net/url_request/url_request.cc - platform/external/chromium - Git at Google

 // Copyright (c) 2011 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 "net/url_request/url_request.h"

 #include "base/compiler_specific.h"
 #include "base/memory/singleton.h"
 #include "base/message_loop.h"
 #include "base/metrics/stats_counters.h"
 #include "base/synchronization/lock.h"
 #include "net/base/host_port_pair.h"
 #include "net/base/load_flags.h"
 #include "net/base/net_errors.h"
 #include "net/base/net_log.h"
 #include "net/base/network_delegate.h"
 #include "net/base/ssl_cert_request_info.h"
 #include "net/base/upload_data.h"
 #include "net/http/http_response_headers.h"
 #include "net/http/http_util.h"
 #include "net/url_request/url_request_context.h"
 #include "net/url_request/url_request_error_job.h"
 #include "net/url_request/url_request_job.h"
 #include "net/url_request/url_request_job_manager.h"
 #include "net/url_request/url_request_netlog_params.h"
 #include "net/url_request/url_request_redirect_job.h"

 using base::Time;
 using std::string;

 namespace net {

 namespace {

 // Max number of http redirects to follow.  Same number as gecko.
 const int kMaxRedirects = 20;

 // Discard headers which have meaning in POST (Content-Length, Content-Type,
 // Origin).
 void StripPostSpecificHeaders(HttpRequestHeaders* headers) {
   // These are headers that may be attached to a POST.
   headers->RemoveHeader(HttpRequestHeaders::kContentLength);
   headers->RemoveHeader(HttpRequestHeaders::kContentType);
   headers->RemoveHeader(HttpRequestHeaders::kOrigin);
 }

 // This counter keeps track of the identifiers used for URL requests so far.
 // 0 is reserved to represent an invalid ID.
 uint64 g_next_url_request_identifier = 1;

 // This lock protects g_next_url_request_identifier.
 base::Lock g_next_url_request_identifier_lock;

 // Returns an prior unused identifier for URL requests.
 uint64 GenerateURLRequestIdentifier() {
   base::AutoLock lock(g_next_url_request_identifier_lock);
   return g_next_url_request_identifier++;
 }

 }  // namespace

 ///////////////////////////////////////////////////////////////////////////////
 // URLRequest::Interceptor

 URLRequestJob* URLRequest::Interceptor::MaybeInterceptRedirect(
     URLRequest* request,
     const GURL& location) {
   return NULL;
 }

 URLRequestJob* URLRequest::Interceptor::MaybeInterceptResponse(
     URLRequest* request) {
   return NULL;
 }

 ///////////////////////////////////////////////////////////////////////////////
 // URLRequest::Delegate

 void URLRequest::Delegate::OnReceivedRedirect(URLRequest* request,
                                               const GURL& new_url,
                                               bool* defer_redirect) {
 }

 void URLRequest::Delegate::OnAuthRequired(URLRequest* request,
                                           AuthChallengeInfo* auth_info) {
   request->CancelAuth();
 }

 void URLRequest::Delegate::OnCertificateRequested(
     URLRequest* request,
     SSLCertRequestInfo* cert_request_info) {
   request->ContinueWithCertificate(NULL);
 }

 void URLRequest::Delegate::OnSSLCertificateError(URLRequest* request,
                                                  int cert_error,
                                                  X509Certificate* cert) {
   request->Cancel();
 }

 void URLRequest::Delegate::OnGetCookies(URLRequest* request,
                                         bool blocked_by_policy) {
 }

 void URLRequest::Delegate::OnSetCookie(URLRequest* request,
                                        const std::string& cookie_line,
                                        const CookieOptions& options,
                                        bool blocked_by_policy) {
 }

 ///////////////////////////////////////////////////////////////////////////////
 // URLRequest

 URLRequest::URLRequest(const GURL& url, Delegate* delegate)
     : url_chain_(1, url),
       method_("GET"),
       load_flags_(LOAD_NORMAL),
       delegate_(delegate),
       is_pending_(false),
       redirect_limit_(kMaxRedirects),
       final_upload_progress_(0),
       priority_(LOWEST),
       identifier_(GenerateURLRequestIdentifier()),
       ALLOW_THIS_IN_INITIALIZER_LIST(
           before_request_callback_(this, &URLRequest::BeforeRequestComplete)) {
   SIMPLE_STATS_COUNTER("URLRequestCount");

   // Sanity check out environment.
   DCHECK(MessageLoop::current()) <<
       "The current MessageLoop must exist";
   DCHECK_EQ(MessageLoop::TYPE_IO, MessageLoop::current()->type()) <<
       "The current MessageLoop must be TYPE_IO";
 }

 URLRequest::~URLRequest() {
   if (context_ && context_->network_delegate())
     context_->network_delegate()->NotifyURLRequestDestroyed(this);

   Cancel();

   if (job_)
     OrphanJob();

   set_context(NULL);
 }

 // static
 URLRequest::ProtocolFactory* URLRequest::RegisterProtocolFactory(
     const string& scheme, ProtocolFactory* factory) {
   return URLRequestJobManager::GetInstance()->RegisterProtocolFactory(scheme,
                                                                       factory);
 }

 // static
 void URLRequest::RegisterRequestInterceptor(Interceptor* interceptor) {
   URLRequestJobManager::GetInstance()->RegisterRequestInterceptor(interceptor);
 }

