// Copyright (c) 2012 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/renderer_host/async_resource_handler.h"
#include <algorithm>
#include <vector>
#include "base/debug/alias.h"
#include "base/hash_tables.h"
#include "base/logging.h"
#include "base/shared_memory.h"
#include "content/browser/debugger/devtools_netlog_observer.h"
#include "content/browser/host_zoom_map_impl.h"
#include "content/browser/renderer_host/resource_dispatcher_host_impl.h"
#include "content/browser/renderer_host/resource_message_filter.h"
#include "content/browser/resource_context_impl.h"
#include "content/common/resource_messages.h"
#include "content/common/view_messages.h"
#include "content/public/browser/global_request_id.h"
#include "content/public/browser/resource_dispatcher_host_delegate.h"
#include "content/public/browser/resource_request_info.h"
#include "content/public/common/resource_response.h"
#include "net/base/io_buffer.h"
#include "net/base/load_flags.h"
#include "net/base/net_log.h"
#include "webkit/glue/resource_loader_bridge.h"
using base::TimeTicks;
namespace content {
namespace {
// When reading, we don't know if we are going to get EOF (0 bytes read), so
// we typically have a buffer that we allocated but did not use. We keep
// this buffer around for the next read as a small optimization.
SharedIOBuffer* g_spare_read_buffer = NULL;
// The initial size of the shared memory buffer. (32 kilobytes).
const int kInitialReadBufSize = 32768;
// The maximum size of the shared memory buffer. (512 kilobytes).
const int kMaxReadBufSize = 524288;
} // namespace
// Our version of IOBuffer that uses shared memory.
class SharedIOBuffer : public net::IOBuffer {
public:
explicit SharedIOBuffer(int buffer_size)
: net::IOBuffer(),
ok_(false),
buffer_size_(buffer_size) {}
bool Init() {
if (shared_memory_.CreateAndMapAnonymous(buffer_size_)) {
data_ = reinterpret_cast<char*>(shared_memory_.memory());
DCHECK(data_);
ok_ = true;
}
return ok_;
}
base::SharedMemory* shared_memory() { return &shared_memory_; }
bool ok() { return ok_; }
int buffer_size() { return buffer_size_; }
private:
~SharedIOBuffer() {
DCHECK(g_spare_read_buffer != this);
data_ = NULL;
}
base::SharedMemory shared_memory_;
bool ok_;
int buffer_size_;
};
AsyncResourceHandler::AsyncResourceHandler(
ResourceMessageFilter* filter,
int routing_id,
const GURL& url,
ResourceDispatcherHostImpl* rdh)
: filter_(filter),
routing_id_(routing_id),
rdh_(rdh),
next_buffer_size_(kInitialReadBufSize),
url_(url) {
}
AsyncResourceHandler::~AsyncResourceHandler() {
}
bool AsyncResourceHandler::OnUploadProgress(int request_id,
uint64 position,
uint64 size) {
return filter_->Send(new ResourceMsg_UploadProgress(routing_id_, request_id,
position, size));
}
bool AsyncResourceHandler::OnRequestRedirected(
int request_id,
const GURL& new_url,
content::ResourceResponse* response,
bool* defer) {
*defer = true;
net::URLRequest* request = rdh_->GetURLRequest(
GlobalRequestID(filter_->child_id(), request_id));
if (rdh_->delegate())
rdh_->delegate()->OnRequestRedirected(request, response);
DevToolsNetLogObserver::PopulateResponseInfo(request, response);
response->request_start = request->creation_time();
response->response_start = TimeTicks::Now();
return filter_->Send(new ResourceMsg_ReceivedRedirect(
routing_id_, request_id, new_url, *response));
}
bool AsyncResourceHandler::OnResponseStarted(
int request_id,
content::ResourceResponse* response) {
// For changes to the main frame, inform the renderer of the new URL's
// per-host settings before the request actually commits. This way the
// renderer will be able to set these precisely at the time the
// request commits, avoiding the possibility of e.g. zooming the old content
// or of having to layout the new content twice.
