// Copyright (c) 2019 The Chromium Embedded Framework Authors. Portions // Copyright (c) 2018 The Chromium Authors. All rights reserved. Use of this // source code is governed by a BSD-style license that can be found in the // LICENSE file. #include "cef/libcef/browser/net_service/stream_reader_url_loader.h" #include "base/functional/bind.h" #include "base/functional/callback.h" #include "base/strings/string_number_conversions.h" #include "base/strings/string_util.h" #include "base/strings/stringprintf.h" #include "base/task/single_thread_task_runner.h" #include "base/task/thread_pool.h" #include "base/threading/thread.h" #include "cef/libcef/browser/thread_util.h" #include "cef/libcef/common/net_service/net_service_util.h" #include "content/public/browser/browser_thread.h" #include "net/base/io_buffer.h" #include "net/http/http_status_code.h" #include "net/http/http_util.h" #include "services/network/public/cpp/url_loader_completion_status.h" namespace net_service { namespace { using OnInputStreamOpenedCallback = base::OnceCallback, std::unique_ptr)>; // Helper for executing the OnInputStreamOpenedCallback. class OpenInputStreamWrapper : public base::RefCountedThreadSafe { public: OpenInputStreamWrapper(const OpenInputStreamWrapper&) = delete; OpenInputStreamWrapper& operator=(const OpenInputStreamWrapper&) = delete; [[nodiscard]] static base::OnceClosure Open( std::unique_ptr delegate, scoped_refptr work_thread_task_runner, int32_t request_id, const network::ResourceRequest& request, OnInputStreamOpenedCallback callback) { scoped_refptr wrapper = new OpenInputStreamWrapper( std::move(delegate), work_thread_task_runner, base::SingleThreadTaskRunner::GetCurrentDefault(), std::move(callback)); wrapper->Start(request_id, request); return wrapper->GetCancelCallback(); } private: friend class base::RefCountedThreadSafe; OpenInputStreamWrapper( std::unique_ptr delegate, scoped_refptr work_thread_task_runner, scoped_refptr job_thread_task_runner, OnInputStreamOpenedCallback callback) : delegate_(std::move(delegate)), work_thread_task_runner_(work_thread_task_runner), job_thread_task_runner_(job_thread_task_runner), callback_(std::move(callback)) {} virtual ~OpenInputStreamWrapper() = default; void Start(int32_t request_id, const network::ResourceRequest& request) { work_thread_task_runner_->PostTask( FROM_HERE, base::BindOnce(&OpenInputStreamWrapper::OpenOnWorkThread, base::WrapRefCounted(this), request_id, request)); } base::OnceClosure GetCancelCallback() { return base::BindOnce(&OpenInputStreamWrapper::CancelOnJobThread, base::WrapRefCounted(this)); } void CancelOnJobThread() { DCHECK(job_thread_task_runner_->RunsTasksInCurrentSequence()); if (callback_.is_null()) { return; } callback_.Reset(); work_thread_task_runner_->PostTask( FROM_HERE, base::BindOnce(&OpenInputStreamWrapper::CancelOnWorkThread, base::WrapRefCounted(this))); } void CancelOnWorkThread() { DCHECK(work_thread_task_runner_->RunsTasksInCurrentSequence()); if (is_canceled_) { return; } is_canceled_ = true; OnCallback(nullptr); } void OpenOnWorkThread(int32_t request_id, const network::ResourceRequest& request) { DCHECK(work_thread_task_runner_->RunsTasksInCurrentSequence()); if (is_canceled_) { return; } // |delegate_| will remain valid until OnCallback() is executed on // |job_thread_task_runner_|. if (!delegate_->OpenInputStream( request_id, request, base::BindOnce(&OpenInputStreamWrapper::OnCallback, base::WrapRefCounted(this)))) { is_canceled_ = true; OnCallback(nullptr); } } void OnCallback(std::unique_ptr input_stream) { if (!job_thread_task_runner_->RunsTasksInCurrentSequence()) { job_thread_task_runner_->PostTask( FROM_HERE, base::BindOnce(&OpenInputStreamWrapper::OnCallback, base::WrapRefCounted(this), std::move(input_stream))); return; } // May be null if CancelOnJobThread() was called on // |job_thread_task_runner_| while OpenOnWorkThread() was pending on // |work_thread_task_runner_|. if (callback_.is_null()) { delegate_.reset(); return; } std::move(callback_).Run(std::move(delegate_), std::move(input_stream)); } std::unique_ptr delegate_; scoped_refptr work_thread_task_runner_; scoped_refptr job_thread_task_runner_; // Only accessed on |job_thread_task_runner_|. OnInputStreamOpenedCallback callback_; // Only accessed on |work_thread_task_runner_|. bool is_canceled_ = false; }; } // namespace //============================== // InputStreamReader //============================= // Class responsible for reading from the InputStream. class InputStreamReader : public base::RefCountedThreadSafe { public: // The constructor is called on the IO thread, not on the worker thread. // Callbacks will be executed on the IO thread. InputStreamReader( std::unique_ptr stream, scoped_refptr work_thread_task_runner); InputStreamReader(const InputStreamReader&) = delete; InputStreamReader& operator=(const InputStreamReader&) = delete; // Skip |skip_bytes| number of bytes from |stream_|. |callback| will be // executed asynchronously on the IO thread. A negative value passed to // |callback| will indicate an error code, a positive value will indicate the // number of bytes skipped. void Skip(int64_t skip_bytes, InputStream::SkipCallback callback); // Read up to |dest_size| bytes from |stream_| into |dest|. |callback| will be // executed asynchronously on the IO thread. A negative value passed to // |callback| will indicate an error code, a positive value will indicate the // number of bytes read. void Read(scoped_refptr dest, int dest_size, InputStream::ReadCallback callback); private: friend class base::RefCountedThreadSafe; virtual ~InputStreamReader(); void SkipOnWorkThread(int64_t skip_bytes, InputStream::SkipCallback callback); void ReadOnWorkThread(scoped_refptr buffer, int buffer_size, InputStream::ReadCallback callback); void SkipToRequestedRange(); static void ContinueSkipCallback( scoped_refptr stream, scoped_refptr work_thread_task_runner, int callback_id, int64_t bytes_skipped); static void ContinueReadCallback( scoped_refptr stream, scoped_refptr work_thread_task_runner, int callback_id, int bytes_read); void ContinueSkipCallbackOnWorkThread(int callback_id, int64_t bytes_skipped); void ContinueReadCallbackOnWorkThread(int callback_id, int bytes_read); void RunSkipCallback(int64_t bytes_skipped); void RunReadCallback(int bytes_read); static void RunSkipCallbackOnJobThread( int64_t bytes_skipped, InputStream::SkipCallback skip_callback); static void RunReadCallbackOnJobThread( int bytes_read, InputStream::ReadCallback read_callback); std::unique_ptr stream_; // All InputStream methods are called this task runner. scoped_refptr work_thread_task_runner_; // All callbacks are executed on this task runner. scoped_refptr job_thread_task_runner_; // The below members are only accessed on the work thread. int64_t bytes_skipped_; int64_t bytes_to_skip_; InputStream::SkipCallback pending_skip_callback_; scoped_refptr buffer_; InputStream::ReadCallback pending_read_callback_; int pending_callback_id_ = -1; int next_callback_id_ = 0; }; InputStreamReader::InputStreamReader( std::unique_ptr stream, scoped_refptr