 // static
 void URLRequest::UnregisterRequestInterceptor(Interceptor* interceptor) {
   URLRequestJobManager::GetInstance()->UnregisterRequestInterceptor(
       interceptor);
 }

 void URLRequest::AppendBytesToUpload(const char* bytes, int bytes_len) {
   DCHECK(bytes_len > 0 && bytes);
   if (!upload_)
     upload_ = new UploadData();
   upload_->AppendBytes(bytes, bytes_len);
 }

 void URLRequest::AppendFileRangeToUpload(
     const FilePath& file_path,
     uint64 offset,
     uint64 length,
     const base::Time& expected_modification_time) {
   DCHECK(file_path.value().length() > 0 && length > 0);
   if (!upload_)
     upload_ = new UploadData();
   upload_->AppendFileRange(file_path, offset, length,
                            expected_modification_time);
 }

 void URLRequest::EnableChunkedUpload() {
   DCHECK(!upload_ || upload_->is_chunked());
   if (!upload_) {
     upload_ = new UploadData();
     upload_->set_is_chunked(true);
   }
 }

 void URLRequest::AppendChunkToUpload(const char* bytes,
                                      int bytes_len,
                                      bool is_last_chunk) {
   DCHECK(upload_);
   DCHECK(upload_->is_chunked());
   DCHECK_GT(bytes_len, 0);
   upload_->AppendChunk(bytes, bytes_len, is_last_chunk);
 }

 void URLRequest::set_upload(UploadData* upload) {
   upload_ = upload;
 }

 // Get the upload data directly.
 UploadData* URLRequest::get_upload() {
   return upload_.get();
 }

 bool URLRequest::has_upload() const {
   return upload_ != NULL;
 }

 void URLRequest::SetExtraRequestHeaderById(int id, const string& value,
                                            bool overwrite) {
   DCHECK(!is_pending_);
   NOTREACHED() << "implement me!";
 }

 void URLRequest::SetExtraRequestHeaderByName(const string& name,
                                              const string& value,
                                              bool overwrite) {
   DCHECK(!is_pending_);
   if (overwrite) {
     extra_request_headers_.SetHeader(name, value);
   } else {
     extra_request_headers_.SetHeaderIfMissing(name, value);
   }
 }

 void URLRequest::SetExtraRequestHeaders(
     const HttpRequestHeaders& headers) {
   DCHECK(!is_pending_);
   extra_request_headers_ = headers;

   // NOTE: This method will likely become non-trivial once the other setters
   // for request headers are implemented.
 }

 LoadState URLRequest::GetLoadState() const {
   return job_ ? job_->GetLoadState() : LOAD_STATE_IDLE;
 }

 uint64 URLRequest::GetUploadProgress() const {
   if (!job_) {
     // We haven't started or the request was cancelled
     return 0;
   }
   if (final_upload_progress_) {
     // The first job completed and none of the subsequent series of
     // GETs when following redirects will upload anything, so we return the
     // cached results from the initial job, the POST.
     return final_upload_progress_;
   }
   return job_->GetUploadProgress();
 }

 void URLRequest::GetResponseHeaderById(int id, string* value) {
   DCHECK(job_);
   NOTREACHED() << "implement me!";
 }

 void URLRequest::GetResponseHeaderByName(const string& name, string* value) {
   DCHECK(value);
   if (response_info_.headers) {
     response_info_.headers->GetNormalizedHeader(name, value);
   } else {
     value->clear();
   }
 }

 void URLRequest::GetAllResponseHeaders(string* headers) {
   DCHECK(headers);
   if (response_info_.headers) {
     response_info_.headers->GetNormalizedHeaders(headers);
   } else {
     headers->clear();
   }
 }

 HostPortPair URLRequest::GetSocketAddress() const {
   DCHECK(job_);
   return job_->GetSocketAddress();
 }

 HttpResponseHeaders* URLRequest::response_headers() const {
   return response_info_.headers.get();
 }

 bool URLRequest::GetResponseCookies(ResponseCookies* cookies) {
   DCHECK(job_);
   return job_->GetResponseCookies(cookies);
 }

 void URLRequest::GetMimeType(string* mime_type) {
   DCHECK(job_);
   job_->GetMimeType(mime_type);
 }

 void URLRequest::GetCharset(string* charset) {
   DCHECK(job_);
   job_->GetCharset(charset);
 }

 int URLRequest::GetResponseCode() {
   DCHECK(job_);
   return job_->GetResponseCode();
 }

 // static
 bool URLRequest::IsHandledProtocol(const std::string& scheme) {
   return URLRequestJobManager::GetInstance()->SupportsScheme(scheme);
 }

 // static
 bool URLRequest::IsHandledURL(const GURL& url) {
   if (!url.is_valid()) {
     // We handle error cases.
     return true;
   }

   return IsHandledProtocol(url.scheme());
 }

 // static
 void URLRequest::AllowFileAccess() {
   URLRequestJobManager::GetInstance()->set_enable_file_access(true);
 }

 // static
 bool URLRequest::IsFileAccessAllowed() {
   return URLRequestJobManager::GetInstance()->enable_file_access();
 }


 void URLRequest::set_first_party_for_cookies(
     const GURL& first_party_for_cookies) {
   first_party_for_cookies_ = first_party_for_cookies;
 }

 void URLRequest::set_method(const std::string& method) {
   DCHECK(!is_pending_);
   method_ = method;
 }

 void URLRequest::set_referrer(const std::string& referrer) {
   DCHECK(!is_pending_);
   referrer_ = referrer;
 }

