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cobalt / cobalt / 2a8c847d785c1602f60915c8e0112e0aec6a15a5 / . / src / net / url_request / url_fetcher_core.cc
blob: db15c89b74567fcb4112399003e4b9cd2b54d102 [file] [log] [blame]
// Copyright (c) 2012 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 "net/url_request/url_fetcher_core.h"
#include "base/bind.h"
#include "base/debug/trace_event.h"
#include "base/file_util_proxy.h"
#include "base/logging.h"
#include "base/single_thread_task_runner.h"
#include "base/metrics/histogram.h"
#include "base/stl_util.h"
#include "base/thread_task_runner_handle.h"
#include "base/tracked_objects.h"
#include "nb/memory_scope.h"
#include "net/base/io_buffer.h"
#include "net/base/load_flags.h"
#include "net/base/net_errors.h"
#include "net/base/upload_bytes_element_reader.h"
#include "net/base/upload_data_stream.h"
#include "net/http/http_response_headers.h"
#include "net/url_request/url_fetcher_delegate.h"
#include "net/url_request/url_request_context.h"
#include "net/url_request/url_request_context_getter.h"
#include "net/url_request/url_request_throttler_manager.h"
namespace {
const int kBufferSize = 16384;
const int kDownloadCacheSize = 65536;
const int kUploadProgressTimerInterval = 100;
bool g_interception_enabled = false;
bool g_ignore_certificate_requests = false;
} // namespace
namespace net {
// URLFetcherCore::Registry ---------------------------------------------------
URLFetcherCore::Registry::Registry() {}
URLFetcherCore::Registry::~Registry() {}
void URLFetcherCore::Registry::AddURLFetcherCore(URLFetcherCore* core) {
TRACK_MEMORY_SCOPE("Network");
DCHECK(!ContainsKey(fetchers_, core));
fetchers_.insert(core);
}
void URLFetcherCore::Registry::RemoveURLFetcherCore(URLFetcherCore* core) {
DCHECK(ContainsKey(fetchers_, core));
fetchers_.erase(core);
}
void URLFetcherCore::Registry::CancelAll() {
while (!fetchers_.empty())
(*fetchers_.begin())->CancelURLRequest();
}
// URLFetcherCore::FileWriter -------------------------------------------------
URLFetcherCore::FileWriter::FileWriter(
URLFetcherCore* core,
scoped_refptr<base::TaskRunner> file_task_runner)
: core_(core),
error_code_(base::PLATFORM_FILE_OK),
ALLOW_THIS_IN_INITIALIZER_LIST(weak_factory_(this)),
file_task_runner_(file_task_runner),
file_handle_(base::kInvalidPlatformFileValue) {
}
URLFetcherCore::FileWriter::~FileWriter() {
CloseAndDeleteFile();
}
void URLFetcherCore::FileWriter::CreateFileAtPath(
const FilePath& file_path) {
TRACK_MEMORY_SCOPE("Network");
DCHECK(core_->network_task_runner_->BelongsToCurrentThread());
DCHECK(file_task_runner_.get());
base::FileUtilProxy::CreateOrOpen(
file_task_runner_,
file_path,
base::PLATFORM_FILE_CREATE_ALWAYS | base::PLATFORM_FILE_WRITE,
base::Bind(&URLFetcherCore::FileWriter::DidCreateFile,
weak_factory_.GetWeakPtr(),
file_path));
}
void URLFetcherCore::FileWriter::CreateTempFile() {
TRACK_MEMORY_SCOPE("Network");
DCHECK(core_->network_task_runner_->BelongsToCurrentThread());
DCHECK(file_task_runner_.get());
base::FileUtilProxy::CreateTemporary(
file_task_runner_,
0, // No additional file flags.
base::Bind(&URLFetcherCore::FileWriter::DidCreateTempFile,
weak_factory_.GetWeakPtr()));
}
void URLFetcherCore::FileWriter::WriteBuffer(int num_bytes) {
TRACK_MEMORY_SCOPE("Network");
DCHECK(core_->network_task_runner_->BelongsToCurrentThread());
// Start writing to the file by setting the initial state
// of |pending_bytes_| and |buffer_offset_| to indicate that the
// entire buffer has not yet been written.
pending_bytes_ = num_bytes;
buffer_offset_ = 0;
ContinueWrite(base::PLATFORM_FILE_OK, 0);
}
void URLFetcherCore::FileWriter::ContinueWrite(
base::PlatformFileError error_code,
int bytes_written) {
TRACK_MEMORY_SCOPE("Network");
DCHECK(core_->network_task_runner_->BelongsToCurrentThread());
if (file_handle_ == base::kInvalidPlatformFileValue) {
// While a write was being done on the file thread, a request
// to close or disown the file occured on the IO thread. At
// this point a request to close the file is pending on the
// file thread.
return;
}
// Every code path that resets |core_->request_| should reset
// |core->file_writer_| or cause the file writer to disown the file. In the
// former case, this callback can not be called, because the weak pointer to
// |this| will be NULL. In the latter case, the check of |file_handle_| at the
// start of this method ensures that we can not reach this point.
