// Copyright 2014 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. // An implementation of WebURLLoader in terms of ResourceLoaderBridge. #include "content/child/web_url_loader_impl.h" #include "base/bind.h" #include "base/files/file_path.h" #include "base/memory/scoped_ptr.h" #include "base/message_loop/message_loop.h" #include "base/strings/string_util.h" #include "base/time/time.h" #include "content/child/ftp_directory_listing_response_delegate.h" #include "content/child/multipart_response_delegate.h" #include "content/child/request_extra_data.h" #include "content/child/request_info.h" #include "content/child/resource_dispatcher.h" #include "content/child/resource_loader_bridge.h" #include "content/child/sync_load_response.h" #include "content/child/web_url_request_util.h" #include "content/child/weburlresponse_extradata_impl.h" #include "content/common/resource_request_body.h" #include "content/public/child/request_peer.h" #include "net/base/data_url.h" #include "net/base/filename_util.h" #include "net/base/load_flags.h" #include "net/base/mime_util.h" #include "net/base/net_errors.h" #include "net/http/http_response_headers.h" #include "net/http/http_util.h" #include "net/url_request/redirect_info.h" #include "net/url_request/url_request_data_job.h" #include "third_party/WebKit/public/platform/WebHTTPHeaderVisitor.h" #include "third_party/WebKit/public/platform/WebHTTPLoadInfo.h" #include "third_party/WebKit/public/platform/WebURL.h" #include "third_party/WebKit/public/platform/WebURLError.h" #include "third_party/WebKit/public/platform/WebURLLoadTiming.h" #include "third_party/WebKit/public/platform/WebURLLoaderClient.h" #include "third_party/WebKit/public/platform/WebURLRequest.h" #include "third_party/WebKit/public/platform/WebURLResponse.h" #include "third_party/WebKit/public/web/WebSecurityPolicy.h" using base::Time; using base::TimeTicks; using blink::WebData; using blink::WebHTTPBody; using blink::WebHTTPHeaderVisitor; using blink::WebHTTPLoadInfo; using blink::WebReferrerPolicy; using blink::WebSecurityPolicy; using blink::WebString; using blink::WebURL; using blink::WebURLError; using blink::WebURLLoadTiming; using blink::WebURLLoader; using blink::WebURLLoaderClient; using blink::WebURLRequest; using blink::WebURLResponse; namespace content { // Utilities ------------------------------------------------------------------ namespace { const char kThrottledErrorDescription[] = "Request throttled. Visit http://dev.chromium.org/throttling for more " "information."; class HeaderFlattener : public WebHTTPHeaderVisitor { public: HeaderFlattener() : has_accept_header_(false) {} virtual void visitHeader(const WebString& name, const WebString& value) { // Headers are latin1. const std::string& name_latin1 = name.latin1(); const std::string& value_latin1 = value.latin1(); // Skip over referrer headers found in the header map because we already // pulled it out as a separate parameter. if (LowerCaseEqualsASCII(name_latin1, "referer")) return; if (LowerCaseEqualsASCII(name_latin1, "accept")) has_accept_header_ = true; if (!buffer_.empty()) buffer_.append("\r\n"); buffer_.append(name_latin1 + ": " + value_latin1); } const std::string& GetBuffer() { // In some cases, WebKit doesn't add an Accept header, but not having the // header confuses some web servers. See bug 808613. if (!has_accept_header_) { if (!buffer_.empty()) buffer_.append("\r\n"); buffer_.append("Accept: */*"); has_accept_header_ = true; } return buffer_; } private: std::string buffer_; bool has_accept_header_; }; typedef ResourceDevToolsInfo::HeadersVector HeadersVector; // Converts timing data from |load_timing| to the format used by WebKit. void PopulateURLLoadTiming(const