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|
// Copyright 2019 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.
// This implementation is originally from
// https://github.com/WebAssembly/wasm-c-api/:
// Copyright 2019 Andreas Rossberg
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#include <cstring>
#include <iostream>
#include "src/wasm/c-api.h"
#include "third_party/wasm-api/wasm.h"
#include "include/libplatform/libplatform.h"
#include "src/api/api-inl.h"
#include "src/compiler/wasm-compiler.h"
#include "src/objects/js-collection-inl.h"
#include "src/objects/managed.h"
#include "src/objects/stack-frame-info-inl.h"
#include "src/wasm/leb-helper.h"
#include "src/wasm/module-instantiate.h"
#include "src/wasm/wasm-arguments.h"
#include "src/wasm/wasm-constants.h"
#include "src/wasm/wasm-objects.h"
#include "src/wasm/wasm-result.h"
#include "src/wasm/wasm-serialization.h"
#ifdef WASM_API_DEBUG
#error "WASM_API_DEBUG is unsupported"
#endif
namespace wasm {
namespace {
auto ReadLebU64(const byte_t** pos) -> uint64_t {
uint64_t n = 0;
uint64_t shift = 0;
byte_t b;
do {
b = **pos;
(*pos)++;
n += (b & 0x7f) << shift;
shift += 7;
} while ((b & 0x80) != 0);
return n;
}
ValKind V8ValueTypeToWasm(i::wasm::ValueType v8_valtype) {
switch (v8_valtype.kind()) {
case i::wasm::ValueType::kI32:
return I32;
case i::wasm::ValueType::kI64:
return I64;
case i::wasm::ValueType::kF32:
return F32;
case i::wasm::ValueType::kF64:
return F64;
case i::wasm::ValueType::kRef:
case i::wasm::ValueType::kOptRef:
switch (v8_valtype.heap_representation()) {
case i::wasm::HeapType::kFunc:
return FUNCREF;
case i::wasm::HeapType::kExtern:
// TODO(7748): Rename this to EXTERNREF if/when third-party API
// changes.
return ANYREF;
default:
// TODO(wasm+): support new value types
UNREACHABLE();
}
default:
// TODO(wasm+): support new value types
UNREACHABLE();
}
}
i::wasm::ValueType WasmValKindToV8(ValKind kind) {
switch (kind) {
case I32:
return i::wasm::kWasmI32;
case I64:
return i::wasm::kWasmI64;
case F32:
return i::wasm::kWasmF32;
case F64:
return i::wasm::kWasmF64;
case FUNCREF:
return i::wasm::kWasmFuncRef;
case ANYREF:
return i::wasm::kWasmExternRef;
default:
// TODO(wasm+): support new value types
UNREACHABLE();
}
}
Name GetNameFromWireBytes(const i::wasm::WireBytesRef& ref,
const i::Vector<const uint8_t>& wire_bytes) {
DCHECK_LE(ref.offset(), wire_bytes.length());
DCHECK_LE(ref.end_offset(), wire_bytes.length());
if (ref.length() == 0) return Name::make();
Name name = Name::make_uninitialized(ref.length());
std::memcpy(name.get(), wire_bytes.begin() + ref.offset(), ref.length());
return name;
}
own<FuncType> FunctionSigToFuncType(const i::wasm::FunctionSig* sig) {
size_t param_count = sig->parameter_count();
ownvec<ValType> params = ownvec<ValType>::make_uninitialized(param_count);
for (size_t i = 0; i < param_count; i++) {
params[i] = ValType::make(V8ValueTypeToWasm(sig->GetParam(i)));
}
size_t return_count = sig->return_count();
ownvec<ValType> results = ownvec<ValType>::make_uninitialized(return_count);
for (size_t i = 0; i < return_count; i++) {
results[i] = ValType::make(V8ValueTypeToWasm(sig->GetReturn(i)));
}
return FuncType::make(std::move(params), std::move(results));
}
own<ExternType> GetImportExportType(const i::wasm::WasmModule* module,
const i::wasm::ImportExportKindCode kind,
const uint32_t index) {
switch (kind) {
case i::wasm::kExternalFunction: {
return FunctionSigToFuncType(module->functions[index].sig);
}
case i::wasm::kExternalTable: {
const i::wasm::WasmTable& table = module->tables[index];
own<ValType> elem = ValType::make(V8ValueTypeToWasm(table.type));
Limits limits(table.initial_size,
table.has_maximum_size ? table.maximum_size : -1);
return TableType::make(std::move(elem), limits);
}
case i::wasm::kExternalMemory: {
DCHECK(module->has_memory);
Limits limits(module->initial_pages,
module->has_maximum_pages ? module->maximum_pages : -1);
return MemoryType::make(limits);
}
case i::wasm::kExternalGlobal: {
const i::wasm::WasmGlobal& global = module->globals[index];
own<ValType> content = ValType::make(V8ValueTypeToWasm(global.type));
Mutability mutability = global.mutability ? VAR : CONST;
return GlobalType::make(std::move(content), mutability);
}
case i::wasm::kExternalException:
UNREACHABLE();
return {};
}
}
} // namespace
/// BEGIN FILE wasm-v8.cc
///////////////////////////////////////////////////////////////////////////////
// Auxiliaries
[[noreturn]] void WASM_UNIMPLEMENTED(const char* s) {
std::cerr << "Wasm API: " << s << " not supported yet!\n";
exit(1);
}
template <class T>
void ignore(T) {}
template <class C>
struct implement;
template <class C>
auto impl(C* x) -> typename implement<C>::type* {
return reinterpret_cast<typename implement<C>::type*>(x);
}
template <class C>
auto impl(const C* x) -> const typename implement<C>::type* {
return reinterpret_cast<const typename implement<C>::type*>(x);
}
template <class C>
auto seal(typename implement<C>::type* x) -> C* {
return reinterpret_cast<C*>(x);
}
template <class C>
auto seal(const typename implement<C>::type* x) -> const C* {
return reinterpret_cast<const C*>(x);
}
///////////////////////////////////////////////////////////////////////////////
// Runtime Environment
// Configuration
struct ConfigImpl {};
template <>
struct implement<Config> {
using type = ConfigImpl;
};
Config::~Config() { impl(this)->~ConfigImpl(); }
void Config::operator delete(void* p) { ::operator delete(p); }
auto Config::make() -> own<Config> {
return own<Config>(seal<Config>(new (std::nothrow) ConfigImpl()));
}
// Engine
struct EngineImpl {
static bool created;
std::unique_ptr<v8::Platform> platform;
EngineImpl() {
assert(!created);
created = true;
}
~EngineImpl() {
v8::V8::Dispose();
v8::V8::ShutdownPlatform();
}
};
bool EngineImpl::created = false;
template <>
struct implement<Engine> {
using type = EngineImpl;
};
Engine::~Engine() { impl(this)->~EngineImpl(); }
void Engine::operator delete(void* p) { ::operator delete(p); }
auto Engine::make(own<Config>&& config) -> own<Engine> {
i::FLAG_expose_gc = true;
i::FLAG_experimental_wasm_reftypes = true;
i::FLAG_experimental_wasm_bigint = true;
i::FLAG_experimental_wasm_mv = true;
auto engine = new (std::nothrow) EngineImpl;
if (!engine) return own<Engine>();
engine->platform = v8::platform::NewDefaultPlatform();
v8::V8::InitializePlatform(engine->platform.get());
v8::V8::Initialize();
return make_own(seal<Engine>(engine));
}
// Stores
StoreImpl::~StoreImpl() {
#ifdef DEBUG
reinterpret_cast<i::Isolate*>(isolate_)->heap()->PreciseCollectAllGarbage(
i::Heap::kForcedGC, i::GarbageCollectionReason::kTesting,
v8::kNoGCCallbackFlags);
#endif
context()->Exit();
isolate_->Dispose();
delete create_params_.array_buffer_allocator;
}
struct ManagedData {
ManagedData(void* info, void (*finalizer)(void*))
: info(info), finalizer(finalizer) {}
~ManagedData() {
if (finalizer) (*finalizer)(info);
}
void* info;
void (*finalizer)(void*);
};
void StoreImpl::SetHostInfo(i::Handle<i::Object> object, void* info,
void (*finalizer)(void*)) {
i::HandleScope scope(i_isolate());
// Ideally we would specify the total size kept alive by {info} here,
// but all we get from the embedder is a {void*}, so our best estimate
// is the size of the metadata.
size_t estimated_size = sizeof(ManagedData);
i::Handle<i::Object> wrapper = i::Managed<ManagedData>::FromRawPtr(
i_isolate(), estimated_size, new ManagedData(info, finalizer));
int32_t hash = object->GetOrCreateHash(i_isolate()).value();
i::JSWeakCollection::Set(host_info_map_, object, wrapper, hash);
}
void* StoreImpl::GetHostInfo(i::Handle<i::Object> key) {
i::Object raw =
i::EphemeronHashTable::cast(host_info_map_->table()).Lookup(key);
if (raw.IsTheHole(i_isolate())) return nullptr;
return i::Managed<ManagedData>::cast(raw).raw()->info;
}
template <>
struct implement<Store> {
using type = StoreImpl;
};
Store::~Store() { impl(this)->~StoreImpl(); }
void Store::operator delete(void* p) { ::operator delete(p); }
auto Store::make(Engine*) -> own<Store> {
auto store = make_own(new (std::nothrow) StoreImpl());
if (!store) return own<Store>();
// Create isolate.
store->create_params_.array_buffer_allocator =
v8::ArrayBuffer::Allocator::NewDefaultAllocator();
v8::Isolate* isolate = v8::Isolate::New(store->create_params_);
if (!isolate) return own<Store>();
store->isolate_ = isolate;
isolate->SetData(0, store.get());
// We intentionally do not call isolate->Enter() here, because that would
// prevent embedders from using stores with overlapping but non-nested
// lifetimes. The consequence is that Isolate::Current() is dysfunctional
// and hence must not be called by anything reachable via this file.
{
v8::HandleScope handle_scope(isolate);
// Create context.
v8::Local<v8::Context> context = v8::Context::New(isolate);
if (context.IsEmpty()) return own<Store>();
context->Enter(); // The Exit() call is in ~StoreImpl.
store->context_ = v8::Eternal<v8::Context>(isolate, context);
// Create weak map for Refs with host info.
i::Isolate* i_isolate = reinterpret_cast<i::Isolate*>(isolate);
store->host_info_map_ = i_isolate->global_handles()->Create(
*i_isolate->factory()->NewJSWeakMap());
}
// We want stack traces for traps.
