// 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. #ifndef SYNC_INTERNAL_API_PUBLIC_HTTP_BRIDGE_H_ #define SYNC_INTERNAL_API_PUBLIC_HTTP_BRIDGE_H_ #include #include "base/basictypes.h" #include "base/compiler_specific.h" #include "base/gtest_prod_util.h" #include "base/memory/ref_counted.h" #include "base/synchronization/lock.h" #include "base/synchronization/waitable_event.h" #include "googleurl/src/gurl.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 "sync/base/sync_export.h" #include "sync/internal_api/public/http_post_provider_factory.h" #include "sync/internal_api/public/http_post_provider_interface.h" class MessageLoop; class HttpBridgeTest; namespace net { class HttpResponseHeaders; class HttpUserAgentSettings; class URLFetcher; } namespace syncer { // A bridge between the syncer and Chromium HTTP layers. // Provides a way for the sync backend to use Chromium directly for HTTP // requests rather than depending on a third party provider (e.g libcurl). // This is a one-time use bridge. Create one for each request you want to make. // It is RefCountedThreadSafe because it can PostTask to the io loop, and thus // needs to stick around across context switches, etc. class SYNC_EXPORT_PRIVATE HttpBridge : public base::RefCountedThreadSafe, public HttpPostProviderInterface, public net::URLFetcherDelegate { public: friend class SyncHttpBridgeTest; // A request context used for HTTP requests bridged from the sync backend. // A bridged RequestContext has a dedicated in-memory cookie store and does // not use a cache. Thus the same type can be used for incognito mode. class RequestContext : public net::URLRequestContext { public: // |baseline_context| is used to obtain the accept-language, // accept-charsets, and proxy service information for bridged requests. // Typically |baseline_context| should be the net::URLRequestContext of the // currently active profile. RequestContext( net::URLRequestContext* baseline_context, const scoped_refptr& network_task_runner, const std::string& user_agent); // The destructor MUST be called on the IO thread. virtual ~RequestContext(); private: net::URLRequestContext* const baseline_context_; const scoped_refptr network_task_runner_; scoped_ptr http_user_agent_settings_; DISALLOW_COPY_AND_ASSIGN(RequestContext); }; // Lazy-getter for RequestContext objects. class SYNC_EXPORT_PRIVATE RequestContextGetter : public net::URLRequestContextGetter { public: RequestContextGetter( net::URLRequestContextGetter* baseline_context_getter, const std::string& user_agent); // net::URLRequestContextGetter implementation. virtual net::URLRequestContext* GetURLRequestContext() OVERRIDE; virtual scoped_refptr GetNetworkTaskRunner() const OVERRIDE; protected: virtual ~RequestContextGetter(); private: scoped_refptr baseline_context_getter_; const scoped_refptr network_task_runner_; // User agent to apply to the net::URLRequestContext. const std::string user_agent_; // Lazily initialized by GetURLRequestContext(). scoped_ptr context_; DISALLOW_COPY_AND_ASSIGN(RequestContextGetter); }; explicit HttpBridge(RequestContextGetter* context); // HttpPostProvider implementation. virtual void SetExtraRequestHeaders(const char* headers) OVERRIDE; virtual void SetURL(const char* url, int port) OVERRIDE; virtual void SetPostPayload(const char* content_type, int content_length, const char* content) OVERRIDE; virtual bool MakeSynchronousPost(int* error_code, int* response_code) OVERRIDE; virtual void Abort() OVERRIDE; // WARNING: these response content methods are used to extract plain old data // and not null terminated strings, so you should make sure you have read // GetResponseContentLength() characters when using GetResponseContent. e.g // string r(b->GetResponseContent(), b->GetResponseContentLength()). virtual int GetResponseContentLength() const OVERRIDE; virtual const char* GetResponseContent() const OVERRIDE; virtual const std::string GetResponseHeaderValue( const std::string& name) const OVERRIDE; // net::URLFetcherDelegate implementation. virtual void OnURLFetchComplete(const net::URLFetcher* source) OVERRIDE; net::URLRequestContextGetter* GetRequestContextGetterForTest() const; protected: friend class base::RefCountedThreadSafe; virtual ~HttpBridge(); // Protected virtual so the unit test can override to shunt network requests. virtual void MakeAsynchronousPost(); private: friend class ::HttpBridgeTest; // Called on the IO loop to issue the network request. The extra level // of indirection is so that the unit test can override this behavior but we // still have a function to statically pass to PostTask. void CallMakeAsynchronousPost() { MakeAsynchronousPost(); } // Used to destroy a fetcher when the bridge is Abort()ed, to ensure that // a reference to |this| is held while flushing any pending fetch completion // callbacks coming from the IO thread en route to finally destroying the // fetcher. void DestroyURLFetcherOnIOThread(net::URLFetcher* fetcher); // Gets a customized net::URLRequestContext for bridged requests. See // RequestContext definition for details. const scoped_refptr context_getter_for_request_; const scoped_refptr network_task_runner_; // The message loop of the thread we were created on. This is the thread that // will block on MakeSynchronousPost while the IO thread fetches data from // the network. // This should be the main syncer thread (SyncerThread) which is what blocks // on network IO through curl_easy_perform. MessageLoop* const created_on_loop_; // The URL to POST to. GURL url_for_request_; // POST payload information. std::string content_type_; std::string request_content_; std::string extra_headers_; // A waitable event we use to provide blocking semantics to // MakeSynchronousPost. We block created_on_loop_ while the IO loop fetches // network request. base::WaitableEvent http_post_completed_; struct URLFetchState { URLFetchState(); ~URLFetchState(); // Our hook into the network layer is a URLFetcher. USED ONLY ON THE IO // LOOP, so we can block created_on_loop_ while the fetch is in progress. // NOTE: This is not a scoped_ptr for a reason. It must be deleted on the // same thread that created it, which isn't the same thread |this| gets // deleted on. We must manually delete url_poster_ on the IO loop. net::URLFetcher* url_poster; // Used to support 'Abort' functionality. bool aborted; // Cached response data. bool request_completed; bool request_succeeded; int http_response_code; int error_code; std::string response_content; scoped_refptr response_headers; }; // This lock synchronizes use of state involved in the flow to fetch a URL // using URLFetcher. Because we can Abort() from any thread, for example, // this flow needs to be synchronized to gracefully clean up URLFetcher and // return appropriate values in |error_code|. mutable base::Lock fetch_state_lock_; URLFetchState fetch_state_; DISALLOW_COPY_AND_ASSIGN(HttpBridge); }; class SYNC_EXPORT HttpBridgeFactory : public HttpPostProviderFactory { public: HttpBridgeFactory( net::URLRequestContextGetter* baseline_context_getter, const std::string& user_agent); virtual ~HttpBridgeFactory(); // HttpPostProviderFactory: virtual HttpPostProviderInterface* Create() OVERRIDE; virtual void Destroy(HttpPostProviderInterface* http) OVERRIDE; private: // This request context is built on top of the baseline context and shares // common components. HttpBridge::RequestContextGetter* GetRequestContextGetter(); const scoped_refptr request_context_getter_; DISALLOW_COPY_AND_ASSIGN(HttpBridgeFactory); }; } // namespace syncer #endif // SYNC_INTERNAL_API_PUBLIC_HTTP_BRIDGE_H_