net::LoadTimingInfo& load_timing, WebURLLoadTiming* url_timing) { DCHECK(!load_timing.request_start.is_null()); const TimeTicks kNullTicks; url_timing->initialize(); url_timing->setRequestTime( (load_timing.request_start - kNullTicks).InSecondsF()); url_timing->setProxyStart( (load_timing.proxy_resolve_start - kNullTicks).InSecondsF()); url_timing->setProxyEnd( (load_timing.proxy_resolve_end - kNullTicks).InSecondsF()); url_timing->setDNSStart( (load_timing.connect_timing.dns_start - kNullTicks).InSecondsF()); url_timing->setDNSEnd( (load_timing.connect_timing.dns_end - kNullTicks).InSecondsF()); url_timing->setConnectStart( (load_timing.connect_timing.connect_start - kNullTicks).InSecondsF()); url_timing->setConnectEnd( (load_timing.connect_timing.connect_end - kNullTicks).InSecondsF()); url_timing->setSSLStart( (load_timing.connect_timing.ssl_start - kNullTicks).InSecondsF()); url_timing->setSSLEnd( (load_timing.connect_timing.ssl_end - kNullTicks).InSecondsF()); url_timing->setSendStart( (load_timing.send_start - kNullTicks).InSecondsF()); url_timing->setSendEnd( (load_timing.send_end - kNullTicks).InSecondsF()); url_timing->setReceiveHeadersEnd( (load_timing.receive_headers_end - kNullTicks).InSecondsF()); } net::RequestPriority ConvertWebKitPriorityToNetPriority( const WebURLRequest::Priority& priority) { switch (priority) { case WebURLRequest::PriorityVeryHigh: return net::HIGHEST; case WebURLRequest::PriorityHigh: return net::MEDIUM; case WebURLRequest::PriorityMedium: return net::LOW; case WebURLRequest::PriorityLow: return net::LOWEST; case WebURLRequest::PriorityVeryLow: return net::IDLE; case WebURLRequest::PriorityUnresolved: default: NOTREACHED(); return net::LOW; } } // Extracts info from a data scheme URL into |info| and |data|. Returns net::OK // if successful. Returns a net error code otherwise. Exported only for testing. int GetInfoFromDataURL(const GURL& url, ResourceResponseInfo* info, std::string* data) { // Assure same time for all time fields of data: URLs. Time now = Time::Now(); info->load_timing.request_start = TimeTicks::Now(); info->load_timing.request_start_time = now; info->request_time = now; info->response_time = now; std::string mime_type; std::string charset; scoped_refptr headers( new net::HttpResponseHeaders(std::string())); int result = net::URLRequestDataJob::BuildResponse( url, &mime_type, &charset, data, headers.get()); if (result != net::OK) return result; info->headers = headers; info->mime_type.swap(mime_type); info->charset.swap(charset); info->security_info.clear(); info->content_length = data->length(); info->encoded_data_length = 0; return net::OK; } } // namespace // WebURLLoaderImpl::Context -------------------------------------------------- // This inner class exists since the WebURLLoader may be deleted while inside a // call to WebURLLoaderClient. Refcounting is to keep the context from being // deleted if it may have work to do after calling into the client. class WebURLLoaderImpl::Context : public base::RefCounted, public RequestPeer { public: Context(WebURLLoaderImpl* loader, ResourceDispatcher* resource_dispatcher); WebURLLoaderClient* client() const { return client_; } void set_client(WebURLLoaderClient* client) { client_ = client; } void Cancel(); void SetDefersLoading(bool value); void DidChangePriority(WebURLRequest::Priority new_priority, int intra_priority_value); bool AttachThreadedDataReceiver( blink::WebThreadedDataReceiver* threaded_data_receiver); void Start(const WebURLRequest& request, SyncLoadResponse* sync_load_response); // RequestPeer methods: virtual void OnUploadProgress(uint64 position, uint64 size) OVERRIDE; virtual bool OnReceivedRedirect(const net::RedirectInfo& redirect_info, const ResourceResponseInfo& info) OVERRIDE; virtual