constexpr int kStackLimit = 10;
isolate->SetCaptureStackTraceForUncaughtExceptions(true, kStackLimit,
v8::StackTrace::kOverview);
return make_own(seal<Store>(store.release()));
}
///////////////////////////////////////////////////////////////////////////////
// Type Representations
// Value Types
struct ValTypeImpl {
ValKind kind;
explicit ValTypeImpl(ValKind kind) : kind(kind) {}
};
template <>
struct implement<ValType> {
using type = ValTypeImpl;
};
ValTypeImpl* valtype_i32 = new ValTypeImpl(I32);
ValTypeImpl* valtype_i64 = new ValTypeImpl(I64);
ValTypeImpl* valtype_f32 = new ValTypeImpl(F32);
ValTypeImpl* valtype_f64 = new ValTypeImpl(F64);
ValTypeImpl* valtype_externref = new ValTypeImpl(ANYREF);
ValTypeImpl* valtype_funcref = new ValTypeImpl(FUNCREF);
ValType::~ValType() = default;
void ValType::operator delete(void*) {}
own<ValType> ValType::make(ValKind k) {
ValTypeImpl* valtype;
switch (k) {
case I32:
valtype = valtype_i32;
break;
case I64:
valtype = valtype_i64;
break;
case F32:
valtype = valtype_f32;
break;
case F64:
valtype = valtype_f64;
break;
case ANYREF:
valtype = valtype_externref;
break;
case FUNCREF:
valtype = valtype_funcref;
break;
default:
// TODO(wasm+): support new value types
UNREACHABLE();
}
return own<ValType>(seal<ValType>(valtype));
}
auto ValType::copy() const -> own<ValType> { return make(kind()); }
auto ValType::kind() const -> ValKind { return impl(this)->kind; }
// Extern Types
struct ExternTypeImpl {
ExternKind kind;
explicit ExternTypeImpl(ExternKind kind) : kind(kind) {}
virtual ~ExternTypeImpl() = default;
};
template <>
struct implement<ExternType> {
using type = ExternTypeImpl;
};
ExternType::~ExternType() { impl(this)->~ExternTypeImpl(); }
void ExternType::operator delete(void* p) { ::operator delete(p); }
auto ExternType::copy() const -> own<ExternType> {
switch (kind()) {
case EXTERN_FUNC:
return func()->copy();
case EXTERN_GLOBAL:
return global()->copy();
case EXTERN_TABLE:
return table()->copy();
case EXTERN_MEMORY:
return memory()->copy();
}
}
auto ExternType::kind() const -> ExternKind { return impl(this)->kind; }
// Function Types
struct FuncTypeImpl : ExternTypeImpl {
ownvec<ValType> params;
ownvec<ValType> results;
FuncTypeImpl(ownvec<ValType>& params, // NOLINT(runtime/references)
ownvec<ValType>& results) // NOLINT(runtime/references)
: ExternTypeImpl(EXTERN_FUNC),
params(std::move(params)),
results(std::move(results)) {}
};
template <>
struct implement<FuncType> {
using type = FuncTypeImpl;
};
FuncType::~FuncType() = default;
auto FuncType::make(ownvec<ValType>&& params, ownvec<ValType>&& results)
-> own<FuncType> {
return params && results
? own<FuncType>(seal<FuncType>(new (std::nothrow)
FuncTypeImpl(params, results)))
: own<FuncType>();
}
auto FuncType::copy() const -> own<FuncType> {
return make(params().deep_copy(), results().deep_copy());
}
auto FuncType::params() const -> const ownvec<ValType>& {
return impl(this)->params;
}
auto FuncType::results() const -> const ownvec<ValType>& {
return impl(this)->results;
}
auto ExternType::func() -> FuncType* {
return kind() == EXTERN_FUNC
? seal<FuncType>(static_cast<FuncTypeImpl*>(impl(this)))
: nullptr;
}
auto ExternType::func() const -> const FuncType* {
return kind() == EXTERN_FUNC
? seal<FuncType>(static_cast<const FuncTypeImpl*>(impl(this)))
: nullptr;
}
// Global Types
struct GlobalTypeImpl : ExternTypeImpl {
own<ValType> content;
Mutability mutability;
GlobalTypeImpl(own<ValType>& content, // NOLINT(runtime/references)
Mutability mutability)
: ExternTypeImpl(EXTERN_GLOBAL),
content(std::move(content)),
mutability(mutability) {}
~GlobalTypeImpl() override = default;
};
template <>
struct implement<GlobalType> {
using type = GlobalTypeImpl;
};
GlobalType::~GlobalType() = default;
auto GlobalType::make(own<ValType>&& content, Mutability mutability)
-> own<GlobalType> {
return content ? own<GlobalType>(seal<GlobalType>(
new (std::nothrow) GlobalTypeImpl(content, mutability)))
: own<GlobalType>();
}
auto GlobalType::copy() const -> own<GlobalType> {
return make(content()->copy(), mutability());
}
auto GlobalType::content() const -> const ValType* {
return impl(this)->content.get();
}
auto GlobalType::mutability() const -> Mutability {
return impl(this)->mutability;
}
auto ExternType::global() -> GlobalType* {
return kind() == EXTERN_GLOBAL
? seal<GlobalType>(static_cast<GlobalTypeImpl*>(impl(this)))
: nullptr;
}
auto ExternType::global() const -> const GlobalType* {
return kind() == EXTERN_GLOBAL
? seal<GlobalType>(static_cast<const GlobalTypeImpl*>(impl(this)))
: nullptr;
}
// Table Types
struct TableTypeImpl : ExternTypeImpl {
own<ValType> element;
Limits limits;
TableTypeImpl(own<ValType>& element, // NOLINT(runtime/references)
Limits limits)
: ExternTypeImpl(EXTERN_TABLE),
element(std::move(element)),
limits(limits) {}
~TableTypeImpl() override = default;
};
template <>
struct implement<TableType> {
using type = TableTypeImpl;
};
TableType::~TableType() = default;
auto TableType::make(own<ValType>&& element, Limits limits) -> own<TableType> {
return element ? own<TableType>(seal<TableType>(
new (std::nothrow) TableTypeImpl(element, limits)))
: own<TableType>();
}
auto TableType::copy() const -> own<TableType> {
return make(element()->copy(), limits());
}
auto TableType::element() const -> const ValType* {
return impl(this)->element.get();
}
auto TableType::limits() const -> const Limits& { return impl(this)->limits; }
auto ExternType::table() -> TableType* {
return kind() == EXTERN_TABLE
? seal<TableType>(static_cast<TableTypeImpl*>(impl(this)))
: nullptr;
}
auto ExternType::table() const -> const TableType* {
return kind() == EXTERN_TABLE
? seal<TableType>(static_cast<const TableTypeImpl*>(impl(this)))
: nullptr;
}
// Memory Types
struct MemoryTypeImpl : ExternTypeImpl {
Limits limits;
explicit MemoryTypeImpl(Limits limits)
: ExternTypeImpl(EXTERN_MEMORY), limits(limits) {}
~MemoryTypeImpl() override = default;
};
template <>
struct implement<MemoryType> {
using type = MemoryTypeImpl;
};
MemoryType::~MemoryType() = default;
auto MemoryType::make(Limits limits) -> own<MemoryType> {
return own<MemoryType>(
seal<MemoryType>(new (std::nothrow) MemoryTypeImpl(limits)));
}
auto MemoryType::copy() const -> own<MemoryType> {
return MemoryType::make(limits());
}
auto MemoryType::limits() const -> const Limits& { return impl(this)->limits; }
auto ExternType::memory() -> MemoryType* {
return kind() == EXTERN_MEMORY
? seal<MemoryType>(static_cast<MemoryTypeImpl*>(impl(this)))
: nullptr;
}
auto ExternType::memory() const -> const MemoryType* {
return kind() == EXTERN_MEMORY
? seal<MemoryType>(static_cast<const MemoryTypeImpl*>(impl(this)))
: nullptr;
}
// Import Types
struct ImportTypeImpl {
Name module;
Name name;
own<ExternType> type;
ImportTypeImpl(Name& module, // NOLINT(runtime/references)
Name& name, // NOLINT(runtime/references)
own<ExternType>& type) // NOLINT(runtime/references)
: module(std::move(module)),
name(std::move(name)),
type(std::move(type)) {}
};
template <>
struct implement<ImportType> {
using type = ImportTypeImpl;
};
ImportType::~ImportType() { impl(this)->~ImportTypeImpl(); }
void ImportType::operator delete(void* p) { ::operator delete(p); }
auto ImportType::make(Name&& module, Name&& name, own<ExternType>&& type)
-> own<ImportType> {
return module && name && type
? own<ImportType>(seal<ImportType>(
new (std::nothrow) ImportTypeImpl(module, name, type)))
: own<ImportType>();
}
auto ImportType::copy() const -> own<ImportType> {
return make(module().copy(), name().copy(), type()->copy());
}
auto ImportType::module() const -> const Name& { return impl(this)->module; }
auto ImportType::name() const -> const Name& { return impl(this)->name; }
auto ImportType::type() const -> const ExternType* {
return impl(this)->type.get();
}
// Export Types
struct ExportTypeImpl {
Name name;
own<ExternType> type;
ExportTypeImpl(Name& name, // NOLINT(runtime/references)
own<ExternType>& type) // NOLINT(runtime/references)
: name(std::move(name)), type(std::move(type)) {}
};
template <>
struct implement<ExportType> {
using type = ExportTypeImpl;
};
ExportType::~ExportType() { impl(this)->~ExportTypeImpl(); }
void ExportType::operator delete(void* p) { ::operator delete(p); }
auto ExportType::make(Name&& name, own<ExternType>&& type) -> own<ExportType> {
return name && type ? own<ExportType>(seal<ExportType>(
new (std::nothrow) ExportTypeImpl(name, type)))
: own<ExportType>();
}
auto ExportType::copy() const -> own<ExportType> {
return make(name().copy(), type()->copy());
}
auto ExportType::name() const -> const Name& { return impl(this)->name; }
auto ExportType::type() const -> const ExternType* {
return impl(this)->type.get();
}
i::Handle<i::String> VecToString(i::Isolate* isolate,
const vec<byte_t>& chars) {
size_t length = chars.size();
// Some, but not all, {chars} vectors we get here are null-terminated,
// so let's be robust to that.
if (length > 0 && chars[length - 1] == 0) length--;
return isolate->factory()
->NewStringFromUtf8({chars.get(), length})
.ToHandleChecked();
}
// References
template <class Ref, class JSType>
class RefImpl {
public:
static own<Ref> make(StoreImpl* store, i::Handle<JSType> obj) {
RefImpl* self = new (std::nothrow) RefImpl();
if (!self) return nullptr;
i::Isolate* isolate = store->i_isolate();
self->val_ = isolate->global_handles()->Create(*obj);
return make_own(seal<Ref>(self));
}
~RefImpl() { i::GlobalHandles::Destroy(location()); }
own<Ref> copy() const { return make(store(), v8_object()); }
StoreImpl* store() const { return StoreImpl::get(isolate()); }
i::Isolate* isolate() const { return val_->GetIsolate(); }
i::Handle<JSType> v8_object() const { return i::Handle<JSType>::cast(val_); }
void* get_host_info() const { return store()->GetHostInfo(v8_object()); }
void set_host_info(void* info, void (*finalizer)(void*)) {
store()->SetHostInfo(v8_object(), info, finalizer);
}
private:
RefImpl() = default;
i::Address* location() const {
return reinterpret_cast<i::Address*>(val_.address());
}
i::Handle<i::JSReceiver> val_;
};
template <>
struct implement<Ref> {
using type = RefImpl<Ref, i::JSReceiver>;
};
Ref::~Ref() { delete impl(this); }
void Ref::operator delete(void* p) {}
auto Ref::copy() const -> own<Ref> { return impl(this)->copy(); }
auto Ref::same(const Ref* that) const -> bool {
i::HandleScope handle_scope(impl(this)->isolate());
return impl(this)->v8_object()->SameValue(*impl(that)->v8_object());
}
auto Ref::get_host_info() const -> void* { return impl(this)->get_host_info(); }
void Ref::set_host_info(void* info, void (*finalizer)(void*)) {
impl(this)->set_host_info(info, finalizer);
}
///////////////////////////////////////////////////////////////////////////////
// Runtime Objects
// Frames
namespace {
struct FrameImpl {
FrameImpl(own<Instance>&& instance, uint32_t func_index, size_t func_offset,
size_t module_offset)
: instance(std::move(instance)),
func_index(func_index),
func_offset(func_offset),
module_offset(module_offset) {}
own<Instance> instance;
uint32_t func_index;
size_t func_offset;
size_t module_offset;
};
} // namespace
template <>
struct implement<Frame> {
using type = FrameImpl;
};
Frame::~Frame() { impl(this)->~FrameImpl(); }
void Frame::operator delete(void* p) { ::operator delete(p); }
own<Frame> Frame::copy() const {
auto self = impl(this);
return own<Frame>(seal<Frame>(
new (std::nothrow) FrameImpl(self->instance->copy(), self->func_index,
self->func_offset, self->module_offset)));
}
Instance* Frame::instance() const { return impl(this)->instance.get(); }
uint32_t Frame::func_index() const { return impl(this)->func_index; }
size_t Frame::func_offset() const { return impl(this)->func_offset; }
size_t Frame::module_offset() const { return impl(this)->module_offset; }
// Traps
template <>
struct implement<Trap> {
using type = RefImpl<Trap, i::JSReceiver>;
};
Trap::~Trap() = default;
auto Trap::copy() const -> own<Trap> { return impl(this)->copy(); }
auto Trap::make(Store* store_abs, const Message& message) -> own<Trap> {
auto store = impl(store_abs);
i::Isolate* isolate = store->i_isolate();
i::HandleScope handle_scope(isolate);
i::Handle<i::String> string = VecToString(isolate, message);
i::Handle<i::JSReceiver> exception = i::Handle<i::JSReceiver>::cast(
isolate->factory()->NewError(isolate->error_function(), string));
return implement<Trap>::type::make(store, exception);
}
auto Trap::message() const -> Message {
auto isolate = impl(this)->isolate();
i::HandleScope handle_scope(isolate);
i::Handle<i::JSMessageObject> message =
isolate->CreateMessage(impl(this)->v8_object(), nullptr);
i::Handle<i::String> result = i::MessageHandler::GetMessage(isolate, message);
result = i::String::Flatten(isolate, result); // For performance.
int length = 0;
std::unique_ptr<char[]> utf8 =
result->ToCString(i::DISALLOW_NULLS, i::FAST_STRING_TRAVERSAL, &length);
return vec<byte_t>::adopt(length, utf8.release());
}
namespace {
own<Instance> GetInstance(StoreImpl* store,
i::Handle<i::WasmInstanceObject> instance);
own<Frame> CreateFrameFromInternal(i::Handle<i::FixedArray> frames, int index,
i::Isolate* isolate, StoreImpl* store) {
i::Handle<i::StackTraceFrame> frame(
i::StackTraceFrame::cast(frames->get(index)), isolate);
i::Handle<i::WasmInstanceObject> instance =
i::StackTraceFrame::GetWasmInstance(frame);
uint32_t func_index = i::StackTraceFrame::GetWasmFunctionIndex(frame);
size_t func_offset = i::StackTraceFrame::GetFunctionOffset(frame);
size_t module_offset = i::StackTraceFrame::GetColumnNumber(frame);
return own<Frame>(seal<Frame>(new (std::nothrow) FrameImpl(
GetInstance(store, instance), func_index, func_offset, module_offset)));
}
} // namespace
own<Frame> Trap::origin() const {
i::Isolate* isolate = impl(this)->isolate();
i::HandleScope handle_scope(isolate);
i::Handle<i::JSMessageObject> message =
isolate->CreateMessage(impl(this)->v8_object(), nullptr);
i::Handle<i::FixedArray> frames(i::FixedArray::cast(message->stack_frames()),
isolate);
if (frames->length() == 0) {
return own<Frame>();
}
return CreateFrameFromInternal(frames, 0, isolate, impl(this)->store());
}
ownvec<Frame> Trap::trace() const {
i::Isolate* isolate = impl(this)->isolate();
i::HandleScope handle_scope(isolate);
i::Handle<i::JSMessageObject> message =
isolate->CreateMessage(impl(this)->v8_object(), nullptr);
i::Handle<i::FixedArray> frames(i::FixedArray::cast(message->stack_frames()),
isolate);
int num_frames = frames->length();
// {num_frames} can be 0; the code below can handle that case.
