sync/internal_api/http_bridge.cc - chromium/src - Git at Google

 // Copyright 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 "sync/internal_api/public/http_bridge.h"

 #include "base/message_loop/message_loop.h"
 #include "base/message_loop/message_loop_proxy.h"
 #include "base/strings/string_number_conversions.h"
 #include "net/base/load_flags.h"
 #include "net/base/net_errors.h"
 #include "net/cookies/cookie_monster.h"
 #include "net/dns/host_resolver.h"
 #include "net/http/http_cache.h"
 #include "net/http/http_network_layer.h"
 #include "net/http/http_response_headers.h"
 #include "net/proxy/proxy_service.h"
 #include "net/url_request/static_http_user_agent_settings.h"
 #include "net/url_request/url_fetcher.h"
 #include "net/url_request/url_request_context.h"
 #include "net/url_request/url_request_status.h"
 #include "sync/internal_api/public/base/cancelation_signal.h"

 namespace syncer {

 HttpBridge::RequestContextGetter::RequestContextGetter(
     net::URLRequestContextGetter* baseline_context_getter,
     const std::string& user_agent)
     : baseline_context_getter_(baseline_context_getter),
       network_task_runner_(
           baseline_context_getter_->GetNetworkTaskRunner()),
       user_agent_(user_agent) {
   DCHECK(baseline_context_getter_.get());
   DCHECK(network_task_runner_.get());
   DCHECK(!user_agent_.empty());
 }

 HttpBridge::RequestContextGetter::~RequestContextGetter() {}

 net::URLRequestContext*
 HttpBridge::RequestContextGetter::GetURLRequestContext() {
   // Lazily create the context.
   if (!context_) {
     net::URLRequestContext* baseline_context =
         baseline_context_getter_->GetURLRequestContext();
     context_.reset(
         new RequestContext(baseline_context, GetNetworkTaskRunner(),
                            user_agent_));
     baseline_context_getter_ = NULL;
   }

   return context_.get();
 }

 scoped_refptr<base::SingleThreadTaskRunner>
 HttpBridge::RequestContextGetter::GetNetworkTaskRunner() const {
   return network_task_runner_;
 }

 HttpBridgeFactory::HttpBridgeFactory(
     net::URLRequestContextGetter* baseline_context_getter,
     const NetworkTimeUpdateCallback& network_time_update_callback,
     CancelationSignal* cancelation_signal)
     : baseline_request_context_getter_(baseline_context_getter),
       network_time_update_callback_(network_time_update_callback),
       cancelation_signal_(cancelation_signal) {
   // Registration should never fail.  This should happen on the UI thread during
   // init.  It would be impossible for a shutdown to have been requested at this
   // point.
   bool result = cancelation_signal_->TryRegisterHandler(this);
   DCHECK(result);
 }

 HttpBridgeFactory::~HttpBridgeFactory() {
   cancelation_signal_->UnregisterHandler(this);
 }

 void HttpBridgeFactory::Init(const std::string& user_agent) {
   base::AutoLock lock(context_getter_lock_);

   if (!baseline_request_context_getter_.get()) {
     // Uh oh.  We've been aborted before we finished initializing.  There's no
     // point in initializating further; let's just return right away.
     return;
   }

   request_context_getter_ =
       new HttpBridge::RequestContextGetter(
           baseline_request_context_getter_, user_agent);
 }

 HttpPostProviderInterface* HttpBridgeFactory::Create() {
   base::AutoLock lock(context_getter_lock_);

   // If we've been asked to shut down (something which may happen asynchronously
   // and at pretty much any time), then we won't have a request_context_getter_.
   // Some external mechanism must ensure that this function is not called after
   // we've been asked to shut down.
   CHECK(request_context_getter_.get());

