compilationMode == CompilationMode::BBQMode |
| ? Options::webAssemblyBBQB3OptimizationLevel() |
| : Options::webAssemblyOMGOptimizationLevel()); |
| |
| B3IRGenerator irGenerator(info, procedure, result.get(), unlinkedWasmToWasmCalls, osrEntryScratchBufferSize, mode, compilationMode, functionIndex, loopIndexForOSREntry, tierUp); |
| FunctionParser<B3IRGenerator> parser(irGenerator, function.data.data(), function.data.size(), signature, info); |
| WASM_FAIL_IF_HELPER_FAILS(parser.parse()); |
| |
| irGenerator.insertConstants(); |
| |
| procedure.resetReachability(); |
| if (ASSERT_ENABLED) |
| validate(procedure, "After parsing:\n"); |
| |
| dataLogIf(WasmB3IRGeneratorInternal::verbose, "Pre SSA: ", procedure); |
| fixSSA(procedure); |
| dataLogIf(WasmB3IRGeneratorInternal::verbose, "Post SSA: ", procedure); |
| |
| { |
| B3::prepareForGeneration(procedure); |
| B3::generate(procedure, *compilationContext.wasmEntrypointJIT); |
| compilationContext.wasmEntrypointByproducts = procedure.releaseByproducts(); |
| result->entrypoint.calleeSaveRegisters = procedure.calleeSaveRegisterAtOffsetList(); |
| } |
| |
| return result; |
| } |
| |
| // Custom wasm ops. These are the ones too messy to do in wasm.json. |
| |
| void B3IRGenerator::emitChecksForModOrDiv(B3::Opcode operation, ExpressionType left, ExpressionType right) |
| { |
| ASSERT(operation == Div || operation == Mod || operation == UDiv || operation == UMod); |
| const B3::Type type = left->type(); |
| |
| { |
| CheckValue* check = m_currentBlock->appendNew<CheckValue>(m_proc, Check, origin(), |
| m_currentBlock->appendNew<Value>(m_proc, Equal, origin(), right, constant(type, 0))); |
| |
| check->setGenerator([=] (CCallHelpers& jit, const B3::StackmapGenerationParams&) { |
| this->emitExceptionCheck(jit, ExceptionType::DivisionByZero); |
| }); |
| } |
| |
| if (operation == Div) { |
| int64_t min = type == Int32 ? std::numeric_limits<int32_t>::min() : std::numeric_limits<int64_t>::min(); |
| |
| CheckValue* check = m_currentBlock->appendNew<CheckValue>(m_proc, Check, origin(), |
| m_currentBlock->appendNew<Value>(m_proc, BitAnd, origin(), |
| m_currentBlock->appendNew<Value>(m_proc, Equal, origin(), left, constant(type, min)), |
| m_currentBlock->appendNew<Value>(m_proc, Equal, origin(), right, constant(type, -1)))); |
| |
| check->setGenerator([=] (CCallHelpers& jit, const B3::StackmapGenerationParams&) { |
| this->emitExceptionCheck(jit, ExceptionType::IntegerOverflow); |
| }); |
| } |
| } |
| |
| template<> |
| auto B3IRGenerator::addOp<OpType::I32DivS>(ExpressionType left, ExpressionType right, ExpressionType& result) -> PartialResult |
| { |
| const B3::Opcode op = Div; |
| emitChecksForModOrDiv(op, left, right); |
| result = m_currentBlock->appendNew<Value>(m_proc, op, origin(), left, right); |
| return { }; |
| } |
| |
| template<> |
| auto B3IRGenerator::addOp<OpType::I32RemS>(ExpressionType left, ExpressionType right, ExpressionType& result) -> PartialResult |
| { |
| const B3::Opcode op = Mod; |
| emitChecksForModOrDiv(op, left, right); |
| result = m_currentBlock->appendNew<Value>(m_proc, chill(op), origin(), left, right); |
