/* * Copyright (C) 2011 Google Inc. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are * met: * * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above * copyright notice, this list of conditions and the following disclaimer * in the documentation and/or other materials provided with the * distribution. * * Neither the name of Google Inc. nor the names of its * contributors may be used to endorse or promote products derived from * this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "config.h" #include "DocumentThreadableLoader.h" #include "AuthenticationChallenge.h" #include "CrossOriginAccessControl.h" #include "CrossOriginPreflightResultCache.h" #include "Document.h" #include "DocumentThreadableLoaderClient.h" #include "Frame.h" #include "FrameLoader.h" #include "ResourceHandle.h" #include "ResourceLoadScheduler.h" #include "ResourceRequest.h" #include "SecurityOrigin.h" #include "SubresourceLoader.h" #include "ThreadableLoaderClient.h" #include <wtf/UnusedParam.h> namespace WebCore { void DocumentThreadableLoader::loadResourceSynchronously(Document* document, const ResourceRequest& request, ThreadableLoaderClient& client, const ThreadableLoaderOptions& options) { // The loader will be deleted as soon as this function exits. RefPtr<DocumentThreadableLoader> loader = adoptRef(new DocumentThreadableLoader(document, &client, LoadSynchronously, request, options, String())); ASSERT(loader->hasOneRef()); } PassRefPtr<DocumentThreadableLoader> DocumentThreadableLoader::create(Document* document, ThreadableLoaderClient* client, const ResourceRequest& request, const ThreadableLoaderOptions& options, const String& optionalOutgoingReferrer) { RefPtr<DocumentThreadableLoader> loader = adoptRef(new DocumentThreadableLoader(document, client, LoadAsynchronously, request, options, optionalOutgoingReferrer)); if (!loader->m_loader) loader = 0; return loader.release(); } DocumentThreadableLoader::DocumentThreadableLoader(Document* document, ThreadableLoaderClient* client, BlockingBehavior blockingBehavior, const ResourceRequest& request, const ThreadableLoaderOptions& options, const String& optionalOutgoingReferrer) : m_client(client) , m_document(document) , m_options(options) , m_optionalOutgoingReferrer(optionalOutgoingReferrer) , m_sameOriginRequest(document->securityOrigin()->canRequest(request.url())) , m_async(blockingBehavior == LoadAsynchronously) { ASSERT(document); ASSERT(client); // Setting an outgoing referer is only supported in the async code path. ASSERT(m_async || m_optionalOutgoingReferrer.isEmpty()); if (m_sameOriginRequest || m_options.crossOriginRequestPolicy == AllowCrossOriginRequests) { loadRequest(request, DoSecurityCheck); return; } if (m_options.crossOriginRequestPolicy == DenyCrossOriginRequests) { m_client->didFail(ResourceError(errorDomainWebKitInternal, 0, request.url().string(), "Cross origin requests are not supported.")); return; } ASSERT(m_options.crossOriginRequestPolicy == UseAccessControl); OwnPtr<ResourceRequest> crossOriginRequest = adoptPtr(new ResourceRequest(request)); crossOriginRequest->removeCredentials(); crossOriginRequest->setAllowCookies(m_options.allowCredentials); if (!m_options.forcePreflight && isSimpleCrossOriginAccessRequest(crossOriginRequest->httpMethod(), crossOriginRequest->httpHeaderFields())) makeSimpleCrossOriginAccessRequest(*crossOriginRequest); else { m_actualRequest = crossOriginRequest.release(); if (CrossOriginPreflightResultCache::shared().canSkipPreflight(document->securityOrigin()->toString(), m_actualRequest->url(), m_options.allowCredentials, m_actualRequest->httpMethod(), m_actualRequest->httpHeaderFields())) preflightSuccess(); else makeCrossOriginAccessRequestWithPreflight(*m_actualRequest); } } void DocumentThreadableLoader::makeSimpleCrossOriginAccessRequest(const ResourceRequest& request) { ASSERT(isSimpleCrossOriginAccessRequest(request.httpMethod(), request.httpHeaderFields())); // Cross-origin requests are only defined for HTTP. We would catch this when checking response headers later, but there is no reason to send a request that's guaranteed to be denied. if (!request.url().protocolInHTTPFamily()) { m_client->didFail(ResourceError(errorDomainWebKitInternal, 0, request.url().string(), "Cross origin requests are only supported for HTTP.")); return; } // Make a copy of the passed request so that we can modify some details. ResourceRequest crossOriginRequest(request); crossOriginRequest.setHTTPOrigin(m_document->securityOrigin()->toString()); loadRequest(crossOriginRequest, DoSecurityCheck); } void DocumentThreadableLoader::makeCrossOriginAccessRequestWithPreflight(const ResourceRequest& request) { ResourceRequest