src/v8/src/wasm/wasm-module-builder.h - cobalt - Git at Google

 // 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_WASM_WASM_MODULE_BUILDER_H_
 #define V8_WASM_WASM_MODULE_BUILDER_H_

 #include "src/signature.h"
 #include "src/zone/zone-containers.h"

 #include "src/wasm/leb-helper.h"
 #include "src/wasm/local-decl-encoder.h"
 #include "src/wasm/wasm-opcodes.h"
 #include "src/wasm/wasm-result.h"

 namespace v8 {
 namespace internal {
 namespace wasm {

 class ZoneBuffer : public ZoneObject {
  public:
   static constexpr size_t kInitialSize = 1024;
   explicit ZoneBuffer(Zone* zone, size_t initial = kInitialSize)
       : zone_(zone), buffer_(reinterpret_cast<byte*>(zone->New(initial))) {
     pos_ = buffer_;
     end_ = buffer_ + initial;
   }

   void write_u8(uint8_t x) {
     EnsureSpace(1);
     *(pos_++) = x;
   }

   void write_u16(uint16_t x) {
     EnsureSpace(2);
     WriteLittleEndianValue<uint16_t>(pos_, x);
     pos_ += 2;
   }

   void write_u32(uint32_t x) {
     EnsureSpace(4);
     WriteLittleEndianValue<uint32_t>(pos_, x);
     pos_ += 4;
   }

   void write_u64(uint64_t x) {
     EnsureSpace(8);
     WriteLittleEndianValue<uint64_t>(pos_, x);
     pos_ += 8;
   }

   void write_u32v(uint32_t val) {
     EnsureSpace(kMaxVarInt32Size);
     LEBHelper::write_u32v(&pos_, val);
   }

   void write_i32v(int32_t val) {
     EnsureSpace(kMaxVarInt32Size);
     LEBHelper::write_i32v(&pos_, val);
   }

   void write_u64v(uint64_t val) {
     EnsureSpace(kMaxVarInt64Size);
     LEBHelper::write_u64v(&pos_, val);
   }

   void write_i64v(int64_t val) {
     EnsureSpace(kMaxVarInt64Size);
     LEBHelper::write_i64v(&pos_, val);
   }

   void write_size(size_t val) {
     EnsureSpace(kMaxVarInt32Size);
     DCHECK_EQ(val, static_cast<uint32_t>(val));
     LEBHelper::write_u32v(&pos_, static_cast<uint32_t>(val));
   }

   void write_f32(float val) { write_u32(bit_cast<uint32_t>(val)); }

   void write_f64(double val) { write_u64(bit_cast<uint64_t>(val)); }

   void write(const byte* data, size_t size) {
     EnsureSpace(size);
     memcpy(pos_, data, size);
     pos_ += size;
   }

   void write_string(Vector<const char> name) {
     write_size(name.length());
     write(reinterpret_cast<const byte*>(name.start()), name.length());
   }

   size_t reserve_u32v() {
     size_t off = offset();
     EnsureSpace(kMaxVarInt32Size);
     pos_ += kMaxVarInt32Size;
     return off;
   }

   // Patch a (padded) u32v at the given offset to be the given value.
   void patch_u32v(size_t offset, uint32_t val) {
     byte* ptr = buffer_ + offset;
     for (size_t pos = 0; pos != kPaddedVarInt32Size; ++pos) {
       uint32_t next = val >> 7;
       byte out = static_cast<byte>(val & 0x7f);
       if (pos != kPaddedVarInt32Size - 1) {
         *(ptr++) = 0x80 | out;
         val = next;
       } else {
         *(ptr++) = out;
       }
     }
   }

   void patch_u8(size_t offset, byte val) {
     DCHECK_GE(size(), offset);
     buffer_[offset] = val;
   }

   size_t offset() const { return static_cast<size_t>(pos_ - buffer_); }
   size_t size() const { return static_cast<size_t>(pos_ - buffer_); }
   const byte* begin() const { return buffer_; }
   const byte* end() const { return pos_; }

   void EnsureSpace(size_t size) {
     if ((pos_ + size) > end_) {
       size_t new_size = size + (end_ - buffer_) * 2;
       byte* new_buffer = reinterpret_cast<byte*>(zone_->New(new_size));
       memcpy(new_buffer, buffer_, (pos_ - buffer_));
       pos_ = new_buffer + (pos_ - buffer_);
       buffer_ = new_buffer;
       end_ = new_buffer + new_size;
     }
     DCHECK(pos_ + size <= end_);
   }