ownvec<Frame> result = ownvec<Frame>::make_uninitialized(num_frames);
for (int i = 0; i < num_frames; i++) {
result[i] =
CreateFrameFromInternal(frames, i, isolate, impl(this)->store());
}
return result;
}
// Foreign Objects
template <>
struct implement<Foreign> {
using type = RefImpl<Foreign, i::JSReceiver>;
};
Foreign::~Foreign() = default;
auto Foreign::copy() const -> own<Foreign> { return impl(this)->copy(); }
auto Foreign::make(Store* store_abs) -> own<Foreign> {
StoreImpl* store = impl(store_abs);
i::Isolate* isolate = store->i_isolate();
i::HandleScope handle_scope(isolate);
i::Handle<i::JSObject> obj =
isolate->factory()->NewJSObject(isolate->object_function());
return implement<Foreign>::type::make(store, obj);
}
// Modules
template <>
struct implement<Module> {
using type = RefImpl<Module, i::WasmModuleObject>;
};
Module::~Module() = default;
auto Module::copy() const -> own<Module> { return impl(this)->copy(); }
auto Module::validate(Store* store_abs, const vec<byte_t>& binary) -> bool {
i::wasm::ModuleWireBytes bytes(
{reinterpret_cast<const uint8_t*>(binary.get()), binary.size()});
i::Isolate* isolate = impl(store_abs)->i_isolate();
i::wasm::WasmFeatures features = i::wasm::WasmFeatures::FromIsolate(isolate);
return isolate->wasm_engine()->SyncValidate(isolate, features, bytes);
}
auto Module::make(Store* store_abs, const vec<byte_t>& binary) -> own<Module> {
StoreImpl* store = impl(store_abs);
i::Isolate* isolate = store->i_isolate();
i::HandleScope scope(isolate);
i::wasm::ModuleWireBytes bytes(
{reinterpret_cast<const uint8_t*>(binary.get()), binary.size()});
i::wasm::WasmFeatures features = i::wasm::WasmFeatures::FromIsolate(isolate);
i::wasm::ErrorThrower thrower(isolate, "ignored");
i::Handle<i::WasmModuleObject> module;
if (!isolate->wasm_engine()
->SyncCompile(isolate, features, &thrower, bytes)
.ToHandle(&module)) {
thrower.Reset(); // The API provides no way to expose the error.
return nullptr;
}
return implement<Module>::type::make(store, module);
}
auto Module::imports() const -> ownvec<ImportType> {
const i::wasm::NativeModule* native_module =
impl(this)->v8_object()->native_module();
const i::wasm::WasmModule* module = native_module->module();
const i::Vector<const uint8_t> wire_bytes = native_module->wire_bytes();
const std::vector<i::wasm::WasmImport>& import_table = module->import_table;
size_t size = import_table.size();
ownvec<ImportType> imports = ownvec<ImportType>::make_uninitialized(size);
for (uint32_t i = 0; i < size; i++) {
const i::wasm::WasmImport& imp = import_table[i];
Name module_name = GetNameFromWireBytes(imp.module_name, wire_bytes);
Name name = GetNameFromWireBytes(imp.field_name, wire_bytes);
own<ExternType> type = GetImportExportType(module, imp.kind, imp.index);
imports[i] = ImportType::make(std::move(module_name), std::move(name),
std::move(type));
}
return imports;
}
ownvec<ExportType> ExportsImpl(i::Handle<i::WasmModuleObject> module_obj) {
const i::wasm::NativeModule* native_module = module_obj->native_module();
const i::wasm::WasmModule* module = native_module->module();
const i::Vector<const uint8_t> wire_bytes = native_module->wire_bytes();
const std::vector<i::wasm::WasmExport>& export_table = module->export_table;
size_t size = export_table.size();
ownvec<ExportType> exports = ownvec<ExportType>::make_uninitialized(size);
for (uint32_t i = 0; i < size; i++) {
const i::wasm::WasmExport& exp = export_table[i];
Name name = GetNameFromWireBytes(exp.name, wire_bytes);
own<ExternType> type = GetImportExportType(module, exp.kind, exp.index);
exports[i] = ExportType::make(std::move(name), std::move(type));
}
return exports;
}
auto Module::exports() const -> ownvec<ExportType> {
return ExportsImpl(impl(this)->v8_object());
}
auto Module::serialize() const -> vec<byte_t> {
i::wasm::NativeModule* native_module =
impl(this)->v8_object()->native_module();
i::Vector<const uint8_t> wire_bytes = native_module->wire_bytes();
size_t binary_size = wire_bytes.size();
// We can only serialize after top-tier compilation (TurboFan) finished.
native_module->compilation_state()->WaitForTopTierFinished();
i::wasm::WasmSerializer serializer(native_module);
size_t serial_size = serializer.GetSerializedNativeModuleSize();
size_t size_size = i::wasm::LEBHelper::sizeof_u64v(binary_size);
vec<byte_t> buffer =
vec<byte_t>::make_uninitialized(size_size + binary_size + serial_size);
byte_t* ptr = buffer.get();
i::wasm::LEBHelper::write_u64v(reinterpret_cast<uint8_t**>(&ptr),
binary_size);
std::memcpy(ptr, wire_bytes.begin(), binary_size);
ptr += binary_size;
if (!serializer.SerializeNativeModule(
{reinterpret_cast<uint8_t*>(ptr), serial_size})) {
buffer.reset();
}
return buffer;
}
auto Module::deserialize(Store* store_abs, const vec<byte_t>& serialized)
-> own<Module> {
StoreImpl* store = impl(store_abs);
i::Isolate* isolate = store->i_isolate();
i::HandleScope handle_scope(isolate);
const byte_t* ptr = serialized.get();
uint64_t binary_size = ReadLebU64(&ptr);
ptrdiff_t size_size = ptr - serialized.get();
size_t serial_size = serialized.size() - size_size - binary_size;
i::Handle<i::WasmModuleObject> module_obj;
size_t data_size = static_cast<size_t>(binary_size);
if (!i::wasm::DeserializeNativeModule(
isolate,
{reinterpret_cast<const uint8_t*>(ptr + data_size), serial_size},
{reinterpret_cast<const uint8_t*>(ptr), data_size}, {})
.ToHandle(&module_obj)) {
return nullptr;
}
return implement<Module>::type::make(store, module_obj);
}
// TODO(v8): do better when V8 can do better.
template <>
struct implement<Shared<Module>> {
using type = vec<byte_t>;
};
template <>
Shared<Module>::~Shared() {
impl(this)->~vec();
}
template <>
void Shared<Module>::operator delete(void* p) {
::operator delete(p);
}
auto Module::share() const -> own<Shared<Module>> {
auto shared = seal<Shared<Module>>(new vec<byte_t>(serialize()));
return make_own(shared);
}
auto Module::obtain(Store* store, const Shared<Module>* shared) -> own<Module> {
return Module::deserialize(store, *impl(shared));
}
// Externals
template <>
struct implement<Extern> {
using type = RefImpl<Extern, i::JSReceiver>;
};
Extern::~Extern() = default;
auto Extern::copy() const -> own<Extern> { return impl(this)->copy(); }
auto Extern::kind() const -> ExternKind {
i::Handle<i::JSReceiver> obj = impl(this)->v8_object();
if (i::WasmExportedFunction::IsWasmExportedFunction(*obj)) {
return wasm::EXTERN_FUNC;
}
if (obj->IsWasmGlobalObject()) return wasm::EXTERN_GLOBAL;
if (obj->IsWasmTableObject()) return wasm::EXTERN_TABLE;
if (obj->IsWasmMemoryObject()) return wasm::EXTERN_MEMORY;
UNREACHABLE();
}
auto Extern::type() const -> own<ExternType> {
switch (kind()) {
case EXTERN_FUNC:
return func()->type();
case EXTERN_GLOBAL:
return global()->type();
case EXTERN_TABLE:
return table()->type();
case EXTERN_MEMORY:
return memory()->type();
}
}
auto Extern::func() -> Func* {
return kind() == EXTERN_FUNC ? static_cast<Func*>(this) : nullptr;
}
auto Extern::global() -> Global* {
return kind() == EXTERN_GLOBAL ? static_cast<Global*>(this) : nullptr;
}
auto Extern::table() -> Table* {
return kind() == EXTERN_TABLE ? static_cast<Table*>(this) : nullptr;
}
auto Extern::memory() -> Memory* {
return kind() == EXTERN_MEMORY ? static_cast<Memory*>(this) : nullptr;
}
auto Extern::func() const -> const Func* {
return kind() == EXTERN_FUNC ? static_cast<const Func*>(this) : nullptr;
}
auto Extern::global() const -> const Global* {
return kind() == EXTERN_GLOBAL ? static_cast<const Global*>(this) : nullptr;
}
auto Extern::table() const -> const Table* {
return kind() == EXTERN_TABLE ? static_cast<const Table*>(this) : nullptr;
}
auto Extern::memory() const -> const Memory* {
return kind() == EXTERN_MEMORY ? static_cast<const Memory*>(this) : nullptr;
}
auto extern_to_v8(const Extern* ex) -> i::Handle<i::JSReceiver> {
return impl(ex)->v8_object();
}
// Function Instances
template <>
struct implement<Func> {
using type = RefImpl<Func, i::JSFunction>;
};
Func::~Func() = default;
auto Func::copy() const -> own<Func> { return impl(this)->copy(); }
struct FuncData {
Store* store;
own<FuncType> type;
enum Kind { kCallback, kCallbackWithEnv } kind;
union {
Func::callback callback;
Func::callback_with_env callback_with_env;
};
void (*finalizer)(void*);
void* env;
FuncData(Store* store, const FuncType* type, Kind kind)
: store(store),
type(type->copy()),
kind(kind),
finalizer(nullptr),
env(nullptr) {}
~FuncData() {
if (finalizer) (*finalizer)(env);
}
static i::Address v8_callback(i::Address host_data_foreign, i::Address argv);
};
namespace {
// TODO(jkummerow): Generalize for WasmExportedFunction and WasmCapiFunction.
class SignatureHelper : public i::AllStatic {
public:
// Use an invalid type as a marker separating params and results.
static constexpr i::wasm::ValueType kMarker = i::wasm::kWasmStmt;
static i::Handle<i::PodArray<i::wasm::ValueType>> Serialize(
i::Isolate* isolate, FuncType* type) {
int sig_size =
static_cast<int>(type->params().size() + type->results().size() + 1);
i::Handle<i::PodArray<i::wasm::ValueType>> sig =
i::PodArray<i::wasm::ValueType>::New(isolate, sig_size,
i::AllocationType::kOld);
int index = 0;
// TODO(jkummerow): Consider making vec<> range-based for-iterable.
for (size_t i = 0; i < type->results().size(); i++) {
sig->set(index++, WasmValKindToV8(type->results()[i]->kind()));
}
// {sig->set} needs to take the address of its second parameter,
// so we can't pass in the static const kMarker directly.
i::wasm::ValueType marker = kMarker;
sig->set(index++, marker);
for (size_t i = 0; i < type->params().size(); i++) {
sig->set(index++, WasmValKindToV8(type->params()[i]->kind()));
}
return sig;
}
static own<FuncType> Deserialize(i::PodArray<i::wasm::ValueType> sig) {
int result_arity = ResultArity(sig);
int param_arity = sig.length() - result_arity - 1;
ownvec<ValType> results = ownvec<ValType>::make_uninitialized(result_arity);
ownvec<ValType> params = ownvec<ValType>::make_uninitialized(param_arity);
int i = 0;
for (; i < result_arity; ++i) {
results[i] = ValType::make(V8ValueTypeToWasm(sig.get(i)));
}
i++; // Skip marker.
for (int p = 0; i < sig.length(); ++i, ++p) {
params[p] = ValType::make(V8ValueTypeToWasm(sig.get(i)));
}
return FuncType::make(std::move(params), std::move(results));
}
static int ResultArity(i::PodArray<i::wasm::ValueType> sig) {
int count = 0;
for (; count < sig.length(); count++) {
if (sig.get(count) == kMarker) return count;
}
UNREACHABLE();
}
static int ParamArity(i::PodArray<i::wasm::ValueType> sig) {
return sig.length() - ResultArity(sig) - 1;
}
static i::PodArray<i::wasm::ValueType> GetSig(
i::Handle<i::JSFunction> function) {
return i::WasmCapiFunction::cast(*function).GetSerializedSignature();
}
};
// Explicit instantiation makes the linker happy for component builds of
// wasm_api_tests.