void OnReceivedResponse(const ResourceResponseInfo& info) OVERRIDE; virtual void OnDownloadedData(int len, int encoded_data_length) OVERRIDE; virtual void OnReceivedData(const char* data, int data_length, int encoded_data_length) OVERRIDE; virtual void OnReceivedCachedMetadata(const char* data, int len) OVERRIDE; virtual void OnCompletedRequest( int error_code, bool was_ignored_by_handler, bool stale_copy_in_cache, const std::string& security_info, const base::TimeTicks& completion_time, int64 total_transfer_size) OVERRIDE; private: friend class base::RefCounted; virtual ~Context() {} // We can optimize the handling of data URLs in most cases. bool CanHandleDataURLRequestLocally() const; void HandleDataURL(); WebURLLoaderImpl* loader_; WebURLRequest request_; WebURLLoaderClient* client_; ResourceDispatcher* resource_dispatcher_; WebReferrerPolicy referrer_policy_; scoped_ptr bridge_; scoped_ptr ftp_listing_delegate_; scoped_ptr multipart_delegate_; scoped_ptr completed_bridge_; }; WebURLLoaderImpl::Context::Context(WebURLLoaderImpl* loader, ResourceDispatcher* resource_dispatcher) : loader_(loader), client_(NULL), resource_dispatcher_(resource_dispatcher), referrer_policy_(blink::WebReferrerPolicyDefault) { } void WebURLLoaderImpl::Context::Cancel() { if (bridge_) { bridge_->Cancel(); bridge_.reset(); } // Ensure that we do not notify the multipart delegate anymore as it has // its own pointer to the client. if (multipart_delegate_) multipart_delegate_->Cancel(); // Ditto for the ftp delegate. if (ftp_listing_delegate_) ftp_listing_delegate_->Cancel(); // Do not make any further calls to the client. client_ = NULL; loader_ = NULL; } void WebURLLoaderImpl::Context::SetDefersLoading(bool value) { if (bridge_) bridge_->SetDefersLoading(value); } void WebURLLoaderImpl::Context::DidChangePriority( WebURLRequest::Priority new_priority, int intra_priority_value) { if (bridge_) bridge_->DidChangePriority( ConvertWebKitPriorityToNetPriority(new_priority), intra_priority_value); } bool WebURLLoaderImpl::Context::AttachThreadedDataReceiver( blink::WebThreadedDataReceiver* threaded_data_receiver) { if (bridge_) return bridge_->AttachThreadedDataReceiver(threaded_data_receiver); return false; } void WebURLLoaderImpl::Context::Start(const WebURLRequest& request, SyncLoadResponse* sync_load_response) { DCHECK(!bridge_.get()); request_ = request; // Save the request. GURL url = request.url(); if (CanHandleDataURLRequestLocally()) { if (sync_load_response) { // This is a sync load. Do the work now. sync_load_response->url = url; sync_load_response->error_code = GetInfoFromDataURL(sync_load_response->url, sync_load_response, &sync_load_response->data); } else { base::MessageLoop::current()->PostTask( FROM_HERE, base::Bind(&Context::HandleDataURL, this)); } return; } GURL referrer_url( request.httpHeaderField(WebString::fromUTF8("Referer")).latin1()); const std::string& method = request.httpMethod().latin1(); int load_flags = net::LOAD_NORMAL; switch (request.cachePolicy()) { case WebURLRequest::ReloadIgnoringCacheData: // Required by LayoutTests/http/tests/misc/refresh-headers.php load_flags |= net::LOAD_VALIDATE_CACHE; break; case WebURLRequest::ReloadBypassingCache: load_flags |= net::LOAD_BYPASS_CACHE; break; case WebURLRequest::ReturnCacheDataElseLoad: load_flags |= net::LOAD_PREFERRING_CACHE; break; case WebURLRequest::ReturnCacheDataDontLoad: load_flags |= net::LOAD_ONLY_FROM_CACHE; break; case WebURLRequest::UseProtocolCachePolicy: break; default: NOTREACHED(); } if (request.reportUploadProgress()) load_flags |= net::LOAD_ENABLE_UPLOAD_PROGRESS; if (request.reportRawHeaders()) load_flags |= net::LOAD_REPORT_RAW_HEADERS; if (!request.allowStoredCredentials()) { load_flags |= net::LOAD_DO_NOT_SAVE_COOKIES; load_flags |= net::LOAD_DO_NOT_SEND_COOKIES; } if (!request.allowStoredCredentials()) load_flags |= net::LOAD_DO_NOT_SEND_AUTH_DATA; if (request.requestContext() == WebURLRequest::RequestContextXMLHttpRequest && (url.has_username() || url.has_password())) { load_flags |= net::LOAD_DO_NOT_PROMPT_FOR_LOGIN; } HeaderFlattener flattener; request.visitHTTPHeaderFields(&flattener); // TODO(brettw) this should take parameter encoding into account when // creating the GURLs. RequestInfo request_info; request_info.method = method; request_info.url = url; request_info.first_party_for_cookies = request.firstPartyForCookies(); request_info.referrer = referrer_url; request_info.headers = flattener.GetBuffer(); request_info.load_flags = load_flags; request_info.enable_load_timing = true; // requestor_pid only needs to be non-zero if the request originates outside // the render process, so we can use requestorProcessID even for requests // from in-process plugins. request_info.requestor_pid = request.requestorProcessID(); request_info.request_type = WebURLRequestToResourceType(request); request_info.priority = ConvertWebKitPriorityToNetPriority(request.priority()); request_info.appcache_host_id = request.appCacheHostID(); request_info.routing_id = request.requestorID(); request_info.download_to_file = request.downloadToFile(); request_info.has_user_gesture = request.hasUserGesture(); request_info.skip_service_worker = request.skipServiceWorker(); request_info.extra_data = request.extraData(); referrer_policy_ = request.referrerPolicy(); request_info.referrer_policy = request.referrerPolicy(); bridge_.reset(resource_dispatcher_->CreateBridge(request_info)); if (!request.httpBody().isNull()) { // GET and HEAD requests shouldn't have http bodies. DCHECK(method != "GET" && method != "HEAD"); const WebHTTPBody& httpBody = request.httpBody(); size_t i = 0; WebHTTPBody::Element element; scoped_refptr request_body = new ResourceRequestBody; while (httpBody.elementAt(i++, element)) { switch (element.type) { case WebHTTPBody::Element::TypeData: if (!element.data.isEmpty()) { // WebKit sometimes gives up empty data to append. These aren't // necessary so we just optimize those out here. request_body->AppendBytes( element.data.data(), static_cast(element.data.size())); } break; case WebHTTPBody::Element::TypeFile: if (element.fileLength == -1) { request_body->AppendFileRange( base::FilePath::FromUTF16Unsafe(element.filePath), 0, kuint64max, base::Time()); } else { request_body->AppendFileRange( base::FilePath::FromUTF16Unsafe(element.filePath), static_cast(element.fileStart), static_cast(element.fileLength), base::Time::FromDoubleT(element.modificationTime)); } break; case WebHTTPBody::Element::TypeFileSystemURL: { GURL file_system_url = element.fileSystemURL; DCHECK(file_system_url.SchemeIsFileSystem()); request_body->AppendFileSystemFileRange( file_system_url, static_cast(element.fileStart), static_cast(element.fileLength), base::Time::FromDoubleT(element.modificationTime)); break; } case WebHTTPBody::Element::TypeBlob: request_body->AppendBlob(element.blobUUID.utf8()); break; default: NOTREACHED(); } } request_body->set_identifier(request.httpBody().identifier()); bridge_->SetRequestBody(request_body.get()); } if (sync_load_response) { bridge_->SyncLoad(sync_load_response); return; } // TODO(mmenke): This case probably never happens, anyways. Probably should // not handle this case at all. If it's worth handling, this code currently // results in the request just hanging, which should be fixed. if (!bridge_->Start(this)) bridge_.reset(); } void WebURLLoaderImpl::Context::OnUploadProgress(uint64 position, uint64 size) { if (client_) client_->didSendData(loader_, position, size); } bool