Refactor WebsiteSettings to operate on a SecurityInfo
[chromium-blink-merge.git] / chrome / browser / predictors / resource_prefetcher.cc
blob101022a7bb9e0796910342b707acc11980e261c2
1 // Copyright 2014 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include "chrome/browser/predictors/resource_prefetcher.h"
7 #include <iterator>
9 #include "base/stl_util.h"
10 #include "content/public/browser/browser_thread.h"
11 #include "net/base/io_buffer.h"
12 #include "net/base/load_flags.h"
13 #include "net/base/request_priority.h"
14 #include "net/url_request/url_request_context.h"
16 namespace {
18 // The size of the buffer used to read the resource.
19 static const size_t kResourceBufferSizeBytes = 50000;
21 } // namespace
23 namespace predictors {
25 ResourcePrefetcher::Request::Request(const GURL& i_resource_url)
26 : resource_url(i_resource_url),
27 prefetch_status(PREFETCH_STATUS_NOT_STARTED),
28 usage_status(USAGE_STATUS_NOT_REQUESTED) {
31 ResourcePrefetcher::Request::Request(const Request& other)
32 : resource_url(other.resource_url),
33 prefetch_status(other.prefetch_status),
34 usage_status(other.usage_status) {
37 ResourcePrefetcher::ResourcePrefetcher(
38 Delegate* delegate,
39 const ResourcePrefetchPredictorConfig& config,
40 const NavigationID& navigation_id,
41 PrefetchKeyType key_type,
42 scoped_ptr<RequestVector> requests)
43 : state_(INITIALIZED),
44 delegate_(delegate),
45 config_(config),
46 navigation_id_(navigation_id),
47 key_type_(key_type),
48 request_vector_(requests.Pass()) {
49 DCHECK_CURRENTLY_ON(content::BrowserThread::IO);
50 DCHECK(request_vector_.get());
52 std::copy(request_vector_->begin(), request_vector_->end(),
53 std::back_inserter(request_queue_));
56 ResourcePrefetcher::~ResourcePrefetcher() {
57 // Delete any pending net::URLRequests.
58 STLDeleteContainerPairFirstPointers(inflight_requests_.begin(),
59 inflight_requests_.end());
62 void ResourcePrefetcher::Start() {
63 DCHECK(thread_checker_.CalledOnValidThread());
65 CHECK_EQ(state_, INITIALIZED);
66 state_ = RUNNING;
68 TryToLaunchPrefetchRequests();
71 void ResourcePrefetcher::Stop() {
72 DCHECK(thread_checker_.CalledOnValidThread());
74 if (state_ == FINISHED)
75 return;
77 state_ = STOPPED;
80 void ResourcePrefetcher::TryToLaunchPrefetchRequests() {
81 CHECK(state_ == RUNNING || state_ == STOPPED);
83 // Try to launch new requests if the state is RUNNING.
84 if (state_ == RUNNING) {
85 bool request_available = true;
87 // Loop through the requests while we are under the
88 // max_prefetches_inflight_per_host_per_navigation limit, looking for a URL
89 // for which the max_prefetches_inflight_per_host_per_navigation limit has
90 // not been reached. Try to launch as many requests as possible.
91 while ((inflight_requests_.size() <
92 config_.max_prefetches_inflight_per_navigation) &&
93 request_available) {
94 std::list<Request*>::iterator request_it = request_queue_.begin();
95 for (; request_it != request_queue_.end(); ++request_it) {
96 const std::string& host = (*request_it)->resource_url.host();
98 std::map<std::string, size_t>::iterator host_it =
99 host_inflight_counts_.find(host);
100 if (host_it == host_inflight_counts_.end() ||
101 host_it->second <
102 config_.max_prefetches_inflight_per_host_per_navigation)
103 break;
105 request_available = request_it != request_queue_.end();
107 if (request_available) {
108 SendRequest(*request_it);
109 request_queue_.erase(request_it);
114 // If the inflight_requests_ is empty, we cant launch any more. Finish.
