408 lines
11 KiB
C++
408 lines
11 KiB
C++
// Copyright (c) 2009 The Chromium Embedded Framework Authors.
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// Portions copyright (c) 2006-2009 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#include "base/lazy_instance.h"
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#include "base/logging.h"
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#include "base/message_loop.h"
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#include "base/string_util.h"
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#include "base/worker_pool.h"
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#include "net/base/completion_callback.h"
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#include "net/base/io_buffer.h"
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#include "net/base/upload_data.h"
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#include "net/http/http_util.h"
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#include "net/url_request/url_request.h"
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#include "net/url_request/url_request_filter.h"
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#include "net/url_request/url_request_job.h"
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#include "include/cef.h"
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#include "tracker.h"
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#include "context.h"
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#include "request_impl.h"
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#include <map>
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// Memory manager.
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base::LazyInstance<CefTrackManager> g_scheme_tracker(base::LINKER_INITIALIZED);
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class TrackBase : public CefTrackObject
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{
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public:
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TrackBase(CefBase* base) { base_ = base; }
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protected:
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CefRefPtr<CefBase> base_;
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};
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static void TrackAdd(CefTrackObject* object)
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{
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g_scheme_tracker.Pointer()->Add(object);
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}
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static void TrackDelete(CefTrackObject* object)
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{
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g_scheme_tracker.Pointer()->Delete(object);
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}
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// URLRequestJob implementation.
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class CefUrlRequestJob : public URLRequestJob {
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public:
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CefUrlRequestJob(URLRequest* request, CefRefPtr<CefSchemeHandler> handler)
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: URLRequestJob(request),
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url_(request->url()),
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handler_(handler),
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response_length_(0),
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remaining_bytes_(0) { }
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virtual ~CefUrlRequestJob(){}
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virtual void Start()
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{
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handler_->Cancel();
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// Continue asynchronously.
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DCHECK(!async_resolver_);
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async_resolver_ = new AsyncResolver(this);
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WorkerPool::PostTask(FROM_HERE, NewRunnableMethod(
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async_resolver_.get(), &AsyncResolver::Resolve, url_), true);
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return;
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}
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virtual void Kill()
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{
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if (async_resolver_) {
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async_resolver_->Cancel();
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async_resolver_ = NULL;
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}
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URLRequestJob::Kill();
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}
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virtual bool ReadRawData(net::IOBuffer* dest, int dest_size, int *bytes_read)
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{
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DCHECK_NE(dest_size, 0);
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DCHECK(bytes_read);
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// When remaining_bytes_>=0, it means the handler knows the content size
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// before hand. We continue to read until
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if (remaining_bytes_>=0) {
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if (remaining_bytes_ < dest_size)
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dest_size = static_cast<int>(remaining_bytes_);
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// If we should copy zero bytes because |remaining_bytes_| is zero, short
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// circuit here.
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if (!dest_size) {
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*bytes_read = 0;
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return true;
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}
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// remaining_bytes > 0
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bool rv = handler_->ReadResponse(dest->data(), dest_size, bytes_read);
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remaining_bytes_ -= *bytes_read;
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if (!rv) {
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// handler indicated no further data to read
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*bytes_read = 0;
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}
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return true;
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} else {
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// The handler returns -1 for GetResponseLength, this means the handler
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// doesn't know the content size before hand. We do basically the same
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// thing, except for checking the return value for handler_->ReadResponse,
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// which is an indicator for no further data to be read.
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bool rv = handler_->ReadResponse(dest->data(), dest_size, bytes_read);
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if (!rv)
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// handler indicated no further data to read
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*bytes_read = 0;
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return true;
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}
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}
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virtual bool IsRedirectResponse(GURL* location, int* http_status_code)
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{
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return false;
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}
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virtual bool GetContentEncodings(
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std::vector<Filter::FilterType>* encoding_types)
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{
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DCHECK(encoding_types->empty());
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return !encoding_types->empty();
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}
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virtual bool GetMimeType(std::string* mime_type) const
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{
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DCHECK(request_);
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// call handler to get mime type
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*mime_type = mime_type_;
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return true;
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}
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virtual void SetExtraRequestHeaders(const std::string& headers)
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{
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}
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CefRefPtr<CefSchemeHandler> handler_;
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std::string mime_type_;
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int response_length_;
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protected:
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GURL url_;
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private:
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void DidResolve(const GURL& url)
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{
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async_resolver_ = NULL;
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// We may have been orphaned...