work_thread_task_runner) : stream_(std::move(stream)), work_thread_task_runner_(work_thread_task_runner), job_thread_task_runner_( base::SingleThreadTaskRunner::GetCurrentDefault()) { CEF_REQUIRE_IOT(); DCHECK(stream_); DCHECK(work_thread_task_runner_); } InputStreamReader::~InputStreamReader() = default; void InputStreamReader::Skip(int64_t skip_bytes, InputStream::SkipCallback callback) { work_thread_task_runner_->PostTask( FROM_HERE, base::BindOnce(&InputStreamReader::SkipOnWorkThread, base::WrapRefCounted(this), skip_bytes, std::move(callback))); } void InputStreamReader::Read(scoped_refptr dest, int dest_size, InputStream::ReadCallback callback) { work_thread_task_runner_->PostTask( FROM_HERE, base::BindOnce(&InputStreamReader::ReadOnWorkThread, base::WrapRefCounted(this), dest, dest_size, std::move(callback))); } void InputStreamReader::SkipOnWorkThread(int64_t skip_bytes, InputStream::SkipCallback callback) { DCHECK(work_thread_task_runner_->RunsTasksInCurrentSequence()); // No callback should currently be pending. DCHECK_EQ(pending_callback_id_, -1); DCHECK(pending_skip_callback_.is_null()); pending_skip_callback_ = std::move(callback); if (skip_bytes <= 0) { RunSkipCallback(0); return; } bytes_skipped_ = bytes_to_skip_ = skip_bytes; SkipToRequestedRange(); } void InputStreamReader::ReadOnWorkThread(scoped_refptr dest, int dest_size, InputStream::ReadCallback callback) { DCHECK(work_thread_task_runner_->RunsTasksInCurrentSequence()); // No callback should currently be pending. DCHECK_EQ(pending_callback_id_, -1); DCHECK(pending_read_callback_.is_null()); pending_read_callback_ = std::move(callback); if (!dest_size) { RunReadCallback(0); return; } DCHECK_GT(dest_size, 0); buffer_ = dest; pending_callback_id_ = ++next_callback_id_; int bytes_read = 0; bool result = stream_->Read( buffer_.get(), dest_size, &bytes_read, base::BindOnce(&InputStreamReader::ContinueReadCallback, base::WrapRefCounted(this), work_thread_task_runner_, pending_callback_id_)); // Check if the callback will execute asynchronously. if (result && bytes_read == 0) { return; } RunReadCallback(result || bytes_read <= 0 ? bytes_read : net::ERR_FAILED); } void InputStreamReader::SkipToRequestedRange() { DCHECK(work_thread_task_runner_->RunsTasksInCurrentSequence()); // Skip to the start of the requested data. This has to be done in a loop // because the underlying InputStream is not guaranteed to skip the requested // number of bytes. do { pending_callback_id_ = ++next_callback_id_; int64_t skipped = 0; bool result = stream_->Skip( bytes_to_skip_, &skipped, base::BindOnce(&InputStreamReader::ContinueSkipCallback, base::WrapRefCounted(this), work_thread_task_runner_, pending_callback_id_)); // Check if the callback will execute asynchronously. if (result && skipped == 0) { return; } if (!result || skipped <= 0) { RunSkipCallback(net::ERR_REQUEST_RANGE_NOT_SATISFIABLE); return; } DCHECK_LE(skipped, bytes_to_skip_); bytes_to_skip_ -= skipped; } while (bytes_to_skip_ > 0); // All done, the requested number of bytes were skipped. RunSkipCallback(bytes_skipped_); } // static void InputStreamReader::ContinueSkipCallback( scoped_refptr stream, scoped_refptr work_thread_task_runner, int callback_id, int64_t bytes_skipped) { // Always execute asynchronously. work_thread_task_runner->PostTask( FROM_HERE, base::BindOnce(&InputStreamReader::ContinueSkipCallbackOnWorkThread, stream, callback_id, bytes_skipped)); } // static void InputStreamReader::ContinueReadCallback( scoped_refptr stream, scoped_refptr work_thread_task_runner, int callback_id, int bytes_read) { // Always