WebURLLoaderImpl::Context::OnReceivedRedirect( const net::RedirectInfo& redirect_info, const ResourceResponseInfo& info) { if (!client_) return false; WebURLResponse response; response.initialize(); PopulateURLResponse(request_.url(), info, &response); // TODO(darin): We lack sufficient information to construct the actual // request that resulted from the redirect. WebURLRequest new_request(redirect_info.new_url); new_request.setFirstPartyForCookies( redirect_info.new_first_party_for_cookies); new_request.setDownloadToFile(request_.downloadToFile()); new_request.setHTTPReferrer(WebString::fromUTF8(redirect_info.new_referrer), referrer_policy_); std::string old_method = request_.httpMethod().utf8(); new_request.setHTTPMethod(WebString::fromUTF8(redirect_info.new_method)); if (redirect_info.new_method == old_method) new_request.setHTTPBody(request_.httpBody()); // Protect from deletion during call to willSendRequest. scoped_refptr protect(this); client_->willSendRequest(loader_, new_request, response); request_ = new_request; // Only follow the redirect if WebKit left the URL unmodified. if (redirect_info.new_url == GURL(new_request.url())) { // First-party cookie logic moved from DocumentLoader in Blink to // net::URLRequest in the browser. Assert that Blink didn't try to change it // to something else. DCHECK_EQ(redirect_info.new_first_party_for_cookies.spec(), request_.firstPartyForCookies().string().utf8()); return true; } // We assume that WebKit only changes the URL to suppress a redirect, and we // assume that it does so by setting it to be invalid. DCHECK(!new_request.url().isValid()); return false; } void WebURLLoaderImpl::Context::OnReceivedResponse( const ResourceResponseInfo& info) { if (!client_) return; WebURLResponse response; response.initialize(); // Updates the request url if the response was fetched by a ServiceWorker, // and it was not generated inside the ServiceWorker. if (info.was_fetched_via_service_worker && !info.original_url_via_service_worker.is_empty()) { request_.setURL(info.original_url_via_service_worker); } PopulateURLResponse(request_.url(), info, &response); bool show_raw_listing = (GURL(request_.url()).query() == "raw"); if (info.mime_type == "text/vnd.chromium.ftp-dir") { if (show_raw_listing) { // Set the MIME type to plain text to prevent any active content. response.setMIMEType("text/plain"); } else { // We're going to produce a parsed listing in HTML. response.setMIMEType("text/html"); } } // Prevent |this| from being destroyed if the client destroys the loader, // ether in didReceiveResponse, or when the multipart/ftp delegate calls into // it. scoped_refptr protect(this); client_->didReceiveResponse(loader_, response); // We may have been cancelled after didReceiveResponse, which would leave us // without a client and therefore without much need to do further handling. if (!client_) return; DCHECK(!ftp_listing_delegate_.get()); DCHECK(!multipart_delegate_.get()); if (info.headers.get() && info.mime_type == "multipart/x-mixed-replace") { std::string content_type; info.headers->EnumerateHeader(NULL, "content-type", &content_type); std::string mime_type; std::string charset; bool had_charset = false; std::string boundary; net::HttpUtil::ParseContentType(content_type, &mime_type, &charset, &had_charset, &boundary); base::TrimString(boundary, " \"", &boundary); // If there's no boundary, just handle the request normally. In the gecko // code, nsMultiMixedConv::OnStartRequest throws an exception. if (!boundary.empty()) { multipart_delegate_.reset( new MultipartResponseDelegate(client_, loader_, response, boundary)); } } else if (info.mime_type == "text/vnd.chromium.ftp-dir" && !show_raw_listing) { ftp_listing_delegate_.reset( new