 GURL URLRequest::GetSanitizedReferrer() const {
   GURL ret(referrer());

   // Ensure that we do not send username and password fields in the referrer.
   if (ret.has_username() || ret.has_password()) {
     GURL::Replacements referrer_mods;
     referrer_mods.ClearUsername();
     referrer_mods.ClearPassword();
     ret = ret.ReplaceComponents(referrer_mods);
   }

   return ret;
 }

 void URLRequest::Start() {
   response_info_.request_time = Time::Now();

   // Only notify the delegate for the initial request.
   if (context_ && context_->network_delegate()) {
     if (context_->network_delegate()->NotifyBeforeURLRequest(
             this, &before_request_callback_, &delegate_redirect_url_) ==
             net::ERR_IO_PENDING) {
       net_log_.BeginEvent(NetLog::TYPE_URL_REQUEST_BLOCKED_ON_EXTENSION, NULL);
       return;  // paused
     }
   }

   StartInternal();
 }

 ///////////////////////////////////////////////////////////////////////////////

 void URLRequest::BeforeRequestComplete(int error) {
   DCHECK(!job_);
   DCHECK_NE(ERR_IO_PENDING, error);

   net_log_.EndEvent(NetLog::TYPE_URL_REQUEST_BLOCKED_ON_EXTENSION, NULL);
   if (error != OK) {
     StartJob(new URLRequestErrorJob(this, error));
   } else if (!delegate_redirect_url_.is_empty()) {
     GURL new_url;
     new_url.Swap(&delegate_redirect_url_);
     StartJob(new URLRequestRedirectJob(this, new_url));
   } else {
     StartInternal();
   }
 }

 void URLRequest::StartInternal() {
   StartJob(URLRequestJobManager::GetInstance()->CreateJob(this));
 }

 void URLRequest::StartJob(URLRequestJob* job) {
   DCHECK(!is_pending_);
   DCHECK(!job_);

   net_log_.BeginEvent(
       NetLog::TYPE_URL_REQUEST_START_JOB,
       make_scoped_refptr(new URLRequestStartEventParameters(
           url(), method_, load_flags_, priority_)));

   job_ = job;
   job_->SetExtraRequestHeaders(extra_request_headers_);

   if (upload_.get())
     job_->SetUpload(upload_.get());

   is_pending_ = true;

   response_info_.was_cached = false;

   // Don't allow errors to be sent from within Start().
   // TODO(brettw) this may cause NotifyDone to be sent synchronously,
   // we probably don't want this: they should be sent asynchronously so
   // the caller does not get reentered.
   job_->Start();
 }

 void URLRequest::Restart() {
   // Should only be called if the original job didn't make any progress.
   DCHECK(job_ && !job_->has_response_started());
   RestartWithJob(URLRequestJobManager::GetInstance()->CreateJob(this));
 }

 void URLRequest::RestartWithJob(URLRequestJob *job) {
   DCHECK(job->request() == this);
   PrepareToRestart();
   StartJob(job);
 }

 void URLRequest::Cancel() {
   DoCancel(ERR_ABORTED, SSLInfo());
 }

 void URLRequest::SimulateError(int os_error) {
   DoCancel(os_error, SSLInfo());
 }

 void URLRequest::SimulateSSLError(int os_error, const SSLInfo& ssl_info) {
   // This should only be called on a started request.
   if (!is_pending_ || !job_ || job_->has_response_started()) {
     NOTREACHED();
     return;
   }
   DoCancel(os_error, ssl_info);
 }

 void URLRequest::DoCancel(int os_error, const SSLInfo& ssl_info) {
   DCHECK(os_error < 0);

   // If the URL request already has an error status, then canceling is a no-op.
   // Plus, we don't want to change the error status once it has been set.
   if (status_.is_success()) {
     status_.set_status(URLRequestStatus::CANCELED);
     status_.set_os_error(os_error);
     response_info_.ssl_info = ssl_info;
   }

   // There's nothing to do if we are not waiting on a Job.
   if (!is_pending_ || !job_)
     return;

   job_->Kill();

   // The Job will call our NotifyDone method asynchronously.  This is done so
   // that the Delegate implementation can call Cancel without having to worry
   // about being called recursively.
 }

 bool URLRequest::Read(IOBuffer* dest, int dest_size, int* bytes_read) {
   DCHECK(job_);
   DCHECK(bytes_read);
   DCHECK(!job_->is_done());
   *bytes_read = 0;

   if (dest_size == 0) {
     // Caller is not too bright.  I guess we've done what they asked.
     return true;
   }

   // Once the request fails or is cancelled, read will just return 0 bytes
   // to indicate end of stream.
   if (!status_.is_success()) {
     return true;
   }

   return job_->Read(dest, dest_size, bytes_read);
 }

 void URLRequest::StopCaching() {
   DCHECK(job_);
   job_->StopCaching();
 }

 void URLRequest::ReceivedRedirect(const GURL& location, bool* defer_redirect) {
   URLRequestJob* job =
       URLRequestJobManager::GetInstance()->MaybeInterceptRedirect(this,
                                                                   location);
   if (job) {
     RestartWithJob(job);
   } else if (delegate_) {
     delegate_->OnReceivedRedirect(this, location, defer_redirect);
   }
 }

 void URLRequest::ResponseStarted() {
   scoped_refptr<NetLog::EventParameters> params;
   if (!status_.is_success())
     params = new NetLogIntegerParameter("net_error", status_.os_error());
   net_log_.EndEvent(NetLog::TYPE_URL_REQUEST_START_JOB, params);

