content/browser/loader/detachable_resource_handler.cc - platform/external/chromium_org - Git at Google

 // Copyright 2013 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.

 #include "content/browser/loader/detachable_resource_handler.h"

 #include "base/logging.h"
 #include "base/time/time.h"
 #include "content/browser/loader/resource_request_info_impl.h"
 #include "net/base/io_buffer.h"
 #include "net/base/net_errors.h"
 #include "net/url_request/url_request_status.h"

 namespace {
 // This matches the maximum allocation size of AsyncResourceHandler.
 const int kReadBufSize = 32 * 1024;
 }

 namespace content {

 DetachableResourceHandler::DetachableResourceHandler(
     net::URLRequest* request,
     base::TimeDelta cancel_delay,
     scoped_ptr<ResourceHandler> next_handler)
     : ResourceHandler(request),
       next_handler_(next_handler.Pass()),
       cancel_delay_(cancel_delay),
       is_deferred_(false),
       is_finished_(false) {
   GetRequestInfo()->set_detachable_handler(this);
 }

 DetachableResourceHandler::~DetachableResourceHandler() {
   // Cleanup back-pointer stored on the request info.
   GetRequestInfo()->set_detachable_handler(NULL);
 }

 void DetachableResourceHandler::Detach() {
   if (is_detached())
     return;

   if (!is_finished_) {
     // Simulate a cancel on the next handler before destroying it.
     net::URLRequestStatus status(net::URLRequestStatus::CANCELED,
                                  net::ERR_ABORTED);
     bool defer_ignored = false;
     next_handler_->OnResponseCompleted(status, std::string(), &defer_ignored);
     DCHECK(!defer_ignored);
     // If |next_handler_| were to defer its shutdown in OnResponseCompleted,
     // this would destroy it anyway. Fortunately, AsyncResourceHandler never
     // does this anyway, so DCHECK it. BufferedResourceHandler and RVH shutdown
     // already ignore deferred ResourceHandler shutdown, but
     // DetachableResourceHandler and the detach-on-renderer-cancel logic
     // introduces a case where this occurs when the renderer cancels a resource.
   }
   // A OnWillRead / OnReadCompleted pair may still be in progress, but
   // OnWillRead passes back a scoped_refptr, so downstream handler's buffer will
   // survive long enough to complete that read. From there, future reads will
   // drain into |read_buffer_|. (If |next_handler_| is an AsyncResourceHandler,
   // the net::IOBuffer takes a reference to the ResourceBuffer which owns the
   // shared memory.)
   next_handler_.reset();

   // Time the request out if it takes too long.
   detached_timer_.reset(new base::OneShotTimer<DetachableResourceHandler>());
   detached_timer_->Start(
       FROM_HERE, cancel_delay_, this, &DetachableResourceHandler::Cancel);

   // Resume if necessary. The request may have been deferred, say, waiting on a
   // full buffer in AsyncResourceHandler. Now that it has been detached, resume
   // and drain it.
   if (is_deferred_)
     Resume();
 }

 void DetachableResourceHandler::SetController(ResourceController* controller) {
   ResourceHandler::SetController(controller);

   // Intercept the ResourceController for downstream handlers to keep track of
   // whether the request is deferred.
   if (next_handler_)
     next_handler_->SetController(this);
 }

 bool DetachableResourceHandler::OnUploadProgress(uint64 position, uint64 size) {
   if (!next_handler_)
     return true;

   return next_handler_->OnUploadProgress(position, size);
 }

 bool DetachableResourceHandler::OnRequestRedirected(
     const net::RedirectInfo& redirect_info,
     ResourceResponse* response,
     bool* defer) {
   DCHECK(!is_deferred_);

   if (!next_handler_)
     return true;

   bool ret = next_handler_->OnRequestRedirected(
       redirect_info, response, &is_deferred_);
   *defer = is_deferred_;
   return ret;
 }

 bool DetachableResourceHandler::OnResponseStarted(ResourceResponse* response,
                                                   bool* defer) {
   DCHECK(!is_deferred_);

   if (!next_handler_)
     return true;

   bool ret =
       next_handler_->OnResponseStarted(response, &is_deferred_);
   *defer = is_deferred_;
   return ret;
 }

 bool DetachableResourceHandler::OnWillStart(const GURL& url, bool* defer) {
   DCHECK(!is_deferred_);

   if (!next_handler_)
     return true;

   bool ret = next_handler_->OnWillStart(url, &is_deferred_);
   *defer = is_deferred_;
   return ret;
 }

