// Copyright (c) 2011 The Chromium Embedded Framework Authors. // Portions copyright (c) 2006-2008 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. // // This file contains an implementation of the ResourceLoaderBridge class. // The class is implemented using net::URLRequest, meaning it is a "simple" // version that directly issues requests. The more complicated one used in the // browser uses IPC. // // Because net::URLRequest only provides an asynchronous resource loading API, // this file makes use of net::URLRequest from a background IO thread. Requests // for cookies and synchronously loaded resources result in the main thread of // the application blocking until the IO thread completes the operation. (See // GetCookies and SyncLoad) // // Main thread IO thread // ----------- --------- // ResourceLoaderBridge <---o---------> RequestProxy (normal case) // \ -> net::URLRequest // o-------> SyncRequestProxy (synchronous case) // -> net::URLRequest // SetCookie <------------------------> CookieSetter // -> net_util::SetCookie // GetCookies <-----------------------> CookieGetter // -> net_util::GetCookies // // NOTE: The implementation in this file may be used to have WebKit fetch // resources in-process. For example, it is handy for building a single- // process WebKit embedding (e.g., test_shell) that can use net::URLRequest to // perform URL loads. See renderer/resource_dispatcher.h for details on an // alternate implementation that defers fetching to another process. #include "browser_appcache_system.h" #include "browser_resource_loader_bridge.h" #include "browser_request_context.h" #include "browser_socket_stream_bridge.h" #include "browser_webkit_glue.h" #include "browser_impl.h" #include "cef_context.h" #include "cef_process.h" #include "cef_process_io_thread.h" #include "external_protocol_handler.h" #include "request_impl.h" #include "response_impl.h" #include "http_header_utils.h" #include "base/file_path.h" #include "base/file_util.h" #include "base/memory/ref_counted.h" #include "base/message_loop.h" #include "base/message_loop_proxy.h" #include "base/synchronization/waitable_event.h" #include "base/time.h" #include "base/timer.h" #include "base/threading/thread.h" #include "base/utf_string_conversions.h" #include "net/base/auth.h" #include "net/base/cookie_store.h" #include "net/base/file_stream.h" #include "net/base/io_buffer.h" #include "net/base/load_flags.h" #include "net/base/net_errors.h" #include "net/base/net_util.h" #include "net/base/static_cookie_policy.h" #include "net/base/upload_data.h" #include "net/http/http_cache.h" #include "net/http/http_request_headers.h" #include "net/http/http_response_headers.h" #include "net/proxy/proxy_service.h" #include "net/url_request/url_request.h" #include "webkit/appcache/appcache_interfaces.h" #include "webkit/blob/blob_storage_controller.h" #include "webkit/blob/deletable_file_reference.h" #include "webkit/fileapi/file_system_context.h" #include "webkit/fileapi/file_system_dir_url_request_job.h" #include "webkit/fileapi/file_system_url_request_job.h" #include "webkit/glue/resource_loader_bridge.h" #if defined(OS_MACOSX) || defined(OS_WIN) #include "crypto/nss_util.h" #endif using net::HttpResponseHeaders; using net::StaticCookiePolicy; using net::URLRequestStatus; using webkit_blob::DeletableFileReference; using webkit_glue::ResourceLoaderBridge; using webkit_glue::ResourceResponseInfo; namespace { struct RequestParams { std::string method; GURL url; GURL first_party_for_cookies; GURL referrer; std::string headers; int load_flags; ResourceType::Type request_type; int appcache_host_id; bool download_to_file; scoped_refptr upload; net::RequestPriority priority; }; // The interval for calls to RequestProxy::MaybeUpdateUploadProgress static const int kUpdateUploadProgressIntervalMsec = 100; class ExtraRequestInfo : public net::URLRequest::UserData { public: ExtraRequestInfo(ResourceType::Type resource_type) : resource_type_(resource_type), allow_download_(resource_type == ResourceType::MAIN_FRAME || resource_type == ResourceType::SUB_FRAME) { } // Identifies