115 if (inflight_requests_.empty()) {
116 CHECK(host_inflight_counts_.empty());
117 CHECK(request_queue_.empty() || state_ == STOPPED);
119 state_ = FINISHED;
120 delegate_->ResourcePrefetcherFinished(this, request_vector_.release());
124 void ResourcePrefetcher::SendRequest(Request* request) {
125 request->prefetch_status = Request::PREFETCH_STATUS_STARTED;
127 net::URLRequest* url_request =
128 delegate_->GetURLRequestContext()->CreateRequest(
129 request->resource_url, net::LOW, this).release();
131 inflight_requests_[url_request] = request;
132 host_inflight_counts_[url_request->original_url().host()] += 1;
134 url_request->set_method("GET");
135 url_request->set_first_party_for_cookies(navigation_id_.main_frame_url);
136 url_request->SetReferrer(navigation_id_.main_frame_url.spec());
137 url_request->SetLoadFlags(url_request->load_flags() | net::LOAD_PREFETCH);
138 StartURLRequest(url_request);
141 void ResourcePrefetcher::StartURLRequest(net::URLRequest* request) {
142 request->Start();
145 void ResourcePrefetcher::FinishRequest(net::URLRequest* request,
146 Request::PrefetchStatus status) {
147 std::map<net::URLRequest*, Request*>::iterator request_it =
148 inflight_requests_.find(request);
149 CHECK(request_it != inflight_requests_.end());
151 const std::string host = request->original_url().host();
152 std::map<std::string, size_t>::iterator host_it = host_inflight_counts_.find(
153 host);
154 CHECK_GT(host_it->second, 0U);
155 host_it->second -= 1;
156 if (host_it->second == 0)
157 host_inflight_counts_.erase(host);
159 request_it->second->prefetch_status = status;
160 inflight_requests_.erase(request_it);
162 delete request;
164 TryToLaunchPrefetchRequests();
167 void ResourcePrefetcher::ReadFullResponse(net::URLRequest* request) {
168 bool status = true;
169 while (status) {
170 int bytes_read = 0;
171 scoped_refptr<net::IOBuffer> buffer(new net::IOBuffer(
172 kResourceBufferSizeBytes));
173 status = request->Read(buffer.get(), kResourceBufferSizeBytes, &bytes_read);
175 if (status) {
176 status = ShouldContinueReadingRequest(request, bytes_read);
177 } else if (request->status().error()) {
178 FinishRequest(request, Request::PREFETCH_STATUS_FAILED);
179 return;
184 bool ResourcePrefetcher::ShouldContinueReadingRequest(net::URLRequest* request,
185 int bytes_read) {
186 if (bytes_read == 0) { // When bytes_read == 0, no more data.
187 if (request->was_cached())
188 FinishRequest(request, Request::PREFETCH_STATUS_FROM_CACHE);
189 else
190 FinishRequest(request, Request::PREFETCH_STATUS_FROM_NETWORK);
191 return false;
194 return true;
197 void ResourcePrefetcher::OnReceivedRedirect(
198 net::URLRequest* request,
199 const net::RedirectInfo& redirect_info,
200 bool* defer_redirect) {
201 FinishRequest(request, Request::PREFETCH_STATUS_REDIRECTED);
204 void ResourcePrefetcher::OnAuthRequired(net::URLRequest* request,
205 net::AuthChallengeInfo* auth_info) {
206 FinishRequest(request, Request::PREFETCH_STATUS_AUTH_REQUIRED);
209 void ResourcePrefetcher::OnCertificateRequested(
210 net::URLRequest* request,
211 net::SSLCertRequestInfo* cert_request_info) {
212 FinishRequest(request, Request::PREFETCH_STATUS_CERT_REQUIRED);
215 void ResourcePrefetcher::OnSSLCertificateError(net::URLRequest* request,
216 const net::SSLInfo& ssl_info,
217 bool fatal) {
218 FinishRequest(request, Request::PREFETCH_STATUS_CERT_ERROR);
221 void ResourcePrefetcher::OnResponseStarted(net::URLRequest* request) {
222 if (request->status().error()) {
223 FinishRequest(request, Request::PREFETCH_STATUS_FAILED);
224 return;
227 // TODO(shishir): Do not read cached entries, or ones that are not cacheable.
228 ReadFullResponse(request);
231 void ResourcePrefetcher::OnReadCompleted(net::URLRequest* request,
232 int bytes_read) {
233 if (request->status().error()) {
234 FinishRequest(request, Request::PREFETCH_STATUS_FAILED);
235 return;
238 if (ShouldContinueReadingRequest(request, bytes_read))
239 ReadFullResponse(request);
242 } // namespace predictors