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// Copyright (c) 2010 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 "base/file_path.h"
#include "base/file_util.h"
#include "base/message_loop.h"
#include "base/message_loop_proxy.h"
#if defined(OS_MACOSX) || defined(OS_WIN)
#include "base/nss_util.h"
#endif
#include "base/ref_counted.h"
#include "base/time.h"
#include "base/timer.h"
#include "base/threading/thread.h"
#include "base/synchronization/waitable_event.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"
#if defined(OS_WIN)
#include "net/socket/ssl_client_socket_nss_factory.h"
#endif
#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/glue/resource_loader_bridge.h"
using net::HttpResponseHeaders;
using net::StaticCookiePolicy;
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<net::UploadData> upload;
};
// 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<RequestProxy> {
public:
// Takes ownership of the params.
RequestProxy(CefRefPtr<CefBrowser> 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();
// 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<RequestProxy>;
virtual ~RequestProxy() {
// If we have a request, then we'd better be on the io thread!
DCHECK(!request_.get() || CefThread::CurrentlyOn(CefThread::IO));
}
// --------------------------------------------------------------------------
// 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,
bool content_filtered,
const GURL& url, bool allow_download) {
if (browser_.get() && info.headers.get()) {
CefRefPtr<CefHandler> handler = browser_->GetHandler();
if (handler.get()) {
std::string content_disposition;
info.headers->GetNormalizedHeader("Content-Disposition",
&content_disposition);
if (allow_download &&
webkit_glue::ShouldDownload(content_disposition, info.mime_type)) {
FilePath path(net::GetSuggestedFilename(url, content_disposition,
info.charset, FilePath(FILE_PATH_LITERAL("download"))));
CefRefPtr<CefDownloadHandler> dl_handler;
if (handler->HandleDownloadResponse(browser_, info.mime_type,
path.value(), info.content_length, dl_handler) ==
RV_CONTINUE) {
download_handler_ = dl_handler;
}
}
}
}
if (peer_)
peer_->OnReceivedResponse(info, content_filtered);
}
void NotifyReceivedData(int bytes_read) {
if (!peer_)
return;
// Make a local copy of buf_, since AsyncReadData reuses it.
scoped_array<char> 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 reponse 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));
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);
}
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 URLRequestStatus& status,
const std::string& security_info,
const base::Time& complete_time) {
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<CefHandler> handler = browser_->GetHandler();
if(handler.get()) {
// Build the request object for passing to the handler
CefRefPtr<CefRequest> request(new CefRequestImpl());
CefRequestImpl* requestimpl =
static_cast<CefRequestImpl*>(request.get());
std::string originalUrl(params->url.spec());
requestimpl->SetURL(originalUrl);
requestimpl->SetMethod(params->method);
// Transfer request headers
CefRequest::HeaderMap headerMap;
CefRequestImpl::ParseHeaders(params->headers, headerMap);
headerMap.insert(std::make_pair("Referrer", params->referrer.spec()));
requestimpl->SetHeaderMap(headerMap);
// Transfer post data, if any
scoped_refptr<net::UploadData> upload = params->upload;
if(upload.get()) {
CefRefPtr<CefPostData> postdata(new CefPostDataImpl());
static_cast<CefPostDataImpl*>(postdata.get())->Set(*upload.get());
requestimpl->SetPostData(postdata);
}
int loadFlags = params->load_flags;
// Handler output will be returned in these variables
CefString redirectUrl;
CefRefPtr<CefStreamReader> resourceStream;
CefString mimeType;
CefHandler::RetVal rv = handler->HandleBeforeResourceLoad(
browser_, request, redirectUrl, resourceStream, mimeType,
loadFlags);
// 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 = CefRequestImpl::GenerateHeaders(headerMap);
// Observe post data from request.