FtpDirectoryListingResponseDelegate(client_, loader_, response)); } } void WebURLLoaderImpl::Context::OnDownloadedData(int len, int encoded_data_length) { if (client_) client_->didDownloadData(loader_, len, encoded_data_length); } void WebURLLoaderImpl::Context::OnReceivedData(const char* data, int data_length, int encoded_data_length) { if (!client_) return; if (ftp_listing_delegate_) { // The FTP listing delegate will make the appropriate calls to // client_->didReceiveData and client_->didReceiveResponse. Since the // delegate may want to do work after sending data to the delegate, keep // |this| and the delegate alive until it's finished handling the data. scoped_refptr protect(this); ftp_listing_delegate_->OnReceivedData(data, data_length); } else if (multipart_delegate_) { // The multipart delegate will make the appropriate calls to // client_->didReceiveData and client_->didReceiveResponse. Since the // delegate may want to do work after sending data to the delegate, keep // |this| and the delegate alive until it's finished handling the data. scoped_refptr protect(this); multipart_delegate_->OnReceivedData(data, data_length, encoded_data_length); } else { client_->didReceiveData(loader_, data, data_length, encoded_data_length); } } void WebURLLoaderImpl::Context::OnReceivedCachedMetadata( const char* data, int len) { if (client_) client_->didReceiveCachedMetadata(loader_, data, len); } void WebURLLoaderImpl::Context::OnCompletedRequest( int error_code, bool was_ignored_by_handler, bool stale_copy_in_cache, const std::string& security_info, const base::TimeTicks& completion_time, int64 total_transfer_size) { // The WebURLLoaderImpl may be deleted in any of the calls to the client or // the delegates below (As they also may call in to the client). Keep |this| // alive in that case, to avoid a crash. If that happens, the request will be // cancelled and |client_| will be set to NULL. scoped_refptr protect(this); if (ftp_listing_delegate_) { ftp_listing_delegate_->OnCompletedRequest(); ftp_listing_delegate_.reset(NULL); } else if (multipart_delegate_) { multipart_delegate_->OnCompletedRequest(); multipart_delegate_.reset(NULL); } // Prevent any further IPC to the browser now that we're complete, but // don't delete it to keep any downloaded temp files alive. DCHECK(!completed_bridge_.get()); completed_bridge_.swap(bridge_); if (client_) { if (error_code != net::OK) { client_->didFail(loader_, CreateError(request_.url(), stale_copy_in_cache, error_code)); } else { client_->didFinishLoading( loader_, (completion_time - TimeTicks()).InSecondsF(), total_transfer_size); } } } bool WebURLLoaderImpl::Context::CanHandleDataURLRequestLocally() const { GURL url = request_.url(); if (!url.SchemeIs(url::kDataScheme)) return false; // The fast paths for data URL, Start() and HandleDataURL(), don't support // the downloadToFile option. if (request_.downloadToFile()) return false; // Optimize for the case where we can handle a data URL locally. We must // skip this for data URLs targetted at frames since those could trigger a // download. // // NOTE: We special case MIME types we can render both for performance // reasons as well as to support unit tests, which do not have an underlying // ResourceLoaderBridge implementation. #if defined(OS_ANDROID) // For compatibility reasons on Android we need to expose top-level data:// // to the browser. if (request_.frameType() == WebURLRequest::FrameTypeTopLevel) return false; #endif if (request_.frameType() != WebURLRequest::FrameTypeTopLevel && request_.frameType() != WebURLRequest::FrameTypeNested) return true; std::string mime_type, unused_charset; if (net::DataURL::Parse(request_.url(), &mime_type, &unused_charset, NULL) && net::IsSupportedMimeType(mime_type)) return