CHECK(core_->request_.get());
if (base::PLATFORM_FILE_OK != error_code) {
error_code_ = error_code;
CloseAndDeleteFile();
core_->delegate_task_runner_->PostTask(
FROM_HERE,
base::Bind(&URLFetcherCore::InformDelegateFetchIsComplete, core_));
return;
}
total_bytes_written_ += bytes_written;
buffer_offset_ += bytes_written;
pending_bytes_ -= bytes_written;
if (pending_bytes_ > 0) {
base::FileUtilProxy::Write(
file_task_runner_, file_handle_,
total_bytes_written_, // Append to the end
(core_->buffer_->data() + buffer_offset_), pending_bytes_,
base::Bind(&URLFetcherCore::FileWriter::ContinueWrite,
weak_factory_.GetWeakPtr()));
} else {
// Finished writing core_->buffer_ to the file. Read some more.
core_->ReadResponse();
}
}
void URLFetcherCore::FileWriter::DisownFile() {
TRACK_MEMORY_SCOPE("Network");
DCHECK(core_->network_task_runner_->BelongsToCurrentThread());
// Disowning is done by the delegate's OnURLFetchComplete method.
// The file should be closed by the time that method is called.
DCHECK(file_handle_ == base::kInvalidPlatformFileValue);
// Forget about any file by reseting the path.
file_path_.clear();
}
void URLFetcherCore::FileWriter::CloseFileAndCompleteRequest() {
TRACK_MEMORY_SCOPE("Network");
DCHECK(core_->network_task_runner_->BelongsToCurrentThread());
if (file_handle_ != base::kInvalidPlatformFileValue) {
base::FileUtilProxy::Close(
file_task_runner_, file_handle_,
base::Bind(&URLFetcherCore::FileWriter::DidCloseFile,
weak_factory_.GetWeakPtr()));
file_handle_ = base::kInvalidPlatformFileValue;
}
}
void URLFetcherCore::FileWriter::CloseAndDeleteFile() {
TRACK_MEMORY_SCOPE("Network");
DCHECK(core_->network_task_runner_->BelongsToCurrentThread());
if (file_handle_ == base::kInvalidPlatformFileValue) {
DeleteFile(base::PLATFORM_FILE_OK);
return;
}
// Close the file if it is open.
base::FileUtilProxy::Close(
file_task_runner_, file_handle_,
base::Bind(&URLFetcherCore::FileWriter::DeleteFile,
weak_factory_.GetWeakPtr()));
file_handle_ = base::kInvalidPlatformFileValue;
}
void URLFetcherCore::FileWriter::DeleteFile(
base::PlatformFileError error_code) {
TRACK_MEMORY_SCOPE("Network");
DCHECK(core_->network_task_runner_->BelongsToCurrentThread());
if (file_path_.empty())
return;
base::FileUtilProxy::Delete(
file_task_runner_, file_path_,
false, // No need to recurse, as the path is to a file.
base::FileUtilProxy::StatusCallback());
DisownFile();
}
void URLFetcherCore::FileWriter::DidCreateFile(
const FilePath& file_path,
base::PlatformFileError error_code,
base::PassPlatformFile file_handle,
bool created) {
TRACK_MEMORY_SCOPE("Network");
DidCreateFileInternal(file_path, error_code, file_handle);
}
void URLFetcherCore::FileWriter::DidCreateTempFile(
base::PlatformFileError error_code,
base::PassPlatformFile file_handle,
const FilePath& file_path) {
TRACK_MEMORY_SCOPE("Network");
DidCreateFileInternal(file_path, error_code, file_handle);
}
void URLFetcherCore::FileWriter::DidCreateFileInternal(
const FilePath& file_path,
base::PlatformFileError error_code,
base::PassPlatformFile file_handle) {
TRACK_MEMORY_SCOPE("Network");
DCHECK(core_->network_task_runner_->BelongsToCurrentThread());
if (base::PLATFORM_FILE_OK != error_code) {
error_code_ = error_code;
CloseAndDeleteFile();
core_->delegate_task_runner_->PostTask(
FROM_HERE,
base::Bind(&URLFetcherCore::InformDelegateFetchIsComplete, core_));
return;
}
file_path_ = file_path;
file_handle_ = file_handle.ReleaseValue();
total_bytes_written_ = 0;
core_->network_task_runner_->PostTask(
FROM_HERE,
base::Bind(&URLFetcherCore::StartURLRequestWhenAppropriate, core_));
}
void URLFetcherCore::FileWriter::DidCloseFile(
base::PlatformFileError error_code) {
TRACK_MEMORY_SCOPE("Network");
DCHECK(core_->network_task_runner_->BelongsToCurrentThread());
if (base::PLATFORM_FILE_OK != error_code) {
error_code_ = error_code;
CloseAndDeleteFile();
core_->delegate_task_runner_->PostTask(
FROM_HERE,
base::Bind(&URLFetcherCore::InformDelegateFetchIsComplete, core_));
return;
}
// If the file was successfully closed, then the URL request is complete.
