// Copyright 2015 the V8 project authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#ifndef V8_COMPILER_WASM_COMPILER_H_
#define V8_COMPILER_WASM_COMPILER_H_
#include <memory>
// Clients of this interface shouldn't depend on lots of compiler internals.
// Do not include anything from src/compiler here!
#include "src/runtime/runtime.h"
#include "src/wasm/function-body-decoder.h"
#include "src/wasm/function-compiler.h"
#include "src/wasm/wasm-module.h"
#include "src/wasm/wasm-opcodes.h"
#include "src/wasm/wasm-result.h"
#include "src/zone/zone.h"
namespace v8 {
namespace internal {
struct AssemblerOptions;
namespace compiler {
// Forward declarations for some compiler data structures.
class CallDescriptor;
class Graph;
class MachineGraph;
class Node;
class NodeOriginTable;
class Operator;
class SourcePositionTable;
class WasmDecorator;
enum class TrapId : uint32_t;
} // namespace compiler
namespace wasm {
struct DecodeStruct;
// Expose {Node} and {Graph} opaquely as {wasm::TFNode} and {wasm::TFGraph}.
typedef compiler::Node TFNode;
typedef compiler::MachineGraph TFGraph;
class WasmCode;
struct WasmFeatures;
} // namespace wasm
namespace compiler {
class TurbofanWasmCompilationUnit {
public:
explicit TurbofanWasmCompilationUnit(wasm::WasmCompilationUnit* wasm_unit);
~TurbofanWasmCompilationUnit();
SourcePositionTable* BuildGraphForWasmFunction(wasm::WasmFeatures* detected,
double* decode_ms,
MachineGraph* mcgraph,
NodeOriginTable* node_origins);
void ExecuteCompilation(wasm::WasmFeatures* detected);
wasm::WasmCode* FinishCompilation(wasm::ErrorThrower*);
private:
wasm::WasmCompilationUnit* const wasm_unit_;
bool ok_ = true;
wasm::WasmCode* wasm_code_ = nullptr;
wasm::Result<wasm::DecodeStruct*> graph_construction_result_;
DISALLOW_COPY_AND_ASSIGN(TurbofanWasmCompilationUnit);
};
// Wraps a JS function, producing a code object that can be called from wasm.
MaybeHandle<Code> CompileWasmToJSWrapper(Isolate*, Handle<JSReceiver> target,
wasm::FunctionSig*, uint32_t index,
wasm::ModuleOrigin,
wasm::UseTrapHandler);
// Creates a code object calling a wasm function with the given signature,
// callable from JS.
// TODO(clemensh): Remove the {UseTrapHandler} parameter to make js-to-wasm
// wrappers sharable across instances.
V8_EXPORT_PRIVATE MaybeHandle<Code> CompileJSToWasmWrapper(
Isolate*, const wasm::NativeModule*, wasm::FunctionSig*, bool is_import,
wasm::UseTrapHandler);
// Compiles a stub that redirects a call to a wasm function to the wasm
// interpreter. It's ABI compatible with the compiled wasm function.
MaybeHandle<Code> CompileWasmInterpreterEntry(Isolate*, uint32_t func_index,
wasm::FunctionSig*);
// Helper function to get the offset into a fixed array for a given {index}.
// TODO(titzer): access-builder.h is not accessible outside compiler. Move?
int FixedArrayOffsetMinusTag(uint32_t index);
enum CWasmEntryParameters {
kCodeObject,
kWasmInstance,
kArgumentsBuffer,
// marker:
kNumParameters
};
// Compiles a stub with JS linkage, taking parameters as described by
// {CWasmEntryParameters}. It loads the wasm parameters from the argument
// buffer and calls the wasm function given as first parameter.
MaybeHandle<Code> CompileCWasmEntry(Isolate* isolate, wasm::FunctionSig* sig);
// Values from the instance object are cached between WASM-level function calls.
// This struct allows the SSA environment handling this cache to be defined
// and manipulated in wasm-compiler.{h,cc} instead of inside the WASM decoder.