   URLRequestJob* job =
       URLRequestJobManager::GetInstance()->MaybeInterceptResponse(this);
   if (job) {
     RestartWithJob(job);
   } else {
     if (context_ && context_->network_delegate())
       context_->network_delegate()->NotifyResponseStarted(this);
     if (delegate_)
       delegate_->OnResponseStarted(this);
   }
 }

 void URLRequest::FollowDeferredRedirect() {
   CHECK(job_);
   CHECK(status_.is_success());

   job_->FollowDeferredRedirect();
 }

 void URLRequest::SetAuth(const string16& username, const string16& password) {
   DCHECK(job_);
   DCHECK(job_->NeedsAuth());

   job_->SetAuth(username, password);
 }

 void URLRequest::CancelAuth() {
   DCHECK(job_);
   DCHECK(job_->NeedsAuth());

   job_->CancelAuth();
 }

 void URLRequest::ContinueWithCertificate(X509Certificate* client_cert) {
   DCHECK(job_);

   job_->ContinueWithCertificate(client_cert);
 }

 void URLRequest::ContinueDespiteLastError() {
   DCHECK(job_);

   job_->ContinueDespiteLastError();
 }

 void URLRequest::PrepareToRestart() {
   DCHECK(job_);

   // Close the current URL_REQUEST_START_JOB, since we will be starting a new
   // one.
   net_log_.EndEvent(NetLog::TYPE_URL_REQUEST_START_JOB, NULL);

   OrphanJob();

   response_info_ = HttpResponseInfo();
   response_info_.request_time = Time::Now();
   status_ = URLRequestStatus();
   is_pending_ = false;
 }

 void URLRequest::OrphanJob() {
   job_->Kill();
   job_->DetachRequest();  // ensures that the job will not call us again
   job_ = NULL;
 }

 int URLRequest::Redirect(const GURL& location, int http_status_code) {
   if (net_log_.IsLoggingAllEvents()) {
     net_log_.AddEvent(
         NetLog::TYPE_URL_REQUEST_REDIRECTED,
         make_scoped_refptr(new NetLogStringParameter(
             "location", location.possibly_invalid_spec())));
   }
   if (redirect_limit_ <= 0) {
     DVLOG(1) << "disallowing redirect: exceeds limit";
     return ERR_TOO_MANY_REDIRECTS;
   }

   if (!location.is_valid())
     return ERR_INVALID_URL;

   if (!job_->IsSafeRedirect(location)) {
     DVLOG(1) << "disallowing redirect: unsafe protocol";
     return ERR_UNSAFE_REDIRECT;
   }

   bool strip_post_specific_headers = false;
   if (http_status_code != 307) {
     // NOTE: Even though RFC 2616 says to preserve the request method when
     // following a 302 redirect, normal browsers don't do that.  Instead, they
     // all convert a POST into a GET in response to a 302 and so shall we.  For
     // 307 redirects, browsers preserve the method.  The RFC says to prompt the
     // user to confirm the generation of a new POST request, but IE omits this
     // prompt and so shall we.
     strip_post_specific_headers = method_ == "POST";
     method_ = "GET";
     upload_ = NULL;
   }

   // Suppress the referrer if we're redirecting out of https.
   if (GURL(referrer_).SchemeIsSecure() && !location.SchemeIsSecure())
     referrer_.clear();

   url_chain_.push_back(location);
   --redirect_limit_;

   if (strip_post_specific_headers) {
     // If being switched from POST to GET, must remove headers that were
     // specific to the POST and don't have meaning in GET. For example
     // the inclusion of a multipart Content-Type header in GET can cause
     // problems with some servers:
     // http://code.google.com/p/chromium/issues/detail?id=843
     StripPostSpecificHeaders(&extra_request_headers_);
   }

   if (!final_upload_progress_)
     final_upload_progress_ = job_->GetUploadProgress();

   PrepareToRestart();
   StartInternal();
   return OK;
 }

 URLRequestContext* URLRequest::context() const {
   return context_.get();
 }

 void URLRequest::set_context(URLRequestContext* context) {
   scoped_refptr<URLRequestContext> prev_context = context_;

   context_ = context;

   // If the context this request belongs to has changed, update the tracker.
   if (prev_context != context) {
     net_log_.EndEvent(NetLog::TYPE_REQUEST_ALIVE, NULL);
     net_log_ = BoundNetLog();

     if (context) {
       net_log_ = BoundNetLog::Make(context->net_log(),
                                    NetLog::SOURCE_URL_REQUEST);
       net_log_.BeginEvent(NetLog::TYPE_REQUEST_ALIVE, NULL);
     }
   }
 }

 int64 URLRequest::GetExpectedContentSize() const {
   int64 expected_content_size = -1;
   if (job_)
     expected_content_size = job_->expected_content_size();

   return expected_content_size;
 }

 URLRequest::UserData* URLRequest::GetUserData(const void* key) const {
   UserDataMap::const_iterator found = user_data_.find(key);
   if (found != user_data_.end())
     return found->second.get();
   return NULL;
 }

 void URLRequest::SetUserData(const void* key, UserData* data) {
   user_data_[key] = linked_ptr<UserData>(data);
 }

