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url_request_automation_job.cc

// Copyright (c) 2010 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 "chrome/browser/automation/url_request_automation_job.h"

#include "base/message_loop.h"
#include "base/time.h"
#include "chrome/browser/automation/automation_resource_message_filter.h"
#include "chrome/browser/chrome_thread.h"
#include "chrome/browser/renderer_host/render_view_host.h"
#include "chrome/browser/renderer_host/resource_dispatcher_host.h"
#include "chrome/browser/renderer_host/resource_dispatcher_host_request_info.h"
#include "chrome/test/automation/automation_messages.h"
#include "net/base/cookie_monster.h"
#include "net/base/io_buffer.h"
#include "net/base/net_errors.h"
#include "net/http/http_util.h"
#include "net/url_request/url_request_context.h"

using base::Time;
using base::TimeDelta;

// The list of filtered headers that are removed from requests sent via
// StartAsync(). These must be lower case.
static const char* kFilteredHeaderStrings[] = {
  "accept",
  "cache-control",
  "connection",
  "cookie",
  "expect",
  "if-match",
  "if-modified-since",
  "if-none-match",
  "if-range",
  "if-unmodified-since",
  "max-forwards",
  "proxy-authorization",
  "te",
  "upgrade",
  "via"
};

int URLRequestAutomationJob::instance_count_ = 0;
bool URLRequestAutomationJob::is_protocol_factory_registered_ = false;

URLRequest::ProtocolFactory* URLRequestAutomationJob::old_http_factory_
    = NULL;
URLRequest::ProtocolFactory* URLRequestAutomationJob::old_https_factory_
    = NULL;

URLRequestAutomationJob::URLRequestAutomationJob(URLRequest* request, int tab,
    int request_id, AutomationResourceMessageFilter* filter, bool is_pending)
    : URLRequestJob(request),
      tab_(tab),
      message_filter_(filter),
      pending_buf_size_(0),
      redirect_status_(0),
      request_id_(request_id),
      is_pending_(is_pending) {
  DLOG(INFO) << "URLRequestAutomationJob create. Count: " << ++instance_count_;
  DCHECK(message_filter_ != NULL);

  if (message_filter_) {
    id_ = message_filter_->NewAutomationRequestId();
    DCHECK_NE(id_, 0);
  }
}

URLRequestAutomationJob::~URLRequestAutomationJob() {
  DLOG(INFO) << "URLRequestAutomationJob delete. Count: " << --instance_count_;
  Cleanup();
}

bool URLRequestAutomationJob::EnsureProtocolFactoryRegistered() {
  DCHECK(ChromeThread::CurrentlyOn(ChromeThread::IO));

  if (!is_protocol_factory_registered_) {
    old_http_factory_ =
        URLRequest::RegisterProtocolFactory("http",
                                            &URLRequestAutomationJob::Factory);
    old_https_factory_ =
        URLRequest::RegisterProtocolFactory("https",
                                            &URLRequestAutomationJob::Factory);
    is_protocol_factory_registered_ = true;
  }

  return true;
}

URLRequestJob* URLRequestAutomationJob::Factory(URLRequest* request,
                                                const std::string& scheme) {
  bool scheme_is_http = request->url().SchemeIs("http");
  bool scheme_is_https = request->url().SchemeIs("https");

  // Returning null here just means that the built-in handler will be used.
  if (scheme_is_http || scheme_is_https) {
    ResourceDispatcherHostRequestInfo* request_info =
        ResourceDispatcherHost::InfoForRequest(request);
    if (request_info) {
      int child_id = request_info->child_id();
      int route_id = request_info->route_id();

      if (request_info->process_type() == ChildProcessInfo::PLUGIN_PROCESS) {
        child_id = request_info->host_renderer_id();
        route_id = request_info->host_render_view_id();
      }

