// 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 "net/url_request/url_request_throttler_manager.h" #include "base/logging.h" #include "base/strings/string_util.h" #include "net/base/url_util.h" #include "net/log/net_log.h" #include "net/log/net_log_event_type.h" #include "net/log/net_log_source_type.h" namespace net { const unsigned int URLRequestThrottlerManager::kMaximumNumberOfEntries = 1500; const unsigned int URLRequestThrottlerManager::kRequestsBetweenCollecting = 200; URLRequestThrottlerManager::URLRequestThrottlerManager() : requests_since_last_gc_(0), logged_for_localhost_disabled_(false), registered_from_thread_(base::kInvalidThreadId) { url_id_replacements_.ClearPassword(); url_id_replacements_.ClearUsername(); url_id_replacements_.ClearQuery(); url_id_replacements_.ClearRef(); NetworkChangeNotifier::AddIPAddressObserver(this); NetworkChangeNotifier::AddConnectionTypeObserver(this); } URLRequestThrottlerManager::~URLRequestThrottlerManager() { DCHECK_CALLED_ON_VALID_THREAD(thread_checker_); NetworkChangeNotifier::RemoveIPAddressObserver(this); NetworkChangeNotifier::RemoveConnectionTypeObserver(this); // Since the manager object might conceivably go away before the // entries, detach the entries' back-pointer to the manager. UrlEntryMap::iterator i = url_entries_.begin(); while (i != url_entries_.end()) { if (i->second.get() != NULL) { i->second->DetachManager(); } ++i; } // Delete all entries. url_entries_.clear(); } scoped_refptr URLRequestThrottlerManager::RegisterRequestUrl(const GURL &url) { DCHECK_CALLED_ON_VALID_THREAD(thread_checker_); // Normalize the url. std::string url_id = GetIdFromUrl(url); // Periodically garbage collect old entries. GarbageCollectEntriesIfNecessary(); // Find the entry in the map or create a new NULL entry. scoped_refptr& entry = url_entries_[url_id]; // If the entry exists but could be garbage collected at this point, we // start with a fresh entry so that we possibly back off a bit less // aggressively (i.e. this resets the error count when the entry's URL // hasn't been requested in long enough). if (entry.get() && entry->IsEntryOutdated()) { entry = NULL; } // Create the entry if needed. if (entry.get() == NULL) { entry = new URLRequestThrottlerEntry(this, url_id); // We only disable back-off throttling on an entry that we have // just constructed. This is to allow unit tests to explicitly override // the entry for localhost URLs. if (IsLocalhost(url)) { if (!logged_for_localhost_disabled_ && IsLocalhost(url)) { std::string host = url.host(); logged_for_localhost_disabled_ = true; net_log_.AddEvent(NetLogEventType::THROTTLING_DISABLED_FOR_HOST, NetLog::StringCallback("host", &host)); } // TODO(joi): Once sliding window is separate from back-off throttling, // we can simply return a dummy implementation of // URLRequestThrottlerEntryInterface here that never blocks anything. entry->DisableBackoffThrottling(); } } return entry; } void URLRequestThrottlerManager::OverrideEntryForTests( const GURL& url, URLRequestThrottlerEntry* entry) { // Normalize the url. std::string url_id = GetIdFromUrl(url); // Periodically garbage collect old entries. GarbageCollectEntriesIfNecessary(); url_entries_[url_id] = entry; } void URLRequestThrottlerManager::EraseEntryForTests(const GURL& url) { // Normalize the url. std::string url_id = GetIdFromUrl(url); url_entries_.erase(url_id); } void URLRequestThrottlerManager::set_net_log(NetLog* net_log) { DCHECK(net_log); net_log_ = NetLogWithSource::Make( net_log, NetLogSourceType::EXPONENTIAL_BACKOFF_THROTTLING); } NetLog* URLRequestThrottlerManager::net_log() const { return net_log_.net_log(); } void URLRequestThrottlerManager::OnIPAddressChanged() { OnNetworkChange(); } void URLRequestThrottlerManager::OnConnectionTypeChanged( NetworkChangeNotifier::ConnectionType type) { OnNetworkChange(); } std::string URLRequestThrottlerManager::GetIdFromUrl(const GURL& url) const { if (!url.is_valid()) return url.possibly_invalid_spec(); GURL id = url.ReplaceComponents(url_id_replacements_); return base::ToLowerASCII(id.spec()); } void URLRequestThrottlerManager::GarbageCollectEntriesIfNecessary() { requests_since_last_gc_++; if (requests_since_last_gc_ < kRequestsBetweenCollecting) return; requests_since_last_gc_ = 0; GarbageCollectEntries(); } void URLRequestThrottlerManager::GarbageCollectEntries() { UrlEntryMap::iterator i = url_entries_.begin(); while (i != url_entries_.end()) { if ((i->second)->IsEntryOutdated()) { url_entries_.erase(i++); } else { ++i; } } // In case something broke we want to make sure not to grow indefinitely. while (url_entries_.size() > kMaximumNumberOfEntries) { url_entries_.erase(url_entries_.begin()); } } void URLRequestThrottlerManager::OnNetworkChange() { // Remove all entries. Any entries that in-flight requests have a reference // to will live until those requests end, and these entries may be // inconsistent with new entries for the same URLs, but since what we // want is a clean slate for the new connection type, this is OK. url_entries_.clear(); requests_since_last_gc_ = 0; } } // namespace net