   HttpBridge* http = new HttpBridge(request_context_getter_.get(),
                                     network_time_update_callback_);
   http->AddRef();
   return http;
 }

 void HttpBridgeFactory::Destroy(HttpPostProviderInterface* http) {
   static_cast<HttpBridge*>(http)->Release();
 }

 void HttpBridgeFactory::OnSignalReceived() {
   base::AutoLock lock(context_getter_lock_);
   // Release |baseline_request_context_getter_| as soon as possible so that it
   // is destroyed in the right order on its network task runner.  The
   // |request_context_getter_| has a reference to the baseline, so we must
   // drop our reference to it, too.
   baseline_request_context_getter_ = NULL;
   request_context_getter_ = NULL;
 }

 HttpBridge::RequestContext::RequestContext(
     net::URLRequestContext* baseline_context,
     const scoped_refptr<base::SingleThreadTaskRunner>&
         network_task_runner,
     const std::string& user_agent)
     : baseline_context_(baseline_context),
       network_task_runner_(network_task_runner) {
   DCHECK(!user_agent.empty());

   // Create empty, in-memory cookie store.
   set_cookie_store(new net::CookieMonster(NULL, NULL));

   // We don't use a cache for bridged loads, but we do want to share proxy info.
   set_host_resolver(baseline_context->host_resolver());
   set_proxy_service(baseline_context->proxy_service());
   set_ssl_config_service(baseline_context->ssl_config_service());

   // We want to share the HTTP session data with the network layer factory,
   // which includes auth_cache for proxies.
   // Session is not refcounted so we need to be careful to not lose the parent
   // context.
   net::HttpNetworkSession* session =
       baseline_context->http_transaction_factory()->GetSession();
   DCHECK(session);
   set_http_transaction_factory(new net::HttpNetworkLayer(session));

   // TODO(timsteele): We don't currently listen for pref changes of these
   // fields or CookiePolicy; I'm not sure we want to strictly follow the
   // default settings, since for example if the user chooses to block all
   // cookies, sync will start failing. Also it seems like accept_lang/charset
   // should be tied to whatever the sync servers expect (if anything). These
   // fields should probably just be settable by sync backend; though we should
   // figure out if we need to give the user explicit control over policies etc.
   http_user_agent_settings_.reset(new net::StaticHttpUserAgentSettings(
       baseline_context->GetAcceptLanguage(),
       user_agent));
   set_http_user_agent_settings(http_user_agent_settings_.get());

   set_net_log(baseline_context->net_log());
 }

 HttpBridge::RequestContext::~RequestContext() {
   DCHECK(network_task_runner_->BelongsToCurrentThread());
   delete http_transaction_factory();
 }

 HttpBridge::URLFetchState::URLFetchState() : url_poster(NULL),
                                              aborted(false),
                                              request_completed(false),
                                              request_succeeded(false),
                                              http_response_code(-1),
                                              error_code(-1) {}
 HttpBridge::URLFetchState::~URLFetchState() {}

 HttpBridge::HttpBridge(
     HttpBridge::RequestContextGetter* context_getter,
     const NetworkTimeUpdateCallback& network_time_update_callback)
     : created_on_loop_(base::MessageLoop::current()),
       http_post_completed_(false, false),
       context_getter_for_request_(context_getter),
       network_task_runner_(
           context_getter_for_request_->GetNetworkTaskRunner()),
       network_time_update_callback_(network_time_update_callback) {
 }

 HttpBridge::~HttpBridge() {
 }

 void HttpBridge::SetExtraRequestHeaders(const char * headers) {
   DCHECK(extra_headers_.empty())
       << "HttpBridge::SetExtraRequestHeaders called twice.";
   extra_headers_.assign(headers);
 }

 void HttpBridge::SetURL(const char* url, int port) {
   DCHECK_EQ(base::MessageLoop::current(), created_on_loop_);
   if (DCHECK_IS_ON()) {
     base::AutoLock lock(fetch_state_lock_);
     DCHECK(!fetch_state_.request_completed);
   }
   DCHECK(url_for_request_.is_empty())
       << "HttpBridge::SetURL called more than once?!";
   GURL temp(url);
   GURL::Replacements replacements;
   std::string port_str = base::IntToString(port);
   replacements.SetPort(port_str.c_str(),
                        url_parse::Component(0, port_str.length()));
   url_for_request_ = temp.ReplaceComponents(replacements);
 }