| return { }; |
| } |
| |
| template<> |
| auto B3IRGenerator::addOp<OpType::I32DivU>(ExpressionType left, ExpressionType right, ExpressionType& result) -> PartialResult |
| { |
| const B3::Opcode op = UDiv; |
| emitChecksForModOrDiv(op, left, right); |
| result = m_currentBlock->appendNew<Value>(m_proc, op, origin(), left, right); |
| return { }; |
| } |
| |
| template<> |
| auto B3IRGenerator::addOp<OpType::I32RemU>(ExpressionType left, ExpressionType right, ExpressionType& result) -> PartialResult |
| { |
| const B3::Opcode op = UMod; |
| emitChecksForModOrDiv(op, left, right); |
| result = m_currentBlock->appendNew<Value>(m_proc, op, origin(), left, right); |
| return { }; |
| } |
| |
| template<> |
| auto B3IRGenerator::addOp<OpType::I64DivS>(ExpressionType left, ExpressionType right, ExpressionType& result) -> PartialResult |
| { |
| const B3::Opcode op = Div; |
| emitChecksForModOrDiv(op, left, right); |
| result = m_currentBlock->appendNew<Value>(m_proc, op, origin(), left, right); |
| return { }; |
| } |
| |
| template<> |
| auto B3IRGenerator::addOp<OpType::I64RemS>(ExpressionType left, ExpressionType right, ExpressionType& result) -> PartialResult |
| { |
| const B3::Opcode op = Mod; |
| emitChecksForModOrDiv(op, left, right); |
| result = m_currentBlock->appendNew<Value>(m_proc, chill(op), origin(), left, right); |
| return { }; |
| } |
| |
| template<> |
| auto B3IRGenerator::addOp<OpType::I64DivU>(ExpressionType left, ExpressionType right, ExpressionType& result) -> PartialResult |
| { |
| const B3::Opcode op = UDiv; |
| emitChecksForModOrDiv(op, left, right); |
| result = m_currentBlock->appendNew<Value>(m_proc, op, origin(), left, right); |
| return { }; |
| } |
| |
| template<> |
| auto B3IRGenerator::addOp<OpType::I64RemU>(ExpressionType left, ExpressionType right, ExpressionType& result) -> PartialResult |
| { |
| const B3::Opcode op = UMod; |
| emitChecksForModOrDiv(op, left, right); |
| result = m_currentBlock->appendNew<Value>(m_proc, op, origin(), left, right); |
| return { }; |
| } |
| |
| template<> |
| auto B3IRGenerator::addOp<OpType::I32Ctz>(ExpressionType arg, ExpressionType& result) -> PartialResult |
| { |
| PatchpointValue* patchpoint = m_currentBlock->appendNew<PatchpointValue>(m_proc, Int32, origin()); |
| patchpoint->append(arg, ValueRep::SomeRegister); |
| patchpoint->setGenerator([=] (CCallHelpers& jit, const StackmapGenerationParams& params) { |
| jit.countTrailingZeros32(params[1].gpr(), params[0].gpr()); |
| }); |
| patchpoint->effects = Effects::none(); |
| result = patchpoint; |
| return { }; |
| } |
| |
| template<> |
| auto B3IRGenerator::addOp<OpType::I64Ctz>(ExpressionType arg, ExpressionType& result) -> PartialResult |
| { |
| PatchpointValue* patchpoint = m_currentBlock->appendNew<PatchpointValue>(m_proc, Int64, origin()); |
| patchpoint->append(arg, ValueRep::SomeRegister); |
| patchpoint->setGenerator([=] (CCallHelpers& jit, const StackmapGenerationParams& params) { |
| jit.countTrailingZeros64(params[1].gpr(), params[0].gpr()); |
| }); |
| patchpoint->effects = Effects::none(); |
| result = patchpoint; |
| return { }; |
| } |
| |