core_->RetryOrCompleteUrlFetch();
}
// URLFetcherCore -------------------------------------------------------------
// static
base::LazyInstance<URLFetcherCore::Registry>
URLFetcherCore::g_registry = LAZY_INSTANCE_INITIALIZER;
URLFetcherCore::URLFetcherCore(URLFetcher* fetcher,
const GURL& original_url,
URLFetcher::RequestType request_type,
URLFetcherDelegate* d)
: fetcher_(fetcher),
original_url_(original_url),
request_type_(request_type),
delegate_(d),
delegate_task_runner_(
base::ThreadTaskRunnerHandle::Get()),
request_(NULL),
load_flags_(LOAD_NORMAL),
response_code_(URLFetcher::RESPONSE_CODE_INVALID),
buffer_(new IOBuffer(kBufferSize)),
url_request_data_key_(NULL),
was_fetched_via_proxy_(false),
is_chunked_upload_(false),
was_cancelled_(false),
response_destination_(STRING),
stop_on_redirect_(false),
stopped_on_redirect_(false),
automatically_retry_on_5xx_(true),
num_retries_on_5xx_(0),
max_retries_on_5xx_(0),
num_retries_on_network_changes_(0),
max_retries_on_network_changes_(0),
current_upload_bytes_(-1),
current_response_bytes_(0),
total_response_bytes_(-1) {
CHECK(original_url_.is_valid());
}
void URLFetcherCore::Start() {
TRACK_MEMORY_SCOPE("Network");
DCHECK(delegate_task_runner_);
DCHECK(request_context_getter_) << "We need an URLRequestContext!";
if (network_task_runner_) {
DCHECK_EQ(network_task_runner_,
request_context_getter_->GetNetworkTaskRunner());
} else {
network_task_runner_ = request_context_getter_->GetNetworkTaskRunner();
}
DCHECK(network_task_runner_.get()) << "We need an IO task runner";
network_task_runner_->PostTask(
FROM_HERE, base::Bind(&URLFetcherCore::StartOnIOThread, this));
}
void URLFetcherCore::Stop() {
TRACK_MEMORY_SCOPE("Network");
if (delegate_task_runner_) // May be NULL in tests.
DCHECK(delegate_task_runner_->BelongsToCurrentThread());
delegate_ = NULL;
fetcher_ = NULL;
if (!network_task_runner_.get())
return;
if (network_task_runner_->RunsTasksOnCurrentThread()) {
CancelURLRequest();
} else {
network_task_runner_->PostTask(
FROM_HERE, base::Bind(&URLFetcherCore::CancelURLRequest, this));
}
}
void URLFetcherCore::SetUploadData(const std::string& upload_content_type,
const std::string& upload_content) {
DCHECK(!is_chunked_upload_);
upload_content_type_ = upload_content_type;
upload_content_ = upload_content;
}
void URLFetcherCore::SetChunkedUpload(const std::string& content_type) {
DCHECK(is_chunked_upload_ ||
(upload_content_type_.empty() &&
upload_content_.empty()));
upload_content_type_ = content_type;
upload_content_.clear();
is_chunked_upload_ = true;
}
void URLFetcherCore::AppendChunkToUpload(const std::string& content,
bool is_last_chunk) {
DCHECK(delegate_task_runner_);
DCHECK(network_task_runner_.get());
network_task_runner_->PostTask(
FROM_HERE,
base::Bind(&URLFetcherCore::CompleteAddingUploadDataChunk, this, content,
is_last_chunk));
}
void URLFetcherCore::SetLoadFlags(int load_flags) {
load_flags_ = load_flags;
}
int URLFetcherCore::GetLoadFlags() const {
return load_flags_;
}
void URLFetcherCore::SetReferrer(const std::string& referrer) {
referrer_ = referrer;
}
void URLFetcherCore::SetExtraRequestHeaders(
const std::string& extra_request_headers) {
extra_request_headers_.Clear();
extra_request_headers_.AddHeadersFromString(extra_request_headers);
}
void URLFetcherCore::AddExtraRequestHeader(const std::string& header_line) {
extra_request_headers_.AddHeaderFromString(header_line);
}
void URLFetcherCore::GetExtraRequestHeaders(
HttpRequestHeaders* headers) const {
headers->CopyFrom(extra_request_headers_);
}
void URLFetcherCore::SetRequestContext(
URLRequestContextGetter* request_context_getter) {
DCHECK(!request_context_getter_);
DCHECK(request_context_getter);
request_context_getter_ = request_context_getter;
}
void URLFetcherCore::SetFirstPartyForCookies(
const GURL& first_party_for_cookies) {
DCHECK(first_party_for_cookies_.is_empty());
first_party_for_cookies_ = first_party_for_cookies;
}
void URLFetcherCore::SetURLRequestUserData(
const void* key,
const URLFetcher::CreateDataCallback& create_data_callback) {
DCHECK(key);
DCHECK(!create_data_callback.is_null());