 void HttpBridge::SetPostPayload(const char* content_type,
                                 int content_length,
                                 const char* content) {
   DCHECK_EQ(base::MessageLoop::current(), created_on_loop_);
   if (DCHECK_IS_ON()) {
     base::AutoLock lock(fetch_state_lock_);
     DCHECK(!fetch_state_.request_completed);
   }
   DCHECK(content_type_.empty()) << "Bridge payload already set.";
   DCHECK_GE(content_length, 0) << "Content length < 0";
   content_type_ = content_type;
   if (!content || (content_length == 0)) {
     DCHECK_EQ(content_length, 0);
     request_content_ = " ";  // TODO(timsteele): URLFetcher requires non-empty
                              // content for POSTs whereas CURL does not, for now
                              // we hack this to support the sync backend.
   } else {
     request_content_.assign(content, content_length);
   }
 }

 bool HttpBridge::MakeSynchronousPost(int* error_code, int* response_code) {
   DCHECK_EQ(base::MessageLoop::current(), created_on_loop_);
   if (DCHECK_IS_ON()) {
     base::AutoLock lock(fetch_state_lock_);
     DCHECK(!fetch_state_.request_completed);
   }
   DCHECK(url_for_request_.is_valid()) << "Invalid URL for request";
   DCHECK(!content_type_.empty()) << "Payload not set";

   if (!network_task_runner_->PostTask(
           FROM_HERE,
           base::Bind(&HttpBridge::CallMakeAsynchronousPost, this))) {
     // This usually happens when we're in a unit test.
     LOG(WARNING) << "Could not post CallMakeAsynchronousPost task";
     return false;
   }

   // Block until network request completes or is aborted. See
   // OnURLFetchComplete and Abort.
   http_post_completed_.Wait();

   base::AutoLock lock(fetch_state_lock_);
   DCHECK(fetch_state_.request_completed || fetch_state_.aborted);
   *error_code = fetch_state_.error_code;
   *response_code = fetch_state_.http_response_code;
   return fetch_state_.request_succeeded;
 }

 void HttpBridge::MakeAsynchronousPost() {
   DCHECK(network_task_runner_->BelongsToCurrentThread());
   base::AutoLock lock(fetch_state_lock_);
   DCHECK(!fetch_state_.request_completed);
   if (fetch_state_.aborted)
     return;

   DCHECK(context_getter_for_request_.get());
   fetch_state_.url_poster = net::URLFetcher::Create(
       url_for_request_, net::URLFetcher::POST, this);
   fetch_state_.url_poster->SetRequestContext(context_getter_for_request_.get());
   fetch_state_.url_poster->SetUploadData(content_type_, request_content_);
   fetch_state_.url_poster->SetExtraRequestHeaders(extra_headers_);
   fetch_state_.url_poster->SetLoadFlags(net::LOAD_DO_NOT_SEND_COOKIES);
   fetch_state_.start_time = base::Time::Now();
   fetch_state_.url_poster->Start();
 }

 int HttpBridge::GetResponseContentLength() const {
   DCHECK_EQ(base::MessageLoop::current(), created_on_loop_);
   base::AutoLock lock(fetch_state_lock_);
   DCHECK(fetch_state_.request_completed);
   return fetch_state_.response_content.size();
 }

 const char* HttpBridge::GetResponseContent() const {
   DCHECK_EQ(base::MessageLoop::current(), created_on_loop_);
   base::AutoLock lock(fetch_state_lock_);
   DCHECK(fetch_state_.request_completed);
   return fetch_state_.response_content.data();
 }

 const std::string HttpBridge::GetResponseHeaderValue(
     const std::string& name) const {