 bool DetachableResourceHandler::OnBeforeNetworkStart(const GURL& url,
                                                      bool* defer) {
   DCHECK(!is_deferred_);

   if (!next_handler_)
     return true;

   bool ret =
       next_handler_->OnBeforeNetworkStart(url, &is_deferred_);
   *defer = is_deferred_;
   return ret;
 }

 bool DetachableResourceHandler::OnWillRead(scoped_refptr<net::IOBuffer>* buf,
                                            int* buf_size,
                                            int min_size) {
   if (!next_handler_) {
     DCHECK_EQ(-1, min_size);
     if (!read_buffer_)
       read_buffer_ = new net::IOBuffer(kReadBufSize);
     *buf = read_buffer_;
     *buf_size = kReadBufSize;
     return true;
   }

   return next_handler_->OnWillRead(buf, buf_size, min_size);
 }

 bool DetachableResourceHandler::OnReadCompleted(int bytes_read, bool* defer) {
   DCHECK(!is_deferred_);

   if (!next_handler_)
     return true;

   bool ret =
       next_handler_->OnReadCompleted(bytes_read, &is_deferred_);
   *defer = is_deferred_;
   return ret;
 }

 void DetachableResourceHandler::OnResponseCompleted(
     const net::URLRequestStatus& status,
     const std::string& security_info,
     bool* defer) {
   // No DCHECK(!is_deferred_) as the request may have been cancelled while
   // deferred.

   if (!next_handler_)
     return;

   is_finished_ = true;

   next_handler_->OnResponseCompleted(status, security_info, &is_deferred_);
   *defer = is_deferred_;
 }

 void DetachableResourceHandler::OnDataDownloaded(int bytes_downloaded) {
   if (!next_handler_)
     return;

   next_handler_->OnDataDownloaded(bytes_downloaded);
 }

 void DetachableResourceHandler::Resume() {
   DCHECK(is_deferred_);
   is_deferred_ = false;
   controller()->Resume();
 }

 void DetachableResourceHandler::Cancel() {
   controller()->Cancel();
 }

 void DetachableResourceHandler::CancelAndIgnore() {
   controller()->CancelAndIgnore();
 }

 void DetachableResourceHandler::CancelWithError(int error_code) {
   controller()->CancelWithError(error_code);
 }

 }  // namespace content
	// Copyright 2013 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.

	#include "content/browser/loader/detachable_resource_handler.h"

	#include "base/logging.h"
	#include "base/time/time.h"
	#include "content/browser/loader/resource_request_info_impl.h"
	#include "net/base/io_buffer.h"
	#include "net/base/net_errors.h"
	#include "net/url_request/url_request_status.h"

	namespace {
	// This matches the maximum allocation size of AsyncResourceHandler.
	const int kReadBufSize = 32 * 1024;
	}

	namespace content {

	DetachableResourceHandler::DetachableResourceHandler(
	net::URLRequest* request,
	base::TimeDelta cancel_delay,
	scoped_ptr<ResourceHandler> next_handler)
	: ResourceHandler(request),
	next_handler_(next_handler.Pass()),
	cancel_delay_(cancel_delay),
	is_deferred_(false),
	is_finished_(false) {
	GetRequestInfo()->set_detachable_handler(this);
	}

	DetachableResourceHandler::~DetachableResourceHandler() {
	// Cleanup back-pointer stored on the request info.
	GetRequestInfo()->set_detachable_handler(NULL);
	}

	void DetachableResourceHandler::Detach() {
	if (is_detached())
	return;

	if (!is_finished_) {
	// Simulate a cancel on the next handler before destroying it.
	net::URLRequestStatus status(net::URLRequestStatus::CANCELED,
	net::ERR_ABORTED);
	bool defer_ignored = false;
	next_handler_->OnResponseCompleted(status, std::string(), &defer_ignored);
	DCHECK(!defer_ignored);
	// If \|next_handler_\| were to defer its shutdown in OnResponseCompleted,
	// this would destroy it anyway. Fortunately, AsyncResourceHandler never
	// does this anyway, so DCHECK it. BufferedResourceHandler and RVH shutdown
	// already ignore deferred ResourceHandler shutdown, but
	// DetachableResourceHandler and the detach-on-renderer-cancel logic
	// introduces a case where this occurs when the renderer cancels a resource.
	}
	// A OnWillRead / OnReadCompleted pair may still be in progress, but
	// OnWillRead passes back a scoped_refptr, so downstream handler's buffer will
	// survive long enough to complete that read. From there, future reads will
	// drain into \|read_buffer_\|. (If \|next_handler_\| is an AsyncResourceHandler,
	// the net::IOBuffer takes a reference to the ResourceBuffer which owns the
	// shared memory.)
	next_handler_.reset();

