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inspector_io.cc
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inspector_io.cc
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#include "inspector_io.h"
#include "inspector_socket_server.h"
#include "inspector/main_thread_interface.h"
#include "inspector/node_string.h"
#include "env-inl.h"
#include "debug_utils.h"
#include "node.h"
#include "node_crypto.h"
#include "node_mutex.h"
#include "v8-inspector.h"
#include "util.h"
#include "zlib.h"
#include <deque>
#include <string.h>
#include <vector>
namespace node {
namespace inspector {
namespace {
using v8_inspector::StringBuffer;
using v8_inspector::StringView;
std::string ScriptPath(uv_loop_t* loop, const std::string& script_name) {
std::string script_path;
if (!script_name.empty()) {
uv_fs_t req;
req.ptr = nullptr;
if (0 == uv_fs_realpath(loop, &req, script_name.c_str(), nullptr)) {
CHECK_NOT_NULL(req.ptr);
script_path = std::string(static_cast<char*>(req.ptr));
}
uv_fs_req_cleanup(&req);
}
return script_path;
}
// UUID RFC: https://www.ietf.org/rfc/rfc4122.txt
// Used ver 4 - with numbers
std::string GenerateID() {
uint16_t buffer[8];
CHECK(crypto::EntropySource(reinterpret_cast<unsigned char*>(buffer),
sizeof(buffer)));
char uuid[256];
snprintf(uuid, sizeof(uuid), "%04x%04x-%04x-%04x-%04x-%04x%04x%04x",
buffer[0], // time_low
buffer[1], // time_mid
buffer[2], // time_low
(buffer[3] & 0x0fff) | 0x4000, // time_hi_and_version
(buffer[4] & 0x3fff) | 0x8000, // clk_seq_hi clk_seq_low
buffer[5], // node
buffer[6],
buffer[7]);
return uuid;
}
class RequestToServer {
public:
RequestToServer(TransportAction action,
int session_id,
std::unique_ptr<v8_inspector::StringBuffer> message)
: action_(action),
session_id_(session_id),
message_(std::move(message)) {}
void Dispatch(InspectorSocketServer* server) const {
switch (action_) {
case TransportAction::kKill:
server->TerminateConnections();
// Fallthrough
case TransportAction::kStop:
server->Stop();
break;
case TransportAction::kSendMessage:
server->Send(
session_id_,
protocol::StringUtil::StringViewToUtf8(message_->string()));
break;
}
}
private:
TransportAction action_;
int session_id_;
std::unique_ptr<v8_inspector::StringBuffer> message_;
};
class RequestQueueData {
public:
using MessageQueue = std::deque<RequestToServer>;
explicit RequestQueueData(uv_loop_t* loop)
: handle_(std::make_shared<RequestQueue>(this)) {
int err = uv_async_init(loop, &async_, [](uv_async_t* async) {
RequestQueueData* wrapper =
node::ContainerOf(&RequestQueueData::async_, async);
wrapper->DoDispatch();
});
CHECK_EQ(0, err);
}
static void CloseAndFree(RequestQueueData* queue);
void Post(int session_id,
TransportAction action,
std::unique_ptr<StringBuffer> message) {
Mutex::ScopedLock scoped_lock(state_lock_);
bool notify = messages_.empty();
messages_.emplace_back(action, session_id, std::move(message));
if (notify) {
CHECK_EQ(0, uv_async_send(&async_));
incoming_message_cond_.Broadcast(scoped_lock);
}
}
void Wait() {
Mutex::ScopedLock scoped_lock(state_lock_);
if (messages_.empty()) {
incoming_message_cond_.Wait(scoped_lock);
}
}
void SetServer(InspectorSocketServer* server) {
server_ = server;
}
std::shared_ptr<RequestQueue> handle() {
return handle_;
}
private:
~RequestQueueData() = default;
MessageQueue GetMessages() {
Mutex::ScopedLock scoped_lock(state_lock_);
MessageQueue messages;
messages_.swap(messages);
return messages;
}
void DoDispatch() {
if (server_ == nullptr)
return;
for (const auto& request : GetMessages()) {
request.Dispatch(server_);
}
}
std::shared_ptr<RequestQueue> handle_;
uv_async_t async_;
InspectorSocketServer* server_ = nullptr;
MessageQueue messages_;
Mutex state_lock_; // Locked before mutating the queue.
ConditionVariable incoming_message_cond_;
};
} // namespace
class RequestQueue {
public:
explicit RequestQueue(RequestQueueData* data) : data_(data) {}
void Reset() {
Mutex::ScopedLock scoped_lock(lock_);
data_ = nullptr;
}
void Post(int session_id,
TransportAction action,
std::unique_ptr<StringBuffer> message) {
Mutex::ScopedLock scoped_lock(lock_);
if (data_ != nullptr)
data_->Post(session_id, action, std::move(message));
}
void SetServer(InspectorSocketServer* server) {
Mutex::ScopedLock scoped_lock(lock_);
if (data_ != nullptr)
data_->SetServer(server);
}
bool Expired() {
Mutex::ScopedLock scoped_lock(lock_);
return data_ == nullptr;
}
private:
RequestQueueData* data_;
Mutex lock_;
};
class IoSessionDelegate : public InspectorSessionDelegate {
public:
explicit IoSessionDelegate(std::shared_ptr<RequestQueue> queue, int id)
: request_queue_(queue), id_(id) { }
void SendMessageToFrontend(const v8_inspector::StringView& message) override {
request_queue_->Post(id_, TransportAction::kSendMessage,
StringBuffer::create(message));
}
private:
std::shared_ptr<RequestQueue> request_queue_;
int id_;
};
// Passed to InspectorSocketServer to handle WS inspector protocol events,
// mostly session start, message received, and session end.