   DCHECK_EQ(base::MessageLoop::current(), created_on_loop_);
   base::AutoLock lock(fetch_state_lock_);
   DCHECK(fetch_state_.request_completed);

   std::string value;
   fetch_state_.response_headers->EnumerateHeader(NULL, name, &value);
   return value;
 }

 void HttpBridge::Abort() {
   base::AutoLock lock(fetch_state_lock_);

   // Release |request_context_getter_| as soon as possible so that it is
   // destroyed in the right order on its network task runner.
   context_getter_for_request_ = NULL;

   DCHECK(!fetch_state_.aborted);
   if (fetch_state_.aborted || fetch_state_.request_completed)
     return;

   fetch_state_.aborted = true;
   if (!network_task_runner_->PostTask(
           FROM_HERE,
           base::Bind(&HttpBridge::DestroyURLFetcherOnIOThread, this,
                      fetch_state_.url_poster))) {
     // Madness ensues.
     NOTREACHED() << "Could not post task to delete URLFetcher";
   }

   fetch_state_.url_poster = NULL;
   fetch_state_.error_code = net::ERR_ABORTED;
   http_post_completed_.Signal();
 }

 void HttpBridge::DestroyURLFetcherOnIOThread(net::URLFetcher* fetcher) {
   DCHECK(network_task_runner_->BelongsToCurrentThread());
   delete fetcher;
 }

 void HttpBridge::OnURLFetchComplete(const net::URLFetcher* source) {
   DCHECK(network_task_runner_->BelongsToCurrentThread());
   base::AutoLock lock(fetch_state_lock_);
   if (fetch_state_.aborted)
     return;

   fetch_state_.end_time = base::Time::Now();
   fetch_state_.request_completed = true;
   fetch_state_.request_succeeded =
       (net::URLRequestStatus::SUCCESS == source->GetStatus().status());
   fetch_state_.http_response_code = source->GetResponseCode();
   fetch_state_.error_code = source->GetStatus().error();

   // Use a real (non-debug) log to facilitate troubleshooting in the wild.
   VLOG(2) << "HttpBridge::OnURLFetchComplete for: "
           << fetch_state_.url_poster->GetURL().spec();
   VLOG(1) << "HttpBridge received response code: "
           << fetch_state_.http_response_code;

   source->GetResponseAsString(&fetch_state_.response_content);
   fetch_state_.response_headers = source->GetResponseHeaders();
   UpdateNetworkTime();

   // End of the line for url_poster_. It lives only on the IO loop.
   // We defer deletion because we're inside a callback from a component of the
   // URLFetcher, so it seems most natural / "polite" to let the stack unwind.
   base::MessageLoop::current()->DeleteSoon(FROM_HERE, fetch_state_.url_poster);
   fetch_state_.url_poster = NULL;

   // Wake the blocked syncer thread in MakeSynchronousPost.
   // WARNING: DONT DO ANYTHING AFTER THIS CALL! |this| may be deleted!
   http_post_completed_.Signal();
 }

 net::URLRequestContextGetter* HttpBridge::GetRequestContextGetterForTest()
     const {
   base::AutoLock lock(fetch_state_lock_);
   return context_getter_for_request_.get();
 }

 void HttpBridge::UpdateNetworkTime() {
   std::string sane_time_str;
   if (!fetch_state_.request_succeeded || fetch_state_.start_time.is_null() ||
       fetch_state_.end_time < fetch_state_.start_time ||
       !fetch_state_.response_headers->EnumerateHeader(NULL, "Sane-Time-Millis",
                                                       &sane_time_str)) {
     return;
   }

   int64 sane_time_ms = 0;
   if (base::StringToInt64(sane_time_str, &sane_time_ms)) {
     network_time_update_callback_.Run(
         base::Time::FromJsTime(sane_time_ms),
         base::TimeDelta::FromMilliseconds(1),
         fetch_state_.end_time - fetch_state_.start_time);
   }
 }