url_request_data_key_ = key;
url_request_create_data_callback_ = create_data_callback;
}
void URLFetcherCore::SetStopOnRedirect(bool stop_on_redirect) {
stop_on_redirect_ = stop_on_redirect;
}
void URLFetcherCore::SetAutomaticallyRetryOn5xx(bool retry) {
automatically_retry_on_5xx_ = retry;
}
void URLFetcherCore::SetMaxRetriesOn5xx(int max_retries) {
max_retries_on_5xx_ = max_retries;
}
int URLFetcherCore::GetMaxRetriesOn5xx() const {
return max_retries_on_5xx_;
}
base::TimeDelta URLFetcherCore::GetBackoffDelay() const {
return backoff_delay_;
}
void URLFetcherCore::SetAutomaticallyRetryOnNetworkChanges(int max_retries) {
max_retries_on_network_changes_ = max_retries;
}
void URLFetcherCore::SaveResponseToFileAtPath(
const FilePath& file_path,
scoped_refptr<base::TaskRunner> file_task_runner) {
DCHECK(delegate_task_runner_->BelongsToCurrentThread());
file_task_runner_ = file_task_runner;
response_destination_ = URLFetcherCore::PERMANENT_FILE;
response_destination_file_path_ = file_path;
}
void URLFetcherCore::SaveResponseToTemporaryFile(
scoped_refptr<base::TaskRunner> file_task_runner) {
DCHECK(delegate_task_runner_->BelongsToCurrentThread());
file_task_runner_ = file_task_runner;
response_destination_ = URLFetcherCore::TEMP_FILE;
}
#if defined(COBALT)
void URLFetcherCore::DiscardResponse() {
response_destination_ = URLFetcherCore::DISCARD;
}
#endif
HttpResponseHeaders* URLFetcherCore::GetResponseHeaders() const {
return response_headers_;
}
// TODO(panayiotis): socket_address_ is written in the IO thread,
// if this is accessed in the UI thread, this could result in a race.
// Same for response_headers_ above and was_fetched_via_proxy_ below.
HostPortPair URLFetcherCore::GetSocketAddress() const {
return socket_address_;
}
bool URLFetcherCore::WasFetchedViaProxy() const {
return was_fetched_via_proxy_;
}
const GURL& URLFetcherCore::GetOriginalURL() const {
return original_url_;
}
const GURL& URLFetcherCore::GetURL() const {
return url_;
}
const URLRequestStatus& URLFetcherCore::GetStatus() const {
return status_;
}
int URLFetcherCore::GetResponseCode() const {
return response_code_;
}
const ResponseCookies& URLFetcherCore::GetCookies() const {
return cookies_;
}
bool URLFetcherCore::FileErrorOccurred(
base::PlatformFileError* out_error_code) const {
// Can't have a file error if no file is being created or written to.
if (!file_writer_.get())
return false;
base::PlatformFileError error_code = file_writer_->error_code();
if (error_code == base::PLATFORM_FILE_OK)
return false;
*out_error_code = error_code;
return true;
}
void URLFetcherCore::ReceivedContentWasMalformed() {
DCHECK(delegate_task_runner_->BelongsToCurrentThread());
if (network_task_runner_.get()) {
network_task_runner_->PostTask(
FROM_HERE, base::Bind(&URLFetcherCore::NotifyMalformedContent, this));
}
}
bool URLFetcherCore::GetResponseAsString(
std::string* out_response_string) const {
if (response_destination_ != URLFetcherCore::STRING)
return false;
*out_response_string = data_;
UMA_HISTOGRAM_MEMORY_KB("UrlFetcher.StringResponseSize",
(data_.length() / 1024));
return true;
}
bool URLFetcherCore::GetResponseAsFilePath(bool take_ownership,
FilePath* out_response_path) {
TRACK_MEMORY_SCOPE("Network");
DCHECK(delegate_task_runner_->BelongsToCurrentThread());
const bool destination_is_file =
response_destination_ == URLFetcherCore::TEMP_FILE ||
response_destination_ == URLFetcherCore::PERMANENT_FILE;
if (!destination_is_file || !file_writer_.get())
return false;
*out_response_path = file_writer_->file_path();
if (take_ownership) {
network_task_runner_->PostTask(
FROM_HERE,
base::Bind(&URLFetcherCore::DisownFile, this));
}
return true;
}
void URLFetcherCore::OnReceivedRedirect(URLRequest* request,
const GURL& new_url,
bool* defer_redirect) {
TRACK_MEMORY_SCOPE("Network");
DCHECK_EQ(request, request_.get());
DCHECK(network_task_runner_->BelongsToCurrentThread());
if (stop_on_redirect_) {
stopped_on_redirect_ = true;
url_ = new_url;
response_code_ = request_->GetResponseCode();
#if defined(COBALT)
// Cobalt needs header information for CORS check between redirects.