the type of resource, such as subframe, media, etc. ResourceType::Type resource_type() const { return resource_type_; } bool allow_download() const { return allow_download_; } private: ResourceType::Type resource_type_; bool allow_download_; }; // The RequestProxy does most of its work on the IO thread. The Start and // Cancel methods are proxied over to the IO thread, where an net::URLRequest // object is instantiated. class RequestProxy : public net::URLRequest::Delegate, public base::RefCountedThreadSafe { public: // Takes ownership of the params. RequestProxy(CefRefPtr browser) : download_to_file_(false), buf_(new net::IOBuffer(kDataSize)), browser_(browser), last_upload_position_(0) { } void DropPeer() { peer_ = NULL; } void Start(ResourceLoaderBridge::Peer* peer, RequestParams* params) { peer_ = peer; owner_loop_ = MessageLoop::current(); InitializeParams(params); // proxy over to the io thread CefThread::PostTask(CefThread::IO, FROM_HERE, NewRunnableMethod( this, &RequestProxy::AsyncStart, params)); } void Cancel() { if(download_handler_.get()) { // WebKit will try to cancel the download but we won't allow it. return; } // proxy over to the io thread CefThread::PostTask(CefThread::IO, FROM_HERE, NewRunnableMethod( this, &RequestProxy::AsyncCancel)); } protected: friend class base::RefCountedThreadSafe; virtual ~RequestProxy() { // If we have a request, then we'd better be on the io thread! DCHECK(!request_.get() || CefThread::CurrentlyOn(CefThread::IO)); } virtual void InitializeParams(RequestParams* params) { params->priority = net::MEDIUM; } // -------------------------------------------------------------------------- // The following methods are called on the owner's thread in response to // various net::URLRequest callbacks. The event hooks, defined below, trigger // these methods asynchronously. void NotifyReceivedRedirect(const GURL& new_url, const ResourceResponseInfo& info) { bool has_new_first_party_for_cookies = false; GURL new_first_party_for_cookies; if (peer_ && peer_->OnReceivedRedirect(new_url, info, &has_new_first_party_for_cookies, &new_first_party_for_cookies)) { CefThread::PostTask(CefThread::IO, FROM_HERE, NewRunnableMethod( this, &RequestProxy::AsyncFollowDeferredRedirect, has_new_first_party_for_cookies, new_first_party_for_cookies)); } else { Cancel(); } } void NotifyReceivedResponse(const ResourceResponseInfo& info, const GURL& url, bool allow_download) { if (browser_.get() && info.headers.get()) { CefRefPtr client = browser_->GetClient(); CefRefPtr handler; if (client.get()) handler = client->GetRequestHandler(); if (handler.get()) { CefRefPtr response = new CefResponseImpl(); // Transfer response headers if (info.headers) { CefResponse::HeaderMap headerMap; void* header_index = NULL; std::string name, value; while (info.headers->EnumerateHeaderLines(&header_index, &name, &value)) { if (!name.empty() && !value.empty()) headerMap[name] = value; } response->SetHeaderMap(headerMap); response->SetStatusText(info.headers->GetStatusText()); response->SetStatus(info.headers->response_code()); } response->SetMimeType(info.mime_type); handler->OnResourceResponse(browser_, url.spec(), response, content_filter_); std::string content_disposition; info.headers->GetNormalizedHeader("Content-Disposition", &content_disposition); if (allow_download && webkit_glue::ShouldDownload(content_disposition, info.mime_type)) { string16 filename = net::GetSuggestedFilename(url, content_disposition, info.charset, "", ASCIIToUTF16("download")); CefRefPtr dl_handler; if (handler->GetDownloadHandler(browser_, info.mime_type, filename, info.content_length, dl_handler)) { download_handler_ = dl_handler; } } } } if (peer_) peer_->OnReceivedResponse(info); } void NotifyReceivedData(int bytes_read) { if (!peer_) return; // Make a local copy of buf_, since AsyncReadData reuses it. scoped_array buf_copy(new char[bytes_read]); memcpy(buf_copy.get(), buf_->data(), bytes_read); // Continue reading more data into buf_ // Note: Doing this before notifying our peer ensures our load events get // dispatched in a manner consistent