 }  // namespace syncer
	// Copyright 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 "sync/internal_api/public/http_bridge.h"

	#include "base/message_loop/message_loop.h"
	#include "base/message_loop/message_loop_proxy.h"
	#include "base/strings/string_number_conversions.h"
	#include "net/base/load_flags.h"
	#include "net/base/net_errors.h"
	#include "net/cookies/cookie_monster.h"
	#include "net/dns/host_resolver.h"
	#include "net/http/http_cache.h"
	#include "net/http/http_network_layer.h"
	#include "net/http/http_response_headers.h"
	#include "net/proxy/proxy_service.h"
	#include "net/url_request/static_http_user_agent_settings.h"
	#include "net/url_request/url_fetcher.h"
	#include "net/url_request/url_request_context.h"
	#include "net/url_request/url_request_status.h"
	#include "sync/internal_api/public/base/cancelation_signal.h"

	namespace syncer {

	HttpBridge::RequestContextGetter::RequestContextGetter(
	net::URLRequestContextGetter* baseline_context_getter,
	const std::string& user_agent)
	: baseline_context_getter_(baseline_context_getter),
	network_task_runner_(
	baseline_context_getter_->GetNetworkTaskRunner()),
	user_agent_(user_agent) {
	DCHECK(baseline_context_getter_.get());
	DCHECK(network_task_runner_.get());
	DCHECK(!user_agent_.empty());
	}

	HttpBridge::RequestContextGetter::~RequestContextGetter() {}

	net::URLRequestContext*
	HttpBridge::RequestContextGetter::GetURLRequestContext() {
	// Lazily create the context.
	if (!context_) {
	net::URLRequestContext* baseline_context =
	baseline_context_getter_->GetURLRequestContext();
	context_.reset(
	new RequestContext(baseline_context, GetNetworkTaskRunner(),
	user_agent_));
	baseline_context_getter_ = NULL;
	}

	return context_.get();
	}

	scoped_refptr<base::SingleThreadTaskRunner>
	HttpBridge::RequestContextGetter::GetNetworkTaskRunner() const {
	return network_task_runner_;
	}

	HttpBridgeFactory::HttpBridgeFactory(
	net::URLRequestContextGetter* baseline_context_getter,
	const NetworkTimeUpdateCallback& network_time_update_callback,
	CancelationSignal* cancelation_signal)
	: baseline_request_context_getter_(baseline_context_getter),
	network_time_update_callback_(network_time_update_callback),
	cancelation_signal_(cancelation_signal) {
	// Registration should never fail. This should happen on the UI thread during
	// init. It would be impossible for a shutdown to have been requested at this
	// point.
	bool result = cancelation_signal_->TryRegisterHandler(this);
	DCHECK(result);
	}

	HttpBridgeFactory::~HttpBridgeFactory() {
	cancelation_signal_->UnregisterHandler(this);
	}

	void HttpBridgeFactory::Init(const std::string& user_agent) {
	base::AutoLock lock(context_getter_lock_);

	if (!baseline_request_context_getter_.get()) {
	// Uh oh. We've been aborted before we finished initializing. There's no
	// point in initializating further; let's just return right away.
	return;
	}

	request_context_getter_ =
	new HttpBridge::RequestContextGetter(
	baseline_request_context_getter_, user_agent);
	}

	HttpPostProviderInterface* HttpBridgeFactory::Create() {
	base::AutoLock lock(context_getter_lock_);

	// If we've been asked to shut down (something which may happen asynchronously
	// and at pretty much any time), then we won't have a request_context_getter_.
	// Some external mechanism must ensure that this function is not called after
	// we've been asked to shut down.
	CHECK(request_context_getter_.get());