constexpr i::wasm::ValueType SignatureHelper::kMarker;
auto make_func(Store* store_abs, FuncData* data) -> own<Func> {
auto store = impl(store_abs);
i::Isolate* isolate = store->i_isolate();
i::HandleScope handle_scope(isolate);
i::Handle<i::Managed<FuncData>> embedder_data =
i::Managed<FuncData>::FromRawPtr(isolate, sizeof(FuncData), data);
i::Handle<i::WasmCapiFunction> function = i::WasmCapiFunction::New(
isolate, reinterpret_cast<i::Address>(&FuncData::v8_callback),
embedder_data, SignatureHelper::Serialize(isolate, data->type.get()));
auto func = implement<Func>::type::make(store, function);
return func;
}
} // namespace
auto Func::make(Store* store, const FuncType* type, Func::callback callback)
-> own<Func> {
auto data = new FuncData(store, type, FuncData::kCallback);
data->callback = callback;
return make_func(store, data);
}
auto Func::make(Store* store, const FuncType* type, callback_with_env callback,
void* env, void (*finalizer)(void*)) -> own<Func> {
auto data = new FuncData(store, type, FuncData::kCallbackWithEnv);
data->callback_with_env = callback;
data->env = env;
data->finalizer = finalizer;
return make_func(store, data);
}
auto Func::type() const -> own<FuncType> {
i::Handle<i::JSFunction> func = impl(this)->v8_object();
if (i::WasmCapiFunction::IsWasmCapiFunction(*func)) {
return SignatureHelper::Deserialize(SignatureHelper::GetSig(func));
}
DCHECK(i::WasmExportedFunction::IsWasmExportedFunction(*func));
i::Handle<i::WasmExportedFunction> function =
i::Handle<i::WasmExportedFunction>::cast(func);
return FunctionSigToFuncType(
function->instance().module()->functions[function->function_index()].sig);
}
auto Func::param_arity() const -> size_t {
i::Handle<i::JSFunction> func = impl(this)->v8_object();
if (i::WasmCapiFunction::IsWasmCapiFunction(*func)) {
return SignatureHelper::ParamArity(SignatureHelper::GetSig(func));
}
DCHECK(i::WasmExportedFunction::IsWasmExportedFunction(*func));
i::Handle<i::WasmExportedFunction> function =
i::Handle<i::WasmExportedFunction>::cast(func);
const i::wasm::FunctionSig* sig =
function->instance().module()->functions[function->function_index()].sig;
return sig->parameter_count();
}
auto Func::result_arity() const -> size_t {
i::Handle<i::JSFunction> func = impl(this)->v8_object();
if (i::WasmCapiFunction::IsWasmCapiFunction(*func)) {
return SignatureHelper::ResultArity(SignatureHelper::GetSig(func));
}
DCHECK(i::WasmExportedFunction::IsWasmExportedFunction(*func));
i::Handle<i::WasmExportedFunction> function =
i::Handle<i::WasmExportedFunction>::cast(func);
const i::wasm::FunctionSig* sig =
function->instance().module()->functions[function->function_index()].sig;
return sig->return_count();
}
namespace {
own<Ref> V8RefValueToWasm(StoreImpl* store, i::Handle<i::Object> value) {
if (value->IsNull(store->i_isolate())) return nullptr;
return implement<Ref>::type::make(store,
i::Handle<i::JSReceiver>::cast(value));
}
i::Handle<i::Object> WasmRefToV8(i::Isolate* isolate, const Ref* ref) {
if (ref == nullptr) return i::ReadOnlyRoots(isolate).null_value_handle();
return impl(ref)->v8_object();
}
i::Handle<i::Object> CallTargetForCaching(i::Isolate* isolate,
i::Address real_call_target) {
if (i::kTaggedSize == i::kInt32Size) {
return isolate->factory()->NewForeign(real_call_target);
} else {
// 64-bit uncompressed platform.
return i::handle(i::Smi((real_call_target << i::kSmiTagSize) | i::kSmiTag),
isolate);
}
}
i::Address CallTargetFromCache(i::Object cached_call_target) {
if (i::kTaggedSize == i::kInt32Size) {
return i::Foreign::cast(cached_call_target).foreign_address();
} else {
// 64-bit uncompressed platform.
return cached_call_target.ptr() >> i::kSmiTagSize;
}
}
void PrepareFunctionData(i::Isolate* isolate,
i::Handle<i::WasmExportedFunctionData> function_data,
const i::wasm::FunctionSig* sig,
const i::wasm::WasmModule* module) {
// If the data is already populated, return immediately.
if (!function_data->c_wrapper_code().IsSmi()) return;
// Compile wrapper code.
i::Handle<i::Code> wrapper_code =
i::compiler::CompileCWasmEntry(isolate, sig, module);
function_data->set_c_wrapper_code(*wrapper_code);
// Compute packed args size.
function_data->set_packed_args_size(
i::wasm::CWasmArgumentsPacker::TotalSize(sig));
// Get call target (function table offset), and wrap it as a cacheable object
// (pseudo-Smi or Foreign, depending on platform).
i::Handle<i::Object> call_target = CallTargetForCaching(
isolate,
function_data->instance().GetCallTarget(function_data->function_index()));
function_data->set_wasm_call_target(*call_target);
}
void PushArgs(const i::wasm::FunctionSig* sig, const Val args[],
i::wasm::CWasmArgumentsPacker* packer, StoreImpl* store) {
for (size_t i = 0; i < sig->parameter_count(); i++) {
i::wasm::ValueType type = sig->GetParam(i);
switch (type.kind()) {
case i::wasm::ValueType::kI32:
packer->Push(args[i].i32());
break;
case i::wasm::ValueType::kI64:
packer->Push(args[i].i64());
break;
case i::wasm::ValueType::kF32:
packer->Push(args[i].f32());
break;
case i::wasm::ValueType::kF64:
packer->Push(args[i].f64());
break;
case i::wasm::ValueType::kRef:
case i::wasm::ValueType::kOptRef:
// TODO(7748): Make sure this works for all heap types.
packer->Push(WasmRefToV8(store->i_isolate(), args[i].ref())->ptr());
break;
case i::wasm::ValueType::kRtt:
case i::wasm::ValueType::kS128:
// TODO(7748): Implement.
UNIMPLEMENTED();
case i::wasm::ValueType::kI8:
case i::wasm::ValueType::kI16:
case i::wasm::ValueType::kStmt:
case i::wasm::ValueType::kBottom:
UNREACHABLE();
break;
}
}
}
void PopArgs(const i::wasm::FunctionSig* sig, Val results[],
i::wasm::CWasmArgumentsPacker* packer, StoreImpl* store) {
packer->Reset();
for (size_t i = 0; i < sig->return_count(); i++) {
i::wasm::ValueType type = sig->GetReturn(i);
switch (type.kind()) {
case i::wasm::ValueType::kI32:
results[i] = Val(packer->Pop<int32_t>());
break;
case i::wasm::ValueType::kI64:
results[i] = Val(packer->Pop<int64_t>());
break;
case i::wasm::ValueType::kF32:
results[i] = Val(packer->Pop<float>());
break;
case i::wasm::ValueType::kF64:
results[i] = Val(packer->Pop<double>());
break;
case i::wasm::ValueType::kRef:
case i::wasm::ValueType::kOptRef: {
// TODO(7748): Make sure this works for all heap types.
i::Address raw = packer->Pop<i::Address>();
i::Handle<i::Object> obj(i::Object(raw), store->i_isolate());
results[i] = Val(V8RefValueToWasm(store, obj));
break;
}
case i::wasm::ValueType::kRtt:
case i::wasm::ValueType::kS128:
// TODO(7748): Implement.
UNIMPLEMENTED();
case i::wasm::ValueType::kI8:
case i::wasm::ValueType::kI16:
case i::wasm::ValueType::kStmt:
case i::wasm::ValueType::kBottom:
UNREACHABLE();
break;
}
}
}
own<Trap> CallWasmCapiFunction(i::WasmCapiFunctionData data, const Val args[],
Val results[]) {
FuncData* func_data = i::Managed<FuncData>::cast(data.embedder_data()).raw();
if (func_data->kind == FuncData::kCallback) {
return (func_data->callback)(args, results);
}
DCHECK(func_data->kind == FuncData::kCallbackWithEnv);
return (func_data->callback_with_env)(func_data->env, args, results);
}
i::Handle<i::JSReceiver> GetProperException(
i::Isolate* isolate, i::Handle<i::Object> maybe_exception) {
if (maybe_exception->IsJSReceiver()) {
return i::Handle<i::JSReceiver>::cast(maybe_exception);
}
i::MaybeHandle<i::String> maybe_string =
i::Object::ToString(isolate, maybe_exception);
i::Handle<i::String> string = isolate->factory()->empty_string();
if (!maybe_string.ToHandle(&string)) {
// If converting the {maybe_exception} to string threw another exception,
// just give up and leave {string} as the empty string.
isolate->clear_pending_exception();
}
// {NewError} cannot fail when its input is a plain String, so we always
// get an Error object here.
return i::Handle<i::JSReceiver>::cast(
isolate->factory()->NewError(isolate->error_function(), string));
}
} // namespace
auto Func::call(const Val args[], Val results[]) const -> own<Trap> {
auto func = impl(this);
auto store = func->store();
auto isolate = store->i_isolate();
i::HandleScope handle_scope(isolate);
i::Object raw_function_data =
func->v8_object()->shared().function_data(v8::kAcquireLoad);
// WasmCapiFunctions can be called directly.
if (raw_function_data.IsWasmCapiFunctionData()) {
return CallWasmCapiFunction(
i::WasmCapiFunctionData::cast(raw_function_data), args, results);
}
DCHECK(raw_function_data.IsWasmExportedFunctionData());
i::Handle<i::WasmExportedFunctionData> function_data(
i::WasmExportedFunctionData::cast(raw_function_data), isolate);
i::Handle<i::WasmInstanceObject> instance(function_data->instance(), isolate);
int function_index = function_data->function_index();
// Caching {sig} would give a ~10% reduction in overhead.
const i::wasm::FunctionSig* sig =
instance->module()->functions[function_index].sig;
PrepareFunctionData(isolate, function_data, sig, instance->module());
i::Handle<i::Code> wrapper_code = i::Handle<i::Code>(
i::Code::cast(function_data->c_wrapper_code()), isolate);
i::Address call_target =
CallTargetFromCache(function_data->wasm_call_target());
i::wasm::CWasmArgumentsPacker packer(function_data->packed_args_size());
PushArgs(sig, args, &packer, store);
i::Handle<i::Object> object_ref = instance;
if (function_index <
static_cast<int>(instance->module()->num_imported_functions)) {
object_ref = i::handle(
instance->imported_function_refs().get(function_index), isolate);
if (object_ref->IsTuple2()) {
i::JSFunction jsfunc =
i::JSFunction::cast(i::Tuple2::cast(*object_ref).value2());
i::Object data = jsfunc.shared().function_data(v8::kAcquireLoad);
if (data.IsWasmCapiFunctionData()) {
return CallWasmCapiFunction(i::WasmCapiFunctionData::cast(data), args,
results);
}
// TODO(jkummerow): Imported and then re-exported JavaScript functions
// are not supported yet. If we support C-API + JavaScript, we'll need
// to call those here.
UNIMPLEMENTED();
} else {
// A WasmFunction from another module.