 }  // namespace net
	// Copyright (c) 2011 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 "net/url_request/url_request.h"

	#include "base/compiler_specific.h"
	#include "base/memory/singleton.h"
	#include "base/message_loop.h"
	#include "base/metrics/stats_counters.h"
	#include "base/synchronization/lock.h"
	#include "net/base/host_port_pair.h"
	#include "net/base/load_flags.h"
	#include "net/base/net_errors.h"
	#include "net/base/net_log.h"
	#include "net/base/network_delegate.h"
	#include "net/base/ssl_cert_request_info.h"
	#include "net/base/upload_data.h"
	#include "net/http/http_response_headers.h"
	#include "net/http/http_util.h"
	#include "net/url_request/url_request_context.h"
	#include "net/url_request/url_request_error_job.h"
	#include "net/url_request/url_request_job.h"
	#include "net/url_request/url_request_job_manager.h"
	#include "net/url_request/url_request_netlog_params.h"
	#include "net/url_request/url_request_redirect_job.h"

	using base::Time;
	using std::string;

	namespace net {

	namespace {

	// Max number of http redirects to follow. Same number as gecko.
	const int kMaxRedirects = 20;

	// Discard headers which have meaning in POST (Content-Length, Content-Type,
	// Origin).
	void StripPostSpecificHeaders(HttpRequestHeaders* headers) {
	// These are headers that may be attached to a POST.
	headers->RemoveHeader(HttpRequestHeaders::kContentLength);
	headers->RemoveHeader(HttpRequestHeaders::kContentType);
	headers->RemoveHeader(HttpRequestHeaders::kOrigin);
	}

	// This counter keeps track of the identifiers used for URL requests so far.
	// 0 is reserved to represent an invalid ID.
	uint64 g_next_url_request_identifier = 1;

	// This lock protects g_next_url_request_identifier.
	base::Lock g_next_url_request_identifier_lock;

	// Returns an prior unused identifier for URL requests.
	uint64 GenerateURLRequestIdentifier() {
	base::AutoLock lock(g_next_url_request_identifier_lock);
	return g_next_url_request_identifier++;
	}

	} // namespace

	///////////////////////////////////////////////////////////////////////////////
	// URLRequest::Interceptor

	URLRequestJob* URLRequest::Interceptor::MaybeInterceptRedirect(
	URLRequest* request,
	const GURL& location) {
	return NULL;
	}

	URLRequestJob* URLRequest::Interceptor::MaybeInterceptResponse(
	URLRequest* request) {
	return NULL;
	}

	///////////////////////////////////////////////////////////////////////////////
	// URLRequest::Delegate

	void URLRequest::Delegate::OnReceivedRedirect(URLRequest* request,
	const GURL& new_url,
	bool* defer_redirect) {
	}

	void URLRequest::Delegate::OnAuthRequired(URLRequest* request,
	AuthChallengeInfo* auth_info) {
	request->CancelAuth();
	}

	void URLRequest::Delegate::OnCertificateRequested(
	URLRequest* request,
	SSLCertRequestInfo* cert_request_info) {
	request->ContinueWithCertificate(NULL);
	}

	void URLRequest::Delegate::OnSSLCertificateError(URLRequest* request,
	int cert_error,
	X509Certificate* cert) {
	request->Cancel();
	}

	void URLRequest::Delegate::OnGetCookies(URLRequest* request,
	bool blocked_by_policy) {
	}

	void URLRequest::Delegate::OnSetCookie(URLRequest* request,
	const std::string& cookie_line,
	const CookieOptions& options,
	bool blocked_by_policy) {
	}

	///////////////////////////////////////////////////////////////////////////////
	// URLRequest

	URLRequest::URLRequest(const GURL& url, Delegate* delegate)
	: url_chain_(1, url),
	method_("GET"),
	load_flags_(LOAD_NORMAL),
	delegate_(delegate),
	is_pending_(false),
	redirect_limit_(kMaxRedirects),
	final_upload_progress_(0),
	priority_(LOWEST),
	identifier_(GenerateURLRequestIdentifier()),
	ALLOW_THIS_IN_INITIALIZER_LIST(
	before_request_callback_(this, &URLRequest::BeforeRequestComplete)) {
	SIMPLE_STATS_COUNTER("URLRequestCount");

	// Sanity check out environment.
	DCHECK(MessageLoop::current()) <<
	"The current MessageLoop must exist";
	DCHECK_EQ(MessageLoop::TYPE_IO, MessageLoop::current()->type()) <<
	"The current MessageLoop must be TYPE_IO";
	}

	URLRequest::~URLRequest() {
	if (context_ && context_->network_delegate())
	context_->network_delegate()->NotifyURLRequestDestroyed(this);

	Cancel();

	if (job_)
	OrphanJob();

	set_context(NULL);
	}

	// static
	URLRequest::ProtocolFactory* URLRequest::RegisterProtocolFactory(
	const string& scheme, ProtocolFactory* factory) {
	return URLRequestJobManager::GetInstance()->RegisterProtocolFactory(scheme,
	factory);
	}

	// static
	void URLRequest::RegisterRequestInterceptor(Interceptor* interceptor) {
	URLRequestJobManager::GetInstance()->RegisterRequestInterceptor(interceptor);
	}