execute asynchronously. work_thread_task_runner->PostTask( FROM_HERE, base::BindOnce(&InputStreamReader::ContinueReadCallbackOnWorkThread, stream, callback_id, bytes_read)); } void InputStreamReader::ContinueSkipCallbackOnWorkThread( int callback_id, int64_t bytes_skipped) { DCHECK(work_thread_task_runner_->RunsTasksInCurrentSequence()); // Check for out of order callbacks. if (pending_callback_id_ != callback_id) { return; } DCHECK_LE(bytes_skipped, bytes_to_skip_); if (bytes_to_skip_ > 0 && bytes_skipped > 0) { bytes_to_skip_ -= bytes_skipped; } if (bytes_skipped <= 0) { RunSkipCallback(net::ERR_REQUEST_RANGE_NOT_SATISFIABLE); } else if (bytes_to_skip_ > 0) { // Continue execution asynchronously. work_thread_task_runner_->PostTask( FROM_HERE, base::BindOnce(&InputStreamReader::SkipToRequestedRange, this)); } else { // All done, the requested number of bytes were skipped. RunSkipCallback(bytes_skipped_); } } void InputStreamReader::ContinueReadCallbackOnWorkThread(int callback_id, int bytes_read) { DCHECK(work_thread_task_runner_->RunsTasksInCurrentSequence()); // Check for out of order callbacks. if (pending_callback_id_ != callback_id) { return; } RunReadCallback(bytes_read); } void InputStreamReader::RunSkipCallback(int64_t bytes_skipped) { DCHECK(work_thread_task_runner_->RunsTasksInCurrentSequence()); DCHECK(!pending_skip_callback_.is_null()); job_thread_task_runner_->PostTask( FROM_HERE, base::BindOnce(InputStreamReader::RunSkipCallbackOnJobThread, bytes_skipped, std::move(pending_skip_callback_))); // Reset callback state. pending_callback_id_ = -1; bytes_skipped_ = bytes_to_skip_ = -1; } void InputStreamReader::RunReadCallback(int bytes_read) { DCHECK(work_thread_task_runner_->RunsTasksInCurrentSequence()); DCHECK(!pending_read_callback_.is_null()); job_thread_task_runner_->PostTask( FROM_HERE, base::BindOnce(InputStreamReader::RunReadCallbackOnJobThread, bytes_read, std::move(pending_read_callback_))); // Reset callback state. pending_callback_id_ = -1; buffer_ = nullptr; } // static void InputStreamReader::RunSkipCallbackOnJobThread( int64_t bytes_skipped, InputStream::SkipCallback skip_callback) { std::move(skip_callback).Run(bytes_skipped); } // static void InputStreamReader::RunReadCallbackOnJobThread( int bytes_read, InputStream::ReadCallback read_callback) { std::move(read_callback).Run(bytes_read); } //============================== // StreamReaderURLLoader //============================= StreamReaderURLLoader::StreamReaderURLLoader( int32_t request_id, const network::ResourceRequest& request, mojo::PendingRemote client, mojo::PendingRemote header_client, const net::MutableNetworkTrafficAnnotationTag& traffic_annotation, std::optional cached_metadata, std::unique_ptr response_delegate) : request_id_(request_id), request_(request), client_(std::move(client)), header_client_(std::move(header_client)), traffic_annotation_(traffic_annotation), cached_metadata_(std::move(cached_metadata)), response_delegate_(std::move(response_delegate)), writable_handle_watcher_(FROM_HERE, mojo::SimpleWatcher::ArmingPolicy::MANUAL, base::SequencedTaskRunner::GetCurrentDefault()), weak_factory_(this) { DCHECK(response_delegate_); // If there is a client error, clean up the request. client_.set_disconnect_handler( base::BindOnce(&StreamReaderURLLoader::RequestComplete, weak_factory_.GetWeakPtr(), net::ERR_ABORTED)); // All InputStream work will be performed on this task runner. stream_work_task_runner_ = base::ThreadPool::CreateSequencedTaskRunner({base::MayBlock()}); } StreamReaderURLLoader::~StreamReaderURLLoader() { if (open_cancel_callback_) { // Release the Delegate held by OpenInputStreamWrapper. std::move(open_cancel_callback_).Run(); } } void StreamReaderURLLoader::Start() { DCHECK(thread_checker_.CalledOnValidThread()); if (!ParseRange(request_.headers)) { RequestComplete(net::ERR_REQUEST_RANGE_NOT_SATISFIABLE); return; } if (header_client_.is_bound()) { header_client_->OnBeforeSendHeaders( request_.headers, base::BindOnce(&StreamReaderURLLoader::ContinueWithRequestHeaders, weak_factory_.GetWeakPtr())); } else { ContinueWithRequestHeaders(net::OK, std::nullopt); } } void StreamReaderURLLoader::Continue() { DCHECK(thread_checker_.CalledOnValidThread()); DCHECK(need_client_callback_ && !got_client_callback_); got_client_callback_ = true; writable_handle_watcher_.Watch( producer_handle_.get(), MOJO_HANDLE_SIGNAL_WRITABLE, base::BindRepeating(&StreamReaderURLLoader::OnDataPipeWritable, base::Unretained(this))); ReadMore(); } void StreamReaderURLLoader::Cancel() { DCHECK(thread_checker_.CalledOnValidThread()); DCHECK(need_client_callback_ && !got_client_callback_); got_client_callback_ = true; CleanUp(); } void StreamReaderURLLoader::ContinueWithRequestHeaders( int32_t result, const std::optional& headers) { if (result != net::OK) { RequestComplete(result); return; } if (headers) { DCHECK(header_client_.is_bound()); request_.headers = *headers; } open_cancel_callback_ = OpenInputStreamWrapper::Open( // This is intentional - the loader could be deleted while // the callback is executing on the background thread. The // delegate will be "returned" to the loader once the // InputStream open attempt is completed. std::move(response_delegate_), stream_work_task_runner_, request_id_, request_, base::BindOnce(&StreamReaderURLLoader::OnInputStreamOpened, weak_factory_.GetWeakPtr())); } void StreamReaderURLLoader::FollowRedirect( const std::vector& removed_headers, const net::HttpRequestHeaders& modified_headers, const net::HttpRequestHeaders& modified_cors_exempt_headers, const std::optional& new_url) { DCHECK(false); } void StreamReaderURLLoader::SetPriority(net::RequestPriority priority, int intra_priority_value) {} void StreamReaderURLLoader::PauseReadingBodyFromNet() {} void StreamReaderURLLoader::ResumeReadingBodyFromNet() {} void StreamReaderURLLoader::OnInputStreamOpened( std::unique_ptr returned_delegate, std::unique_ptr input_stream) { DCHECK(thread_checker_.CalledOnValidThread()); DCHECK(returned_delegate); response_delegate_ = std::move(returned_delegate); open_cancel_callback_.Reset(); if (!input_stream) { // May delete |this| iff returns true. if (!response_delegate_->OnInputStreamOpenFailed(request_id_)) { HeadersComplete(net::HTTP_NOT_FOUND, -1); } return; } input_stream_reader_ = base::MakeRefCounted( std::move(input_stream), stream_work_task_runner_); if (!byte_range_valid()) { OnReaderSkipCompleted(0); } else { input_stream_reader_->Skip( byte_range_.first_byte_position(), base::BindOnce(&StreamReaderURLLoader::OnReaderSkipCompleted, weak_factory_.GetWeakPtr())); } } void StreamReaderURLLoader::OnReaderSkipCompleted(int64_t bytes_skipped) { DCHECK(thread_checker_.CalledOnValidThread()); if (!byte_range_valid()) { // Expected content length is unspecified. HeadersComplete(net::HTTP_OK, -1); } else if (bytes_skipped == byte_range_.first_byte_position()) { // We skipped the expected number of bytes. int64_t expected_content_length = -1; if (byte_range_.HasLastBytePosition()) { expected_content_length = byte_range_.last_byte_position() - byte_range_.first_byte_position() + 