response_headers_ = request_->response_headers();
#endif
was_fetched_via_proxy_ = request_->was_fetched_via_proxy();
request->Cancel();
OnReadCompleted(request, 0);
}
}
void URLFetcherCore::OnResponseStarted(URLRequest* request) {
TRACK_MEMORY_SCOPE("Network");
DCHECK_EQ(request, request_.get());
DCHECK(network_task_runner_->BelongsToCurrentThread());
if (request_->status().is_success()) {
response_code_ = request_->GetResponseCode();
response_headers_ = request_->response_headers();
socket_address_ = request_->GetSocketAddress();
was_fetched_via_proxy_ = request_->was_fetched_via_proxy();
total_response_bytes_ = request_->GetExpectedContentSize();
#if defined(COBALT)
// We update this earlier than OnReadCompleted(), so that the delegate
// can know about it if they call GetURL() in any callback.
if (!stopped_on_redirect_) {
url_ = request_->url();
}
InformDelegateResponseStarted();
#endif // defined(COBALT)
}
ReadResponse();
}
void URLFetcherCore::OnCertificateRequested(
URLRequest* request,
SSLCertRequestInfo* cert_request_info) {
DCHECK_EQ(request, request_.get());
DCHECK(network_task_runner_->BelongsToCurrentThread());
if (g_ignore_certificate_requests) {
request->ContinueWithCertificate(NULL);
} else {
request->Cancel();
}
}
void URLFetcherCore::OnReadCompleted(URLRequest* request,
int bytes_read) {
TRACK_MEMORY_SCOPE("Network");
DCHECK(request == request_);
DCHECK(network_task_runner_->BelongsToCurrentThread());
#if !defined(COBALT)
if (!stopped_on_redirect_) {
url_ = request->url();
}
#endif
URLRequestThrottlerManager* throttler_manager =
request->context()->throttler_manager();
if (throttler_manager) {
url_throttler_entry_ = throttler_manager->RegisterRequestUrl(url_);
}
download_data_cache_.reset();
bool waiting_on_write = false;
do {
if (!request_->status().is_success() || bytes_read <= 0)
break;
if (current_response_bytes_ == 0) {
TRACE_EVENT_ASYNC_STEP0("net::url_request", "URLFetcher", this,
"Fetch Content");
}
current_response_bytes_ += bytes_read;
InformDelegateDownloadDataIfNecessary(bytes_read);
if (!WriteBuffer(bytes_read)) {
// If WriteBuffer() returns false, we have a pending write to
// wait on before reading further.
waiting_on_write = true;
break;
}
} while (request_->Read(buffer_, kBufferSize, &bytes_read));
InformDelegateDownloadData();
const URLRequestStatus status = request_->status();
if (status.is_success())
request_->GetResponseCookies(&cookies_);
// See comments re: HEAD requests in ReadResponse().
if ((!status.is_io_pending() && !waiting_on_write) ||
(request_type_ == URLFetcher::HEAD)) {
status_ = status;
ReleaseRequest();
// If a file is open, close it.
if (file_writer_.get()) {
// If the file is open, close it. After closing the file,
// RetryOrCompleteUrlFetch() will be called.
file_writer_->CloseFileAndCompleteRequest();
} else {
// Otherwise, complete or retry the URL request directly.
RetryOrCompleteUrlFetch();
}
}
}
void URLFetcherCore::CancelAll() {
g_registry.Get().CancelAll();
}
int URLFetcherCore::GetNumFetcherCores() {
return g_registry.Get().size();
}
void URLFetcherCore::SetEnableInterceptionForTests(bool enabled) {
g_interception_enabled = enabled;
}
void URLFetcherCore::SetIgnoreCertificateRequests(bool ignored) {
g_ignore_certificate_requests = ignored;
}
URLFetcherCore::~URLFetcherCore() {
// |request_| should be NULL. If not, it's unsafe to delete it here since we
// may not be on the IO thread.
DCHECK(!request_.get());
}
void URLFetcherCore::StartOnIOThread() {
DCHECK(network_task_runner_->BelongsToCurrentThread());
switch (response_destination_) {
case STRING:
StartURLRequestWhenAppropriate();
break;
case PERMANENT_FILE:
case TEMP_FILE:
DCHECK(file_task_runner_.get())
<< "Need to set the file task runner.";
file_writer_.reset(new FileWriter(this, file_task_runner_));
// If the file is successfully created,
// URLFetcherCore::StartURLRequestWhenAppropriate() will be called.
switch (response_destination_) {
case PERMANENT_FILE:
file_writer_->CreateFileAtPath(response_destination_file_path_);
break;
case TEMP_FILE:
file_writer_->CreateTempFile();
break;
default:
NOTREACHED();
}
break;
#if defined(COBALT)
case DISCARD:
StartURLRequestWhenAppropriate();
break;
#endif
default:
NOTREACHED();
}
}
void URLFetcherCore::StartURLRequest() {
TRACK_MEMORY_SCOPE("Network");
DCHECK(network_task_runner_->BelongsToCurrentThread());
TRACE_EVENT_ASYNC_STEP0("net::url_request", "URLFetcher", this,
"Waiting For Data");
if (was_cancelled_) {
// Since StartURLRequest() is posted as a *delayed* task, it may
// run after the URLFetcher was already stopped.