CefRefPtr<CefPostData> postData = request->GetPostData();
if(postData.get()) {
params->upload = new net::UploadData();
static_cast<CefPostDataImpl*>(postData.get())->Get(*params->upload);
}
if(rv == RV_HANDLED) {
// cancel the resource load
handled = true;
OnCompletedRequest(
URLRequestStatus(URLRequestStatus::CANCELED, net::ERR_ABORTED),
std::string(), base::Time());
} else if(!redirectUrl.empty()) {
// redirect to the specified URL
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;
ResourceResponseInfo info;
info.content_length = static_cast<int64>(offset);
if(!mimeType.empty())
info.mime_type = mimeType;
OnReceivedResponse(info, false);
AsyncReadData();
}
if(!handled && ResourceType::IsFrame(params->request_type) &&
!net::URLRequest::IsHandledProtocol(params->url.scheme())) {
bool allow_os_execution = false;
CefHandler::RetVal rv = handler->HandleProtocolExecution(browser_,
params->url.spec(), &allow_os_execution);
if(rv == RV_CONTINUE && allow_os_execution &&
ExternalProtocolHandler::HandleExternalProtocol(params->url)) {
handled = true;
} else if(rv == RV_HANDLED) {
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_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,
bool content_filtered) {
GURL url;
bool allow_download(false);
if (request_.get()){
url = request_->url();
ExtraRequestInfo* info =
static_cast<ExtraRequestInfo*>(request_->GetUserData(NULL));
if (info)
allow_download = info->allow_download();
}
owner_loop_->PostTask(FROM_HERE, NewRunnableMethod(
this, &RequestProxy::NotifyReceivedResponse, info, content_filtered,
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 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, false);
AsyncReadData(); // start reading
} else {
Done();
}
}
virtual void OnAuthRequired(net::URLRequest* request,
net::AuthChallengeInfo* auth_info) {
if (browser_.get()) {
CefRefPtr<CefHandler> handler = browser_->GetHandler();
if(handler.get()) {
CefString username, password;
CefHandler::RetVal rv = handler->HandleAuthenticationRequest(
browser_, auth_info->is_proxy,
auth_info->host_and_port, auth_info->realm,
auth_info->scheme, username, password);
if (rv == RV_HANDLED) {
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 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<net::URLRequest> request_;
CefRefPtr<CefStreamReader> resource_stream_;
// Support for request.download_to_file behavior.
bool download_to_file_;
net::FileStream file_stream_;
scoped_refptr<DeletableFileReference> downloaded_file_;
// Size of our async IO data buffers
static const int kDataSize = 16*1024;
// read buffer for async IO
scoped_refptr<net::IOBuffer> buf_;
CefRefPtr<CefBrowser> 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<RequestProxy> 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<CefDownloadHandler> download_handler_;
};
//-----------------------------------------------------------------------------
class SyncRequestProxy : public RequestProxy {
public:
explicit SyncRequestProxy(CefRefPtr<CefBrowser> 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,
bool content_filtered) {
*static_cast<ResourceResponseInfo*>(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 URLRequestStatus& status,
const std::string& security_info,
const base::Time& complete_time) {
if (download_to_file_)
file_stream_.Close();
result_->status = status;
event_.Signal();
}
private:
ResourceLoaderBridge::SyncLoadResponse* result_;
base::WaitableEvent event_;
};
//-----------------------------------------------------------------------------
class ResourceLoaderBridgeImpl : public ResourceLoaderBridge {
public:
ResourceLoaderBridgeImpl(CefRefPtr<CefBrowser> 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<SyncRequestProxy*>(proxy_)->WaitForCompletion();
}
private:
CefRefPtr<CefBrowser> browser_;
// Ownership of params_ is transfered to the proxy when the proxy is created.
scoped_ptr<RequestParams> 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<CookieSetter> {
public:
void Set(const GURL& url, const std::string& cookie) {
REQUIRE_IOT();
_Context->request_context()->cookie_store()->SetCookie(url, cookie);
}
private:
friend class base::RefCountedThreadSafe<CookieSetter>;
~CookieSetter() {}
};
class CookieGetter : public base::RefCountedThreadSafe<CookieGetter> {
public:
CookieGetter() : event_(false, false) {
}
void Get(const GURL& url) {
result_ = _Context->request_context()->cookie_store()->GetCookies(url);
event_.Signal();
}
std::string GetResult() {
if (!event_.Wait())
NOTREACHED();
return result_;
}
private:
friend class base::RefCountedThreadSafe<CookieGetter>;
~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<CefBrowserImpl> 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<net::SyncProxyServiceHelper> 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<CookieSetter> 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<CookieGetter> getter = new CookieGetter();
CefThread::PostTask(CefThread::IO, FROM_HERE, NewRunnableMethod(
getter.get(), &CookieGetter::Get, url));
return 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<base::MessageLoopProxy>
BrowserResourceLoaderBridge::GetCacheThread() {
return CefThread::GetMessageLoopProxyForThread(CefThread::FILE);
}