// (Note that currently, the globals base is immutable, so not cached here.)
struct WasmInstanceCacheNodes {
Node* mem_start;
Node* mem_size;
Node* mem_mask;
};
// Abstracts details of building TurboFan graph nodes for wasm to separate
// the wasm decoder from the internal details of TurboFan.
class WasmGraphBuilder {
public:
enum EnforceBoundsCheck : bool {
kNeedsBoundsCheck = true,
kCanOmitBoundsCheck = false
};
enum UseRetpoline : bool { kRetpoline = true, kNoRetpoline = false };
WasmGraphBuilder(wasm::ModuleEnv* env, Zone* zone, MachineGraph* mcgraph,
wasm::FunctionSig* sig,
compiler::SourcePositionTable* spt = nullptr);
Node** Buffer(size_t count) {
if (count > cur_bufsize_) {
size_t new_size = count + cur_bufsize_ + 5;
cur_buffer_ =
reinterpret_cast<Node**>(zone_->New(new_size * sizeof(Node*)));
cur_bufsize_ = new_size;
}
return cur_buffer_;
}
//-----------------------------------------------------------------------
// Operations independent of {control} or {effect}.
//-----------------------------------------------------------------------
Node* Error();
Node* Start(unsigned params);
Node* Param(unsigned index);
Node* Loop(Node* entry);
Node* Terminate(Node* effect, Node* control);
Node* Merge(unsigned count, Node** controls);
Node* Phi(wasm::ValueType type, unsigned count, Node** vals, Node* control);
Node* CreateOrMergeIntoPhi(MachineRepresentation rep, Node* merge,
Node* tnode, Node* fnode);
Node* CreateOrMergeIntoEffectPhi(Node* merge, Node* tnode, Node* fnode);
Node* EffectPhi(unsigned count, Node** effects, Node* control);
Node* RefNull();
Node* Uint32Constant(uint32_t value);
Node* Int32Constant(int32_t value);
Node* Int64Constant(int64_t value);
Node* IntPtrConstant(intptr_t value);
Node* Float32Constant(float value);
Node* Float64Constant(double value);
Node* Binop(wasm::WasmOpcode opcode, Node* left, Node* right,
wasm::WasmCodePosition position = wasm::kNoCodePosition);
Node* Unop(wasm::WasmOpcode opcode, Node* input,
wasm::WasmCodePosition position = wasm::kNoCodePosition);
Node* GrowMemory(Node* input);
Node* Throw(uint32_t tag, const wasm::WasmException* exception,
const Vector<Node*> values);
Node* Rethrow();
Node* ConvertExceptionTagToRuntimeId(uint32_t tag);
Node* GetExceptionRuntimeId();
Node** GetExceptionValues(const wasm::WasmException* except_decl);
bool IsPhiWithMerge(Node* phi, Node* merge);
bool ThrowsException(Node* node, Node** if_success, Node** if_exception);
void AppendToMerge(Node* merge, Node* from);
void AppendToPhi(Node* phi, Node* from);
void StackCheck(wasm::WasmCodePosition position, Node** effect = nullptr,
Node** control = nullptr);
void PatchInStackCheckIfNeeded();
//-----------------------------------------------------------------------
// Operations that read and/or write {control} and {effect}.
//-----------------------------------------------------------------------
Node* BranchNoHint(Node* cond, Node** true_node, Node** false_node);
Node* BranchExpectTrue(Node* cond, Node** true_node, Node** false_node);
Node* BranchExpectFalse(Node* cond, Node** true_node, Node** false_node);
Node* TrapIfTrue(wasm::TrapReason reason, Node* cond,
wasm::WasmCodePosition position);
Node* TrapIfFalse(wasm::TrapReason reason, Node* cond,
wasm::WasmCodePosition position);
Node* TrapIfEq32(wasm::TrapReason reason, Node* node, int32_t val,
wasm::WasmCodePosition position);
Node* ZeroCheck32(wasm::TrapReason reason, Node* node,
wasm::WasmCodePosition position);
Node* TrapIfEq64(wasm::TrapReason reason, Node* node, int64_t val,
wasm::WasmCodePosition position);
Node* ZeroCheck64(wasm::TrapReason reason, Node* node,
wasm::WasmCodePosition position);
Node* Switch(unsigned count, Node* key);
Node* IfValue(int32_t value, Node* sw);
Node* IfDefault(Node* sw);
Node* Return(unsigned count, Node** nodes);
template <typename... Nodes>
Node* Return(Node* fst, Nodes*... more) {
Node* arr[] = {fst, more...};
return Return(arraysize(arr), arr);
}
Node* ReturnVoid();
Node* Unreachable(wasm::WasmCodePosition position);
Node* CallDirect(uint32_t index, Node** args, Node*** rets,
wasm::WasmCodePosition position);
Node* CallIndirect(uint32_t index, Node** args, Node*** rets,
wasm::WasmCodePosition position);
Node* Invert(Node* node);
//-----------------------------------------------------------------------
// Operations that concern the linear memory.