return;
}
DCHECK(request_context_getter_);
DCHECK(!request_.get());
g_registry.Get().AddURLFetcherCore(this);
current_response_bytes_ = 0;
request_.reset(request_context_getter_->GetURLRequestContext()->CreateRequest(
original_url_, this));
request_->set_stack_trace(stack_trace_);
int flags = request_->load_flags() | load_flags_;
if (!g_interception_enabled)
flags = flags | LOAD_DISABLE_INTERCEPT;
if (is_chunked_upload_)
request_->EnableChunkedUpload();
request_->set_load_flags(flags);
request_->set_referrer(referrer_);
request_->set_first_party_for_cookies(first_party_for_cookies_.is_empty() ?
original_url_ : first_party_for_cookies_);
if (url_request_data_key_ && !url_request_create_data_callback_.is_null()) {
request_->SetUserData(url_request_data_key_,
url_request_create_data_callback_.Run());
}
switch (request_type_) {
case URLFetcher::GET:
break;
case URLFetcher::POST:
case URLFetcher::PUT:
#if !defined(COBALT)
// Allow not specifying a content type when uploading ArrayBuffer data.
DCHECK(!upload_content_type_.empty());
#endif
request_->set_method(
request_type_ == URLFetcher::POST ? "POST" : "PUT");
if (!upload_content_type_.empty()) {
extra_request_headers_.SetHeader(HttpRequestHeaders::kContentType,
upload_content_type_);
}
if (!upload_content_.empty()) {
scoped_ptr<UploadElementReader> reader(new UploadBytesElementReader(
upload_content_.data(), upload_content_.size()));
request_->set_upload(make_scoped_ptr(
UploadDataStream::CreateWithReader(reader.Pass(), 0)));
}
current_upload_bytes_ = -1;
// TODO(kinaba): http://crbug.com/118103. Implement upload callback in the
// layer and avoid using timer here.
upload_progress_checker_timer_.reset(
new base::RepeatingTimer<URLFetcherCore>());
upload_progress_checker_timer_->Start(
FROM_HERE,
base::TimeDelta::FromMilliseconds(kUploadProgressTimerInterval),
this,
&URLFetcherCore::InformDelegateUploadProgress);
break;
case URLFetcher::HEAD:
request_->set_method("HEAD");
break;
case URLFetcher::DELETE_REQUEST:
request_->set_method("DELETE");
break;
#if defined(COBALT)
// Cobalt needs OPTIONS method to send CORS-Preflight requests.
case URLFetcher::OPTIONS:
request_->set_method("OPTIONS");
break;
#endif
default:
NOTREACHED();
}
if (!extra_request_headers_.IsEmpty())
request_->SetExtraRequestHeaders(extra_request_headers_);
// There might be data left over from a previous request attempt.
data_.clear();
// If we are writing the response to a file, the only caller
// of this function should have created it and not written yet.
DCHECK(!file_writer_.get() || file_writer_->total_bytes_written() == 0);
request_->Start();
}
void URLFetcherCore::StartURLRequestWhenAppropriate() {
TRACK_MEMORY_SCOPE("Network");
TRACE_EVENT_ASYNC_BEGIN1("net::url_request", "URLFetcher", this, "url",
original_url_.path());
DCHECK(network_task_runner_->BelongsToCurrentThread());
if (was_cancelled_)
return;
DCHECK(request_context_getter_);
int64 delay = 0LL;
if (original_url_throttler_entry_ == NULL) {
URLRequestThrottlerManager* manager =
request_context_getter_->GetURLRequestContext()->throttler_manager();
if (manager) {
original_url_throttler_entry_ =
manager->RegisterRequestUrl(original_url_);
}
}
if (original_url_throttler_entry_ != NULL) {
delay = original_url_throttler_entry_->ReserveSendingTimeForNextRequest(
GetBackoffReleaseTime());
}
if (delay == 0) {
StartURLRequest();
} else {
base::ThreadTaskRunnerHandle::Get()->PostDelayedTask(
FROM_HERE, base::Bind(&URLFetcherCore::StartURLRequest, this),
base::TimeDelta::FromMilliseconds(delay));
}
}
void URLFetcherCore::CancelURLRequest() {
TRACK_MEMORY_SCOPE("Network");
DCHECK(network_task_runner_->BelongsToCurrentThread());
if (request_.get()) {
request_->Cancel();
ReleaseRequest();
TRACE_EVENT_ASYNC_END0("net::url_request", "URLFetcher", this);
}
// Release the reference to the request context. There could be multiple
// references to URLFetcher::Core at this point so it may take a while to
// delete the object, but we cannot delay the destruction of the request
// context.