	// static
	void URLRequest::UnregisterRequestInterceptor(Interceptor* interceptor) {
	URLRequestJobManager::GetInstance()->UnregisterRequestInterceptor(
	interceptor);
	}

	void URLRequest::AppendBytesToUpload(const char* bytes, int bytes_len) {
	DCHECK(bytes_len > 0 && bytes);
	if (!upload_)
	upload_ = new UploadData();
	upload_->AppendBytes(bytes, bytes_len);
	}

	void URLRequest::AppendFileRangeToUpload(
	const FilePath& file_path,
	uint64 offset,
	uint64 length,
	const base::Time& expected_modification_time) {
	DCHECK(file_path.value().length() > 0 && length > 0);
	if (!upload_)
	upload_ = new UploadData();
	upload_->AppendFileRange(file_path, offset, length,
	expected_modification_time);
	}

	void URLRequest::EnableChunkedUpload() {
	DCHECK(!upload_ \|\| upload_->is_chunked());
	if (!upload_) {
	upload_ = new UploadData();
	upload_->set_is_chunked(true);
	}
	}

	void URLRequest::AppendChunkToUpload(const char* bytes,
	int bytes_len,
	bool is_last_chunk) {
	DCHECK(upload_);
	DCHECK(upload_->is_chunked());
	DCHECK_GT(bytes_len, 0);
	upload_->AppendChunk(bytes, bytes_len, is_last_chunk);
	}

	void URLRequest::set_upload(UploadData* upload) {
	upload_ = upload;
	}

	// Get the upload data directly.
	UploadData* URLRequest::get_upload() {
	return upload_.get();
	}

	bool URLRequest::has_upload() const {
	return upload_ != NULL;
	}

	void URLRequest::SetExtraRequestHeaderById(int id, const string& value,
	bool overwrite) {
	DCHECK(!is_pending_);
	NOTREACHED() << "implement me!";
	}

	void URLRequest::SetExtraRequestHeaderByName(const string& name,
	const string& value,
	bool overwrite) {
	DCHECK(!is_pending_);
	if (overwrite) {
	extra_request_headers_.SetHeader(name, value);
	} else {
	extra_request_headers_.SetHeaderIfMissing(name, value);
	}
	}

	void URLRequest::SetExtraRequestHeaders(
	const HttpRequestHeaders& headers) {
	DCHECK(!is_pending_);
	extra_request_headers_ = headers;

	// NOTE: This method will likely become non-trivial once the other setters
	// for request headers are implemented.
	}

	LoadState URLRequest::GetLoadState() const {
	return job_ ? job_->GetLoadState() : LOAD_STATE_IDLE;
	}

	uint64 URLRequest::GetUploadProgress() const {
	if (!job_) {
	// We haven't started or the request was cancelled
	return 0;
	}
	if (final_upload_progress_) {
	// The first job completed and none of the subsequent series of
	// GETs when following redirects will upload anything, so we return the
	// cached results from the initial job, the POST.
	return final_upload_progress_;
	}
	return job_->GetUploadProgress();
	}

	void URLRequest::GetResponseHeaderById(int id, string* value) {
	DCHECK(job_);
	NOTREACHED() << "implement me!";
	}

	void URLRequest::GetResponseHeaderByName(const string& name, string* value) {
	DCHECK(value);
	if (response_info_.headers) {
	response_info_.headers->GetNormalizedHeader(name, value);
	} else {
	value->clear();
	}
	}

	void URLRequest::GetAllResponseHeaders(string* headers) {
	DCHECK(headers);
	if (response_info_.headers) {
	response_info_.headers->GetNormalizedHeaders(headers);
	} else {
	headers->clear();
	}
	}

	HostPortPair URLRequest::GetSocketAddress() const {
	DCHECK(job_);
	return job_->GetSocketAddress();
	}

	HttpResponseHeaders* URLRequest::response_headers() const {
	return response_info_.headers.get();
	}

	bool URLRequest::GetResponseCookies(ResponseCookies* cookies) {
	DCHECK(job_);
	return job_->GetResponseCookies(cookies);
	}

	void URLRequest::GetMimeType(string* mime_type) {
	DCHECK(job_);
	job_->GetMimeType(mime_type);
	}

	void URLRequest::GetCharset(string* charset) {
	DCHECK(job_);
	job_->GetCharset(charset);
	}

	int URLRequest::GetResponseCode() {
	DCHECK(job_);
	return job_->GetResponseCode();
	}

	// static
	bool URLRequest::IsHandledProtocol(const std::string& scheme) {
	return URLRequestJobManager::GetInstance()->SupportsScheme(scheme);
	}

	// static
	bool URLRequest::IsHandledURL(const GURL& url) {
	if (!url.is_valid()) {
	// We handle error cases.
	return true;
	}

	return IsHandledProtocol(url.scheme());
	}

	// static
	void URLRequest::AllowFileAccess() {
	URLRequestJobManager::GetInstance()->set_enable_file_access(true);
	}

	// static
	bool URLRequest::IsFileAccessAllowed() {
	return URLRequestJobManager::GetInstance()->enable_file_access();
	}


	void URLRequest::set_first_party_for_cookies(
	const GURL& first_party_for_cookies) {
	first_party_for_cookies_ = first_party_for_cookies;
	}

	void URLRequest::set_method(const std::string& method) {
	DCHECK(!is_pending_);
	method_ = method;
	}

	void URLRequest::set_referrer(const std::string& referrer) {
	DCHECK(!is_pending_);
	referrer_ = referrer;
	}