DCHECK(object_ref->IsWasmInstanceObject());
}
}
i::Execution::CallWasm(isolate, wrapper_code, call_target, object_ref,
packer.argv());
if (isolate->has_pending_exception()) {
i::Handle<i::Object> exception(isolate->pending_exception(), isolate);
isolate->clear_pending_exception();
return implement<Trap>::type::make(store,
GetProperException(isolate, exception));
}
PopArgs(sig, results, &packer, store);
return nullptr;
}
i::Address FuncData::v8_callback(i::Address host_data_foreign,
i::Address argv) {
FuncData* self =
i::Managed<FuncData>::cast(i::Object(host_data_foreign)).raw();
StoreImpl* store = impl(self->store);
i::Isolate* isolate = store->i_isolate();
i::HandleScope scope(isolate);
const ownvec<ValType>& param_types = self->type->params();
const ownvec<ValType>& result_types = self->type->results();
int num_param_types = static_cast<int>(param_types.size());
int num_result_types = static_cast<int>(result_types.size());
std::unique_ptr<Val[]> params(new Val[num_param_types]);
std::unique_ptr<Val[]> results(new Val[num_result_types]);
i::Address p = argv;
for (int i = 0; i < num_param_types; ++i) {
switch (param_types[i]->kind()) {
case I32:
params[i] = Val(v8::base::ReadUnalignedValue<int32_t>(p));
p += 4;
break;
case I64:
params[i] = Val(v8::base::ReadUnalignedValue<int64_t>(p));
p += 8;
break;
case F32:
params[i] = Val(v8::base::ReadUnalignedValue<float32_t>(p));
p += 4;
break;
case F64:
params[i] = Val(v8::base::ReadUnalignedValue<float64_t>(p));
p += 8;
break;
case ANYREF:
case FUNCREF: {
i::Address raw = v8::base::ReadUnalignedValue<i::Address>(p);
p += sizeof(raw);
i::Handle<i::Object> obj(i::Object(raw), isolate);
params[i] = Val(V8RefValueToWasm(store, obj));
break;
}
}
}
own<Trap> trap;
if (self->kind == kCallbackWithEnv) {
trap = self->callback_with_env(self->env, params.get(), results.get());
} else {
trap = self->callback(params.get(), results.get());
}
if (trap) {
isolate->Throw(*impl(trap.get())->v8_object());
i::Object ex = isolate->pending_exception();
isolate->clear_pending_exception();
return ex.ptr();
}
p = argv;
for (int i = 0; i < num_result_types; ++i) {
switch (result_types[i]->kind()) {
case I32:
v8::base::WriteUnalignedValue(p, results[i].i32());
p += 4;
break;
case I64:
v8::base::WriteUnalignedValue(p, results[i].i64());
p += 8;
break;
case F32:
v8::base::WriteUnalignedValue(p, results[i].f32());
p += 4;
break;
case F64:
v8::base::WriteUnalignedValue(p, results[i].f64());
p += 8;
break;
case ANYREF:
case FUNCREF: {
v8::base::WriteUnalignedValue(
p, WasmRefToV8(isolate, results[i].ref())->ptr());
p += sizeof(i::Address);
break;
}
}
}
return i::kNullAddress;
}
// Global Instances
template <>
struct implement<Global> {
using type = RefImpl<Global, i::WasmGlobalObject>;
};
Global::~Global() = default;
auto Global::copy() const -> own<Global> { return impl(this)->copy(); }
auto Global::make(Store* store_abs, const GlobalType* type, const Val& val)
-> own<Global> {
StoreImpl* store = impl(store_abs);
i::Isolate* isolate = store->i_isolate();
i::HandleScope handle_scope(isolate);
DCHECK_EQ(type->content()->kind(), val.kind());
i::wasm::ValueType i_type = WasmValKindToV8(type->content()->kind());
bool is_mutable = (type->mutability() == VAR);
const int32_t offset = 0;
i::Handle<i::WasmGlobalObject> obj =
i::WasmGlobalObject::New(isolate, i::Handle<i::WasmInstanceObject>(),
i::MaybeHandle<i::JSArrayBuffer>(),
i::MaybeHandle<i::FixedArray>(), i_type, offset,
is_mutable)
.ToHandleChecked();
auto global = implement<Global>::type::make(store, obj);
assert(global);
global->set(val);
return global;
}
auto Global::type() const -> own<GlobalType> {
i::Handle<i::WasmGlobalObject> v8_global = impl(this)->v8_object();
ValKind kind = V8ValueTypeToWasm(v8_global->type());
Mutability mutability = v8_global->is_mutable() ? VAR : CONST;
return GlobalType::make(ValType::make(kind), mutability);
}
auto Global::get() const -> Val {
i::Handle<i::WasmGlobalObject> v8_global = impl(this)->v8_object();
switch (v8_global->type().kind()) {
case i::wasm::ValueType::kI32:
return Val(v8_global->GetI32());
case i::wasm::ValueType::kI64:
return Val(v8_global->GetI64());
case i::wasm::ValueType::kF32:
return Val(v8_global->GetF32());
case i::wasm::ValueType::kF64:
return Val(v8_global->GetF64());
case i::wasm::ValueType::kRef:
case i::wasm::ValueType::kOptRef: {
// TODO(7748): Make sure this works for all heap types.
StoreImpl* store = impl(this)->store();
i::HandleScope scope(store->i_isolate());
return Val(V8RefValueToWasm(store, v8_global->GetRef()));
}
case i::wasm::ValueType::kRtt:
case i::wasm::ValueType::kS128:
// TODO(7748): Implement these.
UNIMPLEMENTED();
case i::wasm::ValueType::kI8:
case i::wasm::ValueType::kI16:
case i::wasm::ValueType::kStmt:
case i::wasm::ValueType::kBottom:
UNREACHABLE();
}
}
void Global::set(const Val& val) {
i::Handle<i::WasmGlobalObject> v8_global = impl(this)->v8_object();
switch (val.kind()) {
case I32:
return v8_global->SetI32(val.i32());
case I64:
return v8_global->SetI64(val.i64());
case F32:
return v8_global->SetF32(val.f32());
case F64:
return v8_global->SetF64(val.f64());
case ANYREF:
return v8_global->SetExternRef(
WasmRefToV8(impl(this)->store()->i_isolate(), val.ref()));
case FUNCREF: {
i::Isolate* isolate = impl(this)->store()->i_isolate();
bool result =
v8_global->SetFuncRef(isolate, WasmRefToV8(isolate, val.ref()));
DCHECK(result);
USE(result);
return;
}
default:
// TODO(wasm+): support new value types
UNREACHABLE();
}
}
// Table Instances
template <>
struct implement<Table> {
using type = RefImpl<Table, i::WasmTableObject>;
};
Table::~Table() = default;
auto Table::copy() const -> own<Table> { return impl(this)->copy(); }
auto Table::make(Store* store_abs, const TableType* type, const Ref* ref)
-> own<Table> {
StoreImpl* store = impl(store_abs);
i::Isolate* isolate = store->i_isolate();
i::HandleScope scope(isolate);
// Get "element".
i::wasm::ValueType i_type;
switch (type->element()->kind()) {
case FUNCREF:
i_type = i::wasm::kWasmFuncRef;
break;
case ANYREF:
// See Engine::make().
DCHECK(i::wasm::WasmFeatures::FromFlags().has_reftypes());
i_type = i::wasm::kWasmExternRef;
break;
default:
UNREACHABLE();
return nullptr;
}
const Limits& limits = type->limits();
uint32_t minimum = limits.min;
if (minimum > i::wasm::max_table_init_entries()) return nullptr;
uint32_t maximum = limits.max;
bool has_maximum = false;
if (maximum != Limits(0).max) {
has_maximum = true;
if (maximum < minimum) return nullptr;
if (maximum > i::wasm::max_table_init_entries()) return nullptr;
}
i::Handle<i::FixedArray> backing_store;
i::Handle<i::WasmTableObject> table_obj = i::WasmTableObject::New(
isolate, i::Handle<i::WasmInstanceObject>(), i_type, minimum, has_maximum,
maximum, &backing_store);
if (ref) {
i::Handle<i::JSReceiver> init = impl(ref)->v8_object();
DCHECK(i::wasm::max_table_init_entries() <= i::kMaxInt);
for (int i = 0; i < static_cast<int>(minimum); i++) {
// This doesn't call WasmTableObject::Set because the table has
// just been created, so it can't be imported by any instances
// yet that might require updating.
DCHECK_EQ(table_obj->dispatch_tables().length(), 0);
backing_store->set(i, *init);
}
}
return implement<Table>::type::make(store, table_obj);
}
auto Table::type() const -> own<TableType> {
i::Handle<i::WasmTableObject> table = impl(this)->v8_object();
uint32_t min = table->current_length();
uint32_t max;
if (!table->maximum_length().ToUint32(&max)) max = 0xFFFFFFFFu;
ValKind kind;
switch (table->type().heap_representation()) {
case i::wasm::HeapType::kFunc:
kind = FUNCREF;
break;
case i::wasm::HeapType::kExtern:
kind = ANYREF;
break;
default:
UNREACHABLE();
}
return TableType::make(ValType::make(kind), Limits(min, max));
}
auto Table::get(size_t index) const -> own<Ref> {
i::Handle<i::WasmTableObject> table = impl(this)->v8_object();
if (index >= static_cast<size_t>(table->current_length())) return own<Ref>();
i::Isolate* isolate = table->GetIsolate();
i::HandleScope handle_scope(isolate);
i::Handle<i::Object> result =
i::WasmTableObject::Get(isolate, table, static_cast<uint32_t>(index));
// TODO(jkummerow): If we support both JavaScript and the C-API at the same
// time, we need to handle Smis and other JS primitives here.
DCHECK(result->IsNull(isolate) || result->IsJSReceiver());
return V8RefValueToWasm(impl(this)->store(), result);
}
auto Table::set(size_t index, const Ref* ref) -> bool {
i::Handle<i::WasmTableObject> table = impl(this)->v8_object();
if (index >= static_cast<size_t>(table->current_length())) return false;
i::Isolate* isolate = table->GetIsolate();
i::HandleScope handle_scope(isolate);
i::Handle<i::Object> obj = WasmRefToV8(isolate, ref);
i::WasmTableObject::Set(isolate, table, static_cast<uint32_t>(index), obj);
return true;
}
// TODO(jkummerow): Having Table::size_t shadowing "std" size_t is ugly.
auto Table::size() const -> size_t {
return impl(this)->v8_object()->current_length();
}
auto Table::grow(size_t delta, const Ref* ref) -> bool {
i::Handle<i::WasmTableObject> table = impl(this)->v8_object();
i::Isolate* isolate = table->GetIsolate();
i::HandleScope scope(isolate);
i::Handle<i::Object> init_value = WasmRefToV8(isolate, ref);
int result = i::WasmTableObject::Grow(
isolate, table, static_cast<uint32_t>(delta), init_value);
return result >= 0;
}
// Memory Instances
template <>
struct implement<Memory> {
using type = RefImpl<Memory, i::WasmMemoryObject>;
};
Memory::~Memory() = default;
auto Memory::copy() const -> own<Memory> { return impl(this)->copy(); }
auto Memory::make(Store* store_abs, const MemoryType* type) -> own<Memory> {
StoreImpl* store = impl(store_abs);
i::Isolate* isolate = store->i_isolate();
i::HandleScope scope(isolate);
const Limits& limits = type->limits();
uint32_t minimum = limits.min;
// The max_mem_pages limit is only spec'ed for JS embeddings, so we'll
// directly use the maximum pages limit here.
if (minimum > i::wasm::kSpecMaxMemoryPages) return nullptr;
uint32_t maximum = limits.max;
if (maximum != Limits(0).max) {
if (maximum < minimum) return nullptr;
if (maximum > i::wasm::kSpecMaxMemoryPages) return nullptr;
}
// TODO(wasm+): Support shared memory.
i::SharedFlag shared = i::SharedFlag::kNotShared;
i::Handle<i::WasmMemoryObject> memory_obj;
if (!i::WasmMemoryObject::New(isolate, minimum, maximum, shared)
.ToHandle(&memory_obj)) {
return own<Memory>();
}
return implement<Memory>::type::make(store, memory_obj);
}
auto Memory::type() const -> own<MemoryType> {
i::Handle<i::WasmMemoryObject> memory = impl(this)->v8_object();
uint32_t min = static_cast<uint32_t>(memory->array_buffer().byte_length() /
i::wasm::kWasmPageSize);
uint32_t max =
memory->has_maximum_pages() ? memory->maximum_pages() : 0xFFFFFFFFu;
return MemoryType::make(Limits(min, max));
}
auto Memory::data() const -> byte_t* {
return reinterpret_cast<byte_t*>(
impl(this)->v8_object()->array_buffer().backing_store());
}
auto Memory::data_size() const -> size_t {
return impl(this)->v8_object()->array_buffer().byte_length();
}
auto Memory::size() const -> pages_t {
return static_cast<pages_t>(
impl(this)->v8_object()->array_buffer().byte_length() /
i::wasm::kWasmPageSize);
}
auto Memory::grow(pages_t delta) -> bool {
i::Handle<i::WasmMemoryObject> memory = impl(this)->v8_object();
i::Isolate* isolate = memory->GetIsolate();
i::HandleScope handle_scope(isolate);
int32_t old = i::WasmMemoryObject::Grow(isolate, memory, delta);
return old != -1;
}
// Module Instances
template <>
struct implement<Instance> {
using type = RefImpl<Instance, i::WasmInstanceObject>;
};
Instance::~Instance() = default;
auto Instance::copy() const -> own<Instance> { return impl(this)->copy(); }
own<Instance> Instance::make(Store* store_abs, const Module* module_abs,
const Extern* const imports[], own<Trap>* trap) {
StoreImpl* store = impl(store_abs);
const implement<Module>::type* module = impl(module_abs);
i::Isolate* isolate = store->i_isolate();
i::HandleScope handle_scope(isolate);
DCHECK_EQ(module->v8_object()->GetIsolate(), isolate);
if (trap) *trap = nullptr;
ownvec<ImportType> import_types = module_abs->imports();
i::Handle<i::JSObject> imports_obj =
isolate->factory()->NewJSObject(isolate->object_function());
for (size_t i = 0; i < import_types.size(); ++i) {
ImportType* type = import_types[i].get();
i::Handle<i::String> module_str = VecToString(isolate, type->module());
i::Handle<i::String> name_str = VecToString(isolate, type->name());
i::Handle<i::JSObject> module_obj;
i::LookupIterator module_it(isolate, imports_obj, module_str,
i::LookupIterator::OWN_SKIP_INTERCEPTOR);
if (i::JSObject::HasProperty(&module_it).ToChecked()) {
module_obj = i::Handle<i::JSObject>::cast(
i::Object::GetProperty(&module_it).ToHandleChecked());
} else {
module_obj = isolate->factory()->NewJSObject(isolate->object_function());
ignore(
i::Object::SetProperty(isolate, imports_obj, module_str, module_obj));
}
ignore(i::Object::SetProperty(isolate, module_obj, name_str,
impl(imports[i])->v8_object()));
}
i::wasm::ErrorThrower thrower(isolate, "instantiation");
i::MaybeHandle<i::WasmInstanceObject> instance_obj =
isolate->wasm_engine()->SyncInstantiate(
isolate, &thrower, module->v8_object(), imports_obj,
i::MaybeHandle<i::JSArrayBuffer>());
if (trap) {
if (thrower.error()) {
*trap = implement<Trap>::type::make(
store, GetProperException(isolate, thrower.Reify()));
DCHECK(!thrower.error()); // Reify() called Reset().
