// 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.
#include "src/signature.h"
#include "src/handles.h"
#include "src/v8.h"
#include "src/zone-containers.h"
#include "src/wasm/ast-decoder.h"
#include "src/wasm/encoder.h"
#include "src/wasm/leb-helper.h"
#include "src/wasm/wasm-macro-gen.h"
#include "src/wasm/wasm-module.h"
#include "src/wasm/wasm-opcodes.h"
#include "src/v8memory.h"
#if DEBUG
#define TRACE(...) \
do { \
if (FLAG_trace_wasm_encoder) PrintF(__VA_ARGS__); \
} while (false)
#else
#define TRACE(...)
#endif
namespace v8 {
namespace internal {
namespace wasm {
// Emit a section name and the size as a padded varint that can be patched
// later.
size_t EmitSection(WasmSection::Code code, ZoneBuffer& buffer) {
// Emit the section name.
const char* name = WasmSection::getName(code);
TRACE("emit section: %s\n", name);
size_t length = WasmSection::getNameLength(code);
buffer.write_size(length); // Section name string size.
buffer.write(reinterpret_cast<const byte*>(name), length);
// Emit a placeholder for the length.
return buffer.reserve_u32v();
}
// Patch the size of a section after it's finished.
void FixupSection(ZoneBuffer& buffer, size_t start) {
buffer.patch_u32v(start, static_cast<uint32_t>(buffer.offset() - start -
kPaddedVarInt32Size));
}
WasmFunctionBuilder::WasmFunctionBuilder(WasmModuleBuilder* builder)
: builder_(builder),
locals_(builder->zone()),
signature_index_(0),
exported_(0),
body_(builder->zone()),
name_(builder->zone()) {}
void WasmFunctionBuilder::EmitVarInt(uint32_t val) {
byte buffer[8];
byte* ptr = buffer;
LEBHelper::write_u32v(&ptr, val);
for (byte* p = buffer; p < ptr; p++) {
body_.push_back(*p);
}
}
void WasmFunctionBuilder::SetSignature(FunctionSig* sig) {
DCHECK(!locals_.has_sig());
locals_.set_sig(sig);
signature_index_ = builder_->AddSignature(sig);
}
uint32_t WasmFunctionBuilder::AddLocal(LocalType type) {
DCHECK(locals_.has_sig());
return locals_.AddLocals(1, type);
}
void WasmFunctionBuilder::EmitGetLocal(uint32_t local_index) {
EmitWithVarInt(kExprGetLocal, local_index);
}
void WasmFunctionBuilder::EmitSetLocal(uint32_t local_index) {
EmitWithVarInt(kExprSetLocal, local_index);
}
void WasmFunctionBuilder::EmitCode(const byte* code, uint32_t code_size) {
for (size_t i = 0; i < code_size; ++i) {
body_.push_back(code[i]);
}
}
void WasmFunctionBuilder::Emit(WasmOpcode opcode) {
body_.push_back(static_cast<byte>(opcode));
}
void WasmFunctionBuilder::EmitWithU8(WasmOpcode opcode, const byte immediate) {
body_.push_back(static_cast<byte>(opcode));
body_.push_back(immediate);
}
void WasmFunctionBuilder::EmitWithU8U8(WasmOpcode opcode, const byte imm1,
const byte imm2) {
body_.push_back(static_cast<byte>(opcode));
body_.push_back(imm1);
body_.push_back(imm2);
}
void WasmFunctionBuilder::EmitWithVarInt(WasmOpcode opcode,
uint32_t immediate) {
body_.push_back(static_cast<byte>(opcode));
EmitVarInt(immediate);
}
void WasmFunctionBuilder::EmitI32Const(int32_t value) {
// TODO(titzer): variable-length signed and unsigned i32 constants.