true; return false; } void WebURLLoaderImpl::Context::HandleDataURL() { ResourceResponseInfo info; std::string data; int error_code = GetInfoFromDataURL(request_.url(), &info, &data); if (error_code == net::OK) { OnReceivedResponse(info); if (!data.empty()) OnReceivedData(data.data(), data.size(), 0); } OnCompletedRequest(error_code, false, false, info.security_info, base::TimeTicks::Now(), 0); } // WebURLLoaderImpl ----------------------------------------------------------- WebURLLoaderImpl::WebURLLoaderImpl(ResourceDispatcher* resource_dispatcher) : context_(new Context(this, resource_dispatcher)) { } WebURLLoaderImpl::~WebURLLoaderImpl() { cancel(); } WebURLError WebURLLoaderImpl::CreateError(const WebURL& unreachable_url, bool stale_copy_in_cache, int reason) { WebURLError error; error.domain = WebString::fromUTF8(net::kErrorDomain); error.reason = reason; error.unreachableURL = unreachable_url; error.staleCopyInCache = stale_copy_in_cache; if (reason == net::ERR_ABORTED) { error.isCancellation = true; } else if (reason == net::ERR_TEMPORARILY_THROTTLED) { error.localizedDescription = WebString::fromUTF8( kThrottledErrorDescription); } else { error.localizedDescription = WebString::fromUTF8( net::ErrorToString(reason)); } return error; } void WebURLLoaderImpl::PopulateURLResponse(const GURL& url, const ResourceResponseInfo& info, WebURLResponse* response) { response->setURL(url); response->setResponseTime(info.response_time.ToDoubleT()); response->setMIMEType(WebString::fromUTF8(info.mime_type)); response->setTextEncodingName(WebString::fromUTF8(info.charset)); response->setExpectedContentLength(info.content_length); response->setSecurityInfo(info.security_info); response->setAppCacheID(info.appcache_id); response->setAppCacheManifestURL(info.appcache_manifest_url); response->setWasCached(!info.load_timing.request_start_time.is_null() && info.response_time < info.load_timing.request_start_time); response->setRemoteIPAddress( WebString::fromUTF8(info.socket_address.host())); response->setRemotePort(info.socket_address.port()); response->setConnectionID(info.load_timing.socket_log_id); response->setConnectionReused(info.load_timing.socket_reused); response->setDownloadFilePath(info.download_file_path.AsUTF16Unsafe()); response->setWasFetchedViaServiceWorker(info.was_fetched_via_service_worker); WebURLResponseExtraDataImpl* extra_data = new WebURLResponseExtraDataImpl(info.npn_negotiated_protocol); response->setExtraData(extra_data); extra_data->set_was_fetched_via_spdy(info.was_fetched_via_spdy); extra_data->set_was_npn_negotiated(info.was_npn_negotiated); extra_data->set_was_alternate_protocol_available( info.was_alternate_protocol_available); extra_data->set_connection_info(info.connection_info); extra_data->set_was_fetched_via_proxy(info.was_fetched_via_proxy); // If there's no received headers end time, don't set load timing. This is // the case for non-HTTP requests, requests that don't go over the wire, and // certain error cases. if (!info.load_timing.receive_headers_end.is_null()) { WebURLLoadTiming timing; PopulateURLLoadTiming(info.load_timing, &timing); const TimeTicks kNullTicks; timing.setServiceWorkerFetchStart( (info.service_worker_fetch_start - kNullTicks).InSecondsF()); timing.setServiceWorkerFetchReady( (info.service_worker_fetch_ready - kNullTicks).InSecondsF()); timing.setServiceWorkerFetchEnd( (info.service_worker_fetch_end - kNullTicks).InSecondsF()); response->setLoadTiming(timing); } if (info.devtools_info.get()) { WebHTTPLoadInfo