   void Truncate(size_t size) {
     DCHECK_GE(offset(), size);
     pos_ = buffer_ + size;
   }

   byte** pos_ptr() { return &pos_; }

  private:
   Zone* zone_;
   byte* buffer_;
   byte* pos_;
   byte* end_;
 };

 class WasmModuleBuilder;

 class V8_EXPORT_PRIVATE WasmFunctionBuilder : public ZoneObject {
  public:
   // Building methods.
   void SetSignature(FunctionSig* sig);
   uint32_t AddLocal(ValueType type);
   void EmitI32V(int32_t val);
   void EmitU32V(uint32_t val);
   void EmitCode(const byte* code, uint32_t code_size);
   void Emit(WasmOpcode opcode);
   void EmitGetLocal(uint32_t index);
   void EmitSetLocal(uint32_t index);
   void EmitTeeLocal(uint32_t index);
   void EmitI32Const(int32_t val);
   void EmitI64Const(int64_t val);
   void EmitF32Const(float val);
   void EmitF64Const(double val);
   void EmitWithU8(WasmOpcode opcode, const byte immediate);
   void EmitWithU8U8(WasmOpcode opcode, const byte imm1, const byte imm2);
   void EmitWithI32V(WasmOpcode opcode, int32_t immediate);
   void EmitWithU32V(WasmOpcode opcode, uint32_t immediate);
   void EmitDirectCallIndex(uint32_t index);
   void SetName(Vector<const char> name);
   void AddAsmWasmOffset(int call_position, int to_number_position);
   void SetAsmFunctionStartPosition(int position);

   size_t GetPosition() const { return body_.size(); }
   void FixupByte(size_t position, byte value) {
     body_.patch_u8(position, value);
   }
   void DeleteCodeAfter(size_t position);

   void WriteSignature(ZoneBuffer& buffer) const;
   void WriteBody(ZoneBuffer& buffer) const;
   void WriteAsmWasmOffsetTable(ZoneBuffer& buffer) const;

   WasmModuleBuilder* builder() const { return builder_; }
   uint32_t func_index() { return func_index_; }
   FunctionSig* signature();

  private:
   explicit WasmFunctionBuilder(WasmModuleBuilder* builder);
   friend class WasmModuleBuilder;

   struct DirectCallIndex {
     size_t offset;
     uint32_t direct_index;
   };

   WasmModuleBuilder* builder_;
   LocalDeclEncoder locals_;
   uint32_t signature_index_;
   uint32_t func_index_;
   ZoneBuffer body_;
   Vector<const char> name_;
   ZoneVector<uint32_t> i32_temps_;
   ZoneVector<uint32_t> i64_temps_;
   ZoneVector<uint32_t> f32_temps_;
   ZoneVector<uint32_t> f64_temps_;
   ZoneVector<DirectCallIndex> direct_calls_;

   // Delta-encoded mapping from wasm bytes to asm.js source positions.
   ZoneBuffer asm_offsets_;
   uint32_t last_asm_byte_offset_ = 0;
   uint32_t last_asm_source_position_ = 0;
   uint32_t asm_func_start_source_position_ = 0;
 };

 class V8_EXPORT_PRIVATE WasmModuleBuilder : public ZoneObject {
  public:
   explicit WasmModuleBuilder(Zone* zone);

   // Building methods.
   uint32_t AddImport(Vector<const char> name, FunctionSig* sig);
   WasmFunctionBuilder* AddFunction(FunctionSig* sig = nullptr);
   uint32_t AddGlobal(ValueType type, bool exported, bool mutability = true,
                      const WasmInitExpr& init = WasmInitExpr());
   uint32_t AddGlobalImport(Vector<const char> name, ValueType type);
   void AddDataSegment(const byte* data, uint32_t size, uint32_t dest);
   uint32_t AddSignature(FunctionSig* sig);
   uint32_t AllocateIndirectFunctions(uint32_t count);
   void SetIndirectFunction(uint32_t indirect, uint32_t direct);
   void MarkStartFunction(WasmFunctionBuilder* builder);
   void AddExport(Vector<const char> name, WasmFunctionBuilder* builder);
   void SetMinMemorySize(uint32_t value);
   void SetMaxMemorySize(uint32_t value);
   void SetHasSharedMemory();