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if (!request_)
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return;
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remaining_bytes_ = response_length_;
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if (remaining_bytes_>0)
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set_expected_content_size(remaining_bytes_);
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NotifyHeadersComplete();
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}
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int64 remaining_bytes_;
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std::string m_response;
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class AsyncResolver :
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public base::RefCountedThreadSafe<AsyncResolver> {
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public:
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explicit AsyncResolver(CefUrlRequestJob* owner)
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: owner_(owner), owner_loop_(MessageLoop::current()) {
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}
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void Resolve(const GURL& url) {
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AutoLock locked(lock_);
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//////////////////////////////////////////////////////////////////////////
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// safe to perform long operation here
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CefRefPtr<CefRequest> req(CefRequest::CreateRequest());
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// populate the request data
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static_cast<CefRequestImpl*>(req.get())->Set(owner_->request());
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owner_->handler_->Cancel();
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std::wstring mime_type;
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int response_length = 0;
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// handler should complete content generation in ProcessRequest
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bool res = owner_->handler_->ProcessRequest(req, mime_type,
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&response_length);
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if (res) {
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owner_->mime_type_ = WideToUTF8(mime_type);
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owner_->response_length_ = response_length;
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}
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//////////////////////////////////////////////////////////////////////////
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if (owner_loop_) {
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owner_loop_->PostTask(FROM_HERE, NewRunnableMethod(
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this, &AsyncResolver::ReturnResults, url));
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}
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}
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void Cancel() {
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owner_->handler_->Cancel();
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owner_ = NULL;
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AutoLock locked(lock_);
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owner_loop_ = NULL;
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}
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private:
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void ReturnResults(const GURL& url) {
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if (owner_)
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owner_->DidResolve(url);
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}
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CefUrlRequestJob* owner_;
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Lock lock_;
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MessageLoop* owner_loop_;
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};
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friend class AsyncResolver;
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scoped_refptr<AsyncResolver> async_resolver_;
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DISALLOW_COPY_AND_ASSIGN(CefUrlRequestJob);
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};
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// URLRequestFilter clone that manages the CefSchemeHandlerFactory pointers.
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class CefUrlRequestFilter {
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public:
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// scheme,hostname -> ProtocolFactory
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typedef std::map<std::pair<std::string, std::string>,
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CefSchemeHandlerFactory*> HandlerMap;
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// Singleton instance for use.
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static CefUrlRequestFilter* GetInstance()
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{
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if (!shared_instance_)
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shared_instance_ = new CefUrlRequestFilter;
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return shared_instance_;
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}
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static URLRequestJob* Factory(URLRequest* request,
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const std::string& scheme)
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{
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// Returning null here just means that the built-in handler will be used.
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return GetInstance()->FindRequestHandler(request, scheme);
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}
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void AddHostnameHandler(const std::string& scheme,
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const std::string& hostname,
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CefSchemeHandlerFactory* factory)
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{
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handler_map_[make_pair(scheme, hostname)] = factory;
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// Register with the ProtocolFactory.
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URLRequest::RegisterProtocolFactory(scheme,
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&CefUrlRequestFilter::Factory);
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}
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void RemoveHostnameHandler(const std::string& scheme,
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const std::string& hostname)
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{
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HandlerMap::iterator iter =
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handler_map_.find(make_pair(scheme, hostname));
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DCHECK(iter != handler_map_.end());
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handler_map_.erase(iter);
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}
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// Clear all the existing URL handlers and unregister with the
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// ProtocolFactory. Resets the hit count.