load_info; load_info.setHTTPStatusCode(info.devtools_info->http_status_code); load_info.setHTTPStatusText(WebString::fromLatin1( info.devtools_info->http_status_text)); load_info.setEncodedDataLength(info.encoded_data_length); load_info.setRequestHeadersText(WebString::fromLatin1( info.devtools_info->request_headers_text)); load_info.setResponseHeadersText(WebString::fromLatin1( info.devtools_info->response_headers_text)); const HeadersVector& request_headers = info.devtools_info->request_headers; for (HeadersVector::const_iterator it = request_headers.begin(); it != request_headers.end(); ++it) { load_info.addRequestHeader(WebString::fromLatin1(it->first), WebString::fromLatin1(it->second)); } const HeadersVector& response_headers = info.devtools_info->response_headers; for (HeadersVector::const_iterator it = response_headers.begin(); it != response_headers.end(); ++it) { load_info.addResponseHeader(WebString::fromLatin1(it->first), WebString::fromLatin1(it->second)); } response->setHTTPLoadInfo(load_info); } const net::HttpResponseHeaders* headers = info.headers.get(); if (!headers) return; WebURLResponse::HTTPVersion version = WebURLResponse::Unknown; if (headers->GetHttpVersion() == net::HttpVersion(0, 9)) version = WebURLResponse::HTTP_0_9; else if (headers->GetHttpVersion() == net::HttpVersion(1, 0)) version = WebURLResponse::HTTP_1_0; else if (headers->GetHttpVersion() == net::HttpVersion(1, 1)) version = WebURLResponse::HTTP_1_1; response->setHTTPVersion(version); response->setHTTPStatusCode(headers->response_code()); response->setHTTPStatusText(WebString::fromLatin1(headers->GetStatusText())); // TODO(darin): We should leverage HttpResponseHeaders for this, and this // should be using the same code as ResourceDispatcherHost. // TODO(jungshik): Figure out the actual value of the referrer charset and // pass it to GetSuggestedFilename. std::string value; headers->EnumerateHeader(NULL, "content-disposition", &value); response->setSuggestedFileName( net::GetSuggestedFilename(url, value, std::string(), // referrer_charset std::string(), // suggested_name std::string(), // mime_type std::string())); // default_name Time time_val; if (headers->GetLastModifiedValue(&time_val)) response->setLastModifiedDate(time_val.ToDoubleT()); // Build up the header map. void* iter = NULL; std::string name; while (headers->EnumerateHeaderLines(&iter, &name, &value)) { response->addHTTPHeaderField(WebString::fromLatin1(name), WebString::fromLatin1(value)); } } void WebURLLoaderImpl::loadSynchronously(const WebURLRequest& request, WebURLResponse& response, WebURLError& error, WebData& data) { SyncLoadResponse sync_load_response; context_->Start(request, &sync_load_response); const GURL& final_url = sync_load_response.url; // TODO(tc): For file loads, we may want to include a more descriptive // status code or status text. int error_code = sync_load_response.error_code; if (error_code != net::OK) { response.setURL(final_url); error.domain = WebString::fromUTF8(net::kErrorDomain); error.reason = error_code; error.unreachableURL = final_url; return; } PopulateURLResponse(final_url, sync_load_response, &response); data.assign(sync_load_response.data.data(), sync_load_response.data.size()); } void WebURLLoaderImpl::loadAsynchronously(const WebURLRequest& request, WebURLLoaderClient* client) { DCHECK(!context_->client()); context_->set_client(client); context_->Start(request, NULL); } void WebURLLoaderImpl::cancel() { context_->Cancel(); } void WebURLLoaderImpl::setDefersLoading(bool value) { context_->SetDefersLoading(value); } void WebURLLoaderImpl::didChangePriority(WebURLRequest::Priority new_priority, int intra_priority_value) { context_->DidChangePriority(new_priority, intra_priority_value); } bool WebURLLoaderImpl::attachThreadedDataReceiver( blink::WebThreadedDataReceiver* threaded_data_receiver) { return context_->AttachThreadedDataReceiver(threaded_data_receiver); } } // namespace content