   // Writing methods.
   void WriteTo(ZoneBuffer& buffer) const;
   void WriteAsmJsOffsetTable(ZoneBuffer& buffer) const;

   // TODO(titzer): use SignatureMap from signature-map.h here.
   // This signature map is zone-allocated, but the other is heap allocated.
   struct CompareFunctionSigs {
     bool operator()(FunctionSig* a, FunctionSig* b) const;
   };
   typedef ZoneMap<FunctionSig*, uint32_t, CompareFunctionSigs> SignatureMap;

   Zone* zone() { return zone_; }

   FunctionSig* GetSignature(uint32_t index) { return signatures_[index]; }

  private:
   struct WasmFunctionImport {
     Vector<const char> name;
     uint32_t sig_index;
   };

   struct WasmFunctionExport {
     Vector<const char> name;
     uint32_t function_index;
   };

   struct WasmGlobalImport {
     Vector<const char> name;
     ValueTypeCode type_code;
   };

   struct WasmGlobal {
     ValueType type;
     bool exported;
     bool mutability;
     WasmInitExpr init;
   };

   struct WasmDataSegment {
     ZoneVector<byte> data;
     uint32_t dest;
   };

   friend class WasmFunctionBuilder;
   Zone* zone_;
   ZoneVector<FunctionSig*> signatures_;
   ZoneVector<WasmFunctionImport> function_imports_;
   ZoneVector<WasmFunctionExport> function_exports_;
   ZoneVector<WasmGlobalImport> global_imports_;
   ZoneVector<WasmFunctionBuilder*> functions_;
   ZoneVector<WasmDataSegment> data_segments_;
   ZoneVector<uint32_t> indirect_functions_;
   ZoneVector<WasmGlobal> globals_;
   SignatureMap signature_map_;
   int start_function_index_;
   uint32_t min_memory_size_;
   uint32_t max_memory_size_;
   bool has_max_memory_size_;
   bool has_shared_memory_;
 };

 inline FunctionSig* WasmFunctionBuilder::signature() {
   return builder_->signatures_[signature_index_];
 }

 }  // namespace wasm
 }  // namespace internal
 }  // namespace v8

 #endif  // V8_WASM_WASM_MODULE_BUILDER_H_
	// 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_WASM_WASM_MODULE_BUILDER_H_
	#define V8_WASM_WASM_MODULE_BUILDER_H_

	#include "src/signature.h"
	#include "src/zone/zone-containers.h"

	#include "src/wasm/leb-helper.h"
	#include "src/wasm/local-decl-encoder.h"
	#include "src/wasm/wasm-opcodes.h"
	#include "src/wasm/wasm-result.h"

	namespace v8 {
	namespace internal {
	namespace wasm {

	class ZoneBuffer : public ZoneObject {
	public:
	static constexpr size_t kInitialSize = 1024;
	explicit ZoneBuffer(Zone* zone, size_t initial = kInitialSize)
	: zone_(zone), buffer_(reinterpret_cast<byte*>(zone->New(initial))) {
	pos_ = buffer_;
	end_ = buffer_ + initial;
	}

	void write_u8(uint8_t x) {
	EnsureSpace(1);
	*(pos_++) = x;
	}

	void write_u16(uint16_t x) {
	EnsureSpace(2);
	WriteLittleEndianValue<uint16_t>(pos_, x);
	pos_ += 2;
	}

	void write_u32(uint32_t x) {
	EnsureSpace(4);
	WriteLittleEndianValue<uint32_t>(pos_, x);
	pos_ += 4;
	}

	void write_u64(uint64_t x) {
	EnsureSpace(8);
	WriteLittleEndianValue<uint64_t>(pos_, x);
	pos_ += 8;
	}

	void write_u32v(uint32_t val) {
	EnsureSpace(kMaxVarInt32Size);
	LEBHelper::write_u32v(&pos_, val);
	}

	void write_i32v(int32_t val) {
	EnsureSpace(kMaxVarInt32Size);
	LEBHelper::write_i32v(&pos_, val);
	}

	void write_u64v(uint64_t val) {
	EnsureSpace(kMaxVarInt64Size);
	LEBHelper::write_u64v(&pos_, val);
	}

	void write_i64v(int64_t val) {
	EnsureSpace(kMaxVarInt64Size);
	LEBHelper::write_i64v(&pos_, val);
	}