	HttpBridge* http = new HttpBridge(request_context_getter_.get(),
	network_time_update_callback_);
	http->AddRef();
	return http;
	}

	void HttpBridgeFactory::Destroy(HttpPostProviderInterface* http) {
	static_cast<HttpBridge*>(http)->Release();
	}

	void HttpBridgeFactory::OnSignalReceived() {
	base::AutoLock lock(context_getter_lock_);
	// Release \|baseline_request_context_getter_\| as soon as possible so that it
	// is destroyed in the right order on its network task runner. The
	// \|request_context_getter_\| has a reference to the baseline, so we must
	// drop our reference to it, too.
	baseline_request_context_getter_ = NULL;
	request_context_getter_ = NULL;
	}

	HttpBridge::RequestContext::RequestContext(
	net::URLRequestContext* baseline_context,
	const scoped_refptr<base::SingleThreadTaskRunner>&
	network_task_runner,
	const std::string& user_agent)
	: baseline_context_(baseline_context),
	network_task_runner_(network_task_runner) {
	DCHECK(!user_agent.empty());

	// Create empty, in-memory cookie store.
	set_cookie_store(new net::CookieMonster(NULL, NULL));

	// We don't use a cache for bridged loads, but we do want to share proxy info.
	set_host_resolver(baseline_context->host_resolver());
	set_proxy_service(baseline_context->proxy_service());
	set_ssl_config_service(baseline_context->ssl_config_service());

	// We want to share the HTTP session data with the network layer factory,
	// which includes auth_cache for proxies.
	// Session is not refcounted so we need to be careful to not lose the parent
	// context.
	net::HttpNetworkSession* session =
	baseline_context->http_transaction_factory()->GetSession();
	DCHECK(session);
	set_http_transaction_factory(new net::HttpNetworkLayer(session));

	// TODO(timsteele): We don't currently listen for pref changes of these
	// fields or CookiePolicy; I'm not sure we want to strictly follow the
	// default settings, since for example if the user chooses to block all
	// cookies, sync will start failing. Also it seems like accept_lang/charset
	// should be tied to whatever the sync servers expect (if anything). These
	// fields should probably just be settable by sync backend; though we should
	// figure out if we need to give the user explicit control over policies etc.
	http_user_agent_settings_.reset(new net::StaticHttpUserAgentSettings(
	baseline_context->GetAcceptLanguage(),
	user_agent));
	set_http_user_agent_settings(http_user_agent_settings_.get());

	set_net_log(baseline_context->net_log());
	}

	HttpBridge::RequestContext::~RequestContext() {
	DCHECK(network_task_runner_->BelongsToCurrentThread());
	delete http_transaction_factory();
	}

	HttpBridge::URLFetchState::URLFetchState() : url_poster(NULL),
	aborted(false),
	request_completed(false),
	request_succeeded(false),
	http_response_code(-1),
	error_code(-1) {}
	HttpBridge::URLFetchState::~URLFetchState() {}

	HttpBridge::HttpBridge(
	HttpBridge::RequestContextGetter* context_getter,
	const NetworkTimeUpdateCallback& network_time_update_callback)
	: created_on_loop_(base::MessageLoop::current()),
	http_post_completed_(false, false),
	context_getter_for_request_(context_getter),
	network_task_runner_(
	context_getter_for_request_->GetNetworkTaskRunner()),
	network_time_update_callback_(network_time_update_callback) {
	}

	HttpBridge::~HttpBridge() {
	}

	void HttpBridge::SetExtraRequestHeaders(const char * headers) {
	DCHECK(extra_headers_.empty())
	<< "HttpBridge::SetExtraRequestHeaders called twice.";
	extra_headers_.assign(headers);
	}

	void HttpBridge::SetURL(const char* url, int port) {
	DCHECK_EQ(base::MessageLoop::current(), created_on_loop_);
	if (DCHECK_IS_ON()) {
	base::AutoLock lock(fetch_state_lock_);
	DCHECK(!fetch_state_.request_completed);
	}
	DCHECK(url_for_request_.is_empty())
	<< "HttpBridge::SetURL called more than once?!";
	GURL temp(url);
	GURL::Replacements replacements;
	std::string port_str = base::IntToString(port);
	replacements.SetPort(port_str.c_str(),
	url_parse::Component(0, port_str.length()));
	url_for_request_ = temp.ReplaceComponents(replacements);
	}