	GURL URLRequest::GetSanitizedReferrer() const {
	GURL ret(referrer());

	// Ensure that we do not send username and password fields in the referrer.
	if (ret.has_username() \|\| ret.has_password()) {
	GURL::Replacements referrer_mods;
	referrer_mods.ClearUsername();
	referrer_mods.ClearPassword();
	ret = ret.ReplaceComponents(referrer_mods);
	}

	return ret;
	}

	void URLRequest::Start() {
	response_info_.request_time = Time::Now();

	// Only notify the delegate for the initial request.
	if (context_ && context_->network_delegate()) {
	if (context_->network_delegate()->NotifyBeforeURLRequest(
	this, &before_request_callback_, &delegate_redirect_url_) ==
	net::ERR_IO_PENDING) {
	net_log_.BeginEvent(NetLog::TYPE_URL_REQUEST_BLOCKED_ON_EXTENSION, NULL);
	return; // paused
	}
	}

	StartInternal();
	}

	///////////////////////////////////////////////////////////////////////////////

	void URLRequest::BeforeRequestComplete(int error) {
	DCHECK(!job_);
	DCHECK_NE(ERR_IO_PENDING, error);

	net_log_.EndEvent(NetLog::TYPE_URL_REQUEST_BLOCKED_ON_EXTENSION, NULL);
	if (error != OK) {
	StartJob(new URLRequestErrorJob(this, error));
	} else if (!delegate_redirect_url_.is_empty()) {
	GURL new_url;
	new_url.Swap(&delegate_redirect_url_);
	StartJob(new URLRequestRedirectJob(this, new_url));
	} else {
	StartInternal();
	}
	}

	void URLRequest::StartInternal() {
	StartJob(URLRequestJobManager::GetInstance()->CreateJob(this));
	}

	void URLRequest::StartJob(URLRequestJob* job) {
	DCHECK(!is_pending_);
	DCHECK(!job_);

	net_log_.BeginEvent(
	NetLog::TYPE_URL_REQUEST_START_JOB,
	make_scoped_refptr(new URLRequestStartEventParameters(
	url(), method_, load_flags_, priority_)));

	job_ = job;
	job_->SetExtraRequestHeaders(extra_request_headers_);

	if (upload_.get())
	job_->SetUpload(upload_.get());

	is_pending_ = true;

	response_info_.was_cached = false;

	// Don't allow errors to be sent from within Start().
	// TODO(brettw) this may cause NotifyDone to be sent synchronously,
	// we probably don't want this: they should be sent asynchronously so
	// the caller does not get reentered.
	job_->Start();
	}

	void URLRequest::Restart() {
	// Should only be called if the original job didn't make any progress.
	DCHECK(job_ && !job_->has_response_started());
	RestartWithJob(URLRequestJobManager::GetInstance()->CreateJob(this));
	}

	void URLRequest::RestartWithJob(URLRequestJob *job) {
	DCHECK(job->request() == this);
	PrepareToRestart();
	StartJob(job);
	}

	void URLRequest::Cancel() {
	DoCancel(ERR_ABORTED, SSLInfo());
	}

	void URLRequest::SimulateError(int os_error) {
	DoCancel(os_error, SSLInfo());
	}

	void URLRequest::SimulateSSLError(int os_error, const SSLInfo& ssl_info) {
	// This should only be called on a started request.
	if (!is_pending_ \|\| !job_ \|\| job_->has_response_started()) {
	NOTREACHED();
	return;
	}
	DoCancel(os_error, ssl_info);
	}

	void URLRequest::DoCancel(int os_error, const SSLInfo& ssl_info) {
	DCHECK(os_error < 0);

	// If the URL request already has an error status, then canceling is a no-op.
	// Plus, we don't want to change the error status once it has been set.
	if (status_.is_success()) {
	status_.set_status(URLRequestStatus::CANCELED);
	status_.set_os_error(os_error);
	response_info_.ssl_info = ssl_info;
	}

	// There's nothing to do if we are not waiting on a Job.
	if (!is_pending_ \|\| !job_)
	return;

	job_->Kill();

	// The Job will call our NotifyDone method asynchronously. This is done so
	// that the Delegate implementation can call Cancel without having to worry
	// about being called recursively.
	}

	bool URLRequest::Read(IOBuffer* dest, int dest_size, int* bytes_read) {
	DCHECK(job_);
	DCHECK(bytes_read);
	DCHECK(!job_->is_done());
	*bytes_read = 0;

	if (dest_size == 0) {
	// Caller is not too bright. I guess we've done what they asked.
	return true;
	}

	// Once the request fails or is cancelled, read will just return 0 bytes
	// to indicate end of stream.
	if (!status_.is_success()) {
	return true;
	}

	return job_->Read(dest, dest_size, bytes_read);
	}

	void URLRequest::StopCaching() {
	DCHECK(job_);
	job_->StopCaching();
	}

	void URLRequest::ReceivedRedirect(const GURL& location, bool* defer_redirect) {
	URLRequestJob* job =
	URLRequestJobManager::GetInstance()->MaybeInterceptRedirect(this,
	location);
	if (job) {
	RestartWithJob(job);
	} else if (delegate_) {
	delegate_->OnReceivedRedirect(this, location, defer_redirect);
	}
	}

	void URLRequest::ResponseStarted() {
	scoped_refptr<NetLog::EventParameters> params;
	if (!status_.is_success())
	params = new NetLogIntegerParameter("net_error", status_.os_error());
	net_log_.EndEvent(NetLog::TYPE_URL_REQUEST_START_JOB, params);