preflightRequest(request.url()); preflightRequest.removeCredentials(); preflightRequest.setHTTPOrigin(m_document->securityOrigin()->toString()); preflightRequest.setAllowCookies(m_options.allowCredentials); preflightRequest.setHTTPMethod("OPTIONS"); preflightRequest.setHTTPHeaderField("Access-Control-Request-Method", request.httpMethod()); const HTTPHeaderMap& requestHeaderFields = request.httpHeaderFields(); if (requestHeaderFields.size() > 0) { Vector<UChar> headerBuffer; HTTPHeaderMap::const_iterator it = requestHeaderFields.begin(); append(headerBuffer, it->first); ++it; HTTPHeaderMap::const_iterator end = requestHeaderFields.end(); for (; it != end; ++it) { headerBuffer.append(','); headerBuffer.append(' '); append(headerBuffer, it->first); } preflightRequest.setHTTPHeaderField("Access-Control-Request-Headers", String::adopt(headerBuffer)); } preflightRequest.setPriority(request.priority()); loadRequest(preflightRequest, DoSecurityCheck); } DocumentThreadableLoader::~DocumentThreadableLoader() { if (m_loader) m_loader->clearClient(); } void DocumentThreadableLoader::cancel() { if (!m_loader) return; m_loader->cancel(); m_loader->clearClient(); m_loader = 0; m_client = 0; } void DocumentThreadableLoader::setDefersLoading(bool value) { if (m_loader) m_loader->setDefersLoading(value); } void DocumentThreadableLoader::willSendRequest(SubresourceLoader* loader, ResourceRequest& request, const ResourceResponse& redirectResponse) { ASSERT(m_client); ASSERT_UNUSED(loader, loader == m_loader); if (!isAllowedRedirect(request.url())) { RefPtr<DocumentThreadableLoader> protect(this); m_client->didFailRedirectCheck(); request = ResourceRequest(); } else { if (m_client->isDocumentThreadableLoaderClient()) static_cast<DocumentThreadableLoaderClient*>(m_client)->willSendRequest(request, redirectResponse); } } void DocumentThreadableLoader::didSendData(SubresourceLoader* loader, unsigned long long bytesSent, unsigned long long totalBytesToBeSent) { ASSERT(m_client); ASSERT_UNUSED(loader, loader == m_loader); m_client->didSendData(bytesSent, totalBytesToBeSent); } void DocumentThreadableLoader::didReceiveResponse(SubresourceLoader* loader, const ResourceResponse& response) { ASSERT(m_client); ASSERT_UNUSED(loader, loader == m_loader); String accessControlErrorDescription; if (m_actualRequest) { if (!passesAccessControlCheck(response, m_options.allowCredentials, m_document->securityOrigin(), accessControlErrorDescription)) { preflightFailure(response.url(), accessControlErrorDescription); return; } OwnPtr<CrossOriginPreflightResultCacheItem> preflightResult = adoptPtr(new CrossOriginPreflightResultCacheItem(m_options.allowCredentials)); if (!preflightResult->parse(response, accessControlErrorDescription) || !preflightResult->allowsCrossOriginMethod(m_actualRequest->httpMethod(), accessControlErrorDescription) || !preflightResult->allowsCrossOriginHeaders(m_actualRequest->httpHeaderFields(), accessControlErrorDescription)) { preflightFailure(response.url(), accessControlErrorDescription); return; } CrossOriginPreflightResultCache::shared().appendEntry(m_document->securityOrigin()->toString(), m_actualRequest->url(), preflightResult.release()); } else { if (!m_sameOriginRequest && m_options.crossOriginRequestPolicy == UseAccessControl) { if (!passesAccessControlCheck(response, m_options.allowCredentials, m_document->securityOrigin(), accessControlErrorDescription)) { m_client->didFail(ResourceError(errorDomainWebKitInternal, 0, response.url().string(), accessControlErrorDescription)); return; } } m_client->didReceiveResponse(response); } } void DocumentThreadableLoader::didReceiveData(SubresourceLoader* loader, const char* data, int dataLength) { ASSERT(m_client); ASSERT_UNUSED(loader, loader == m_loader); // Preflight data should be invisible to clients. if (m_actualRequest) return; m_client->didReceiveData(data, dataLength); } void DocumentThreadableLoader::didReceiveCachedMetadata(SubresourceLoader* loader, const char* data, int dataLength) { ASSERT(m_client); ASSERT_UNUSED(loader, loader == m_loader); // Preflight data should be invisible to clients. if (m_actualRequest) return; m_client->didReceiveCachedMetadata(data, dataLength); } void DocumentThreadableLoader::didFinishLoading(SubresourceLoader* loader, double finishTime) { ASSERT(loader == m_loader); ASSERT(m_client); didFinishLoading(loader->identifier(), finishTime); } void DocumentThreadableLoader::didFinishLoading(unsigned long identifier, double finishTime) { if (m_actualRequest) { ASSERT(!m_sameOriginRequest); ASSERT(m_options.crossOriginRequestPolicy == UseAccessControl); preflightSuccess(); } else m_client->didFinishLoading(identifier, finishTime); } void DocumentThreadableLoader::didFail(SubresourceLoader* loader, const ResourceError& error) { ASSERT(m_client); // m_loader may be null if we arrive here via SubresourceLoader::create in the ctor ASSERT_UNUSED(loader, loader == m_loader || !m_loader); m_client->didFail(error); } bool