//-----------------------------------------------------------------------
Node* CurrentMemoryPages();
Node* GetGlobal(uint32_t index);
Node* SetGlobal(uint32_t index, Node* val);
Node* TraceMemoryOperation(bool is_store, MachineRepresentation, Node* index,
uint32_t offset, wasm::WasmCodePosition);
Node* LoadMem(wasm::ValueType type, MachineType memtype, Node* index,
uint32_t offset, uint32_t alignment,
wasm::WasmCodePosition position);
Node* StoreMem(MachineRepresentation mem_rep, Node* index, uint32_t offset,
uint32_t alignment, Node* val, wasm::WasmCodePosition position,
wasm::ValueType type);
static void PrintDebugName(Node* node);
void set_instance_node(Node* instance_node) {
this->instance_node_ = instance_node;
}
Node* Control() {
DCHECK_NOT_NULL(*control_);
return *control_;
}
Node* Effect() {
DCHECK_NOT_NULL(*effect_);
return *effect_;
}
Node* SetControl(Node* node) {
*control_ = node;
return node;
}
Node* SetEffect(Node* node) {
*effect_ = node;
return node;
}
void set_control_ptr(Node** control) { this->control_ = control; }
void set_effect_ptr(Node** effect) { this->effect_ = effect; }
void GetGlobalBaseAndOffset(MachineType mem_type, const wasm::WasmGlobal&,
Node** base_node, Node** offset_node);
// Utilities to manipulate sets of instance cache nodes.
void InitInstanceCache(WasmInstanceCacheNodes* instance_cache);
void PrepareInstanceCacheForLoop(WasmInstanceCacheNodes* instance_cache,
Node* control);
void NewInstanceCacheMerge(WasmInstanceCacheNodes* to,
WasmInstanceCacheNodes* from, Node* merge);
void MergeInstanceCacheInto(WasmInstanceCacheNodes* to,
WasmInstanceCacheNodes* from, Node* merge);
void set_instance_cache(WasmInstanceCacheNodes* instance_cache) {
this->instance_cache_ = instance_cache;
}
wasm::FunctionSig* GetFunctionSignature() { return sig_; }
void LowerInt64();
void SimdScalarLoweringForTesting();
void SetSourcePosition(Node* node, wasm::WasmCodePosition position);
Node* S128Zero();
Node* S1x4Zero();
Node* S1x8Zero();
Node* S1x16Zero();
Node* SimdOp(wasm::WasmOpcode opcode, Node* const* inputs);
Node* SimdLaneOp(wasm::WasmOpcode opcode, uint8_t lane, Node* const* inputs);
Node* SimdShiftOp(wasm::WasmOpcode opcode, uint8_t shift,
Node* const* inputs);
Node* Simd8x16ShuffleOp(const uint8_t shuffle[16], Node* const* inputs);
Node* AtomicOp(wasm::WasmOpcode opcode, Node* const* inputs,
uint32_t alignment, uint32_t offset,
wasm::WasmCodePosition position);
bool has_simd() const { return has_simd_; }
const wasm::WasmModule* module() { return env_ ? env_->module : nullptr; }
bool use_trap_handler() const { return env_ && env_->use_trap_handler; }
MachineGraph* mcgraph() { return mcgraph_; }
Graph* graph();
void AddBytecodePositionDecorator(NodeOriginTable* node_origins,
wasm::Decoder* decoder);
void RemoveBytecodePositionDecorator();
protected:
static const int kDefaultBufferSize = 16;
Zone* const zone_;
MachineGraph* const mcgraph_;
wasm::ModuleEnv* const env_;
Node** control_ = nullptr;
Node** effect_ = nullptr;
WasmInstanceCacheNodes* instance_cache_ = nullptr;
SetOncePointer<Node> instance_node_;
SetOncePointer<Node> globals_start_;
SetOncePointer<Node> imported_mutable_globals_;
SetOncePointer<Node> stack_check_code_node_;
SetOncePointer<const Operator> stack_check_call_operator_;
Node** cur_buffer_;
size_t cur_bufsize_;
Node* def_buffer_[kDefaultBufferSize];
bool has_simd_ = false;
bool needs_stack_check_ = false;
const bool untrusted_code_mitigations_ = true;
wasm::FunctionSig* const sig_;
compiler::WasmDecorator* decorator_ = nullptr;
compiler::SourcePositionTable* const source_position_table_ = nullptr;
Node* NoContextConstant();
Node* MemBuffer(uint32_t offset);
// BoundsCheckMem receives a uint32 {index} node and returns a ptrsize index.
