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denoland-deno/core/libdeno/buffer.h

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// Copyright 2018-2019 the Deno authors. All rights reserved. MIT license.
#ifndef BUFFER_H_
#define BUFFER_H_
// Cpplint bans the use of <mutex> because it duplicates functionality in
// chromium //base. However Deno doensn't use that, so suppress that lint.
#include <memory>
#include <mutex> // NOLINT
#include <string>
#include <unordered_map>
#include <utility>
#include "third_party/v8/include/v8.h"
#include "third_party/v8/src/base/logging.h"
namespace deno {
class ArrayBufferAllocator : public v8::ArrayBuffer::Allocator {
public:
static ArrayBufferAllocator& global() {
static ArrayBufferAllocator global_instance;
return global_instance;
}
void* Allocate(size_t length) override { return new uint8_t[length](); }
void* AllocateUninitialized(size_t length) override {
return new uint8_t[length];
}
void Free(void* data, size_t length) override { Unref(data); }
private:
friend class PinnedBuf;
void Ref(void* data) {
std::lock_guard<std::mutex> lock(ref_count_map_mutex_);
// Note:
// - `unordered_map::insert(make_pair(key, value))` returns the existing
// item if the key, already exists in the map, otherwise it creates an
// new entry with `value`.
// - Buffers not in the map have an implicit reference count of one.
auto entry = ref_count_map_.insert(std::make_pair(data, 1)).first;
++entry->second;
}
void Unref(void* data) {
{
std::lock_guard<std::mutex> lock(ref_count_map_mutex_);
auto entry = ref_count_map_.find(data);
if (entry == ref_count_map_.end()) {
// Buffers not in the map have an implicit ref count of one. After
// dereferencing there are no references left, so we delete the buffer.
} else if (--entry->second == 0) {
// The reference count went to zero, so erase the map entry and free the
// buffer.
ref_count_map_.erase(entry);
} else {
// After decreasing the reference count the buffer still has references
// left, so we leave the pin in place.
return;
}
delete[] reinterpret_cast<uint8_t*>(data);
}
}
private:
ArrayBufferAllocator() {}
~ArrayBufferAllocator() {
// TODO(pisciaureus): Enable this check. It currently fails sometimes
// because the compiler worker isolate never actually exits, so when the
// process exits this isolate still holds on to some buffers.
// CHECK(ref_count_map_.empty());
}
std::unordered_map<void*, size_t> ref_count_map_;
std::mutex ref_count_map_mutex_;
};
class PinnedBuf {
struct Unref {
// This callback gets called from the Pin destructor.
void operator()(void* ptr) { ArrayBufferAllocator::global().Unref(ptr); }
};
// The Pin is a unique (non-copyable) smart pointer which automatically
// unrefs the referenced ArrayBuffer in its destructor.
using Pin = std::unique_ptr<void, Unref>;
uint8_t* data_ptr_;
size_t data_len_;
Pin pin_;
public:
// PinnedBuf::Raw is a POD struct with the same memory layout as the PinBuf
// itself. It is used to move a PinnedBuf between C and Rust.
struct Raw {
uint8_t* data_ptr;
size_t data_len;
void* pin;
};
PinnedBuf() : data_ptr_(nullptr), data_len_(0), pin_() {}
explicit PinnedBuf(v8::Local<v8::ArrayBufferView> view) {
auto buf = view->Buffer()->GetContents().Data();
ArrayBufferAllocator::global().Ref(buf);
data_ptr_ = reinterpret_cast<uint8_t*>(buf) + view->ByteOffset();
data_len_ = view->ByteLength();
pin_ = Pin(buf);
}
// This constructor recreates a PinnedBuf that has previously been converted
// to a PinnedBuf::Raw using the IntoRaw() method. This is a move operation;
// the Raw struct is emptied in the process.
explicit PinnedBuf(Raw* raw)
: data_ptr_(raw->data_ptr), data_len_(raw->data_len), pin_(raw->pin) {
raw->data_ptr = nullptr;
raw->data_len = 0;
raw->pin = nullptr;
}
// The IntoRaw() method converts the PinnedBuf to a PinnedBuf::Raw so it's
// ownership can be moved to Rust. The source PinnedBuf is emptied in the
// process, but the pinned ArrayBuffer is not dereferenced. In order to not
// leak it, the raw struct must eventually be turned back into a PinnedBuf
// using the constructor above.
Raw IntoRaw() {
Raw raw{
.data_ptr = data_ptr_, .data_len = data_len_, .pin = pin_.release()};
data_ptr_ = nullptr;
data_len_ = 0;
return raw;
}
};
} // namespace deno
#endif // BUFFER_H_