with DumpRenderTree (and also avoids a // race condition). If the order of the next 2 functions were reversed, the // peer could generate new requests in response to the received data, which // when run on the io thread, could race against this function in doing // another InvokeLater. See bug 769249. CefThread::PostTask(CefThread::IO, FROM_HERE, NewRunnableMethod( this, &RequestProxy::AsyncReadData)); CefRefPtr resourceStream; if(content_filter_.get()) content_filter_->ProcessData(buf_copy.get(), bytes_read, resourceStream); if (resourceStream.get()) { // The filter made some changes to the data in the buffer. resourceStream->Seek(0, SEEK_END); bytes_read = resourceStream->Tell(); resourceStream->Seek(0, SEEK_SET); buf_copy.reset(new char[bytes_read]); resourceStream->Read(buf_copy.get(), 1, bytes_read); } if (download_handler_.get() && !download_handler_->ReceivedData(buf_copy.get(), bytes_read)) { // Cancel loading by proxying over to the io thread. CefThread::PostTask(CefThread::IO, FROM_HERE, NewRunnableMethod( this, &RequestProxy::AsyncCancel)); } peer_->OnReceivedData(buf_copy.get(), bytes_read, -1); } void NotifyDownloadedData(int bytes_read) { if (!peer_) return; // Continue reading more data, see the comment in NotifyReceivedData. CefThread::PostTask(CefThread::IO, FROM_HERE, NewRunnableMethod( this, &RequestProxy::AsyncReadData)); peer_->OnDownloadedData(bytes_read); } void NotifyCompletedRequest(const net::URLRequestStatus& status, const std::string& security_info, const base::Time& complete_time) { // Drain the content filter of all remaining data if (content_filter_.get()) { CefRefPtr remainder; content_filter_->Drain(remainder); if(remainder.get()) { remainder->Seek(0, SEEK_END); long size = remainder->Tell(); if (size) { remainder->Seek(0, SEEK_SET); scoped_array buf(new char[size]); remainder->Read(buf.get(), 1, size); if (download_handler_.get() && !download_handler_->ReceivedData(buf.get(), size)) { // Cancel loading by proxying over to the io thread. CefThread::PostTask(CefThread::IO, FROM_HERE, NewRunnableMethod( this, &RequestProxy::AsyncCancel)); } if (peer_) peer_->OnReceivedData(buf.get(), size, -1); } } content_filter_ = NULL; } if (download_handler_.get()) { download_handler_->Complete(); download_handler_ = NULL; } if (peer_) { peer_->OnCompletedRequest(status, security_info, complete_time); DropPeer(); // ensure no further notifications } } void NotifyUploadProgress(uint64 position, uint64 size) { if (peer_) peer_->OnUploadProgress(position, size); } // -------------------------------------------------------------------------- // The following methods are called on the io thread. They correspond to // actions performed on the owner's thread. void AsyncStart(RequestParams* params) { bool handled = false; if (browser_.get()) { CefRefPtr client = browser_->GetClient(); CefRefPtr handler; if (client.get()) handler = client->GetRequestHandler(); if(handler.get()) { // Build the request object for passing to the handler CefRefPtr request(new CefRequestImpl()); CefRequestImpl* requestimpl = static_cast(request.get()); std::string originalUrl(params->url.spec()); requestimpl->SetURL(originalUrl); requestimpl->SetMethod(params->method); // Transfer request headers CefRequest::HeaderMap headerMap; HttpHeaderUtils::ParseHeaders(params->headers, headerMap); headerMap.insert(std::make_pair("Referrer", params->referrer.spec())); requestimpl->SetHeaderMap(headerMap); // Transfer post data, if any scoped_refptr upload = params->upload; if(upload.get()) { CefRefPtr postdata(new CefPostDataImpl()); static_cast(postdata.get())->Set(*upload.get()); requestimpl->SetPostData(postdata); } int loadFlags = params->load_flags; // Handler output will be returned in these variables CefString redirectUrl; CefRefPtr resourceStream; CefRefPtr response(new CefResponseImpl()); handled = handler->OnBeforeResourceLoad(browser_, request, redirectUrl, resourceStream, response, loadFlags); if (!handled) { // Observe URL from request. const std::string requestUrl(request->GetURL()); if(requestUrl != originalUrl) { params->url = GURL(requestUrl); redirectUrl.clear(); // Request URL trumps redirect URL } // Observe method from request. params->method = request->GetMethod(); // Observe headers from request. request->GetHeaderMap(headerMap); CefString referrerStr; referrerStr.FromASCII("Referrer"); CefRequest::HeaderMap::iterator referrer = headerMap.find(referrerStr); if(referrer == headerMap.end()) { params->referrer = GURL(); } else { params->referrer = GURL(std::string(referrer->second)); headerMap.erase(referrer); } params->headers = HttpHeaderUtils::GenerateHeaders(headerMap); // Observe post data from request. CefRefPtr postData = request->GetPostData(); if(postData.get()) { params->upload = new net::UploadData(); static_cast(postData.get())->Get(*params->upload); } } if (handled) { // cancel the resource load OnCompletedRequest( URLRequestStatus(URLRequestStatus::CANCELED, net::ERR_ABORTED), std::string(), base::Time()); } else if (!redirectUrl.empty()) { // redirect to the specified URL handled = true; params->url = GURL(std::string(redirectUrl)); ResourceResponseInfo info; bool defer_redirect; OnReceivedRedirect(params->url, info, &defer_redirect); } else if (resourceStream.get()) { // load from the provided resource stream handled = true; resourceStream->Seek(0, SEEK_END); long offset = resourceStream->Tell(); resourceStream->Seek(0, SEEK_SET); resource_stream_ = resourceStream; CefResponseImpl* responseImpl = static_cast(response.get()); ResourceResponseInfo info; info.content_length = static_cast(offset); info.mime_type = response->GetMimeType(); info.headers = responseImpl->GetResponseHeaders(); OnReceivedResponse(info, params->url); AsyncReadData(); } else if (response->GetStatus() != 0) { // status set, but no resource stream handled = true; CefResponseImpl* responseImpl = static_cast(response.get()); ResourceResponseInfo info; info.content_length = 0; info.mime_type = response->GetMimeType(); info.headers = responseImpl->GetResponseHeaders(); OnReceivedResponse(info, params->url); AsyncReadData(); } if (!handled && ResourceType::IsFrame(params->request_type) && !net::URLRequest::IsHandledProtocol(params->url.scheme())) { bool allow_os_execution = false; handled = handler->OnProtocolExecution(browser_, params->url.spec(), allow_os_execution); if (!handled && allow_os_execution && ExternalProtocolHandler::HandleExternalProtocol(params->url)) { handled = true; } if (handled) { OnCompletedRequest( URLRequestStatus(URLRequestStatus::HANDLED_EXTERNALLY, net::OK), std::string(), base::Time()); } } } } if(!handled) { // Might need to resolve the blob references in the upload data. if (params->upload) { _Context->request_context()->blob_storage_controller()-> ResolveBlobReferencesInUploadData(params->upload.get()); } request_.reset(new net::URLRequest(params->url, this)); request_->set_priority(params->priority); request_->set_method(params->method); request_->set_first_party_for_cookies(params->first_party_for_cookies); request_->set_referrer(params->referrer.spec()); net::HttpRequestHeaders headers; headers.AddHeadersFromString(params->headers); request_->SetExtraRequestHeaders(headers); request_->set_load_flags(params->load_flags); request_->set_upload(params->upload.get()); request_->set_context(_Context->request_context()); request_->SetUserData(NULL, new ExtraRequestInfo(params->request_type)); BrowserAppCacheSystem::SetExtraRequestInfo( request_.get(), params->appcache_host_id, params->request_type); download_to_file_ = params->download_to_file; if (download_to_file_) { FilePath path; if (file_util::CreateTemporaryFile(&path)) { downloaded_file_ = DeletableFileReference::GetOrCreate( path, base::MessageLoopProxy::CreateForCurrentThread()); file_stream_.Open( path, base::PLATFORM_FILE_OPEN | base::PLATFORM_FILE_WRITE); } } request_->Start(); if (request_->has_upload() && params->load_flags & net::LOAD_ENABLE_UPLOAD_PROGRESS) { upload_progress_timer_.Start( base::TimeDelta::FromMilliseconds( kUpdateUploadProgressIntervalMsec), this, &RequestProxy::MaybeUpdateUploadProgress); } } delete params; } void AsyncCancel() { // This can be