request_context_getter_ = NULL;
first_party_for_cookies_ = GURL();
url_request_data_key_ = NULL;
url_request_create_data_callback_.Reset();
was_cancelled_ = true;
file_writer_.reset();
}
void URLFetcherCore::OnCompletedURLRequest(
base::TimeDelta backoff_delay) {
TRACK_MEMORY_SCOPE("Network");
TRACE_EVENT_ASYNC_END1("net::url_request", "URLFetcher", this, "url",
original_url_.path());
DCHECK(delegate_task_runner_->BelongsToCurrentThread());
// Save the status and backoff_delay so that delegates can read it.
if (delegate_) {
backoff_delay_ = backoff_delay;
InformDelegateFetchIsComplete();
}
}
void URLFetcherCore::InformDelegateFetchIsComplete() {
TRACK_MEMORY_SCOPE("Network");
DCHECK(delegate_task_runner_->BelongsToCurrentThread());
if (delegate_)
delegate_->OnURLFetchComplete(fetcher_);
}
void URLFetcherCore::NotifyMalformedContent() {
TRACK_MEMORY_SCOPE("Network");
DCHECK(network_task_runner_->BelongsToCurrentThread());
if (url_throttler_entry_ != NULL) {
int status_code = response_code_;
if (status_code == URLFetcher::RESPONSE_CODE_INVALID) {
// The status code will generally be known by the time clients
// call the |ReceivedContentWasMalformed()| function (which ends up
// calling the current function) but if it's not, we need to assume
// the response was successful so that the total failure count
// used to calculate exponential back-off goes up.
status_code = 200;
}
url_throttler_entry_->ReceivedContentWasMalformed(status_code);
}
}
void URLFetcherCore::RetryOrCompleteUrlFetch() {
TRACK_MEMORY_SCOPE("Network");
DCHECK(network_task_runner_->BelongsToCurrentThread());
base::TimeDelta backoff_delay;
// Checks the response from server.
if (response_code_ >= 500 ||
status_.error() == ERR_TEMPORARILY_THROTTLED) {
// When encountering a server error, we will send the request again
// after backoff time.
++num_retries_on_5xx_;
// Note that backoff_delay may be 0 because (a) the
// URLRequestThrottlerManager and related code does not
// necessarily back off on the first error, (b) it only backs off
// on some of the 5xx status codes, (c) not all URLRequestContexts
// have a throttler manager.
base::TimeTicks backoff_release_time = GetBackoffReleaseTime();
backoff_delay = backoff_release_time - base::TimeTicks::Now();
if (backoff_delay < base::TimeDelta())
backoff_delay = base::TimeDelta();
if (automatically_retry_on_5xx_ &&
num_retries_on_5xx_ <= max_retries_on_5xx_) {
StartOnIOThread();
return;
}
} else {
backoff_delay = base::TimeDelta();
}
// Retry if the request failed due to network changes.
if (status_.error() == ERR_NETWORK_CHANGED &&
num_retries_on_network_changes_ < max_retries_on_network_changes_) {
++num_retries_on_network_changes_;
// Retry soon, after flushing all the current tasks which may include
// further network change observers.
network_task_runner_->PostTask(
FROM_HERE, base::Bind(&URLFetcherCore::StartOnIOThread, this));
return;
}
request_context_getter_ = NULL;
first_party_for_cookies_ = GURL();
url_request_data_key_ = NULL;
url_request_create_data_callback_.Reset();
bool posted = delegate_task_runner_->PostTask(
FROM_HERE,
base::Bind(&URLFetcherCore::OnCompletedURLRequest, this, backoff_delay));
// If the delegate message loop does not exist any more, then the delegate
// should be gone too.
DCHECK(posted || !delegate_);
}
void URLFetcherCore::ReleaseRequest() {
#if defined(COBALT)
if (upload_progress_checker_timer_) {
// The request may have completed too quickly, before the upload
// progress checker had a chance to run. Force it to run here.
InformDelegateUploadProgress();
}
#endif
upload_progress_checker_timer_.reset();
request_.reset();
g_registry.Get().RemoveURLFetcherCore(this);
}
base::TimeTicks URLFetcherCore::GetBackoffReleaseTime() {
TRACK_MEMORY_SCOPE("Network");
DCHECK(network_task_runner_->BelongsToCurrentThread());
if (original_url_throttler_entry_) {
base::TimeTicks original_url_backoff =
original_url_throttler_entry_->GetExponentialBackoffReleaseTime();
base::TimeTicks destination_url_backoff;
if (url_throttler_entry_ != NULL &&
original_url_throttler_entry_ != url_throttler_entry_) {
destination_url_backoff =
url_throttler_entry_->GetExponentialBackoffReleaseTime();
}
return original_url_backoff > destination_url_backoff ?
original_url_backoff : destination_url_backoff;
} else {
return base::TimeTicks();
}
}
void URLFetcherCore::CompleteAddingUploadDataChunk(
const std::string& content, bool is_last_chunk) {
TRACK_MEMORY_SCOPE("Network");
if (was_cancelled_) {
// Since CompleteAddingUploadDataChunk() is posted as a *delayed* task, it
// may run after the URLFetcher was already stopped.
return;
}
DCHECK(is_chunked_upload_);
DCHECK(request_.get());
DCHECK(!content.empty());
request_->AppendChunkToUpload(content.data(),
static_cast<int>(content.length()),
is_last_chunk);
}
// Return true if the write was done and reading may continue.