class InspectorIoDelegate: public node::inspector::SocketServerDelegate {
public:
InspectorIoDelegate(std::shared_ptr<RequestQueueData> queue,
std::shared_ptr<MainThreadHandle> main_threade,
const std::string& target_id,
const std::string& script_path,
const std::string& script_name);
~InspectorIoDelegate() {
}
void StartSession(int session_id, const std::string& target_id) override;
void MessageReceived(int session_id, const std::string& message) override;
void EndSession(int session_id) override;
std::vector<std::string> GetTargetIds() override;
std::string GetTargetTitle(const std::string& id) override;
std::string GetTargetUrl(const std::string& id) override;
void AssignServer(InspectorSocketServer* server) override {
request_queue_->SetServer(server);
}
private:
std::shared_ptr<RequestQueueData> request_queue_;
std::shared_ptr<MainThreadHandle> main_thread_;
std::unordered_map<int, std::unique_ptr<InspectorSession>> sessions_;
const std::string script_name_;
const std::string script_path_;
const std::string target_id_;
};
// static
std::unique_ptr<InspectorIo> InspectorIo::Start(
std::shared_ptr<MainThreadHandle> main_thread,
const std::string& path,
const DebugOptions& options) {
auto io = std::unique_ptr<InspectorIo>(
new InspectorIo(main_thread, path, options));
if (io->request_queue_->Expired()) { // Thread is not running
return nullptr;
}
return io;
}
InspectorIo::InspectorIo(std::shared_ptr<MainThreadHandle> main_thread,
const std::string& path,
const DebugOptions& options)
: main_thread_(main_thread), options_(options),
thread_(), script_name_(path), id_(GenerateID()) {
Mutex::ScopedLock scoped_lock(thread_start_lock_);
CHECK_EQ(uv_thread_create(&thread_, InspectorIo::ThreadMain, this), 0);
thread_start_condition_.Wait(scoped_lock);
}
InspectorIo::~InspectorIo() {
request_queue_->Post(0, TransportAction::kKill, nullptr);
int err = uv_thread_join(&thread_);
CHECK_EQ(err, 0);
}
void InspectorIo::StopAcceptingNewConnections() {
request_queue_->Post(0, TransportAction::kStop, nullptr);
}
// static
void InspectorIo::ThreadMain(void* io) {
static_cast<InspectorIo*>(io)->ThreadMain();
}
void InspectorIo::ThreadMain() {
uv_loop_t loop;
loop.data = nullptr;
int err = uv_loop_init(&loop);
CHECK_EQ(err, 0);
std::shared_ptr<RequestQueueData> queue(new RequestQueueData(&loop),
RequestQueueData::CloseAndFree);
std::string script_path = ScriptPath(&loop, script_name_);
std::unique_ptr<InspectorIoDelegate> delegate(
new InspectorIoDelegate(queue, main_thread_, id_,
script_path, script_name_));
InspectorSocketServer server(std::move(delegate), &loop,
options_.host_name(), options_.port());
request_queue_ = queue->handle();
// Its lifetime is now that of the server delegate
queue.reset();
{
Mutex::ScopedLock scoped_lock(thread_start_lock_);
if (server.Start()) {
port_ = server.Port();
}
thread_start_condition_.Broadcast(scoped_lock);
}
uv_run(&loop, UV_RUN_DEFAULT);
CheckedUvLoopClose(&loop);
}
std::vector<std::string> InspectorIo::GetTargetIds() const {
return { id_ };
}
InspectorIoDelegate::InspectorIoDelegate(
std::shared_ptr<RequestQueueData> queue,
std::shared_ptr<MainThreadHandle> main_thread,
const std::string& target_id,
const std::string& script_path,
const std::string& script_name)
: request_queue_(queue), main_thread_(main_thread),
script_name_(script_name), script_path_(script_path),
target_id_(target_id) {}
void InspectorIoDelegate::StartSession(int session_id,
const std::string& target_id) {
auto session = main_thread_->Connect(
std::unique_ptr<InspectorSessionDelegate>(
new IoSessionDelegate(request_queue_->handle(), session_id)), true);
if (session) {
sessions_[session_id] = std::move(session);
fprintf(stderr, "Debugger attached.\n");
}
}
void InspectorIoDelegate::MessageReceived(int session_id,
const std::string& message) {
auto session = sessions_.find(session_id);
if (session != sessions_.end())
session->second->Dispatch(Utf8ToStringView(message)->string());
}
void InspectorIoDelegate::EndSession(int session_id) {
sessions_.erase(session_id);
}
std::vector<std::string> InspectorIoDelegate::GetTargetIds() {
return { target_id_ };
}
std::string InspectorIoDelegate::GetTargetTitle(const std::string& id) {
return script_name_.empty() ? GetHumanReadableProcessName() : script_name_;
}
std::string InspectorIoDelegate::GetTargetUrl(const std::string& id) {
return "file://" + script_path_;
}
// static
void RequestQueueData::CloseAndFree(RequestQueueData* queue) {
queue->handle_->Reset();
queue->handle_.reset();
uv_close(reinterpret_cast<uv_handle_t*>(&queue->async_),
[](uv_handle_t* handle) {
uv_async_t* async = reinterpret_cast<uv_async_t*>(handle);
RequestQueueData* wrapper =
node::ContainerOf(&RequestQueueData::async_, async);
delete wrapper;
});
}
} // namespace inspector
} // namespace node