if (-128 <= value && value <= 127) {
EmitWithU8(kExprI8Const, static_cast<byte>(value));
} else {
byte code[] = {WASM_I32V_5(value)};
EmitCode(code, sizeof(code));
}
}
void WasmFunctionBuilder::SetExported() { exported_ = true; }
void WasmFunctionBuilder::SetName(const char* name, int name_length) {
name_.clear();
if (name_length > 0) {
for (int i = 0; i < name_length; ++i) {
name_.push_back(*(name + i));
}
}
}
void WasmFunctionBuilder::WriteSignature(ZoneBuffer& buffer) const {
buffer.write_u32v(signature_index_);
}
void WasmFunctionBuilder::WriteExport(ZoneBuffer& buffer,
uint32_t func_index) const {
if (exported_) {
buffer.write_u32v(func_index);
buffer.write_size(name_.size());
if (name_.size() > 0) {
buffer.write(reinterpret_cast<const byte*>(&name_[0]), name_.size());
}
}
}
void WasmFunctionBuilder::WriteBody(ZoneBuffer& buffer) const {
size_t locals_size = locals_.Size();
buffer.write_size(locals_size + body_.size());
buffer.EnsureSpace(locals_size);
byte** ptr = buffer.pos_ptr();
locals_.Emit(*ptr);
(*ptr) += locals_size; // UGLY: manual bump of position pointer
if (body_.size() > 0) {
buffer.write(&body_[0], body_.size());
}
}
WasmDataSegmentEncoder::WasmDataSegmentEncoder(Zone* zone, const byte* data,
uint32_t size, uint32_t dest)
: data_(zone), dest_(dest) {
for (size_t i = 0; i < size; ++i) {
data_.push_back(data[i]);
}
}
void WasmDataSegmentEncoder::Write(ZoneBuffer& buffer) const {
buffer.write_u32v(dest_);
buffer.write_u32v(static_cast<uint32_t>(data_.size()));
buffer.write(&data_[0], data_.size());
}
WasmModuleBuilder::WasmModuleBuilder(Zone* zone)
: zone_(zone),
signatures_(zone),
imports_(zone),
functions_(zone),
data_segments_(zone),
indirect_functions_(zone),
globals_(zone),
signature_map_(zone),
start_function_index_(-1) {}
uint32_t WasmModuleBuilder::AddFunction() {
functions_.push_back(new (zone_) WasmFunctionBuilder(this));
return static_cast<uint32_t>(functions_.size() - 1);
}
WasmFunctionBuilder* WasmModuleBuilder::FunctionAt(size_t index) {
if (functions_.size() > index) {
return functions_.at(index);
} else {
return nullptr;
}
}
void WasmModuleBuilder::AddDataSegment(WasmDataSegmentEncoder* data) {
data_segments_.push_back(data);
}
bool WasmModuleBuilder::CompareFunctionSigs::operator()(FunctionSig* a,
FunctionSig* b) const {
if (a->return_count() < b->return_count()) return true;
if (a->return_count() > b->return_count()) return false;
if (a->parameter_count() < b->parameter_count()) return true;
if (a->parameter_count() > b->parameter_count()) return false;
for (size_t r = 0; r < a->return_count(); r++) {
if (a->GetReturn(r) < b->GetReturn(r)) return true;
if (a->GetReturn(r) > b->GetReturn(r)) return false;
}
for (size_t p = 0; p < a->parameter_count(); p++) {
if (a->GetParam(p) < b->GetParam(p)) return true;
if (a->GetParam(p) > b->GetParam(p)) return false;
}
return false;
}
uint32_t WasmModuleBuilder::AddSignature(FunctionSig* sig) {
SignatureMap::iterator pos = signature_map_.find(sig);
if (pos != signature_map_.end()) {
return pos->second;
} else {
uint32_t index = static_cast<uint32_t>(signatures_.size());
signature_map_[sig] = index;
signatures_.push_back(sig);
return index;
}
}
void WasmModuleBuilder::AddIndirectFunction(uint32_t index) {
indirect_functions_.push_back(index);
}
uint32_t WasmModuleBuilder::AddImport(const char* name, int name_length,
FunctionSig* sig) {
imports_.push_back({AddSignature(sig), name, name_length});
return static_cast<uint32_t>(imports_.size() - 1);
}
void WasmModuleBuilder::MarkStartFunction(uint32_t index) {
start_function_index_ = index;
}
uint32_t WasmModuleBuilder::AddGlobal(MachineType type, bool exported) {
globals_.push_back(std::make_pair(type, exported));
return static_cast<uint32_t>(globals_.size() - 1);
}
void WasmModuleBuilder::WriteTo(ZoneBuffer& buffer) const {
uint32_t exports = 0;
// == Emit magic =============================================================
TRACE("emit magic\n");