	void write_size(size_t val) {
	EnsureSpace(kMaxVarInt32Size);
	DCHECK_EQ(val, static_cast<uint32_t>(val));
	LEBHelper::write_u32v(&pos_, static_cast<uint32_t>(val));
	}

	void write_f32(float val) { write_u32(bit_cast<uint32_t>(val)); }

	void write_f64(double val) { write_u64(bit_cast<uint64_t>(val)); }

	void write(const byte* data, size_t size) {
	EnsureSpace(size);
	memcpy(pos_, data, size);
	pos_ += size;
	}

	void write_string(Vector<const char> name) {
	write_size(name.length());
	write(reinterpret_cast<const byte*>(name.start()), name.length());
	}

	size_t reserve_u32v() {
	size_t off = offset();
	EnsureSpace(kMaxVarInt32Size);
	pos_ += kMaxVarInt32Size;
	return off;
	}

	// Patch a (padded) u32v at the given offset to be the given value.
	void patch_u32v(size_t offset, uint32_t val) {
	byte* ptr = buffer_ + offset;
	for (size_t pos = 0; pos != kPaddedVarInt32Size; ++pos) {
	uint32_t next = val >> 7;
	byte out = static_cast<byte>(val & 0x7f);
	if (pos != kPaddedVarInt32Size - 1) {
	*(ptr++) = 0x80 \| out;
	val = next;
	} else {
	*(ptr++) = out;
	}
	}
	}

	void patch_u8(size_t offset, byte val) {
	DCHECK_GE(size(), offset);
	buffer_[offset] = val;
	}

	size_t offset() const { return static_cast<size_t>(pos_ - buffer_); }
	size_t size() const { return static_cast<size_t>(pos_ - buffer_); }
	const byte* begin() const { return buffer_; }
	const byte* end() const { return pos_; }

	void EnsureSpace(size_t size) {
	if ((pos_ + size) > end_) {
	size_t new_size = size + (end_ - buffer_) * 2;
	byte* new_buffer = reinterpret_cast<byte*>(zone_->New(new_size));
	memcpy(new_buffer, buffer_, (pos_ - buffer_));
	pos_ = new_buffer + (pos_ - buffer_);
	buffer_ = new_buffer;
	end_ = new_buffer + new_size;
	}
	DCHECK(pos_ + size <= end_);
	}

	void Truncate(size_t size) {
	DCHECK_GE(offset(), size);
	pos_ = buffer_ + size;
	}

	byte** pos_ptr() { return &pos_; }

	private:
	Zone* zone_;
	byte* buffer_;
	byte* pos_;
	byte* end_;
	};

	class WasmModuleBuilder;

	class V8_EXPORT_PRIVATE WasmFunctionBuilder : public ZoneObject {
	public:
	// Building methods.
	void SetSignature(FunctionSig* sig);
	uint32_t AddLocal(ValueType type);
	void EmitI32V(int32_t val);
	void EmitU32V(uint32_t val);
	void EmitCode(const byte* code, uint32_t code_size);
	void Emit(WasmOpcode opcode);
	void EmitGetLocal(uint32_t index);
	void EmitSetLocal(uint32_t index);
	void EmitTeeLocal(uint32_t index);
	void EmitI32Const(int32_t val);
	void EmitI64Const(int64_t val);
	void EmitF32Const(float val);
	void EmitF64Const(double val);
	void EmitWithU8(WasmOpcode opcode, const byte immediate);
	void EmitWithU8U8(WasmOpcode opcode, const byte imm1, const byte imm2);
	void EmitWithI32V(WasmOpcode opcode, int32_t immediate);
	void EmitWithU32V(WasmOpcode opcode, uint32_t immediate);
	void EmitDirectCallIndex(uint32_t index);
	void SetName(Vector<const char> name);
	void AddAsmWasmOffset(int call_position, int to_number_position);
	void SetAsmFunctionStartPosition(int position);

	size_t GetPosition() const { return body_.size(); }
	void FixupByte(size_t position, byte value) {
	body_.patch_u8(position, value);
	}
	void DeleteCodeAfter(size_t position);

	void WriteSignature(ZoneBuffer& buffer) const;
	void WriteBody(ZoneBuffer& buffer) const;
	void WriteAsmWasmOffsetTable(ZoneBuffer& buffer) const;