      AutomationResourceMessageFilter::AutomationDetails details;
      if (AutomationResourceMessageFilter::LookupRegisteredRenderView(
              child_id, route_id, &details)) {
        URLRequestAutomationJob* job = new URLRequestAutomationJob(request,
            details.tab_handle, request_info->request_id(), details.filter,
            details.is_pending_render_view);
        return job;
      }
    }

    if (scheme_is_http && old_http_factory_)
      return old_http_factory_(request, scheme);
    else if (scheme_is_https && old_https_factory_)
      return old_https_factory_(request, scheme);
  }
  return NULL;
}

// URLRequestJob Implementation.
void URLRequestAutomationJob::Start() {
  if (!is_pending()) {
    // Start reading asynchronously so that all error reporting and data
    // callbacks happen as they would for network requests.
    MessageLoop::current()->PostTask(FROM_HERE, NewRunnableMethod(
        this, &URLRequestAutomationJob::StartAsync));
  } else {
    // If this is a pending job, then register it immediately with the message
    // filter so it can be serviced later when we receive a request from the
    // external host to connect to the corresponding external tab.
    message_filter_->RegisterRequest(this);
  }
}

void URLRequestAutomationJob::Kill() {
  if (message_filter_.get()) {
    if (!is_pending()) {
      message_filter_->Send(new AutomationMsg_RequestEnd(0, tab_, id_,
          URLRequestStatus(URLRequestStatus::CANCELED, net::ERR_ABORTED)));
    }
  }
  DisconnectFromMessageFilter();
  URLRequestJob::Kill();
}

bool URLRequestAutomationJob::ReadRawData(
    net::IOBuffer* buf, int buf_size, int* bytes_read) {
  DLOG(INFO) << "URLRequestAutomationJob: " <<
      request_->url().spec() << " - read pending: " << buf_size;

  // We should not receive a read request for a pending job.
  DCHECK(!is_pending());

  pending_buf_ = buf;
  pending_buf_size_ = buf_size;

  if (message_filter_) {
    message_filter_->Send(new AutomationMsg_RequestRead(0, tab_, id_,
        buf_size));
    SetStatus(URLRequestStatus(URLRequestStatus::IO_PENDING, 0));
  } else {
    ChromeThread::PostTask(ChromeThread::IO, FROM_HERE,
        NewRunnableMethod(this,
                          &URLRequestAutomationJob::NotifyJobCompletionTask));
  }
  return false;
}

bool URLRequestAutomationJob::GetMimeType(std::string* mime_type) const {
  if (!mime_type_.empty()) {
    *mime_type = mime_type_;
  } else if (headers_) {
    headers_->GetMimeType(mime_type);
  }

  return (!mime_type->empty());
}

bool URLRequestAutomationJob::GetCharset(std::string* charset) {
  if (headers_)
    return headers_->GetCharset(charset);
  return false;
}

void URLRequestAutomationJob::GetResponseInfo(net::HttpResponseInfo* info) {
  if (headers_)
    info->headers = headers_;
  if (request_->url().SchemeIsSecure()) {
    // Make up a fake certificate for this response since we don't have
    // access to the real SSL info.
    const char* kCertIssuer = "Chrome Internal";
    const int kLifetimeDays = 100;

    info->ssl_info.cert =
        new net::X509Certificate(request_->url().GetWithEmptyPath().spec(),
                                 kCertIssuer,
                                 Time::Now(),
                                 Time::Now() +
                                     TimeDelta::FromDays(kLifetimeDays));
    info->ssl_info.cert_status = 0;
    info->ssl_info.security_bits = 0;
  }
}

int URLRequestAutomationJob::GetResponseCode() const {
  if (headers_)
    return headers_->response_code();

  static const int kDefaultResponseCode = 200;
  return kDefaultResponseCode;
}

bool URLRequestAutomationJob::IsRedirectResponse(
    GURL* location, int* http_status_code) {
  if (!net::HttpResponseHeaders::IsRedirectResponseCode(redirect_status_))
    return false;