Node* BoundsCheckMem(uint8_t access_size, Node* index, uint32_t offset,
wasm::WasmCodePosition, EnforceBoundsCheck);
Node* CheckBoundsAndAlignment(uint8_t access_size, Node* index,
uint32_t offset, wasm::WasmCodePosition);
Node* Uint32ToUintptr(Node*);
const Operator* GetSafeLoadOperator(int offset, wasm::ValueType type);
const Operator* GetSafeStoreOperator(int offset, wasm::ValueType type);
Node* BuildChangeEndiannessStore(Node* node, MachineRepresentation rep,
wasm::ValueType wasmtype = wasm::kWasmStmt);
Node* BuildChangeEndiannessLoad(Node* node, MachineType type,
wasm::ValueType wasmtype = wasm::kWasmStmt);
Node* MaskShiftCount32(Node* node);
Node* MaskShiftCount64(Node* node);
template <typename... Args>
Node* BuildCCall(MachineSignature* sig, Node* function, Args... args);
Node* BuildWasmCall(wasm::FunctionSig* sig, Node** args, Node*** rets,
wasm::WasmCodePosition position, Node* instance_node,
UseRetpoline use_retpoline);
Node* BuildImportWasmCall(wasm::FunctionSig* sig, Node** args, Node*** rets,
wasm::WasmCodePosition position, int func_index);
Node* BuildImportWasmCall(wasm::FunctionSig* sig, Node** args, Node*** rets,
wasm::WasmCodePosition position, Node* func_index);
Node* BuildF32CopySign(Node* left, Node* right);
Node* BuildF64CopySign(Node* left, Node* right);
Node* BuildIntConvertFloat(Node* input, wasm::WasmCodePosition position,
wasm::WasmOpcode);
Node* BuildI32Ctz(Node* input);
Node* BuildI32Popcnt(Node* input);
Node* BuildI64Ctz(Node* input);
Node* BuildI64Popcnt(Node* input);
Node* BuildBitCountingCall(Node* input, ExternalReference ref,
MachineRepresentation input_type);
Node* BuildCFuncInstruction(ExternalReference ref, MachineType type,
Node* input0, Node* input1 = nullptr);
Node* BuildF32Trunc(Node* input);
Node* BuildF32Floor(Node* input);
Node* BuildF32Ceil(Node* input);
Node* BuildF32NearestInt(Node* input);
Node* BuildF64Trunc(Node* input);
Node* BuildF64Floor(Node* input);
Node* BuildF64Ceil(Node* input);
Node* BuildF64NearestInt(Node* input);
Node* BuildI32Rol(Node* left, Node* right);
Node* BuildI64Rol(Node* left, Node* right);
Node* BuildF64Acos(Node* input);
Node* BuildF64Asin(Node* input);
Node* BuildF64Pow(Node* left, Node* right);
Node* BuildF64Mod(Node* left, Node* right);
Node* BuildIntToFloatConversionInstruction(
Node* input, ExternalReference ref,
MachineRepresentation parameter_representation,
const MachineType result_type);
Node* BuildF32SConvertI64(Node* input);
Node* BuildF32UConvertI64(Node* input);
Node* BuildF64SConvertI64(Node* input);
Node* BuildF64UConvertI64(Node* input);
Node* BuildCcallConvertFloat(Node* input, wasm::WasmCodePosition position,
wasm::WasmOpcode opcode);
Node* BuildI32DivS(Node* left, Node* right, wasm::WasmCodePosition position);
Node* BuildI32RemS(Node* left, Node* right, wasm::WasmCodePosition position);
Node* BuildI32DivU(Node* left, Node* right, wasm::WasmCodePosition position);
Node* BuildI32RemU(Node* left, Node* right, wasm::WasmCodePosition position);