null in cases where the request is already done. if (!resource_stream_.get() && !request_.get()) return; if (request_.get()) request_->Cancel(); Done(); } void AsyncFollowDeferredRedirect(bool has_new_first_party_for_cookies, const GURL& new_first_party_for_cookies) { // This can be null in cases where the request is already done. if (!request_.get()) return; if (has_new_first_party_for_cookies) request_->set_first_party_for_cookies(new_first_party_for_cookies); request_->FollowDeferredRedirect(); } void AsyncReadData() { if(resource_stream_.get()) { // Read from the handler-provided resource stream int bytes_read = resource_stream_->Read(buf_->data(), 1, kDataSize); if(bytes_read > 0) { OnReceivedData(bytes_read); } else { Done(); } return; } // This can be null in cases where the request is already done. if (!request_.get()) return; if (request_->status().is_success()) { int bytes_read; if (request_->Read(buf_, kDataSize, &bytes_read) && bytes_read) { OnReceivedData(bytes_read); } else if (!request_->status().is_io_pending()) { Done(); } // else wait for OnReadCompleted } else { Done(); } } // -------------------------------------------------------------------------- // The following methods are event hooks (corresponding to net::URLRequest // callbacks) that run on the IO thread. They are designed to be overridden // by the SyncRequestProxy subclass. virtual void OnReceivedRedirect( const GURL& new_url, const ResourceResponseInfo& info, bool* defer_redirect) { *defer_redirect = true; // See AsyncFollowDeferredRedirect owner_loop_->PostTask(FROM_HERE, NewRunnableMethod( this, &RequestProxy::NotifyReceivedRedirect, new_url, info)); } virtual void OnReceivedResponse( const ResourceResponseInfo& info, // only used when loading from a resource stream const GURL& simulated_url) { GURL url; bool allow_download(false); if (request_.get()){ url = request_->url(); ExtraRequestInfo* info = static_cast(request_->GetUserData(NULL)); if (info) allow_download = info->allow_download(); } else if (!simulated_url.is_empty() && simulated_url.is_valid()) { url = simulated_url; } owner_loop_->PostTask(FROM_HERE, NewRunnableMethod( this, &RequestProxy::NotifyReceivedResponse, info, url, allow_download)); } virtual void OnReceivedData(int bytes_read) { if (download_to_file_) { file_stream_.Write(buf_->data(), bytes_read, NULL); owner_loop_->PostTask(FROM_HERE, NewRunnableMethod( this, &RequestProxy::NotifyDownloadedData, bytes_read)); return; } owner_loop_->PostTask(FROM_HERE, NewRunnableMethod( this, &RequestProxy::NotifyReceivedData, bytes_read)); } virtual void OnCompletedRequest(const net::URLRequestStatus& status, const std::string& security_info, const base::Time& complete_time) { if (download_to_file_) file_stream_.Close(); owner_loop_->PostTask(FROM_HERE, NewRunnableMethod( this, &RequestProxy::NotifyCompletedRequest, status, security_info, complete_time)); } // -------------------------------------------------------------------------- // net::URLRequest::Delegate implementation: virtual void OnReceivedRedirect(net::URLRequest* request, const GURL& new_url, bool* defer_redirect) { DCHECK(request->status().is_success()); ResourceResponseInfo info; PopulateResponseInfo(request, &info); OnReceivedRedirect(new_url, info, defer_redirect); } virtual void OnResponseStarted(net::URLRequest* request) { if (request->status().is_success()) { ResourceResponseInfo info; PopulateResponseInfo(request, &info); OnReceivedResponse(info, GURL::EmptyGURL()); AsyncReadData(); // start reading } else { Done(); } } virtual void OnAuthRequired(net::URLRequest* request, net::AuthChallengeInfo* auth_info) { if (browser_.get()) { CefRefPtr client = browser_->GetClient(); if (client.get()) { CefRefPtr handler = client->GetRequestHandler(); if(handler.get()) { CefString username, password; if (handler->GetAuthCredentials(browser_, auth_info->is_proxy, auth_info->host_and_port, auth_info->realm, auth_info->scheme, username, password)) { request->SetAuth(username, password); return; } } } } request->CancelAuth(); } virtual void OnSSLCertificateError(net::URLRequest* request, int