  *http_status_code = redirect_status_;
  *location = GURL(redirect_url_);
  return true;
}

bool URLRequestAutomationJob::MayFilterMessage(const IPC::Message& message,
                                               int* request_id) {
  switch (message.type()) {
    case AutomationMsg_RequestStarted::ID:
    case AutomationMsg_RequestData::ID:
    case AutomationMsg_RequestEnd::ID: {
      void* iter = NULL;
      int tab = 0;
      if (message.ReadInt(&iter, &tab) &&
          message.ReadInt(&iter, request_id)) {
        return true;
      }
      break;
    }
  }

  return false;
}

void URLRequestAutomationJob::OnMessage(const IPC::Message& message) {
  if (!request_) {
    NOTREACHED() << __FUNCTION__
                 << ": Unexpected request received for job:"
                 << id();
    return;
  }

  IPC_BEGIN_MESSAGE_MAP(URLRequestAutomationJob, message)
    IPC_MESSAGE_HANDLER(AutomationMsg_RequestStarted, OnRequestStarted)
    IPC_MESSAGE_HANDLER(AutomationMsg_RequestData, OnDataAvailable)
    IPC_MESSAGE_HANDLER(AutomationMsg_RequestEnd, OnRequestEnd)
  IPC_END_MESSAGE_MAP()
}

void URLRequestAutomationJob::OnRequestStarted(int tab, int id,
    const IPC::AutomationURLResponse& response) {
  DLOG(INFO) << "URLRequestAutomationJob: " <<
      request_->url().spec() << " - response started.";
  set_expected_content_size(response.content_length);
  mime_type_ = response.mime_type;

  redirect_url_ = response.redirect_url;
  redirect_status_ = response.redirect_status;
  DCHECK(redirect_status_ == 0 || redirect_status_ == 200 ||
         (redirect_status_ >= 300 && redirect_status_ < 400));

  if (!response.headers.empty()) {
    headers_ = new net::HttpResponseHeaders(
        net::HttpUtil::AssembleRawHeaders(response.headers.data(),
                                          response.headers.size()));
  }
  NotifyHeadersComplete();
}

void URLRequestAutomationJob::OnDataAvailable(
    int tab, int id, const std::string& bytes) {
  DLOG(INFO) << "URLRequestAutomationJob: " <<
      request_->url().spec() << " - data available, Size: " << bytes.size();
  DCHECK(!bytes.empty());

  // The request completed, and we have all the data.
  // Clear any IO pending status.
  SetStatus(URLRequestStatus());

  if (pending_buf_ && pending_buf_->data()) {
    DCHECK_GE(pending_buf_size_, bytes.size());
    const int bytes_to_copy = std::min(bytes.size(), pending_buf_size_);
    memcpy(pending_buf_->data(), &bytes[0], bytes_to_copy);

    pending_buf_ = NULL;
    pending_buf_size_ = 0;

    NotifyReadComplete(bytes_to_copy);
  } else {
    NOTREACHED() << "Received unexpected data of length:" << bytes.size();
  }
}

void URLRequestAutomationJob::OnRequestEnd(
    int tab, int id, const URLRequestStatus& status) {
#ifndef NDEBUG
  std::string url;
  if (request_)
    url = request_->url().spec();
  DLOG(INFO) << "URLRequestAutomationJob: "
      << url << " - request end. Status: " << status.status();
#endif

  // TODO(tommi): When we hit certificate errors, notify the delegate via
  // OnSSLCertificateError().  Right now we don't have the certificate
  // so we don't.  We could possibly call OnSSLCertificateError with a NULL
  // certificate, but I'm not sure if all implementations expect it.
  // if (status.status() == URLRequestStatus::FAILED &&
  //    net::IsCertificateError(status.os_error()) && request_->delegate()) {
  //  request_->delegate()->OnSSLCertificateError(request_, status.os_error());
  // }