| template<> |
| auto B3IRGenerator::addOp<OpType::I32Popcnt>(ExpressionType arg, ExpressionType& result) -> PartialResult |
| { |
| #if CPU(X86_64) |
| if (MacroAssembler::supportsCountPopulation()) { |
| PatchpointValue* patchpoint = m_currentBlock->appendNew<PatchpointValue>(m_proc, Int32, origin()); |
| patchpoint->append(arg, ValueRep::SomeRegister); |
| patchpoint->setGenerator([=] (CCallHelpers& jit, const StackmapGenerationParams& params) { |
| jit.countPopulation32(params[1].gpr(), params[0].gpr()); |
| }); |
| patchpoint->effects = Effects::none(); |
| result = patchpoint; |
| return { }; |
| } |
| #endif |
| |
| Value* funcAddress = m_currentBlock->appendNew<ConstPtrValue>(m_proc, origin(), tagCFunctionPtr<void*>(&operationPopcount32, B3CCallPtrTag)); |
| result = m_currentBlock->appendNew<CCallValue>(m_proc, Int32, origin(), Effects::none(), funcAddress, arg); |
| return { }; |
| } |
| |
| template<> |
| auto B3IRGenerator::addOp<OpType::I64Popcnt>(ExpressionType arg, ExpressionType& result) -> PartialResult |
| { |
| #if CPU(X86_64) |
| if (MacroAssembler::supportsCountPopulation()) { |
| PatchpointValue* patchpoint = m_currentBlock->appendNew<PatchpointValue>(m_proc, Int64, origin()); |
| patchpoint->append(arg, ValueRep::SomeRegister); |
| patchpoint->setGenerator([=] (CCallHelpers& jit, const StackmapGenerationParams& params) { |
| jit.countPopulation64(params[1].gpr(), params[0].gpr()); |
| }); |
| patchpoint->effects = Effects::none(); |
| result = patchpoint; |
| return { }; |
| } |
| #endif |
| |
| Value* funcAddress = m_currentBlock->appendNew<ConstPtrValue>(m_proc, origin(), tagCFunctionPtr<void*>(operationPopcount64, B3CCallPtrTag)); |
| result = m_currentBlock->appendNew<CCallValue>(m_proc, Int64, origin(), Effects::none(), funcAddress, arg); |
| return { }; |
| } |
| |
| template<> |
| auto B3IRGenerator::addOp<F64ConvertUI64>(ExpressionType arg, ExpressionType& result) -> PartialResult |
| { |
| PatchpointValue* patchpoint = m_currentBlock->appendNew<PatchpointValue>(m_proc, Double, origin()); |
| if (isX86()) |
| patchpoint->numGPScratchRegisters = 1; |
| patchpoint->clobber(RegisterSet::macroScratchRegisters()); |
| patchpoint->append(ConstrainedValue(arg, ValueRep::SomeRegister)); |
| patchpoint->setGenerator([=] (CCallHelpers& jit, const StackmapGenerationParams& params) { |
| AllowMacroScratchRegisterUsage allowScratch(jit); |
| #if CPU(X86_64) |
| jit.convertUInt64ToDouble(params[1].gpr(), params[0].fpr(), params.gpScratch(0)); |
| #else |
| jit.convertUInt64ToDouble(params[1].gpr(), params[0].fpr()); |
| #endif |
| }); |
| patchpoint->effects = Effects::none(); |
| result = patchpoint; |
| return { }; |
| } |
| |
| template<> |
| auto B3IRGenerator::addOp<OpType::F32ConvertUI64>(ExpressionType arg, ExpressionType& result) -> PartialResult |
| { |
| PatchpointValue* patchpoint = m_currentBlock->appendNew<PatchpointValue>(m_proc, Float, origin()); |
| if (isX86()) |
| patchpoint->numGPScratchRegisters = 1; |
| patchpoint->clobber(RegisterSet::macroScratchRegisters()); |
| patchpoint->append(ConstrainedValue(arg, ValueRep::SomeRegister)); |