	// Time the request out if it takes too long.
	detached_timer_.reset(new base::OneShotTimer<DetachableResourceHandler>());
	detached_timer_->Start(
	FROM_HERE, cancel_delay_, this, &DetachableResourceHandler::Cancel);

	// Resume if necessary. The request may have been deferred, say, waiting on a
	// full buffer in AsyncResourceHandler. Now that it has been detached, resume
	// and drain it.
	if (is_deferred_)
	Resume();
	}

	void DetachableResourceHandler::SetController(ResourceController* controller) {
	ResourceHandler::SetController(controller);

	// Intercept the ResourceController for downstream handlers to keep track of
	// whether the request is deferred.
	if (next_handler_)
	next_handler_->SetController(this);
	}

	bool DetachableResourceHandler::OnUploadProgress(uint64 position, uint64 size) {
	if (!next_handler_)
	return true;

	return next_handler_->OnUploadProgress(position, size);
	}

	bool DetachableResourceHandler::OnRequestRedirected(
	const net::RedirectInfo& redirect_info,
	ResourceResponse* response,
	bool* defer) {
	DCHECK(!is_deferred_);

	if (!next_handler_)
	return true;

	bool ret = next_handler_->OnRequestRedirected(
	redirect_info, response, &is_deferred_);
	*defer = is_deferred_;
	return ret;
	}

	bool DetachableResourceHandler::OnResponseStarted(ResourceResponse* response,
	bool* defer) {
	DCHECK(!is_deferred_);

	if (!next_handler_)
	return true;

	bool ret =
	next_handler_->OnResponseStarted(response, &is_deferred_);
	*defer = is_deferred_;
	return ret;
	}

	bool DetachableResourceHandler::OnWillStart(const GURL& url, bool* defer) {
	DCHECK(!is_deferred_);

	if (!next_handler_)
	return true;

	bool ret = next_handler_->OnWillStart(url, &is_deferred_);
	*defer = is_deferred_;
	return ret;
	}

	bool DetachableResourceHandler::OnBeforeNetworkStart(const GURL& url,
	bool* defer) {
	DCHECK(!is_deferred_);

	if (!next_handler_)
	return true;

	bool ret =
	next_handler_->OnBeforeNetworkStart(url, &is_deferred_);
	*defer = is_deferred_;
	return ret;
	}

	bool DetachableResourceHandler::OnWillRead(scoped_refptr<net::IOBuffer>* buf,
	int* buf_size,
	int min_size) {
	if (!next_handler_) {
	DCHECK_EQ(-1, min_size);
	if (!read_buffer_)
	read_buffer_ = new net::IOBuffer(kReadBufSize);
	*buf = read_buffer_;
	*buf_size = kReadBufSize;
	return true;
	}

	return next_handler_->OnWillRead(buf, buf_size, min_size);
	}

	bool DetachableResourceHandler::OnReadCompleted(int bytes_read, bool* defer) {
	DCHECK(!is_deferred_);

	if (!next_handler_)
	return true;

	bool ret =
	next_handler_->OnReadCompleted(bytes_read, &is_deferred_);
	*defer = is_deferred_;
	return ret;
	}

	void DetachableResourceHandler::OnResponseCompleted(
	const net::URLRequestStatus& status,
	const std::string& security_info,
	bool* defer) {
	// No DCHECK(!is_deferred_) as the request may have been cancelled while
	// deferred.

	if (!next_handler_)
	return;

	is_finished_ = true;

	next_handler_->OnResponseCompleted(status, security_info, &is_deferred_);
	*defer = is_deferred_;
	}

	void DetachableResourceHandler::OnDataDownloaded(int bytes_downloaded) {
	if (!next_handler_)
	return;

	next_handler_->OnDataDownloaded(bytes_downloaded);
	}

	void DetachableResourceHandler::Resume() {
	DCHECK(is_deferred_);
	is_deferred_ = false;
	controller()->Resume();
	}

	void DetachableResourceHandler::Cancel() {
	controller()->Cancel();
	}

	void DetachableResourceHandler::CancelAndIgnore() {
	controller()->CancelAndIgnore();
	}

	void DetachableResourceHandler::CancelWithError(int error_code) {
	controller()->CancelWithError(error_code);
	}

	} // namespace content