// 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. #ifndef NET_URL_REQUEST_URL_REQUEST_THROTTLER_ENTRY_H_ #define NET_URL_REQUEST_URL_REQUEST_THROTTLER_ENTRY_H_ #pragma once #include <queue> #include <string> #include "base/basictypes.h" #include "net/base/backoff_entry.h" #include "net/url_request/url_request_throttler_entry_interface.h" namespace net { class URLRequestThrottlerManager; // URLRequestThrottlerEntry represents an entry of URLRequestThrottlerManager. // It analyzes requests of a specific URL over some period of time, in order to // deduce the back-off time for every request. // The back-off algorithm consists of two parts. Firstly, exponential back-off // is used when receiving 5XX server errors or malformed response bodies. // The exponential back-off rule is enforced by URLRequestHttpJob. Any // request sent during the back-off period will be cancelled. // Secondly, a sliding window is used to count recent requests to a given // destination and provide guidance (to the application level only) on whether // too many requests have been sent and when a good time to send the next one // would be. This is never used to deny requests at the network level. class URLRequestThrottlerEntry : public URLRequestThrottlerEntryInterface { public: // Sliding window period. static const int kDefaultSlidingWindowPeriodMs; // Maximum number of requests allowed in sliding window period. static const int kDefaultMaxSendThreshold; // Number of initial errors to ignore before starting exponential back-off. static const int kDefaultNumErrorsToIgnore; // Initial delay for exponential back-off. static const int kDefaultInitialBackoffMs; // Factor by which the waiting time will be multiplied. static const double kDefaultMultiplyFactor; // Fuzzing percentage. ex: 10% will spread requests randomly // between 90%-100% of the calculated time. static const double kDefaultJitterFactor; // Maximum amount of time we are willing to delay our request. static const int kDefaultMaximumBackoffMs; // Time after which the entry is considered outdated. static const int kDefaultEntryLifetimeMs; // Name of the header that servers can use to ask clients to delay their // next request. static const char kRetryHeaderName[]; // Name of the header that sites can use to opt out of exponential back-off // throttling. static const char kExponentialThrottlingHeader[]; // Value for exponential throttling header that can be used to opt out of // exponential back-off throttling. static const char kExponentialThrottlingDisableValue[]; // The manager object's lifetime must enclose the lifetime of this object. explicit URLRequestThrottlerEntry(URLRequestThrottlerManager* manager); // The life span of instances created with this constructor is set to // infinite, and the number of initial errors to ignore is set to 0. // It is only used by unit tests. URLRequestThrottlerEntry(URLRequestThrottlerManager* manager, int sliding_window_period_ms, int max_send_threshold, int initial_backoff_ms, double multiply_factor, double jitter_factor, int maximum_backoff_ms); // Used by the manager, returns true if the entry needs to be garbage // collected. bool IsEntryOutdated() const; // Causes this entry to never reject requests due to back-off. void DisableBackoffThrottling(); // Causes this entry to NULL its manager pointer. void DetachManager(); // Implementation of URLRequestThrottlerEntryInterface. virtual bool IsDuringExponentialBackoff() const; virtual int64 ReserveSendingTimeForNextRequest( const base::TimeTicks& earliest_time); virtual base::TimeTicks GetExponentialBackoffReleaseTime() const; virtual void UpdateWithResponse( const std::string& host, const URLRequestThrottlerHeaderInterface* response); virtual void ReceivedContentWasMalformed(); protected: virtual ~URLRequestThrottlerEntry(); void Initialize(); // Equivalent to TimeTicks::Now(), virtual to be mockable for testing purpose. virtual base::TimeTicks GetTimeNow() const; // Used internally to increase release time following a retry-after header. void HandleCustomRetryAfter(const std::string& header_value); // Used internally to handle the opt-out header. void HandleThrottlingHeader(const std::string& header_value, const std::string& host); // Retrieves the back-off entry object we're using. Used to enable a // unit testing seam for dependency injection in tests. virtual const BackoffEntry* GetBackoffEntry() const; virtual BackoffEntry* GetBackoffEntry(); // Used by tests. base::TimeTicks sliding_window_release_time() const { return sliding_window_release_time_; } // Used by tests. void set_sliding_window_release_time(const base::TimeTicks& release_time) { sliding_window_release_time_ = release_time; } // Valid and immutable after construction time. BackoffEntry::Policy backoff_policy_; private: // Timestamp calculated by the sliding window algorithm for when we advise // clients the next request should be made, at the earliest. Advisory only, // not used to deny requests. base::TimeTicks sliding_window_release_time_; // A list of the recent send events. We use them to decide whether there are // too many requests sent in sliding window. std::queue<base::TimeTicks> send_log_; const base::TimeDelta sliding_window_period_; const int max_send_threshold_; // True if DisableBackoffThrottling() has been called on this object. bool is_backoff_disabled_; // Access it through GetBackoffEntry() to allow a unit test seam. BackoffEntry backoff_entry_; // Weak back-reference to the manager object managing us. URLRequestThrottlerManager* manager_; DISALLOW_COPY_AND_ASSIGN(URLRequestThrottlerEntry); }; } // namespace net #endif // NET_URL_REQUEST_URL_REQUEST_THROTTLER_ENTRY_H_