| patchpoint->setGenerator([=] (CCallHelpers& jit, const StackmapGenerationParams& params) { |
| AllowMacroScratchRegisterUsage allowScratch(jit); |
| #if CPU(X86_64) |
| jit.convertUInt64ToFloat(params[1].gpr(), params[0].fpr(), params.gpScratch(0)); |
| #else |
| jit.convertUInt64ToFloat(params[1].gpr(), params[0].fpr()); |
| #endif |
| }); |
| patchpoint->effects = Effects::none(); |
| result = patchpoint; |
| return { }; |
| } |
| |
| template<> |
| auto B3IRGenerator::addOp<OpType::F64Nearest>(ExpressionType arg, ExpressionType& result) -> PartialResult |
| { |
| PatchpointValue* patchpoint = m_currentBlock->appendNew<PatchpointValue>(m_proc, Double, origin()); |
| patchpoint->append(arg, ValueRep::SomeRegister); |
| patchpoint->setGenerator([=] (CCallHelpers& jit, const StackmapGenerationParams& params) { |
| jit.roundTowardNearestIntDouble(params[1].fpr(), params[0].fpr()); |
| }); |
| patchpoint->effects = Effects::none(); |
| result = patchpoint; |
| return { }; |
| } |
| |
| template<> |
| auto B3IRGenerator::addOp<OpType::F32Nearest>(ExpressionType arg, ExpressionType& result) -> PartialResult |
| { |
| PatchpointValue* patchpoint = m_currentBlock->appendNew<PatchpointValue>(m_proc, Float, origin()); |
| patchpoint->append(arg, ValueRep::SomeRegister); |
| patchpoint->setGenerator([=] (CCallHelpers& jit, const StackmapGenerationParams& params) { |
| jit.roundTowardNearestIntFloat(params[1].fpr(), params[0].fpr()); |
| }); |
| patchpoint->effects = Effects::none(); |
| result = patchpoint; |
| return { }; |
| } |
| |
| template<> |
| auto B3IRGenerator::addOp<OpType::F64Trunc>(ExpressionType arg, ExpressionType& result) -> PartialResult |
| { |
| PatchpointValue* patchpoint = m_currentBlock->appendNew<PatchpointValue>(m_proc, Double, origin()); |
| patchpoint->append(arg, ValueRep::SomeRegister); |
| patchpoint->setGenerator([=] (CCallHelpers& jit, const StackmapGenerationParams& params) { |
| jit.roundTowardZeroDouble(params[1].fpr(), params[0].fpr()); |
| }); |
| patchpoint->effects = Effects::none(); |
| result = patchpoint; |
| return { }; |
| } |
| |
| template<> |
| auto B3IRGenerator::addOp<OpType::F32Trunc>(ExpressionType arg, ExpressionType& result) -> PartialResult |
| { |
| PatchpointValue* patchpoint = m_currentBlock->appendNew<PatchpointValue>(m_proc, Float, origin()); |
| patchpoint->append(arg, ValueRep::SomeRegister); |
| patchpoint->setGenerator([=] (CCallHelpers& jit, const StackmapGenerationParams& params) { |
| jit.roundTowardZeroFloat(params[1].fpr(), params[0].fpr()); |
| }); |
| patchpoint->effects = Effects::none(); |
| result = patchpoint; |
| return { }; |
| } |
| |
| template<> |
| auto B3IRGenerator::addOp<OpType::I32TruncSF64>(ExpressionType arg, ExpressionType& result) -> PartialResult |
| { |
| Value* max = constant(Double, bitwise_cast<uint64_t>(-static_cast<double>(std::numeric_limits<int32_t>::min()))); |
| Value* min = constant(Double, bitwise_cast<uint64_t>(static_cast<double>(std::numeric_limits<int32_t>::min()))); |
| Value* outOfBounds = m_currentBlock->appendNew<Value>(m_proc, BitAnd, origin(), |
| m_currentBlock->appendNew<Value>(m_proc, LessThan, origin(), arg, max), |