	void HttpBridge::SetPostPayload(const char* content_type,
	int content_length,
	const char* content) {
	DCHECK_EQ(base::MessageLoop::current(), created_on_loop_);
	if (DCHECK_IS_ON()) {
	base::AutoLock lock(fetch_state_lock_);
	DCHECK(!fetch_state_.request_completed);
	}
	DCHECK(content_type_.empty()) << "Bridge payload already set.";
	DCHECK_GE(content_length, 0) << "Content length < 0";
	content_type_ = content_type;
	if (!content \|\| (content_length == 0)) {
	DCHECK_EQ(content_length, 0);
	request_content_ = " "; // TODO(timsteele): URLFetcher requires non-empty
	// content for POSTs whereas CURL does not, for now
	// we hack this to support the sync backend.
	} else {
	request_content_.assign(content, content_length);
	}
	}

	bool HttpBridge::MakeSynchronousPost(int* error_code, int* response_code) {
	DCHECK_EQ(base::MessageLoop::current(), created_on_loop_);
	if (DCHECK_IS_ON()) {
	base::AutoLock lock(fetch_state_lock_);
	DCHECK(!fetch_state_.request_completed);
	}
	DCHECK(url_for_request_.is_valid()) << "Invalid URL for request";
	DCHECK(!content_type_.empty()) << "Payload not set";

	if (!network_task_runner_->PostTask(
	FROM_HERE,
	base::Bind(&HttpBridge::CallMakeAsynchronousPost, this))) {
	// This usually happens when we're in a unit test.
	LOG(WARNING) << "Could not post CallMakeAsynchronousPost task";
	return false;
	}

	// Block until network request completes or is aborted. See
	// OnURLFetchComplete and Abort.
	http_post_completed_.Wait();

	base::AutoLock lock(fetch_state_lock_);
	DCHECK(fetch_state_.request_completed \|\| fetch_state_.aborted);
	*error_code = fetch_state_.error_code;
	*response_code = fetch_state_.http_response_code;
	return fetch_state_.request_succeeded;
	}

	void HttpBridge::MakeAsynchronousPost() {
	DCHECK(network_task_runner_->BelongsToCurrentThread());
	base::AutoLock lock(fetch_state_lock_);
	DCHECK(!fetch_state_.request_completed);
	if (fetch_state_.aborted)
	return;

	DCHECK(context_getter_for_request_.get());
	fetch_state_.url_poster = net::URLFetcher::Create(
	url_for_request_, net::URLFetcher::POST, this);
	fetch_state_.url_poster->SetRequestContext(context_getter_for_request_.get());
	fetch_state_.url_poster->SetUploadData(content_type_, request_content_);
	fetch_state_.url_poster->SetExtraRequestHeaders(extra_headers_);
	fetch_state_.url_poster->SetLoadFlags(net::LOAD_DO_NOT_SEND_COOKIES);
	fetch_state_.start_time = base::Time::Now();
	fetch_state_.url_poster->Start();
	}

	int HttpBridge::GetResponseContentLength() const {
	DCHECK_EQ(base::MessageLoop::current(), created_on_loop_);
	base::AutoLock lock(fetch_state_lock_);
	DCHECK(fetch_state_.request_completed);
	return fetch_state_.response_content.size();
	}

	const char* HttpBridge::GetResponseContent() const {
	DCHECK_EQ(base::MessageLoop::current(), created_on_loop_);
	base::AutoLock lock(fetch_state_lock_);
	DCHECK(fetch_state_.request_completed);
	return fetch_state_.response_content.data();
	}

	const std::string HttpBridge::GetResponseHeaderValue(
	const std::string& name) const {