cert_error, net::X509Certificate* cert) { // Allow all certificate errors. request->ContinueDespiteLastError(); } virtual bool CanGetCookies(net::URLRequest* request) { StaticCookiePolicy::Type policy_type = _Context->request_context()->AcceptAllCookies() ? StaticCookiePolicy::ALLOW_ALL_COOKIES : StaticCookiePolicy::BLOCK_SETTING_THIRD_PARTY_COOKIES; StaticCookiePolicy policy(policy_type); int rv = policy.CanGetCookies( request->url(), request->first_party_for_cookies()); return rv == net::OK; } virtual bool CanSetCookie(net::URLRequest* request, const std::string& cookie_line, net::CookieOptions* options) { StaticCookiePolicy::Type policy_type = _Context->request_context()->AcceptAllCookies() ? StaticCookiePolicy::ALLOW_ALL_COOKIES : StaticCookiePolicy::BLOCK_SETTING_THIRD_PARTY_COOKIES; StaticCookiePolicy policy(policy_type); int rv = policy.CanSetCookie( request->url(), request->first_party_for_cookies()); return rv == net::OK; } virtual void OnReadCompleted(net::URLRequest* request, int bytes_read) { if (request->status().is_success() && bytes_read > 0) { OnReceivedData(bytes_read); } else { Done(); } } // -------------------------------------------------------------------------- // Helpers and data: void Done() { if(resource_stream_.get()) { // Resource stream reads always complete successfully OnCompletedRequest(URLRequestStatus(URLRequestStatus::SUCCESS, 0), std::string(), base::Time()); resource_stream_ = NULL; } else if(request_.get()) { if (upload_progress_timer_.IsRunning()) { MaybeUpdateUploadProgress(); upload_progress_timer_.Stop(); } DCHECK(request_.get()); OnCompletedRequest(request_->status(), std::string(), base::Time()); request_.reset(); // destroy on the io thread } } // Called on the IO thread. void MaybeUpdateUploadProgress() { // If a redirect is received upload is cancelled in net::URLRequest, we // should try to stop the |upload_progress_timer_| timer and return. if (!request_->has_upload()) { if (upload_progress_timer_.IsRunning()) upload_progress_timer_.Stop(); return; } uint64 size = request_->get_upload()->GetContentLength(); uint64 position = request_->GetUploadProgress(); if (position == last_upload_position_) return; // no progress made since last time const uint64 kHalfPercentIncrements = 200; const base::TimeDelta kOneSecond = base::TimeDelta::FromMilliseconds(1000); uint64 amt_since_last = position - last_upload_position_; base::TimeDelta time_since_last = base::TimeTicks::Now() - last_upload_ticks_; bool is_finished = (size == position); bool enough_new_progress = (amt_since_last > (size / kHalfPercentIncrements)); bool too_much_time_passed = time_since_last > kOneSecond; if (is_finished || enough_new_progress || too_much_time_passed) { owner_loop_->PostTask(FROM_HERE, NewRunnableMethod( this, &RequestProxy::NotifyUploadProgress, position, size)); last_upload_ticks_ = base::TimeTicks::Now(); last_upload_position_ = position; } } void PopulateResponseInfo(net::URLRequest* request, ResourceResponseInfo* info) const { info->request_time = request->request_time(); info->response_time = request->response_time(); info->headers = request->response_headers(); request->GetMimeType(&info->mime_type); request->GetCharset(&info->charset); info->content_length = request->GetExpectedContentSize(); if (downloaded_file_) info->download_file_path = downloaded_file_->path(); BrowserAppCacheSystem::GetExtraResponseInfo( request, &info->appcache_id, &info->appcache_manifest_url); } scoped_ptr request_; CefRefPtr resource_stream_; // Support for request.download_to_file behavior. bool download_to_file_; net::FileStream file_stream_; scoped_refptr downloaded_file_; // Size of our async IO data buffers static const int kDataSize = 16*1024; // read buffer for async IO scoped_refptr buf_; CefRefPtr browser_; MessageLoop* owner_loop_; // This is our peer in WebKit (implemented as ResourceHandleInternal). We do // not manage its lifetime, and we may only access it from the owner's // message loop (owner_loop_). ResourceLoaderBridge::Peer* peer_; // Timer used to pull upload progress