Node* BuildI64DivS(Node* left, Node* right, wasm::WasmCodePosition position);
Node* BuildI64RemS(Node* left, Node* right, wasm::WasmCodePosition position);
Node* BuildI64DivU(Node* left, Node* right, wasm::WasmCodePosition position);
Node* BuildI64RemU(Node* left, Node* right, wasm::WasmCodePosition position);
Node* BuildDiv64Call(Node* left, Node* right, ExternalReference ref,
MachineType result_type, wasm::TrapReason trap_zero,
wasm::WasmCodePosition position);
Node* BuildChangeInt32ToIntPtr(Node* value);
Node* BuildChangeInt32ToSmi(Node* value);
Node* BuildChangeUint31ToSmi(Node* value);
Node* BuildSmiShiftBitsConstant();
Node* BuildChangeSmiToInt32(Node* value);
Node* BuildLoadInstanceFromExportedFunction(Node* closure);
// Asm.js specific functionality.
Node* BuildI32AsmjsSConvertF32(Node* input);
Node* BuildI32AsmjsSConvertF64(Node* input);
Node* BuildI32AsmjsUConvertF32(Node* input);
Node* BuildI32AsmjsUConvertF64(Node* input);
Node* BuildI32AsmjsDivS(Node* left, Node* right);
Node* BuildI32AsmjsRemS(Node* left, Node* right);
Node* BuildI32AsmjsDivU(Node* left, Node* right);
Node* BuildI32AsmjsRemU(Node* left, Node* right);
Node* BuildAsmjsLoadMem(MachineType type, Node* index);
Node* BuildAsmjsStoreMem(MachineType type, Node* index, Node* val);
uint32_t GetExceptionEncodedSize(const wasm::WasmException* exception) const;
void BuildEncodeException32BitValue(uint32_t* index, Node* value);
Node* BuildDecodeException32BitValue(Node* const* values, uint32_t* index);
Node** Realloc(Node* const* buffer, size_t old_count, size_t new_count) {
Node** buf = Buffer(new_count);
if (buf != buffer) memcpy(buf, buffer, old_count * sizeof(Node*));
return buf;
}
void SetNeedsStackCheck() { needs_stack_check_ = true; }
//-----------------------------------------------------------------------
// Operations involving the CEntry, a dependency we want to remove
// to get off the GC heap.
//-----------------------------------------------------------------------
Node* BuildCallToRuntime(Runtime::FunctionId f, Node** parameters,
int parameter_count);
Node* BuildCallToRuntimeWithContext(Runtime::FunctionId f, Node* js_context,
Node** parameters, int parameter_count);
Node* BuildCallToRuntimeWithContextFromJS(Runtime::FunctionId f,
Node* js_context,
Node* const* parameters,
int parameter_count);
TrapId GetTrapIdForTrap(wasm::TrapReason reason);
};
V8_EXPORT_PRIVATE CallDescriptor* GetWasmCallDescriptor(
Zone* zone, wasm::FunctionSig* signature,
WasmGraphBuilder::UseRetpoline use_retpoline =
WasmGraphBuilder::kNoRetpoline);
V8_EXPORT_PRIVATE CallDescriptor* GetI32WasmCallDescriptor(
Zone* zone, CallDescriptor* call_descriptor);
V8_EXPORT_PRIVATE CallDescriptor* GetI32WasmCallDescriptorForSimd(
Zone* zone, CallDescriptor* call_descriptor);
AssemblerOptions WasmAssemblerOptions();
} // namespace compiler
} // namespace internal
} // namespace v8
#endif // V8_COMPILER_WASM_COMPILER_H_