| m_currentBlock->appendNew<Value>(m_proc, GreaterEqual, origin(), arg, min)); |
| outOfBounds = m_currentBlock->appendNew<Value>(m_proc, Equal, origin(), outOfBounds, constant(Int32, 0)); |
| CheckValue* trap = m_currentBlock->appendNew<CheckValue>(m_proc, Check, origin(), outOfBounds); |
| trap->setGenerator([=] (CCallHelpers& jit, const StackmapGenerationParams&) { |
| this->emitExceptionCheck(jit, ExceptionType::OutOfBoundsTrunc); |
| }); |
| PatchpointValue* patchpoint = m_currentBlock->appendNew<PatchpointValue>(m_proc, Int32, origin()); |
| patchpoint->append(arg, ValueRep::SomeRegister); |
| patchpoint->setGenerator([=] (CCallHelpers& jit, const StackmapGenerationParams& params) { |
| jit.truncateDoubleToInt32(params[1].fpr(), params[0].gpr()); |
| }); |
| patchpoint->effects = Effects::none(); |
| result = patchpoint; |
| return { }; |
| } |
| |
| template<> |
| auto B3IRGenerator::addOp<OpType::I32TruncSF32>(ExpressionType arg, ExpressionType& result) -> PartialResult |
| { |
| Value* max = constant(Float, bitwise_cast<uint32_t>(-static_cast<float>(std::numeric_limits<int32_t>::min()))); |
| Value* min = constant(Float, bitwise_cast<uint32_t>(static_cast<float>(std::numeric_limits<int32_t>::min()))); |
| Value* outOfBounds = m_currentBlock->appendNew<Value>(m_proc, BitAnd, origin(), |
| m_currentBlock->appendNew<Value>(m_proc, LessThan, origin(), arg, max), |
| m_currentBlock->appendNew<Value>(m_proc, GreaterEqual, origin(), arg, min)); |
| outOfBounds = m_currentBlock->appendNew<Value>(m_proc, Equal, origin(), outOfBounds, constant(Int32, 0)); |
| CheckValue* trap = m_currentBlock->appendNew<CheckValue>(m_proc, Check, origin(), outOfBounds); |
| trap->setGenerator([=] (CCallHelpers& jit, const StackmapGenerationParams&) { |
| this->emitExceptionCheck(jit, ExceptionType::OutOfBoundsTrunc); |
| }); |
| PatchpointValue* patchpoint = m_currentBlock->appendNew<PatchpointValue>(m_proc, Int32, origin()); |
| patchpoint->append(arg, ValueRep::SomeRegister); |
| patchpoint->setGenerator([=] (CCallHelpers& jit, const StackmapGenerationParams& params) { |
| jit.truncateFloatToInt32(params[1].fpr(), params[0].gpr()); |
| }); |
| patchpoint->effects = Effects::none(); |
| result = patchpoint; |
| return { }; |
| } |
| |
| |
| template<> |
| auto B3IRGenerator::addOp<OpType::I32TruncUF64>(ExpressionType arg, ExpressionType& result) -> PartialResult |
| { |
| Value* max = constant(Double, bitwise_cast<uint64_t>(static_cast<double>(std::numeric_limits<int32_t>::min()) * -2.0)); |
| Value* min = constant(Double, bitwise_cast<uint64_t>(-1.0)); |
| Value* outOfBounds = m_currentBlock->appendNew<Value>(m_proc, BitAnd, origin(), |
| m_currentBlock->appendNew<Value>(m_proc, LessThan, origin(), arg, max), |
| m_currentBlock->appendNew<Value>(m_proc, GreaterThan, origin(), arg, min)); |
| outOfBounds = m_currentBlock->appendNew<Value>(m_proc, Equal, origin(), outOfBounds, constant(Int32, 0)); |
| CheckValue* trap = m_currentBlock->appendNew<CheckValue>(m_proc, Check, origin(), outOfBounds); |
| trap->setGenerator([=] (CCallHelpers& jit, const StackmapGenerationParams&) { |