	URLRequestJob* job =
	URLRequestJobManager::GetInstance()->MaybeInterceptResponse(this);
	if (job) {
	RestartWithJob(job);
	} else {
	if (context_ && context_->network_delegate())
	context_->network_delegate()->NotifyResponseStarted(this);
	if (delegate_)
	delegate_->OnResponseStarted(this);
	}
	}

	void URLRequest::FollowDeferredRedirect() {
	CHECK(job_);
	CHECK(status_.is_success());

	job_->FollowDeferredRedirect();
	}

	void URLRequest::SetAuth(const string16& username, const string16& password) {
	DCHECK(job_);
	DCHECK(job_->NeedsAuth());

	job_->SetAuth(username, password);
	}

	void URLRequest::CancelAuth() {
	DCHECK(job_);
	DCHECK(job_->NeedsAuth());

	job_->CancelAuth();
	}

	void URLRequest::ContinueWithCertificate(X509Certificate* client_cert) {
	DCHECK(job_);

	job_->ContinueWithCertificate(client_cert);
	}

	void URLRequest::ContinueDespiteLastError() {
	DCHECK(job_);

	job_->ContinueDespiteLastError();
	}

	void URLRequest::PrepareToRestart() {
	DCHECK(job_);

	// Close the current URL_REQUEST_START_JOB, since we will be starting a new
	// one.
	net_log_.EndEvent(NetLog::TYPE_URL_REQUEST_START_JOB, NULL);

	OrphanJob();

	response_info_ = HttpResponseInfo();
	response_info_.request_time = Time::Now();
	status_ = URLRequestStatus();
	is_pending_ = false;
	}

	void URLRequest::OrphanJob() {
	job_->Kill();
	job_->DetachRequest(); // ensures that the job will not call us again
	job_ = NULL;
	}

	int URLRequest::Redirect(const GURL& location, int http_status_code) {
	if (net_log_.IsLoggingAllEvents()) {
	net_log_.AddEvent(
	NetLog::TYPE_URL_REQUEST_REDIRECTED,
	make_scoped_refptr(new NetLogStringParameter(
	"location", location.possibly_invalid_spec())));
	}
	if (redirect_limit_ <= 0) {
	DVLOG(1) << "disallowing redirect: exceeds limit";
	return ERR_TOO_MANY_REDIRECTS;
	}

	if (!location.is_valid())
	return ERR_INVALID_URL;

	if (!job_->IsSafeRedirect(location)) {
	DVLOG(1) << "disallowing redirect: unsafe protocol";
	return ERR_UNSAFE_REDIRECT;
	}

	bool strip_post_specific_headers = false;
	if (http_status_code != 307) {
	// NOTE: Even though RFC 2616 says to preserve the request method when
	// following a 302 redirect, normal browsers don't do that. Instead, they
	// all convert a POST into a GET in response to a 302 and so shall we. For
	// 307 redirects, browsers preserve the method. The RFC says to prompt the
	// user to confirm the generation of a new POST request, but IE omits this
	// prompt and so shall we.
	strip_post_specific_headers = method_ == "POST";
	method_ = "GET";
	upload_ = NULL;
	}

	// Suppress the referrer if we're redirecting out of https.
	if (GURL(referrer_).SchemeIsSecure() && !location.SchemeIsSecure())
	referrer_.clear();

	url_chain_.push_back(location);
	--redirect_limit_;

	if (strip_post_specific_headers) {
	// If being switched from POST to GET, must remove headers that were
	// specific to the POST and don't have meaning in GET. For example
	// the inclusion of a multipart Content-Type header in GET can cause
	// problems with some servers:
	// http://code.google.com/p/chromium/issues/detail?id=843
	StripPostSpecificHeaders(&extra_request_headers_);
	}

	if (!final_upload_progress_)
	final_upload_progress_ = job_->GetUploadProgress();

	PrepareToRestart();
	StartInternal();
	return OK;
	}

	URLRequestContext* URLRequest::context() const {
	return context_.get();
	}

	void URLRequest::set_context(URLRequestContext* context) {
	scoped_refptr<URLRequestContext> prev_context = context_;

	context_ = context;

	// If the context this request belongs to has changed, update the tracker.
	if (prev_context != context) {
	net_log_.EndEvent(NetLog::TYPE_REQUEST_ALIVE, NULL);
	net_log_ = BoundNetLog();

	if (context) {
	net_log_ = BoundNetLog::Make(context->net_log(),
	NetLog::SOURCE_URL_REQUEST);
	net_log_.BeginEvent(NetLog::TYPE_REQUEST_ALIVE, NULL);
	}
	}
	}

	int64 URLRequest::GetExpectedContentSize() const {
	int64 expected_content_size = -1;
	if (job_)
	expected_content_size = job_->expected_content_size();

	return expected_content_size;
	}

	URLRequest::UserData* URLRequest::GetUserData(const void* key) const {
	UserDataMap::const_iterator found = user_data_.find(key);
	if (found != user_data_.end())
	return found->second.get();
	return NULL;
	}

	void URLRequest::SetUserData(const void* key, UserData* data) {
	user_data_[key] = linked_ptr<UserData>(data);
	}

	} // namespace net