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void ClearHandlers()
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{
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// Unregister with the ProtocolFactory.
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std::set<std::string> schemes;
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for (HandlerMap::const_iterator i = handler_map_.begin();
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i != handler_map_.end(); ++i) {
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schemes.insert(i->first.first);
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}
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for (std::set<std::string>::const_iterator scheme = schemes.begin();
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scheme != schemes.end(); ++scheme) {
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URLRequest::RegisterProtocolFactory(*scheme, NULL);
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}
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handler_map_.clear();
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hit_count_ = 0;
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}
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CefSchemeHandlerFactory* FindRequestHandlerFactory(URLRequest* request,
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const std::string& scheme)
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{
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CefSchemeHandlerFactory* factory = NULL;
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if (request->url().is_valid()) {
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// Check for a map with a hostname first.
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const std::string& hostname = request->url().host();
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HandlerMap::iterator i = handler_map_.find(make_pair(scheme, hostname));
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if (i != handler_map_.end())
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factory = i->second;
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}
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if (!factory) {
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// Check for a map with no specified hostname.
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HandlerMap::iterator i =
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handler_map_.find(make_pair(scheme, std::string()));
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if (i != handler_map_.end())
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factory = i->second;
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}
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return factory;
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}
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// Returns the number of times a handler was used to service a request.
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int hit_count() const { return hit_count_; }
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protected:
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CefUrlRequestFilter() : hit_count_(0) { }
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// Helper method that looks up the request in the handler_map_.
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URLRequestJob* FindRequestHandler(URLRequest* request,
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const std::string& scheme)
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{
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URLRequestJob* job = NULL;
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CefSchemeHandlerFactory* factory =
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FindRequestHandlerFactory(request, scheme);
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if (factory) {
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CefRefPtr<CefSchemeHandler> handler = factory->Create();
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if (handler.get())
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job = new CefUrlRequestJob(request, handler);
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}
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if (job) {
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DLOG(INFO) << "URLRequestFilter hit for " << request->url().spec();
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hit_count_++;
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}
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return job;
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}
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// Maps hostnames to factories. Hostnames take priority over URLs.
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HandlerMap handler_map_;
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int hit_count_;
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private:
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// Singleton instance.
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static CefUrlRequestFilter* shared_instance_;
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DISALLOW_EVIL_CONSTRUCTORS(CefUrlRequestFilter);
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};
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CefUrlRequestFilter* CefUrlRequestFilter::shared_instance_ = NULL;
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class SchemeRequestJobWrapper {
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public:
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SchemeRequestJobWrapper(const std::string& scheme_name,
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const std::string& host_name,
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CefSchemeHandlerFactory* factory)
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: factory_(factory), scheme_name_(scheme_name), host_name_(host_name)
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{
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// The reference will be released when the application exits.
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TrackAdd(new TrackBase(factory));
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}
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void RegisterScheme()
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{
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// we need to store the pointer of this handler because
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// we can't pass it as a parameter to the factory method
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CefUrlRequestFilter::GetInstance()->AddHostnameHandler(
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scheme_name_, host_name_, factory_);
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}
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void AddRef() {}
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void Release() { delete this; }
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static bool ImplementsThreadSafeReferenceCounting() { return true; }
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private:
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CefSchemeHandlerFactory* factory_;
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std::string scheme_name_;
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std::string host_name_;
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};
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bool CefRegisterScheme(const std::wstring& scheme_name,
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const std::wstring& host_name,
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CefRefPtr<CefSchemeHandlerFactory> factory)
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{
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// Verify that the context is already initialized
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if(!_Context.get())
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return false;
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SchemeRequestJobWrapper* wrapper = new SchemeRequestJobWrapper(
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WideToUTF8(scheme_name), WideToUTF8(host_name), factory);
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PostTask(FROM_HERE, NewRunnableMethod(wrapper,
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&SchemeRequestJobWrapper::RegisterScheme));
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return true;
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}
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