	WasmModuleBuilder* builder() const { return builder_; }
	uint32_t func_index() { return func_index_; }
	FunctionSig* signature();

	private:
	explicit WasmFunctionBuilder(WasmModuleBuilder* builder);
	friend class WasmModuleBuilder;

	struct DirectCallIndex {
	size_t offset;
	uint32_t direct_index;
	};

	WasmModuleBuilder* builder_;
	LocalDeclEncoder locals_;
	uint32_t signature_index_;
	uint32_t func_index_;
	ZoneBuffer body_;
	Vector<const char> name_;
	ZoneVector<uint32_t> i32_temps_;
	ZoneVector<uint32_t> i64_temps_;
	ZoneVector<uint32_t> f32_temps_;
	ZoneVector<uint32_t> f64_temps_;
	ZoneVector<DirectCallIndex> direct_calls_;

	// Delta-encoded mapping from wasm bytes to asm.js source positions.
	ZoneBuffer asm_offsets_;
	uint32_t last_asm_byte_offset_ = 0;
	uint32_t last_asm_source_position_ = 0;
	uint32_t asm_func_start_source_position_ = 0;
	};

	class V8_EXPORT_PRIVATE WasmModuleBuilder : public ZoneObject {
	public:
	explicit WasmModuleBuilder(Zone* zone);

	// Building methods.
	uint32_t AddImport(Vector<const char> name, FunctionSig* sig);
	WasmFunctionBuilder* AddFunction(FunctionSig* sig = nullptr);
	uint32_t AddGlobal(ValueType type, bool exported, bool mutability = true,
	const WasmInitExpr& init = WasmInitExpr());
	uint32_t AddGlobalImport(Vector<const char> name, ValueType type);
	void AddDataSegment(const byte* data, uint32_t size, uint32_t dest);
	uint32_t AddSignature(FunctionSig* sig);
	uint32_t AllocateIndirectFunctions(uint32_t count);
	void SetIndirectFunction(uint32_t indirect, uint32_t direct);
	void MarkStartFunction(WasmFunctionBuilder* builder);
	void AddExport(Vector<const char> name, WasmFunctionBuilder* builder);
	void SetMinMemorySize(uint32_t value);
	void SetMaxMemorySize(uint32_t value);
	void SetHasSharedMemory();

	// Writing methods.
	void WriteTo(ZoneBuffer& buffer) const;
	void WriteAsmJsOffsetTable(ZoneBuffer& buffer) const;

	// TODO(titzer): use SignatureMap from signature-map.h here.
	// This signature map is zone-allocated, but the other is heap allocated.
	struct CompareFunctionSigs {
	bool operator()(FunctionSig* a, FunctionSig* b) const;
	};
	typedef ZoneMap<FunctionSig*, uint32_t, CompareFunctionSigs> SignatureMap;

	Zone* zone() { return zone_; }

	FunctionSig* GetSignature(uint32_t index) { return signatures_[index]; }

	private:
	struct WasmFunctionImport {
	Vector<const char> name;
	uint32_t sig_index;
	};

	struct WasmFunctionExport {
	Vector<const char> name;
	uint32_t function_index;
	};

	struct WasmGlobalImport {
	Vector<const char> name;
	ValueTypeCode type_code;
	};

	struct WasmGlobal {
	ValueType type;
	bool exported;
	bool mutability;
	WasmInitExpr init;
	};

	struct WasmDataSegment {
	ZoneVector<byte> data;
	uint32_t dest;
	};

	friend class WasmFunctionBuilder;
	Zone* zone_;
	ZoneVector<FunctionSig*> signatures_;
	ZoneVector<WasmFunctionImport> function_imports_;
	ZoneVector<WasmFunctionExport> function_exports_;
	ZoneVector<WasmGlobalImport> global_imports_;
	ZoneVector<WasmFunctionBuilder*> functions_;
	ZoneVector<WasmDataSegment> data_segments_;
	ZoneVector<uint32_t> indirect_functions_;
	ZoneVector<WasmGlobal> globals_;
	SignatureMap signature_map_;
	int start_function_index_;
	uint32_t min_memory_size_;
	uint32_t max_memory_size_;
	bool has_max_memory_size_;
	bool has_shared_memory_;
	};

	inline FunctionSig* WasmFunctionBuilder::signature() {
	return builder_->signatures_[signature_index_];
	}

	} // namespace wasm
	} // namespace internal
	} // namespace v8

	#endif // V8_WASM_WASM_MODULE_BUILDER_H_