DCHECK(!isolate->has_pending_exception()); // Hasn't been thrown yet.
return own<Instance>();
} else if (isolate->has_pending_exception()) {
i::Handle<i::Object> maybe_exception(isolate->pending_exception(),
isolate);
*trap = implement<Trap>::type::make(
store, GetProperException(isolate, maybe_exception));
isolate->clear_pending_exception();
return own<Instance>();
}
} else if (instance_obj.is_null()) {
// If no {trap} output is specified, silently swallow all errors.
thrower.Reset();
isolate->clear_pending_exception();
return own<Instance>();
}
return implement<Instance>::type::make(store, instance_obj.ToHandleChecked());
}
namespace {
own<Instance> GetInstance(StoreImpl* store,
i::Handle<i::WasmInstanceObject> instance) {
return implement<Instance>::type::make(store, instance);
}
} // namespace
auto Instance::exports() const -> ownvec<Extern> {
const implement<Instance>::type* instance = impl(this);
StoreImpl* store = instance->store();
i::Isolate* isolate = store->i_isolate();
i::HandleScope handle_scope(isolate);
i::Handle<i::WasmInstanceObject> instance_obj = instance->v8_object();
i::Handle<i::WasmModuleObject> module_obj(instance_obj->module_object(),
isolate);
i::Handle<i::JSObject> exports_obj(instance_obj->exports_object(), isolate);
ownvec<ExportType> export_types = ExportsImpl(module_obj);
ownvec<Extern> exports =
ownvec<Extern>::make_uninitialized(export_types.size());
if (!exports) return ownvec<Extern>::invalid();
for (size_t i = 0; i < export_types.size(); ++i) {
auto& name = export_types[i]->name();
i::Handle<i::String> name_str = VecToString(isolate, name);
i::Handle<i::Object> obj =
i::Object::GetProperty(isolate, exports_obj, name_str)
.ToHandleChecked();
const ExternType* type = export_types[i]->type();
switch (type->kind()) {
case EXTERN_FUNC: {
DCHECK(i::WasmExportedFunction::IsWasmExportedFunction(*obj));
exports[i] = implement<Func>::type::make(
store, i::Handle<i::WasmExportedFunction>::cast(obj));
} break;
case EXTERN_GLOBAL: {
exports[i] = implement<Global>::type::make(
store, i::Handle<i::WasmGlobalObject>::cast(obj));
} break;
case EXTERN_TABLE: {
exports[i] = implement<Table>::type::make(
store, i::Handle<i::WasmTableObject>::cast(obj));
} break;
case EXTERN_MEMORY: {
exports[i] = implement<Memory>::type::make(
store, i::Handle<i::WasmMemoryObject>::cast(obj));
} break;
}
}
return exports;
}
///////////////////////////////////////////////////////////////////////////////
} // namespace wasm
// BEGIN FILE wasm-c.cc
extern "C" {
///////////////////////////////////////////////////////////////////////////////
// Auxiliaries
// Backing implementation
extern "C++" {
template <class T>
struct borrowed_vec {
wasm::vec<T> it;
explicit borrowed_vec(wasm::vec<T>&& v) : it(std::move(v)) {}
borrowed_vec(borrowed_vec<T>&& that) : it(std::move(that.it)) {}
~borrowed_vec() { it.release(); }
};
} // extern "C++"
#define WASM_DEFINE_OWN(name, Name) \
struct wasm_##name##_t : Name {}; \
\
void wasm_##name##_delete(wasm_##name##_t* x) { delete x; } \
\
extern "C++" inline auto hide_##name(Name* x)->wasm_##name##_t* { \
return static_cast<wasm_##name##_t*>(x); \
} \
extern "C++" inline auto hide_##name(const Name* x) \
->const wasm_##name##_t* { \
return static_cast<const wasm_##name##_t*>(x); \
} \
extern "C++" inline auto reveal_##name(wasm_##name##_t* x)->Name* { \
return x; \
} \
extern "C++" inline auto reveal_##name(const wasm_##name##_t* x) \
->const Name* { \
return x; \
} \
extern "C++" inline auto get_##name(wasm::own<Name>& x)->wasm_##name##_t* { \
return hide_##name(x.get()); \
} \
extern "C++" inline auto get_##name(const wasm::own<Name>& x) \
->const wasm_##name##_t* { \
return hide_##name(x.get()); \
} \
extern "C++" inline auto release_##name(wasm::own<Name>&& x) \
->wasm_##name##_t* { \
return hide_##name(x.release()); \
} \
extern "C++" inline auto adopt_##name(wasm_##name##_t* x)->wasm::own<Name> { \
return make_own(x); \
}
// Vectors
#define WASM_DEFINE_VEC_BASE(name, Name, vec, ptr_or_none) \
static_assert(sizeof(wasm_##name##_vec_t) == sizeof(vec<Name>), \
"C/C++ incompatibility"); \
static_assert( \
sizeof(wasm_##name##_t ptr_or_none) == sizeof(vec<Name>::elem_type), \
"C/C++ incompatibility"); \
extern "C++" inline auto hide_##name##_vec(vec<Name>& v) \
->wasm_##name##_vec_t* { \
return reinterpret_cast<wasm_##name##_vec_t*>(&v); \
} \
extern "C++" inline auto hide_##name##_vec(const vec<Name>& v) \
->const wasm_##name##_vec_t* { \
return reinterpret_cast<const wasm_##name##_vec_t*>(&v); \
} \
extern "C++" inline auto hide_##name##_vec(vec<Name>::elem_type* v) \
->wasm_##name##_t ptr_or_none* { \
return reinterpret_cast<wasm_##name##_t ptr_or_none*>(v); \
} \
extern "C++" inline auto hide_##name##_vec(const vec<Name>::elem_type* v) \
->wasm_##name##_t ptr_or_none const* { \
return reinterpret_cast<wasm_##name##_t ptr_or_none const*>(v); \
} \
extern "C++" inline auto reveal_##name##_vec(wasm_##name##_t ptr_or_none* v) \
->vec<Name>::elem_type* { \
return reinterpret_cast<vec<Name>::elem_type*>(v); \
} \
extern "C++" inline auto reveal_##name##_vec( \
wasm_##name##_t ptr_or_none const* v) \
->const vec<Name>::elem_type* { \
return reinterpret_cast<const vec<Name>::elem_type*>(v); \
} \
extern "C++" inline auto get_##name##_vec(vec<Name>& v) \
->wasm_##name##_vec_t { \
wasm_##name##_vec_t v2 = {v.size(), hide_##name##_vec(v.get())}; \
return v2; \
} \
extern "C++" inline auto get_##name##_vec(const vec<Name>& v) \
->const wasm_##name##_vec_t { \
wasm_##name##_vec_t v2 = { \
v.size(), \
const_cast<wasm_##name##_t ptr_or_none*>(hide_##name##_vec(v.get()))}; \
return v2; \
} \
extern "C++" inline auto release_##name##_vec(vec<Name>&& v) \
->wasm_##name##_vec_t { \
wasm_##name##_vec_t v2 = {v.size(), hide_##name##_vec(v.release())}; \
return v2; \
} \
extern "C++" inline auto adopt_##name##_vec(wasm_##name##_vec_t* v) \
->vec<Name> { \
return vec<Name>::adopt(v->size, reveal_##name##_vec(v->data)); \
} \
extern "C++" inline auto borrow_##name##_vec(const wasm_##name##_vec_t* v) \
->borrowed_vec<vec<Name>::elem_type> { \
return borrowed_vec<vec<Name>::elem_type>( \
vec<Name>::adopt(v->size, reveal_##name##_vec(v->data))); \
} \
\
void wasm_##name##_vec_new_uninitialized(wasm_##name##_vec_t* out, \
size_t size) { \
*out = release_##name##_vec(vec<Name>::make_uninitialized(size)); \
} \
void wasm_##name##_vec_new_empty(wasm_##name##_vec_t* out) { \
wasm_##name##_vec_new_uninitialized(out, 0); \
} \
\
void wasm_##name##_vec_delete(wasm_##name##_vec_t* v) { \
adopt_##name##_vec(v); \
}
// Vectors with no ownership management of elements
#define WASM_DEFINE_VEC_PLAIN(name, Name) \
WASM_DEFINE_VEC_BASE(name, Name, \
wasm::vec, ) /* NOLINT(whitespace/parens) */ \
\
void wasm_##name##_vec_new(wasm_##name##_vec_t* out, size_t size, \
const wasm_##name##_t data[]) { \
auto v2 = wasm::vec<Name>::make_uninitialized(size); \
if (v2.size() != 0) { \
memcpy(v2.get(), data, size * sizeof(wasm_##name##_t)); \
} \
*out = release_##name##_vec(std::move(v2)); \
} \
\
void wasm_##name##_vec_copy(wasm_##name##_vec_t* out, \
wasm_##name##_vec_t* v) { \
wasm_##name##_vec_new(out, v->size, v->data); \
}
// Vectors that own their elements
#define WASM_DEFINE_VEC_OWN(name, Name) \
WASM_DEFINE_VEC_BASE(name, Name, wasm::ownvec, *) \
\
void wasm_##name##_vec_new(wasm_##name##_vec_t* out, size_t size, \
wasm_##name##_t* const data[]) { \
auto v2 = wasm::ownvec<Name>::make_uninitialized(size); \
for (size_t i = 0; i < v2.size(); ++i) { \
v2[i] = adopt_##name(data[i]); \
} \
*out = release_##name##_vec(std::move(v2)); \
} \
\
void wasm_##name##_vec_copy(wasm_##name##_vec_t* out, \
wasm_##name##_vec_t* v) { \
auto v2 = wasm::ownvec<Name>::make_uninitialized(v->size); \
for (size_t i = 0; i < v2.size(); ++i) { \
v2[i] = adopt_##name(wasm_##name##_copy(v->data[i])); \
} \
*out = release_##name##_vec(std::move(v2)); \
}
extern "C++" {
template <class T>
inline auto is_empty(T* p) -> bool {
return !p;
}
}
// Byte vectors
using byte = byte_t;
WASM_DEFINE_VEC_PLAIN(byte, byte)
///////////////////////////////////////////////////////////////////////////////
// Runtime Environment
// Configuration
WASM_DEFINE_OWN(config, wasm::Config)
wasm_config_t* wasm_config_new() {
return release_config(wasm::Config::make());
}
// Engine
WASM_DEFINE_OWN(engine, wasm::Engine)
wasm_engine_t* wasm_engine_new() {
return release_engine(wasm::Engine::make());
}
wasm_engine_t* wasm_engine_new_with_config(wasm_config_t* config) {
return release_engine(wasm::Engine::make(adopt_config(config)));
}
// Stores
WASM_DEFINE_OWN(store, wasm::Store)
wasm_store_t* wasm_store_new(wasm_engine_t* engine) {
return release_store(wasm::Store::make(engine));
}
///////////////////////////////////////////////////////////////////////////////
// Type Representations
// Type attributes
extern "C++" inline auto hide_mutability(wasm::Mutability mutability)
-> wasm_mutability_t {
return static_cast<wasm_mutability_t>(mutability);
}
extern "C++" inline auto reveal_mutability(wasm_mutability_t mutability)
-> wasm::Mutability {
return static_cast<wasm::Mutability>(mutability);
}
extern "C++" inline auto hide_limits(const wasm::Limits& limits)
-> const wasm_limits_t* {
return reinterpret_cast<const wasm_limits_t*>(&limits);
}
extern "C++" inline auto reveal_limits(wasm_limits_t limits) -> wasm::Limits {
return wasm::Limits(limits.min, limits.max);
}
extern "C++" inline auto hide_valkind(wasm::ValKind kind) -> wasm_valkind_t {
return static_cast<wasm_valkind_t>(kind);
}
extern "C++" inline auto reveal_valkind(wasm_valkind_t kind) -> wasm::ValKind {
return static_cast<wasm::ValKind>(kind);
}
extern "C++" inline auto hide_externkind(wasm::ExternKind kind)
-> wasm_externkind_t {
return static_cast<wasm_externkind_t>(kind);
}
extern "C++" inline auto reveal_externkind(wasm_externkind_t kind)
-> wasm::ExternKind {
return static_cast<wasm::ExternKind>(kind);
}
// Generic
#define WASM_DEFINE_TYPE(name, Name) \
WASM_DEFINE_OWN(name, Name) \
WASM_DEFINE_VEC_OWN(name, Name) \
\
wasm_##name##_t* wasm_##name##_copy(wasm_##name##_t* t) { \
return release_##name(t->copy()); \
}
// Value Types
WASM_DEFINE_TYPE(valtype, wasm::ValType)
wasm_valtype_t* wasm_valtype_new(wasm_valkind_t k) {
return release_valtype(wasm::ValType::make(reveal_valkind(k)));
}
wasm_valkind_t wasm_valtype_kind(const wasm_valtype_t* t) {
return hide_valkind(t->kind());
}
// Function Types
WASM_DEFINE_TYPE(functype, wasm::FuncType)
wasm_functype_t* wasm_functype_new(wasm_valtype_vec_t* params,
wasm_valtype_vec_t* results) {