// Return false if the write is pending, and the next read will
// be done later.
bool URLFetcherCore::WriteBuffer(int num_bytes) {
TRACK_MEMORY_SCOPE("Network");
bool write_complete = false;
switch (response_destination_) {
case STRING:
data_.append(buffer_->data(), num_bytes);
write_complete = true;
break;
case PERMANENT_FILE:
case TEMP_FILE:
file_writer_->WriteBuffer(num_bytes);
// WriteBuffer() sends a request the file thread.
// The write is not done yet.
write_complete = false;
break;
#if defined(COBALT)
case DISCARD:
write_complete = true;
break;
#endif
default:
NOTREACHED();
}
return write_complete;
}
void URLFetcherCore::ReadResponse() {
TRACK_MEMORY_SCOPE("Network");
// Some servers may treat HEAD requests as GET requests. To free up the
// network connection as soon as possible, signal that the request has
// completed immediately, without trying to read any data back (all we care
// about is the response code and headers, which we already have).
int bytes_read = 0;
if (request_->status().is_success() &&
(request_type_ != URLFetcher::HEAD))
request_->Read(buffer_, kBufferSize, &bytes_read);
OnReadCompleted(request_.get(), bytes_read);
}
void URLFetcherCore::DisownFile() {
file_writer_->DisownFile();
}
#if defined(COBALT)
void URLFetcherCore::InformDelegateResponseStarted() {
DCHECK(network_task_runner_->BelongsToCurrentThread());
DCHECK(request_);
delegate_task_runner_->PostTask(
FROM_HERE,
base::Bind(
&URLFetcherCore::InformDelegateResponseStartedInDelegateThread,
this));
}
void URLFetcherCore::InformDelegateResponseStartedInDelegateThread() {
DCHECK(delegate_task_runner_->BelongsToCurrentThread());
if (delegate_) {
delegate_->OnURLFetchResponseStarted(fetcher_);
}
}
#endif // defined(COBALT)
void URLFetcherCore::InformDelegateUploadProgress() {
TRACK_MEMORY_SCOPE("Network");
DCHECK(network_task_runner_->BelongsToCurrentThread());
if (request_.get()) {
int64 current = request_->GetUploadProgress().position();
if (current_upload_bytes_ != current) {
current_upload_bytes_ = current;
int64 total = -1;
if (!is_chunked_upload_)
total = static_cast<int64>(upload_content_.size());
delegate_task_runner_->PostTask(
FROM_HERE,
base::Bind(
&URLFetcherCore::InformDelegateUploadProgressInDelegateThread,
this, current, total));
}
}
}
void URLFetcherCore::InformDelegateUploadProgressInDelegateThread(
int64 current, int64 total) {
TRACK_MEMORY_SCOPE("Network");
DCHECK(delegate_task_runner_->BelongsToCurrentThread());
if (delegate_)
delegate_->OnURLFetchUploadProgress(fetcher_, current, total);
}
void URLFetcherCore::InformDelegateDownloadDataIfNecessary(int bytes_read) {
TRACK_MEMORY_SCOPE("Network");
DCHECK(network_task_runner_->BelongsToCurrentThread());
if (delegate_ && delegate_->ShouldSendDownloadData() && bytes_read != 0) {
if (!download_data_cache_) {
download_data_cache_.reset(new std::string);
download_data_cache_->reserve(kDownloadCacheSize);
}
download_data_cache_->resize(download_data_cache_->size() + bytes_read);
memcpy(&(*download_data_cache_)[download_data_cache_->size() - bytes_read],
buffer_->data(), bytes_read);
if (download_data_cache_->size() >= kDownloadCacheSize) {
delegate_task_runner_->PostTask(
FROM_HERE,
base::Bind(
&URLFetcherCore::InformDelegateDownloadDataInDelegateThread, this,
base::Passed(&download_data_cache_)));
}
}
}
void URLFetcherCore::InformDelegateDownloadData() {
TRACK_MEMORY_SCOPE("Network");
DCHECK(network_task_runner_->BelongsToCurrentThread());
if (delegate_ && delegate_->ShouldSendDownloadData() &&
download_data_cache_) {
delegate_task_runner_->PostTask(
FROM_HERE,
base::Bind(&URLFetcherCore::InformDelegateDownloadDataInDelegateThread,
this, base::Passed(&download_data_cache_)));
}
}
void URLFetcherCore::InformDelegateDownloadDataInDelegateThread(
scoped_ptr<std::string> download_data) {
TRACK_MEMORY_SCOPE("Network");
DCHECK(delegate_task_runner_->BelongsToCurrentThread());
if (delegate_) {
delegate_->OnURLFetchDownloadData(fetcher_, download_data.Pass());
}
}
} // namespace net