1; DCHECK_GE(expected_content_length, 0); } HeadersComplete(net::HTTP_OK, expected_content_length); } else { RequestComplete(bytes_skipped < 0 ? bytes_skipped : net::ERR_FAILED); } } void StreamReaderURLLoader::HeadersComplete(int orig_status_code, int64_t expected_content_length) { DCHECK(thread_checker_.CalledOnValidThread()); int status_code = orig_status_code; std::string status_text = net::GetHttpReasonPhrase(static_cast(status_code)); std::string mime_type, charset; int64_t content_length = expected_content_length; ResourceResponse::HeaderMap extra_headers; response_delegate_->GetResponseHeaders(request_id_, &status_code, &status_text, &mime_type, &charset, &content_length, &extra_headers); if (status_code < 0) { // Early exit if the handler reported an error. RequestComplete(status_code); return; } auto pending_response = network::mojom::URLResponseHead::New(); pending_response->request_start = base::TimeTicks::Now(); pending_response->response_start = base::TimeTicks::Now(); auto headers = MakeResponseHeaders( status_code, status_text, mime_type, charset, content_length, extra_headers, false /* allow_existing_header_override */); pending_response->headers = headers; if (content_length >= 0) { pending_response->content_length = content_length; } if (!mime_type.empty()) { pending_response->mime_type = mime_type; if (!charset.empty()) { pending_response->charset = charset; } } if (header_client_.is_bound()) { header_client_->OnHeadersReceived( headers->raw_headers(), net::IPEndPoint(), base::BindOnce(&StreamReaderURLLoader::ContinueWithResponseHeaders, weak_factory_.GetWeakPtr(), std::move(pending_response))); } else { ContinueWithResponseHeaders(std::move(pending_response), net::OK, std::nullopt, std::nullopt); } } void StreamReaderURLLoader::ContinueWithResponseHeaders( network::mojom::URLResponseHeadPtr pending_response, int32_t result, const std::optional& headers, const std::optional& redirect_url) { if (result != net::OK) { RequestComplete(result); return; } if (headers) { DCHECK(header_client_.is_bound()); pending_response->headers = base::MakeRefCounted(*headers); } auto pending_headers = pending_response->headers; // What the length would be if we sent headers over the network. Used to // calculate data length. header_length_ = pending_headers->raw_headers().length(); DCHECK(client_.is_bound()); std::string location; const auto has_redirect_url = redirect_url && !redirect_url->is_empty(); if (has_redirect_url || pending_headers->IsRedirect(&location)) { pending_response->encoded_data_length = header_length_; pending_response->content_length = 0; pending_response->encoded_body_length = nullptr; const GURL new_location = has_redirect_url ? *redirect_url : request_.url.Resolve(location); CleanUp(); // The client will restart the request with a new loader. // May delete |this|. client_->OnReceiveRedirect( MakeRedirectInfo(request_, pending_headers.get(), new_location, pending_headers->response_code()), std::move(pending_response)); } else { mojo::ScopedDataPipeConsumerHandle consumer_handle; if (CreateDataPipe(nullptr /*options*/, producer_handle_, consumer_handle) != MOJO_RESULT_OK) { RequestComplete(net::ERR_FAILED); return; } need_client_callback_ = true; client_->OnReceiveResponse(std::move(pending_response), std::move(consumer_handle), std::move(cached_metadata_)); // Wait for the client to call Continue() or Cancel(). } } void StreamReaderURLLoader::ReadMore() { DCHECK(thread_checker_.CalledOnValidThread()); DCHECK(!pending_buffer_.get()); MojoResult mojo_result = network::NetToMojoPendingBuffer::BeginWrite( &producer_handle_, &pending_buffer_); if (mojo_result == MOJO_RESULT_SHOULD_WAIT) { // The pipe is full. We need to wait for it to have more space. writable_handle_watcher_.ArmOrNotify(); return; } else if (mojo_result == MOJO_RESULT_FAILED_PRECONDITION) { // The data pipe consumer handle has been closed. RequestComplete(net::ERR_ABORTED); return; } else if (mojo_result != MOJO_RESULT_OK) { // The body stream is in a bad state. Bail out. RequestComplete(net::ERR_UNEXPECTED); return; } scoped_refptr buffer( new network::NetToMojoIOBuffer(pending_buffer_.get())); if (!input_stream_reader_.get()) { // This will happen if opening the InputStream fails in which case the // error is communicated by setting the HTTP response status header rather // than failing the request during the header fetch phase. OnReaderReadCompleted(0); return; } input_stream_reader_->Read( buffer, base::checked_cast(pending_buffer_->size()), base::BindOnce(&StreamReaderURLLoader::OnReaderReadCompleted, weak_factory_.GetWeakPtr())); } void StreamReaderURLLoader::OnDataPipeWritable(MojoResult result) { if (result == MOJO_RESULT_FAILED_PRECONDITION) { RequestComplete(net::ERR_ABORTED); return; } DCHECK_EQ(result, MOJO_RESULT_OK) << result; ReadMore(); } void StreamReaderURLLoader::OnReaderReadCompleted(int bytes_read) { DCHECK(thread_checker_.CalledOnValidThread()); DCHECK(pending_buffer_); if (bytes_read < 0) { // Error case. RequestComplete(bytes_read); return; } if (bytes_read == 0) { // Eof, read completed. pending_buffer_->Complete(0); RequestComplete(net::OK); return; } producer_handle_ = pending_buffer_->Complete(bytes_read); pending_buffer_ = nullptr; client_->OnTransferSizeUpdated(bytes_read); total_bytes_read_ += bytes_read; base::SingleThreadTaskRunner::GetCurrentDefault()->PostTask( FROM_HERE, base::BindOnce(&StreamReaderURLLoader::ReadMore, weak_factory_.GetWeakPtr())); } void StreamReaderURLLoader::RequestComplete(int status_code) { DCHECK(thread_checker_.CalledOnValidThread()); auto status = network::URLLoaderCompletionStatus(status_code); status.completion_time = base::TimeTicks::Now(); status.encoded_data_length = total_bytes_read_ + header_length_; status.encoded_body_length = total_bytes_read_; // We don't support decoders, so use the same value. status.decoded_body_length = total_bytes_read_; CleanUp(); // May delete |this|. client_->OnComplete(status); } void StreamReaderURLLoader::CleanUp() { DCHECK(thread_checker_.CalledOnValidThread()); weak_factory_.InvalidateWeakPtrs(); // Resets the watchers and pipes, so that we will never be called back. writable_handle_watcher_.Cancel(); pending_buffer_ = nullptr; producer_handle_.reset(); } bool StreamReaderURLLoader::ParseRange(const net::HttpRequestHeaders& headers) { DCHECK(thread_checker_.CalledOnValidThread()); std::string range_header; if (headers.GetHeader(net::HttpRequestHeaders::kRange, &range_header)) { // This loader only cares about the Range header so that we know how many // bytes in the stream to skip and how many to read after that. std::vector ranges; if (net::HttpUtil::ParseRangeHeader(range_header, &ranges)) { // In case of multi-range request only use the first range. // We don't support multirange requests. if (ranges.size() == 1) { byte_range_ = ranges[0]; } } else { // This happens if the range header could not be parsed or is invalid. return false; } } return true; } bool StreamReaderURLLoader::byte_range_valid() const { return byte_range_.IsValid() && byte_range_.first_byte_position() >= 0; } } // namespace net_service