return release_functype(wasm::FuncType::make(adopt_valtype_vec(params),
adopt_valtype_vec(results)));
}
const wasm_valtype_vec_t* wasm_functype_params(const wasm_functype_t* ft) {
return hide_valtype_vec(ft->params());
}
const wasm_valtype_vec_t* wasm_functype_results(const wasm_functype_t* ft) {
return hide_valtype_vec(ft->results());
}
// Global Types
WASM_DEFINE_TYPE(globaltype, wasm::GlobalType)
wasm_globaltype_t* wasm_globaltype_new(wasm_valtype_t* content,
wasm_mutability_t mutability) {
return release_globaltype(wasm::GlobalType::make(
adopt_valtype(content), reveal_mutability(mutability)));
}
const wasm_valtype_t* wasm_globaltype_content(const wasm_globaltype_t* gt) {
return hide_valtype(gt->content());
}
wasm_mutability_t wasm_globaltype_mutability(const wasm_globaltype_t* gt) {
return hide_mutability(gt->mutability());
}
// Table Types
WASM_DEFINE_TYPE(tabletype, wasm::TableType)
wasm_tabletype_t* wasm_tabletype_new(wasm_valtype_t* element,
const wasm_limits_t* limits) {
return release_tabletype(
wasm::TableType::make(adopt_valtype(element), reveal_limits(*limits)));
}
const wasm_valtype_t* wasm_tabletype_element(const wasm_tabletype_t* tt) {
return hide_valtype(tt->element());
}
const wasm_limits_t* wasm_tabletype_limits(const wasm_tabletype_t* tt) {
return hide_limits(tt->limits());
}
// Memory Types
WASM_DEFINE_TYPE(memorytype, wasm::MemoryType)
wasm_memorytype_t* wasm_memorytype_new(const wasm_limits_t* limits) {
return release_memorytype(wasm::MemoryType::make(reveal_limits(*limits)));
}
const wasm_limits_t* wasm_memorytype_limits(const wasm_memorytype_t* mt) {
return hide_limits(mt->limits());
}
// Extern Types
WASM_DEFINE_TYPE(externtype, wasm::ExternType)
wasm_externkind_t wasm_externtype_kind(const wasm_externtype_t* et) {
return hide_externkind(et->kind());
}
wasm_externtype_t* wasm_functype_as_externtype(wasm_functype_t* ft) {
return hide_externtype(static_cast<wasm::ExternType*>(ft));
}
wasm_externtype_t* wasm_globaltype_as_externtype(wasm_globaltype_t* gt) {
return hide_externtype(static_cast<wasm::ExternType*>(gt));
}
wasm_externtype_t* wasm_tabletype_as_externtype(wasm_tabletype_t* tt) {
return hide_externtype(static_cast<wasm::ExternType*>(tt));
}
wasm_externtype_t* wasm_memorytype_as_externtype(wasm_memorytype_t* mt) {
return hide_externtype(static_cast<wasm::ExternType*>(mt));
}
const wasm_externtype_t* wasm_functype_as_externtype_const(
const wasm_functype_t* ft) {
return hide_externtype(static_cast<const wasm::ExternType*>(ft));
}
const wasm_externtype_t* wasm_globaltype_as_externtype_const(
const wasm_globaltype_t* gt) {
return hide_externtype(static_cast<const wasm::ExternType*>(gt));
}
const wasm_externtype_t* wasm_tabletype_as_externtype_const(
const wasm_tabletype_t* tt) {
return hide_externtype(static_cast<const wasm::ExternType*>(tt));
}
const wasm_externtype_t* wasm_memorytype_as_externtype_const(
const wasm_memorytype_t* mt) {
return hide_externtype(static_cast<const wasm::ExternType*>(mt));
}
wasm_functype_t* wasm_externtype_as_functype(wasm_externtype_t* et) {
return et->kind() == wasm::EXTERN_FUNC
? hide_functype(
static_cast<wasm::FuncType*>(reveal_externtype(et)))
: nullptr;
}
wasm_globaltype_t* wasm_externtype_as_globaltype(wasm_externtype_t* et) {
return et->kind() == wasm::EXTERN_GLOBAL
? hide_globaltype(
static_cast<wasm::GlobalType*>(reveal_externtype(et)))
: nullptr;
}
wasm_tabletype_t* wasm_externtype_as_tabletype(wasm_externtype_t* et) {
return et->kind() == wasm::EXTERN_TABLE
? hide_tabletype(
static_cast<wasm::TableType*>(reveal_externtype(et)))
: nullptr;
}
wasm_memorytype_t* wasm_externtype_as_memorytype(wasm_externtype_t* et) {
return et->kind() == wasm::EXTERN_MEMORY
? hide_memorytype(
static_cast<wasm::MemoryType*>(reveal_externtype(et)))
: nullptr;
}
const wasm_functype_t* wasm_externtype_as_functype_const(
const wasm_externtype_t* et) {
return et->kind() == wasm::EXTERN_FUNC
? hide_functype(
static_cast<const wasm::FuncType*>(reveal_externtype(et)))
: nullptr;
}
const wasm_globaltype_t* wasm_externtype_as_globaltype_const(
const wasm_externtype_t* et) {
return et->kind() == wasm::EXTERN_GLOBAL
? hide_globaltype(
static_cast<const wasm::GlobalType*>(reveal_externtype(et)))
: nullptr;
}
const wasm_tabletype_t* wasm_externtype_as_tabletype_const(
const wasm_externtype_t* et) {
return et->kind() == wasm::EXTERN_TABLE
? hide_tabletype(
static_cast<const wasm::TableType*>(reveal_externtype(et)))
: nullptr;
}
const wasm_memorytype_t* wasm_externtype_as_memorytype_const(
const wasm_externtype_t* et) {
return et->kind() == wasm::EXTERN_MEMORY
? hide_memorytype(
static_cast<const wasm::MemoryType*>(reveal_externtype(et)))
: nullptr;
}
// Import Types
WASM_DEFINE_TYPE(importtype, wasm::ImportType)
wasm_importtype_t* wasm_importtype_new(wasm_name_t* module, wasm_name_t* name,
wasm_externtype_t* type) {
return release_importtype(wasm::ImportType::make(
adopt_byte_vec(module), adopt_byte_vec(name), adopt_externtype(type)));
}
const wasm_name_t* wasm_importtype_module(const wasm_importtype_t* it) {
return hide_byte_vec(it->module());
}
const wasm_name_t* wasm_importtype_name(const wasm_importtype_t* it) {
return hide_byte_vec(it->name());
}
const wasm_externtype_t* wasm_importtype_type(const wasm_importtype_t* it) {
return hide_externtype(it->type());
}
// Export Types
WASM_DEFINE_TYPE(exporttype, wasm::ExportType)
wasm_exporttype_t* wasm_exporttype_new(wasm_name_t* name,
wasm_externtype_t* type) {
return release_exporttype(
wasm::ExportType::make(adopt_byte_vec(name), adopt_externtype(type)));
}
const wasm_name_t* wasm_exporttype_name(const wasm_exporttype_t* et) {
return hide_byte_vec(et->name());
}
const wasm_externtype_t* wasm_exporttype_type(const wasm_exporttype_t* et) {
return hide_externtype(et->type());
}
///////////////////////////////////////////////////////////////////////////////
// Runtime Values
// References
#define WASM_DEFINE_REF_BASE(name, Name) \
WASM_DEFINE_OWN(name, Name) \
\
wasm_##name##_t* wasm_##name##_copy(const wasm_##name##_t* t) { \
return release_##name(t->copy()); \
} \
\
bool wasm_##name##_same(const wasm_##name##_t* t1, \
const wasm_##name##_t* t2) { \
return t1->same(t2); \
} \
\
void* wasm_##name##_get_host_info(const wasm_##name##_t* r) { \
return r->get_host_info(); \
} \
void wasm_##name##_set_host_info(wasm_##name##_t* r, void* info) { \
r->set_host_info(info); \
} \
void wasm_##name##_set_host_info_with_finalizer( \
wasm_##name##_t* r, void* info, void (*finalizer)(void*)) { \
r->set_host_info(info, finalizer); \
}
#define WASM_DEFINE_REF(name, Name) \
WASM_DEFINE_REF_BASE(name, Name) \
\
wasm_ref_t* wasm_##name##_as_ref(wasm_##name##_t* r) { \
return hide_ref(static_cast<wasm::Ref*>(reveal_##name(r))); \
} \
wasm_##name##_t* wasm_ref_as_##name(wasm_ref_t* r) { \
return hide_##name(static_cast<Name*>(reveal_ref(r))); \
} \
\
const wasm_ref_t* wasm_##name##_as_ref_const(const wasm_##name##_t* r) { \
return hide_ref(static_cast<const wasm::Ref*>(reveal_##name(r))); \
} \
const wasm_##name##_t* wasm_ref_as_##name##_const(const wasm_ref_t* r) { \
return hide_##name(static_cast<const Name*>(reveal_ref(r))); \
}
#define WASM_DEFINE_SHARABLE_REF(name, Name) \
WASM_DEFINE_REF(name, Name) \
WASM_DEFINE_OWN(shared_##name, wasm::Shared<Name>)
WASM_DEFINE_REF_BASE(ref, wasm::Ref)
// Values
extern "C++" {
inline auto is_empty(wasm_val_t v) -> bool {
return !is_ref(reveal_valkind(v.kind)) || !v.of.ref;
}
inline auto hide_val(wasm::Val v) -> wasm_val_t {
wasm_val_t v2 = {hide_valkind(v.kind()), {}};
switch (v.kind()) {
case wasm::I32:
v2.of.i32 = v.i32();
break;
case wasm::I64:
v2.of.i64 = v.i64();
break;
case wasm::F32:
v2.of.f32 = v.f32();
break;
case wasm::F64:
v2.of.f64 = v.f64();
break;
case wasm::ANYREF:
case wasm::FUNCREF:
v2.of.ref = hide_ref(v.ref());
break;
default:
UNREACHABLE();
}
return v2;
}
inline auto release_val(wasm::Val v) -> wasm_val_t {
wasm_val_t v2 = {hide_valkind(v.kind()), {}};
switch (v.kind()) {
case wasm::I32:
v2.of.i32 = v.i32();
break;
case wasm::I64:
v2.of.i64 = v.i64();
break;
case wasm::F32:
v2.of.f32 = v.f32();
break;
case wasm::F64:
v2.of.f64 = v.f64();
break;
case wasm::ANYREF:
case wasm::FUNCREF:
v2.of.ref = release_ref(v.release_ref());
break;
default:
UNREACHABLE();
}
return v2;
}
inline auto adopt_val(wasm_val_t v) -> wasm::Val {
switch (reveal_valkind(v.kind)) {
case wasm::I32:
return wasm::Val(v.of.i32);
case wasm::I64:
return wasm::Val(v.of.i64);
case wasm::F32:
return wasm::Val(v.of.f32);
case wasm::F64:
return wasm::Val(v.of.f64);
case wasm::ANYREF:
case wasm::FUNCREF:
return wasm::Val(adopt_ref(v.of.ref));
default:
UNREACHABLE();
}
}
struct borrowed_val {
wasm::Val it;
explicit borrowed_val(wasm::Val&& v) : it(std::move(v)) {}
borrowed_val(borrowed_val&& that) : it(std::move(that.it)) {}
~borrowed_val() {
if (it.is_ref()) it.release_ref().release();
}
};
inline auto borrow_val(const wasm_val_t* v) -> borrowed_val {
wasm::Val v2;
switch (reveal_valkind(v->kind)) {
case wasm::I32:
v2 = wasm::Val(v->of.i32);
break;
case wasm::I64:
v2 = wasm::Val(v->of.i64);
break;
case wasm::F32:
v2 = wasm::Val(v->of.f32);
break;
case wasm::F64:
v2 = wasm::Val(v->of.f64);
break;
case wasm::ANYREF:
case wasm::FUNCREF:
v2 = wasm::Val(adopt_ref(v->of.ref));
break;
default:
UNREACHABLE();
}
return borrowed_val(std::move(v2));
}
} // extern "C++"
WASM_DEFINE_VEC_BASE(val, wasm::Val, wasm::vec, )
void wasm_val_vec_new(wasm_val_vec_t* out, size_t size,
wasm_val_t const data[]) {
auto v2 = wasm::vec<wasm::Val>::make_uninitialized(size);
for (size_t i = 0; i < v2.size(); ++i) {
v2[i] = adopt_val(data[i]);
}
*out = release_val_vec(std::move(v2));
}
void wasm_val_vec_copy(wasm_val_vec_t* out, wasm_val_vec_t* v) {
auto v2 = wasm::vec<wasm::Val>::make_uninitialized(v->size);
for (size_t i = 0; i < v2.size(); ++i) {
wasm_val_t val;
wasm_val_copy(&v->data[i], &val);
v2[i] = adopt_val(val);
}
*out = release_val_vec(std::move(v2));
}
void wasm_val_delete(wasm_val_t* v) {
if (is_ref(reveal_valkind(v->kind))) {
adopt_ref(v->of.ref);
}
}
void wasm_val_copy(wasm_val_t* out, const wasm_val_t* v) {
*out = *v;
if (is_ref(reveal_valkind(v->kind))) {
out->of.ref = v->of.ref ? release_ref(v->of.ref->copy()) : nullptr;
}
}
///////////////////////////////////////////////////////////////////////////////
// Runtime Objects
// Frames
WASM_DEFINE_OWN(frame, wasm::Frame)
WASM_DEFINE_VEC_OWN(frame, wasm::Frame)
wasm_frame_t* wasm_frame_copy(const wasm_frame_t* frame) {
return release_frame(frame->copy());
}
wasm_instance_t* wasm_frame_instance(const wasm_frame_t* frame);
// Defined below along with wasm_instance_t.