info. base::RepeatingTimer upload_progress_timer_; // Info used to determine whether or not to send an upload progress update. uint64 last_upload_position_; base::TimeTicks last_upload_ticks_; CefRefPtr download_handler_; CefRefPtr content_filter_; }; //----------------------------------------------------------------------------- class SyncRequestProxy : public RequestProxy { public: explicit SyncRequestProxy(CefRefPtr browser, ResourceLoaderBridge::SyncLoadResponse* result) : RequestProxy(browser), result_(result), event_(true, false) { } void WaitForCompletion() { if (!event_.Wait()) NOTREACHED(); } // -------------------------------------------------------------------------- // Event hooks that run on the IO thread: virtual void OnReceivedRedirect( const GURL& new_url, const ResourceResponseInfo& info, bool* defer_redirect) { // TODO(darin): It would be much better if this could live in WebCore, but // doing so requires API changes at all levels. Similar code exists in // WebCore/platform/network/cf/ResourceHandleCFNet.cpp :-( if (new_url.GetOrigin() != result_->url.GetOrigin()) { DLOG(WARNING) << "Cross origin redirect denied"; Cancel(); return; } result_->url = new_url; } virtual void OnReceivedResponse(const ResourceResponseInfo& info, const GURL&) { *static_cast(result_) = info; } virtual void OnReceivedData(int bytes_read) { if (download_to_file_) file_stream_.Write(buf_->data(), bytes_read, NULL); else result_->data.append(buf_->data(), bytes_read); AsyncReadData(); // read more (may recurse) } virtual void OnCompletedRequest(const net::URLRequestStatus& status, const std::string& security_info, const base::Time& complete_time) { if (download_to_file_) file_stream_.Close(); result_->status = status; event_.Signal(); } protected: virtual void InitializeParams(RequestParams* params) { // For synchronous requests ignore load limits to avoid a deadlock problem // in SyncRequestProxy (issue #192). params->load_flags |= net::LOAD_IGNORE_LIMITS; params->priority = net::HIGHEST; } private: ResourceLoaderBridge::SyncLoadResponse* result_; base::WaitableEvent event_; }; //----------------------------------------------------------------------------- class ResourceLoaderBridgeImpl : public ResourceLoaderBridge { public: ResourceLoaderBridgeImpl(CefRefPtr browser, const webkit_glue::ResourceLoaderBridge::RequestInfo& request_info) : browser_(browser), params_(new RequestParams), proxy_(NULL) { params_->method = request_info.method; params_->url = request_info.url; params_->first_party_for_cookies = request_info.first_party_for_cookies; params_->referrer = request_info.referrer; params_->headers = request_info.headers; params_->load_flags = request_info.load_flags; params_->request_type = request_info.request_type; params_->appcache_host_id = request_info.appcache_host_id; params_->download_to_file = request_info.download_to_file; } virtual ~ResourceLoaderBridgeImpl() { if (proxy_) { proxy_->DropPeer(); // Let the proxy die on the IO thread CefThread::ReleaseSoon(CefThread::IO, FROM_HERE, proxy_); } } // -------------------------------------------------------------------------- // ResourceLoaderBridge implementation: virtual void AppendDataToUpload(const char* data, int data_len) { DCHECK(params_.get()); if (!params_->upload) params_->upload = new net::UploadData(); params_->upload->AppendBytes(data, data_len); } virtual void AppendFileRangeToUpload( const FilePath& file_path, uint64 offset, uint64 length, const base::Time& expected_modification_time) { DCHECK(params_.get()); if (!params_->upload) params_->upload = new net::UploadData(); params_->upload->AppendFileRange(file_path, offset, length, expected_modification_time); } virtual void AppendBlobToUpload(const GURL& blob_url) { DCHECK(params_.get()); if (!params_->upload) params_->upload = new net::UploadData(); params_->upload->AppendBlob(blob_url); } virtual void SetUploadIdentifier(int64 identifier) { DCHECK(params_.get()); if (!params_->upload) params_->upload = new net::UploadData(); params_->upload->set_identifier(identifier); } virtual bool Start(Peer* peer) { DCHECK(!proxy_); proxy_ = new RequestProxy(browser_); proxy_->AddRef(); proxy_->Start(peer, params_.release()); return true; // Any errors will be reported asynchronously. } virtual void Cancel() { DCHECK(proxy_); proxy_->Cancel(); } virtual void SetDefersLoading(bool value) { // TODO(darin): implement me } virtual void SyncLoad(SyncLoadResponse* response) { DCHECK(!proxy_); // this may change as the result of a redirect response->url = params_->url; proxy_ = new SyncRequestProxy(browser_, response); proxy_->AddRef(); proxy_->Start(NULL, params_.release()); static_cast(proxy_)->WaitForCompletion(); } private: CefRefPtr browser_; // Ownership of params_ is transfered to the proxy when the proxy is created. scoped_ptr params_; // The request proxy is allocated when we start the request, and then it // sticks around until this ResourceLoaderBridge is destroyed. RequestProxy* proxy_; }; //----------------------------------------------------------------------------- class CookieSetter : public base::RefCountedThreadSafe { public: void Set(const GURL& url, const std::string& cookie) { REQUIRE_IOT(); net::CookieStore* cookie_store = _Context->request_context()->cookie_store(); if (cookie_store) cookie_store->SetCookie(url, cookie); } private: friend class base::RefCountedThreadSafe; ~CookieSetter() {} }; class CookieGetter : public base::RefCountedThreadSafe { public: CookieGetter() : event_(false, false) { } void Get(const GURL& url) { net::CookieStore* cookie_store = _Context->request_context()->cookie_store(); if (cookie_store) result_ = cookie_store->GetCookies(url); event_.Signal(); } std::string GetResult() { if (!event_.Wait()) NOTREACHED(); return result_; } private: friend class base::RefCountedThreadSafe; ~CookieGetter() {} base::WaitableEvent event_; std::string result_; }; } // anonymous namespace //----------------------------------------------------------------------------- namespace webkit_glue { // Factory function. ResourceLoaderBridge* ResourceLoaderBridge::Create( const webkit_glue::ResourceLoaderBridge::RequestInfo& request_info) { CefRefPtr browser = _Context->GetBrowserByID(request_info.routing_id); return new ResourceLoaderBridgeImpl(browser.get(), request_info); } // Issue the proxy resolve request on the io thread, and wait // for the result. bool FindProxyForUrl(const GURL& url, std::string* proxy_list) { DCHECK(_Context->request_context()); scoped_refptr sync_proxy_service( new net::SyncProxyServiceHelper( _Context->process()->io_thread()->message_loop(), _Context->request_context()->proxy_service())); net::ProxyInfo proxy_info; int rv = sync_proxy_service->ResolveProxy(url, &proxy_info, net::BoundNetLog()); if (rv == net::OK) { *proxy_list = proxy_info.ToPacString(); } return rv == net::OK; } } // namespace webkit_glue //----------------------------------------------------------------------------- // static void BrowserResourceLoaderBridge::SetCookie(const GURL& url, const GURL& first_party_for_cookies, const std::string& cookie) { // Proxy to IO thread to synchronize w/ network loading. scoped_refptr cookie_setter = new CookieSetter(); CefThread::PostTask(CefThread::IO, FROM_HERE, NewRunnableMethod( cookie_setter.get(), &CookieSetter::Set, url, cookie)); } // static std::string BrowserResourceLoaderBridge::GetCookies( const GURL& url, const GURL& first_party_for_cookies) { // Proxy to IO thread to synchronize w/ network loading. scoped_refptr cookie_getter = new CookieGetter(); CefThread::PostTask(CefThread::IO, FROM_HERE, NewRunnableMethod( cookie_getter.get(), &CookieGetter::Get, url)); // Blocks until the result is available. return cookie_getter->GetResult(); } // static void BrowserResourceLoaderBridge::SetAcceptAllCookies(bool accept_all_cookies) { // Proxy to IO thread to synchronize w/ network loading. CefThread::PostTask(CefThread::IO, FROM_HERE, NewRunnableMethod( _Context->request_context().get(), &BrowserRequestContext::SetAcceptAllCookies, accept_all_cookies)); } //static scoped_refptr BrowserResourceLoaderBridge::GetCacheThread() { return CefThread::GetMessageLoopProxyForThread(CefThread::FILE); }