| this->emitExceptionCheck(jit, ExceptionType::OutOfBoundsTrunc); |
| }); |
| PatchpointValue* patchpoint = m_currentBlock->appendNew<PatchpointValue>(m_proc, Int32, origin()); |
| patchpoint->append(arg, ValueRep::SomeRegister); |
| patchpoint->setGenerator([=] (CCallHelpers& jit, const StackmapGenerationParams& params) { |
| jit.truncateDoubleToUint32(params[1].fpr(), params[0].gpr()); |
| }); |
| patchpoint->effects = Effects::none(); |
| result = patchpoint; |
| return { }; |
| } |
| |
| template<> |
| auto B3IRGenerator::addOp<OpType::I32TruncUF32>(ExpressionType arg, ExpressionType& result) -> PartialResult |
| { |
| Value* max = constant(Float, bitwise_cast<uint32_t>(static_cast<float>(std::numeric_limits<int32_t>::min()) * static_cast<float>(-2.0))); |
| Value* min = constant(Float, bitwise_cast<uint32_t>(static_cast<float>(-1.0))); |
| Value* outOfBounds = m_currentBlock->appendNew<Value>(m_proc, BitAnd, origin(), |
| m_currentBlock->appendNew<Value>(m_proc, LessThan, origin(), arg, max), |
| m_currentBlock->appendNew<Value>(m_proc, GreaterThan, origin(), arg, min)); |
| outOfBounds = m_currentBlock->appendNew<Value>(m_proc, Equal, origin(), outOfBounds, constant(Int32, 0)); |
| CheckValue* trap = m_currentBlock->appendNew<CheckValue>(m_proc, Check, origin(), outOfBounds); |
| trap->setGenerator([=] (CCallHelpers& jit, const StackmapGenerationParams&) { |
| this->emitExceptionCheck(jit, ExceptionType::OutOfBoundsTrunc); |
| }); |
| PatchpointValue* patchpoint = m_currentBlock->appendNew<PatchpointValue>(m_proc, Int32, origin()); |
| patchpoint->append(arg, ValueRep::SomeRegister); |
| patchpoint->setGenerator([=] (CCallHelpers& jit, const StackmapGenerationParams& params) { |
| jit.truncateFloatToUint32(params[1].fpr(), params[0].gpr()); |
| }); |
| patchpoint->effects = Effects::none(); |
| result = patchpoint; |
| return { }; |
| } |
| |
| template<> |
| auto B3IRGenerator::addOp<OpType::I64TruncSF64>(ExpressionType arg, ExpressionType& result) -> PartialResult |
| { |
| Value* max = constant(Double, bitwise_cast<uint64_t>(-static_cast<double>(std::numeric_limits<int64_t>::min()))); |
| Value* min = constant(Double, bitwise_cast<uint64_t>(static_cast<double>(std::numeric_limits<int64_t>::min()))); |
| Value* outOfBounds = m_currentBlock->appendNew<Value>(m_proc, BitAnd, origin(), |
| m_currentBlock->appendNew<Value>(m_proc, LessThan, origin(), arg, max), |
| m_currentBlock->appendNew<Value>(m_proc, GreaterEqual, origin(), arg, min)); |
| outOfBounds = m_currentBlock->appendNew<Value>(m_proc, Equal, origin(), outOfBounds, constant(Int32, 0)); |
| CheckValue* trap = m_currentBlock->appendNew<CheckValue>(m_proc, Check, origin(), outOfBounds); |
| trap->setGenerator([=] (CCallHelpers& jit, const StackmapGenerationParams&) { |
| this->emitExceptionCheck(jit, ExceptionType::OutOfBoundsTrunc); |
| }); |
| PatchpointValue* patchpoint = m_currentBlock->appendNew<PatchpointValue>(m_proc, Int64, origin()); |
| patchpoint->append(arg, ValueRep::SomeRegister); |
| patchpoint->setGenerator([=] (CCallHelpers& jit, const StackmapGenerationParams& params) { |
| jit.truncateDoubleToInt64(params[1].fpr(), params[0].gpr()); |