buffer.write_u32(kWasmMagic);
buffer.write_u32(kWasmVersion);
// == Emit signatures ========================================================
if (signatures_.size() > 0) {
size_t start = EmitSection(WasmSection::Code::Signatures, buffer);
buffer.write_size(signatures_.size());
for (FunctionSig* sig : signatures_) {
buffer.write_u8(kWasmFunctionTypeForm);
buffer.write_size(sig->parameter_count());
for (size_t j = 0; j < sig->parameter_count(); j++) {
buffer.write_u8(WasmOpcodes::LocalTypeCodeFor(sig->GetParam(j)));
}
buffer.write_size(sig->return_count());
for (size_t j = 0; j < sig->return_count(); j++) {
buffer.write_u8(WasmOpcodes::LocalTypeCodeFor(sig->GetReturn(j)));
}
}
FixupSection(buffer, start);
}
// == Emit globals ===========================================================
if (globals_.size() > 0) {
size_t start = EmitSection(WasmSection::Code::Globals, buffer);
buffer.write_size(globals_.size());
for (auto global : globals_) {
buffer.write_u32v(0); // Length of the global name.
buffer.write_u8(WasmOpcodes::MemTypeCodeFor(global.first));
buffer.write_u8(global.second);
}
FixupSection(buffer, start);
}
// == Emit imports ===========================================================
if (imports_.size() > 0) {
size_t start = EmitSection(WasmSection::Code::ImportTable, buffer);
buffer.write_size(imports_.size());
for (auto import : imports_) {
buffer.write_u32v(import.sig_index);
buffer.write_u32v(import.name_length);
buffer.write(reinterpret_cast<const byte*>(import.name),
import.name_length);
buffer.write_u32v(0);
}
FixupSection(buffer, start);
}
// == Emit function signatures ===============================================
if (functions_.size() > 0) {
size_t start = EmitSection(WasmSection::Code::FunctionSignatures, buffer);
buffer.write_size(functions_.size());
for (auto function : functions_) {
function->WriteSignature(buffer);
if (function->exported()) exports++;
}
FixupSection(buffer, start);
}
// == emit function table ====================================================
if (indirect_functions_.size() > 0) {
size_t start = EmitSection(WasmSection::Code::FunctionTable, buffer);
buffer.write_size(indirect_functions_.size());
for (auto index : indirect_functions_) {
buffer.write_u32v(index);
}
FixupSection(buffer, start);
}
// == emit memory declaration ================================================
{
size_t start = EmitSection(WasmSection::Code::Memory, buffer);
buffer.write_u32v(16); // min memory size
buffer.write_u32v(16); // max memory size
buffer.write_u8(0); // memory export
static_assert(kDeclMemorySize == 3, "memory size must match emit above");
FixupSection(buffer, start);
}
// == emit exports ===========================================================
if (exports > 0) {
size_t start = EmitSection(WasmSection::Code::ExportTable, buffer);
buffer.write_u32v(exports);
uint32_t index = 0;
for (auto function : functions_) {
function->WriteExport(buffer, index++);
}
FixupSection(buffer, start);
}
// == emit start function index ==============================================
if (start_function_index_ >= 0) {
size_t start = EmitSection(WasmSection::Code::StartFunction, buffer);
buffer.write_u32v(start_function_index_);
FixupSection(buffer, start);
}
// == emit code ==============================================================
if (functions_.size() > 0) {
size_t start = EmitSection(WasmSection::Code::FunctionBodies, buffer);
buffer.write_size(functions_.size());
for (auto function : functions_) {
function->WriteBody(buffer);
}
FixupSection(buffer, start);
}
// == emit data segments =====================================================
if (data_segments_.size() > 0) {
size_t start = EmitSection(WasmSection::Code::DataSegments, buffer);
buffer.write_size(data_segments_.size());
for (auto segment : data_segments_) {
segment->Write(buffer);
}
FixupSection(buffer, start);
}
}
} // namespace wasm
} // namespace internal
} // namespace v8