DocumentThreadableLoader::getShouldUseCredentialStorage(SubresourceLoader* loader, bool& shouldUseCredentialStorage) { ASSERT_UNUSED(loader, loader == m_loader || !m_loader); if (!m_options.allowCredentials) { shouldUseCredentialStorage = false; return true; } return false; // Only FrameLoaderClient can ultimately permit credential use. } void DocumentThreadableLoader::didReceiveAuthenticationChallenge(SubresourceLoader* loader, const AuthenticationChallenge& challenge) { ASSERT(loader == m_loader); // Users are not prompted for credentials for cross-origin requests. if (!m_sameOriginRequest) { #if PLATFORM(MAC) || USE(CFNETWORK) || USE(CURL) loader->handle()->receivedRequestToContinueWithoutCredential(challenge); #else // These platforms don't provide a way to continue without credentials, cancel the load altogether. UNUSED_PARAM(challenge); RefPtr<DocumentThreadableLoader> protect(this); m_client->didFail(loader->blockedError()); cancel(); #endif } } void DocumentThreadableLoader::receivedCancellation(SubresourceLoader* loader, const AuthenticationChallenge& challenge) { ASSERT(m_client); ASSERT_UNUSED(loader, loader == m_loader); m_client->didReceiveAuthenticationCancellation(challenge.failureResponse()); } void DocumentThreadableLoader::preflightSuccess() { OwnPtr<ResourceRequest> actualRequest; actualRequest.swap(m_actualRequest); actualRequest->setHTTPOrigin(m_document->securityOrigin()->toString()); // It should be ok to skip the security check since we already asked about the preflight request. loadRequest(*actualRequest, SkipSecurityCheck); } void DocumentThreadableLoader::preflightFailure(const String& url, const String& errorDescription) { m_actualRequest = 0; // Prevent didFinishLoading() from bypassing access check. m_client->didFail(ResourceError(errorDomainWebKitInternal, 0, url, errorDescription)); } void DocumentThreadableLoader::loadRequest(const ResourceRequest& request, SecurityCheckPolicy securityCheck) { // Any credential should have been removed from the cross-site requests. const KURL& requestURL = request.url(); ASSERT(m_sameOriginRequest || requestURL.user().isEmpty()); ASSERT(m_sameOriginRequest || requestURL.pass().isEmpty()); if (m_async) { // Don't sniff content or send load callbacks for the preflight request. bool sendLoadCallbacks = m_options.sendLoadCallbacks && !m_actualRequest; bool sniffContent = m_options.sniffContent && !m_actualRequest; // Keep buffering the data for the preflight request. bool shouldBufferData = m_options.shouldBufferData || m_actualRequest; // Clear the loader so that any callbacks from SubresourceLoader::create will not have the old loader. m_loader = 0; m_loader = resourceLoadScheduler()->scheduleSubresourceLoad(m_document->frame(), this, request, ResourceLoadPriorityMedium, securityCheck, sendLoadCallbacks, sniffContent, m_optionalOutgoingReferrer, shouldBufferData); return; } // FIXME: ThreadableLoaderOptions.sniffContent is not supported for synchronous requests. StoredCredentials storedCredentials = m_options.allowCredentials ? AllowStoredCredentials : DoNotAllowStoredCredentials; Vector<char> data; ResourceError error; ResourceResponse response; unsigned long identifier = std::numeric_limits<unsigned long>::max(); if (m_document->frame()) identifier = m_document->frame()->loader()->loadResourceSynchronously(request, storedCredentials, error, response, data); // No exception for file:/// resources, see <rdar://problem/4962298>. // Also, if we have an HTTP response, then it wasn't a network error in fact. if (!error.isNull() && !requestURL.isLocalFile() && response.httpStatusCode() <= 0) { m_client->didFail(error); return; } // FIXME: FrameLoader::loadSynchronously() does not tell us whether a redirect happened or not, so we guess by comparing the // request and response URLs. This isn't a perfect test though, since a server can serve a redirect to the same URL that was // requested. Also comparing the request and response URLs as strings will fail if the requestURL still has its credentials. if (requestURL != response.url() && !isAllowedRedirect(response.url())) { m_client->didFailRedirectCheck(); return; } didReceiveResponse(0, response); const char* bytes = static_cast<const char*>(data.data()); int len = static_cast<int>(data.size()); didReceiveData(0, bytes, len); didFinishLoading(identifier, 0.0); } bool DocumentThreadableLoader::isAllowedRedirect(const KURL& url) { if (m_options.crossOriginRequestPolicy == AllowCrossOriginRequests) return true; // FIXME: We need to implement access control for each redirect. This will require some refactoring though, because the code // that processes redirects doesn't know about access control and expects a synchronous answer from its client about whether // a redirect should proceed. return m_sameOriginRequest && m_document->securityOrigin()->canRequest(url); } } // namespace WebCore