net::URLRequest* request = rdh_->GetURLRequest(
GlobalRequestID(filter_->child_id(), request_id));
if (rdh_->delegate())
rdh_->delegate()->OnResponseStarted(request, response, filter_);
DevToolsNetLogObserver::PopulateResponseInfo(request, response);
content::ResourceContext* resource_context = filter_->resource_context();
content::HostZoomMap* host_zoom_map =
content::GetHostZoomMapForResourceContext(resource_context);
const ResourceRequestInfo* info = ResourceRequestInfo::ForRequest(request);
if (info->GetResourceType() == ResourceType::MAIN_FRAME && host_zoom_map) {
GURL request_url(request->url());
filter_->Send(new ViewMsg_SetZoomLevelForLoadingURL(
info->GetRouteID(),
request_url, host_zoom_map->GetZoomLevel(net::GetHostOrSpecFromURL(
request_url))));
}
response->request_start = request->creation_time();
response->response_start = TimeTicks::Now();
filter_->Send(new ResourceMsg_ReceivedResponse(
routing_id_, request_id, *response));
if (request->response_info().metadata) {
std::vector<char> copy(request->response_info().metadata->data(),
request->response_info().metadata->data() +
request->response_info().metadata->size());
filter_->Send(new ResourceMsg_ReceivedCachedMetadata(
routing_id_, request_id, copy));
}
return true;
}
bool AsyncResourceHandler::OnWillStart(int request_id,
const GURL& url,
bool* defer) {
return true;
}
bool AsyncResourceHandler::OnWillRead(int request_id, net::IOBuffer** buf,
int* buf_size, int min_size) {
DCHECK_EQ(-1, min_size);
if (g_spare_read_buffer) {
DCHECK(!read_buffer_);
read_buffer_.swap(&g_spare_read_buffer);
DCHECK(read_buffer_->data());
*buf = read_buffer_.get();
*buf_size = read_buffer_->buffer_size();
} else {
read_buffer_ = new SharedIOBuffer(next_buffer_size_);
if (!read_buffer_->Init()) {
DLOG(ERROR) << "Couldn't allocate shared io buffer";
read_buffer_ = NULL;
return false;
}
DCHECK(read_buffer_->data());
*buf = read_buffer_.get();
*buf_size = next_buffer_size_;
}
return true;
}
bool AsyncResourceHandler::OnReadCompleted(int request_id, int* bytes_read) {
if (!*bytes_read)
return true;
DCHECK(read_buffer_.get());
if (read_buffer_->buffer_size() == *bytes_read) {
// The network layer has saturated our buffer. Next time, we should give it
// a bigger buffer for it to fill, to minimize the number of round trips we
// do with the renderer process.
next_buffer_size_ = std::min(next_buffer_size_ * 2, kMaxReadBufSize);
}
if (!rdh_->WillSendData(filter_->child_id(), request_id)) {
// We should not send this data now, we have too many pending requests.
return true;
}
base::SharedMemoryHandle handle;
if (!read_buffer_->shared_memory()->GiveToProcess(
filter_->peer_handle(), &handle)) {
// We wrongfully incremented the pending data count. Fake an ACK message
// to fix this. We can't move this call above the WillSendData because
// it's killing our read_buffer_, and we don't want that when we pause
// the request.
rdh_->DataReceivedACK(filter_->child_id(), request_id);
// We just unmapped the memory.
read_buffer_ = NULL;
return false;
}
// We just unmapped the memory.
read_buffer_ = NULL;
net::URLRequest* request = rdh_->GetURLRequest(
GlobalRequestID(filter_->child_id(), request_id));
int encoded_data_length =
DevToolsNetLogObserver::GetAndResetEncodedDataLength(request);
filter_->Send(new ResourceMsg_DataReceived(
routing_id_, request_id, handle, *bytes_read, encoded_data_length));
return true;
}
void AsyncResourceHandler::OnDataDownloaded(
int request_id, int bytes_downloaded) {
filter_->Send(new ResourceMsg_DataDownloaded(
routing_id_, request_id, bytes_downloaded));
}
bool AsyncResourceHandler::OnResponseCompleted(
int request_id,
const net::URLRequestStatus& status,
const std::string& security_info) {
// If we crash here, figure out what URL the renderer was requesting.
// http://crbug.com/107692
char url_buf[128];
base::strlcpy(url_buf, url_.spec().c_str(), arraysize(url_buf));
base::debug::Alias(url_buf);
TimeTicks completion_time = TimeTicks::Now();
filter_->Send(new ResourceMsg_RequestComplete(routing_id_,
request_id,
status,
security_info,
completion_time));
// If we still have a read buffer, then see about caching it for later...
// Note that we have to make sure the buffer is not still being used, so we
// have to perform an explicit check on the status code.
if (g_spare_read_buffer ||
net::URLRequestStatus::SUCCESS != status.status()) {
read_buffer_ = NULL;
} else if (read_buffer_.get()) {
DCHECK(read_buffer_->data());
read_buffer_.swap(&g_spare_read_buffer);
}
return true;
}
void AsyncResourceHandler::OnRequestClosed() {
}
// static
void AsyncResourceHandler::GlobalCleanup() {
if (g_spare_read_buffer) {
// Avoid the CHECK in SharedIOBuffer::~SharedIOBuffer().
SharedIOBuffer* tmp = g_spare_read_buffer;
g_spare_read_buffer = NULL;
tmp->Release();
}
}
} // namespace content