| }); |
| patchpoint->effects = Effects::none(); |
| result = patchpoint; |
| return { }; |
| } |
| |
| template<> |
| auto B3IRGenerator::addOp<OpType::I64TruncUF64>(ExpressionType arg, ExpressionType& result) -> PartialResult |
| { |
| Value* max = constant(Double, bitwise_cast<uint64_t>(static_cast<double>(std::numeric_limits<int64_t>::min()) * -2.0)); |
| Value* min = constant(Double, bitwise_cast<uint64_t>(-1.0)); |
| Value* outOfBounds = m_currentBlock->appendNew<Value>(m_proc, BitAnd, origin(), |
| m_currentBlock->appendNew<Value>(m_proc, LessThan, origin(), arg, max), |
| m_currentBlock->appendNew<Value>(m_proc, GreaterThan, origin(), arg, min)); |
| outOfBounds = m_currentBlock->appendNew<Value>(m_proc, Equal, origin(), outOfBounds, constant(Int32, 0)); |
| CheckValue* trap = m_currentBlock->appendNew<CheckValue>(m_proc, Check, origin(), outOfBounds); |
| trap->setGenerator([=] (CCallHelpers& jit, const StackmapGenerationParams&) { |
| this->emitExceptionCheck(jit, ExceptionType::OutOfBoundsTrunc); |
| }); |
| |
| Value* signBitConstant; |
| if (isX86()) { |
| // Since x86 doesn't have an instruction to convert floating points to unsigned integers, we at least try to do the smart thing if |
| // the numbers are would be positive anyway as a signed integer. Since we cannot materialize constants into fprs we have b3 do it |
| // so we can pool them if needed. |
| signBitConstant = constant(Double, bitwise_cast<uint64_t>(static_cast<double>(std::numeric_limits<uint64_t>::max() - std::numeric_limits<int64_t>::max()))); |
| } |
| PatchpointValue* patchpoint = m_currentBlock->appendNew<PatchpointValue>(m_proc, Int64, origin()); |
| patchpoint->append(arg, ValueRep::SomeRegister); |
| if (isX86()) { |
| patchpoint->append(signBitConstant, ValueRep::SomeRegister); |
| patchpoint->numFPScratchRegisters = 1; |
| } |
| patchpoint->clobber(RegisterSet::macroScratchRegisters()); |
| patchpoint->setGenerator([=] (CCallHelpers& jit, const StackmapGenerationParams& params) { |
| AllowMacroScratchRegisterUsage allowScratch(jit); |
| FPRReg scratch = InvalidFPRReg; |
| FPRReg constant = InvalidFPRReg; |
| if (isX86()) { |
| scratch = params.fpScratch(0); |
| constant = params[2].fpr(); |
| } |
| jit.truncateDoubleToUint64(params[1].fpr(), params[0].gpr(), scratch, constant); |
| }); |
| patchpoint->effects = Effects::none(); |
| result = patchpoint; |
| return { }; |
| } |
| |
| template<> |
| auto B3IRGenerator::addOp<OpType::I64TruncSF32>(ExpressionType arg, ExpressionType& result) -> PartialResult |
| { |
| Value* max = constant(Float, bitwise_cast<uint32_t>(-static_cast<float>(std::numeric_limits<int64_t>::min()))); |
| Value* min = constant(Float, bitwise_cast<uint32_t>(static_cast<float>(std::numeric_limits<int64_t>::min()))); |
| Value* outOfBounds = m_currentBlock->appendNew<Value>(m_proc, BitAnd, origin(), |
| m_currentBlock->appendNew<Value>(m_proc, LessThan, origin(), arg, max), |
| m_currentBlock->appendNew<Value>(m_proc, GreaterEqual, origin(), arg, min)); |
| outOfBounds = m_currentBlock->appendNew<Value>(m_proc, Equal, origin(), outOfBounds, constant(Int32, 0)); |