	DCHECK_EQ(base::MessageLoop::current(), created_on_loop_);
	base::AutoLock lock(fetch_state_lock_);
	DCHECK(fetch_state_.request_completed);

	std::string value;
	fetch_state_.response_headers->EnumerateHeader(NULL, name, &value);
	return value;
	}

	void HttpBridge::Abort() {
	base::AutoLock lock(fetch_state_lock_);

	// Release \|request_context_getter_\| as soon as possible so that it is
	// destroyed in the right order on its network task runner.
	context_getter_for_request_ = NULL;

	DCHECK(!fetch_state_.aborted);
	if (fetch_state_.aborted \|\| fetch_state_.request_completed)
	return;

	fetch_state_.aborted = true;
	if (!network_task_runner_->PostTask(
	FROM_HERE,
	base::Bind(&HttpBridge::DestroyURLFetcherOnIOThread, this,
	fetch_state_.url_poster))) {
	// Madness ensues.
	NOTREACHED() << "Could not post task to delete URLFetcher";
	}

	fetch_state_.url_poster = NULL;
	fetch_state_.error_code = net::ERR_ABORTED;
	http_post_completed_.Signal();
	}

	void HttpBridge::DestroyURLFetcherOnIOThread(net::URLFetcher* fetcher) {
	DCHECK(network_task_runner_->BelongsToCurrentThread());
	delete fetcher;
	}

	void HttpBridge::OnURLFetchComplete(const net::URLFetcher* source) {
	DCHECK(network_task_runner_->BelongsToCurrentThread());
	base::AutoLock lock(fetch_state_lock_);
	if (fetch_state_.aborted)
	return;

	fetch_state_.end_time = base::Time::Now();
	fetch_state_.request_completed = true;
	fetch_state_.request_succeeded =
	(net::URLRequestStatus::SUCCESS == source->GetStatus().status());
	fetch_state_.http_response_code = source->GetResponseCode();
	fetch_state_.error_code = source->GetStatus().error();

	// Use a real (non-debug) log to facilitate troubleshooting in the wild.
	VLOG(2) << "HttpBridge::OnURLFetchComplete for: "
	<< fetch_state_.url_poster->GetURL().spec();
	VLOG(1) << "HttpBridge received response code: "
	<< fetch_state_.http_response_code;

	source->GetResponseAsString(&fetch_state_.response_content);
	fetch_state_.response_headers = source->GetResponseHeaders();
	UpdateNetworkTime();

	// End of the line for url_poster_. It lives only on the IO loop.
	// We defer deletion because we're inside a callback from a component of the
	// URLFetcher, so it seems most natural / "polite" to let the stack unwind.
	base::MessageLoop::current()->DeleteSoon(FROM_HERE, fetch_state_.url_poster);
	fetch_state_.url_poster = NULL;

	// Wake the blocked syncer thread in MakeSynchronousPost.
	// WARNING: DONT DO ANYTHING AFTER THIS CALL! \|this\| may be deleted!
	http_post_completed_.Signal();
	}

	net::URLRequestContextGetter* HttpBridge::GetRequestContextGetterForTest()
	const {
	base::AutoLock lock(fetch_state_lock_);
	return context_getter_for_request_.get();
	}

	void HttpBridge::UpdateNetworkTime() {
	std::string sane_time_str;
	if (!fetch_state_.request_succeeded \|\| fetch_state_.start_time.is_null() \|\|
	fetch_state_.end_time < fetch_state_.start_time \|\|
	!fetch_state_.response_headers->EnumerateHeader(NULL, "Sane-Time-Millis",
	&sane_time_str)) {
	return;
	}

	int64 sane_time_ms = 0;
	if (base::StringToInt64(sane_time_str, &sane_time_ms)) {
	network_time_update_callback_.Run(
	base::Time::FromJsTime(sane_time_ms),
	base::TimeDelta::FromMilliseconds(1),
	fetch_state_.end_time - fetch_state_.start_time);
	}
	}

	} // namespace syncer