  DisconnectFromMessageFilter();
  // NotifyDone may have been called on the job if the original request was
  // redirected.
  if (!is_done()) {
    // We can complete the job if we have a valid response or a pending read.
    // An end request can be received in the following cases
    // 1. We failed to connect to the server, in which case we did not receive
    //    a valid response.
    // 2. In response to a read request.
    if (!has_response_started() || pending_buf_) {
      NotifyDone(status);
    } else {
      // Wait for the http stack to issue a Read request where we will notify
      // that the job has completed.
      request_status_ = status;
      return;
    }
  }

  // Reset any pending reads.
  if (pending_buf_) {
    pending_buf_ = NULL;
    pending_buf_size_ = 0;
    NotifyReadComplete(0);
  }
}

void URLRequestAutomationJob::Cleanup() {
  headers_ = NULL;
  mime_type_.erase();

  id_ = 0;
  tab_ = 0;

  DCHECK(message_filter_ == NULL);
  DisconnectFromMessageFilter();

  pending_buf_ = NULL;
  pending_buf_size_ = 0;
}

void URLRequestAutomationJob::StartAsync() {
  DLOG(INFO) << "URLRequestAutomationJob: start request: " <<
      (request_ ? request_->url().spec() : "NULL request");

  // If the job is cancelled before we got a chance to start it
  // we have nothing much to do here.
  if (is_done())
    return;

  // We should not receive a Start request for a pending job.
  DCHECK(!is_pending());

  if (!request_) {
    NotifyStartError(URLRequestStatus(URLRequestStatus::FAILED,
        net::ERR_FAILED));
    return;
  }

  // Register this request with automation message filter.
  message_filter_->RegisterRequest(this);

  // Strip unwanted headers.
  std::string new_request_headers(
      net::HttpUtil::StripHeaders(request_->extra_request_headers(),
                                  kFilteredHeaderStrings,
                                  arraysize(kFilteredHeaderStrings)));

  if (request_->context()) {
    // Only add default Accept-Language and Accept-Charset if the request
    // didn't have them specified.
    net::HttpUtil::AppendHeaderIfMissing(
        "Accept-Language", request_->context()->accept_language(),
        &new_request_headers);
    net::HttpUtil::AppendHeaderIfMissing(
        "Accept-Charset", request_->context()->accept_charset(),
        &new_request_headers);
  }

  // Ensure that we do not send username and password fields in the referrer.
  GURL referrer(request_->GetSanitizedReferrer());

  // The referrer header must be suppressed if the preceding URL was
  // a secure one and the new one is not.
  if (referrer.SchemeIsSecure() && !request_->url().SchemeIsSecure()) {
    DLOG(INFO) <<
        "Suppressing referrer header since going from secure to non-secure";
    referrer = GURL();
  }

  // Ask automation to start this request.
  IPC::AutomationURLRequest automation_request = {
    request_->url().spec(),
    request_->method(),
    referrer.spec(),
    new_request_headers,
    request_->get_upload()
  };

  DCHECK(message_filter_);
  message_filter_->Send(new AutomationMsg_RequestStart(0, tab_, id_,
      automation_request));
}

void URLRequestAutomationJob::DisconnectFromMessageFilter() {
  if (message_filter_) {
    message_filter_->UnRegisterRequest(this);
    message_filter_ = NULL;
  }
}

void URLRequestAutomationJob::StartPendingJob(
    int new_tab_handle,
    AutomationResourceMessageFilter* new_filter) {
  DCHECK(new_filter != NULL);
  tab_ = new_tab_handle;
  message_filter_ = new_filter;
  is_pending_ = false;
  Start();
}

void URLRequestAutomationJob::NotifyJobCompletionTask() {
  if (!is_done()) {
    NotifyDone(request_status_);
  }
  // Reset any pending reads.
  if (pending_buf_) {
    pending_buf_ = NULL;
    pending_buf_size_ = 0;
    NotifyReadComplete(0);
  }
}

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