| CheckValue* trap = m_currentBlock->appendNew<CheckValue>(m_proc, Check, origin(), outOfBounds); |
| trap->setGenerator([=] (CCallHelpers& jit, const StackmapGenerationParams&) { |
| this->emitExceptionCheck(jit, ExceptionType::OutOfBoundsTrunc); |
| }); |
| PatchpointValue* patchpoint = m_currentBlock->appendNew<PatchpointValue>(m_proc, Int64, origin()); |
| patchpoint->append(arg, ValueRep::SomeRegister); |
| patchpoint->setGenerator([=] (CCallHelpers& jit, const StackmapGenerationParams& params) { |
| jit.truncateFloatToInt64(params[1].fpr(), params[0].gpr()); |
| }); |
| patchpoint->effects = Effects::none(); |
| result = patchpoint; |
| return { }; |
| } |
| |
| template<> |
| auto B3IRGenerator::addOp<OpType::I64TruncUF32>(ExpressionType arg, ExpressionType& result) -> PartialResult |
| { |
| Value* max = constant(Float, bitwise_cast<uint32_t>(static_cast<float>(std::numeric_limits<int64_t>::min()) * static_cast<float>(-2.0))); |
| Value* min = constant(Float, bitwise_cast<uint32_t>(static_cast<float>(-1.0))); |
| Value* outOfBounds = m_currentBlock->appendNew<Value>(m_proc, BitAnd, origin(), |
| m_currentBlock->appendNew<Value>(m_proc, LessThan, origin(), arg, max), |
| m_currentBlock->appendNew<Value>(m_proc, GreaterThan, origin(), arg, min)); |
| outOfBounds = m_currentBlock->appendNew<Value>(m_proc, Equal, origin(), outOfBounds, constant(Int32, 0)); |
| CheckValue* trap = m_currentBlock->appendNew<CheckValue>(m_proc, Check, origin(), outOfBounds); |
| trap->setGenerator([=] (CCallHelpers& jit, const StackmapGenerationParams&) { |
| this->emitExceptionCheck(jit, ExceptionType::OutOfBoundsTrunc); |
| }); |
| |
| Value* signBitConstant; |
| if (isX86()) { |
| // Since x86 doesn't have an instruction to convert floating points to unsigned integers, we at least try to do the smart thing if |
| // the numbers would be positive anyway as a signed integer. Since we cannot materialize constants into fprs we have b3 do it |
| // so we can pool them if needed. |
| signBitConstant = constant(Float, bitwise_cast<uint32_t>(static_cast<float>(std::numeric_limits<uint64_t>::max() - std::numeric_limits<int64_t>::max()))); |
| } |
| PatchpointValue* patchpoint = m_currentBlock->appendNew<PatchpointValue>(m_proc, Int64, origin()); |
| patchpoint->append(arg, ValueRep::SomeRegister); |
| if (isX86()) { |
| patchpoint->append(signBitConstant, ValueRep::SomeRegister); |
| patchpoint->numFPScratchRegisters = 1; |
| } |
| patchpoint->clobber(RegisterSet::macroScratchRegisters()); |
| patchpoint->setGenerator([=] (CCallHelpers& jit, const StackmapGenerationParams& params) { |
| AllowMacroScratchRegisterUsage allowScratch(jit); |
| FPRReg scratch = InvalidFPRReg; |
| FPRReg constant = InvalidFPRReg; |
| if (isX86()) { |
| scratch = params.fpScratch(0); |
| constant = params[2].fpr(); |
| } |
| jit.truncateFloatToUint64(params[1].fpr(), params[0].gpr(), scratch, constant); |
| }); |
| patchpoint->effects = Effects::none(); |
| result = patchpoint; |
| return { }; |
| } |
| |
| } } // namespace JSC::Wasm |
| |
| #include "WasmB3IRGeneratorInlines.h" |
| |
| #endif // ENABLE(WEBASSEMBLY) |