uint32_t wasm_frame_func_index(const wasm_frame_t* frame) {
return reveal_frame(frame)->func_index();
}
size_t wasm_frame_func_offset(const wasm_frame_t* frame) {
return reveal_frame(frame)->func_offset();
}
size_t wasm_frame_module_offset(const wasm_frame_t* frame) {
return reveal_frame(frame)->module_offset();
}
// Traps
WASM_DEFINE_REF(trap, wasm::Trap)
wasm_trap_t* wasm_trap_new(wasm_store_t* store, const wasm_message_t* message) {
auto message_ = borrow_byte_vec(message);
return release_trap(wasm::Trap::make(store, message_.it));
}
void wasm_trap_message(const wasm_trap_t* trap, wasm_message_t* out) {
*out = release_byte_vec(reveal_trap(trap)->message());
}
wasm_frame_t* wasm_trap_origin(const wasm_trap_t* trap) {
return release_frame(reveal_trap(trap)->origin());
}
void wasm_trap_trace(const wasm_trap_t* trap, wasm_frame_vec_t* out) {
*out = release_frame_vec(reveal_trap(trap)->trace());
}
// Foreign Objects
WASM_DEFINE_REF(foreign, wasm::Foreign)
wasm_foreign_t* wasm_foreign_new(wasm_store_t* store) {
return release_foreign(wasm::Foreign::make(store));
}
// Modules
WASM_DEFINE_SHARABLE_REF(module, wasm::Module)
bool wasm_module_validate(wasm_store_t* store, const wasm_byte_vec_t* binary) {
auto binary_ = borrow_byte_vec(binary);
return wasm::Module::validate(store, binary_.it);
}
wasm_module_t* wasm_module_new(wasm_store_t* store,
const wasm_byte_vec_t* binary) {
auto binary_ = borrow_byte_vec(binary);
return release_module(wasm::Module::make(store, binary_.it));
}
void wasm_module_imports(const wasm_module_t* module,
wasm_importtype_vec_t* out) {
*out = release_importtype_vec(reveal_module(module)->imports());
}
void wasm_module_exports(const wasm_module_t* module,
wasm_exporttype_vec_t* out) {
*out = release_exporttype_vec(reveal_module(module)->exports());
}
void wasm_module_serialize(const wasm_module_t* module, wasm_byte_vec_t* out) {
*out = release_byte_vec(reveal_module(module)->serialize());
}
wasm_module_t* wasm_module_deserialize(wasm_store_t* store,
const wasm_byte_vec_t* binary) {
auto binary_ = borrow_byte_vec(binary);
return release_module(wasm::Module::deserialize(store, binary_.it));
}
wasm_shared_module_t* wasm_module_share(const wasm_module_t* module) {
return release_shared_module(reveal_module(module)->share());
}
wasm_module_t* wasm_module_obtain(wasm_store_t* store,
const wasm_shared_module_t* shared) {
return release_module(wasm::Module::obtain(store, shared));
}
// Function Instances
WASM_DEFINE_REF(func, wasm::Func)
extern "C++" {
auto wasm_callback(void* env, const wasm::Val args[], wasm::Val results[])
-> wasm::own<wasm::Trap> {
auto f = reinterpret_cast<wasm_func_callback_t>(env);
return adopt_trap(f(hide_val_vec(args), hide_val_vec(results)));
}
struct wasm_callback_env_t {
wasm_func_callback_with_env_t callback;
void* env;
void (*finalizer)(void*);
};
auto wasm_callback_with_env(void* env, const wasm::Val args[],
wasm::Val results[]) -> wasm::own<wasm::Trap> {
auto t = static_cast<wasm_callback_env_t*>(env);
return adopt_trap(
t->callback(t->env, hide_val_vec(args), hide_val_vec(results)));
}
void wasm_callback_env_finalizer(void* env) {
auto t = static_cast<wasm_callback_env_t*>(env);
if (t->finalizer) t->finalizer(t->env);
delete t;
}
} // extern "C++"
wasm_func_t* wasm_func_new(wasm_store_t* store, const wasm_functype_t* type,
wasm_func_callback_t callback) {
return release_func(wasm::Func::make(store, type, wasm_callback,
reinterpret_cast<void*>(callback)));
}
wasm_func_t* wasm_func_new_with_env(wasm_store_t* store,
const wasm_functype_t* type,
wasm_func_callback_with_env_t callback,
void* env, void (*finalizer)(void*)) {
auto env2 = new wasm_callback_env_t{callback, env, finalizer};
return release_func(wasm::Func::make(store, type, wasm_callback_with_env,
env2, wasm_callback_env_finalizer));
}
wasm_functype_t* wasm_func_type(const wasm_func_t* func) {
return release_functype(func->type());
}
size_t wasm_func_param_arity(const wasm_func_t* func) {
return func->param_arity();
}
size_t wasm_func_result_arity(const wasm_func_t* func) {
return func->result_arity();
}
wasm_trap_t* wasm_func_call(const wasm_func_t* func, const wasm_val_t args[],
wasm_val_t results[]) {
return release_trap(
func->call(reveal_val_vec(args), reveal_val_vec(results)));
}
// Global Instances
WASM_DEFINE_REF(global, wasm::Global)
wasm_global_t* wasm_global_new(wasm_store_t* store,
const wasm_globaltype_t* type,
const wasm_val_t* val) {
auto val_ = borrow_val(val);
return release_global(wasm::Global::make(store, type, val_.it));
}
wasm_globaltype_t* wasm_global_type(const wasm_global_t* global) {
return release_globaltype(global->type());
}
void wasm_global_get(const wasm_global_t* global, wasm_val_t* out) {
*out = release_val(global->get());
}
void wasm_global_set(wasm_global_t* global, const wasm_val_t* val) {
auto val_ = borrow_val(val);
global->set(val_.it);
}
// Table Instances
WASM_DEFINE_REF(table, wasm::Table)
wasm_table_t* wasm_table_new(wasm_store_t* store, const wasm_tabletype_t* type,
wasm_ref_t* ref) {
return release_table(wasm::Table::make(store, type, ref));
}
wasm_tabletype_t* wasm_table_type(const wasm_table_t* table) {
return release_tabletype(table->type());
}
wasm_ref_t* wasm_table_get(const wasm_table_t* table, wasm_table_size_t index) {
return release_ref(table->get(index));
}
bool wasm_table_set(wasm_table_t* table, wasm_table_size_t index,
wasm_ref_t* ref) {
return table->set(index, ref);
}
wasm_table_size_t wasm_table_size(const wasm_table_t* table) {
return table->size();
}
bool wasm_table_grow(wasm_table_t* table, wasm_table_size_t delta,
wasm_ref_t* ref) {
return table->grow(delta, ref);
}
// Memory Instances
WASM_DEFINE_REF(memory, wasm::Memory)
wasm_memory_t* wasm_memory_new(wasm_store_t* store,
const wasm_memorytype_t* type) {
return release_memory(wasm::Memory::make(store, type));
}
wasm_memorytype_t* wasm_memory_type(const wasm_memory_t* memory) {
return release_memorytype(memory->type());
}
wasm_byte_t* wasm_memory_data(wasm_memory_t* memory) { return memory->data(); }
size_t wasm_memory_data_size(const wasm_memory_t* memory) {
return memory->data_size();
}
wasm_memory_pages_t wasm_memory_size(const wasm_memory_t* memory) {
return memory->size();
}
bool wasm_memory_grow(wasm_memory_t* memory, wasm_memory_pages_t delta) {
return memory->grow(delta);
}
// Externals
WASM_DEFINE_REF(extern, wasm::Extern)
WASM_DEFINE_VEC_OWN(extern, wasm::Extern)
wasm_externkind_t wasm_extern_kind(const wasm_extern_t* external) {
return hide_externkind(external->kind());
}
wasm_externtype_t* wasm_extern_type(const wasm_extern_t* external) {
return release_externtype(external->type());
}
wasm_extern_t* wasm_func_as_extern(wasm_func_t* func) {
return hide_extern(static_cast<wasm::Extern*>(reveal_func(func)));
}
wasm_extern_t* wasm_global_as_extern(wasm_global_t* global) {
return hide_extern(static_cast<wasm::Extern*>(reveal_global(global)));
}
wasm_extern_t* wasm_table_as_extern(wasm_table_t* table) {
return hide_extern(static_cast<wasm::Extern*>(reveal_table(table)));
}
wasm_extern_t* wasm_memory_as_extern(wasm_memory_t* memory) {
return hide_extern(static_cast<wasm::Extern*>(reveal_memory(memory)));
}
const wasm_extern_t* wasm_func_as_extern_const(const wasm_func_t* func) {
return hide_extern(static_cast<const wasm::Extern*>(reveal_func(func)));
}
const wasm_extern_t* wasm_global_as_extern_const(const wasm_global_t* global) {
return hide_extern(static_cast<const wasm::Extern*>(reveal_global(global)));
}
const wasm_extern_t* wasm_table_as_extern_const(const wasm_table_t* table) {
return hide_extern(static_cast<const wasm::Extern*>(reveal_table(table)));
}
const wasm_extern_t* wasm_memory_as_extern_const(const wasm_memory_t* memory) {
return hide_extern(static_cast<const wasm::Extern*>(reveal_memory(memory)));
}
wasm_func_t* wasm_extern_as_func(wasm_extern_t* external) {
return hide_func(external->func());
}
wasm_global_t* wasm_extern_as_global(wasm_extern_t* external) {
return hide_global(external->global());
}
wasm_table_t* wasm_extern_as_table(wasm_extern_t* external) {
return hide_table(external->table());
}
wasm_memory_t* wasm_extern_as_memory(wasm_extern_t* external) {
return hide_memory(external->memory());
}
const wasm_func_t* wasm_extern_as_func_const(const wasm_extern_t* external) {
return hide_func(external->func());
}
const wasm_global_t* wasm_extern_as_global_const(
const wasm_extern_t* external) {
return hide_global(external->global());
}
const wasm_table_t* wasm_extern_as_table_const(const wasm_extern_t* external) {
return hide_table(external->table());
}
const wasm_memory_t* wasm_extern_as_memory_const(
const wasm_extern_t* external) {
return hide_memory(external->memory());
}
// Module Instances
WASM_DEFINE_REF(instance, wasm::Instance)
wasm_instance_t* wasm_instance_new(wasm_store_t* store,
const wasm_module_t* module,
const wasm_extern_t* const imports[],
wasm_trap_t** trap) {
wasm::own<wasm::Trap> error;
wasm_instance_t* instance = release_instance(wasm::Instance::make(
store, module, reinterpret_cast<const wasm::Extern* const*>(imports),
&error));
if (trap) *trap = hide_trap(error.release());
return instance;
}
void wasm_instance_exports(const wasm_instance_t* instance,
wasm_extern_vec_t* out) {
*out = release_extern_vec(instance->exports());
}
wasm_instance_t* wasm_frame_instance(const wasm_frame_t* frame) {
return hide_instance(reveal_frame(frame)->instance());
}
#undef WASM_DEFINE_OWN
#undef WASM_DEFINE_VEC_BASE
#undef WASM_DEFINE_VEC_PLAIN
#undef WASM_DEFINE_VEC_OWN
#undef WASM_DEFINE_TYPE
#undef WASM_DEFINE_REF_BASE
#undef WASM_DEFINE_REF
#undef WASM_DEFINE_SHARABLE_REF
} // extern "C"
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