chrome/browser/net/referrer.h - chromium/src - 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.

 // This class helps to remember what domains may be needed to be resolved when a
 // navigation takes place to a given URL.  This information is gathered when a
 // navigation to a subresource identifies a referring URL.
 // When future navigations take place to known referrer sites, then we
 // speculatively either pre-warm a TCP/IP conneciton, or at a minimum, resolve
 // the host name via DNS.

 // All access to this class is performed via the Predictor class, which only
 // operates on the IO thread.

 #ifndef CHROME_BROWSER_NET_REFERRER_H_
 #define CHROME_BROWSER_NET_REFERRER_H_

 #include <stdint.h>

 #include <map>
 #include <memory>

 #include "base/macros.h"
 #include "base/time/time.h"
 #include "base/values.h"
 #include "net/base/host_port_pair.h"
 #include "url/gurl.h"

 namespace chrome_browser_net {

 //------------------------------------------------------------------------------
 // For each hostname in a Referrer, we have a ReferrerValue.  It indicates
 // exactly how much value (re: latency reduction, or connection use) has
 // resulted from having this entry.
 class ReferrerValue {
  public:
   ReferrerValue();

   // Used during deserialization.
   void SetSubresourceUseRate(double rate) { subresource_use_rate_ = rate; }

   base::Time birth_time() const { return birth_time_; }

   // Record the fact that we navigated to the associated subresource URL.  This
   // will increase the value of the expected subresource_use_rate_
   void SubresourceIsNeeded();

   // Record the fact that the referrer of this subresource was observed. This
   // will diminish the expected subresource_use_rate_ (and will only be
   // counteracted later if we really needed this subresource as a consequence
   // of our associated referrer.)
   void ReferrerWasObserved();

   int64_t navigation_count() const { return navigation_count_; }
   double subresource_use_rate() const { return subresource_use_rate_; }

   int64_t preconnection_count() const { return preconnection_count_; }
   void IncrementPreconnectionCount() { ++preconnection_count_; }

   int64_t preresolution_count() const { return preresolution_count_; }
   void preresolution_increment() { ++preresolution_count_; }

  private:
   const base::Time birth_time_;

   // The number of times this item was navigated to with the fixed referrer.
   int64_t navigation_count_;

   // The number of times this item was preconnected as a consequence of its
   // referrer.
   int64_t preconnection_count_;

   // The number of times this item was pre-resolved (via DNS) as a consequence
   // of its referrer.
   int64_t preresolution_count_;

   // A smoothed estimate of the expected number of connections that will be made
   // to this subresource.
   double subresource_use_rate_;
 };

 //------------------------------------------------------------------------------
 // A list of domain names to pre-resolve. The names are the keys to this map,
 // and the values indicate the amount of benefit derived from having each name
 // around.
 typedef std::map<GURL, ReferrerValue> SubresourceMap;

 //------------------------------------------------------------------------------
 // There is one Referrer instance for each hostname that has acted as an HTTP
 // referer (note mispelling is intentional) for a hostname that was otherwise
 // unexpectedly navgated towards ("unexpected" in the sense that the hostname
 // was probably needed as a subresource of a page, and was not otherwise
 // predictable until the content with the reference arrived).  Most typically,
 // an outer page was a page fetched by the user, and this instance lists names
 // in SubresourceMap which are subresources and that were needed to complete the
 // rendering of the outer page.
 class Referrer : public SubresourceMap {
  public:
   Referrer();
   void IncrementUseCount() { ++use_count_; }
   int64_t use_count() const { return use_count_; }

   // Add the indicated url to the list that are resolved via DNS when the user
   // navigates to this referrer.  Note that if the list is long, an entry may be
   // discarded to make room for this insertion.
   void SuggestHost(const GURL& url);

   // Provide methods for persisting, and restoring contents into a Value class.
   std::unique_ptr<base::ListValue> Serialize() const;
   void Deserialize(const base::Value& referrers);

  private:
   // Helper function for pruning list.  Metric for usefulness is "large accrued
   // value," in the form of latency_ savings associated with a host name.  We
   // also give credit for a name being newly added, by scalling latency per
   // lifetime (time since birth).  For instance, when two names have accrued
   // the same latency_ savings, the older one is less valuable as it didn't
   // accrue savings as quickly.
   void DeleteLeastUseful();

   // The number of times this referer had its subresources scanned for possible
   // preconnection or DNS preresolution.
   int64_t use_count_;

   // We put these into a std::map<>, so we need copy constructors.
   // DISALLOW_COPY_AND_ASSIGN(Referrer);
   // TODO(jar): Consider optimization to use pointers to these instances, and
   // avoid deep copies during re-alloc of the containing map.
 };

 }  // namespace chrome_browser_net

 #endif  // CHROME_BROWSER_NET_REFERRER_H_
	// 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.

	// This class helps to remember what domains may be needed to be resolved when a
	// navigation takes place to a given URL. This information is gathered when a
	// navigation to a subresource identifies a referring URL.
	// When future navigations take place to known referrer sites, then we
	// speculatively either pre-warm a TCP/IP conneciton, or at a minimum, resolve
	// the host name via DNS.

	// All access to this class is performed via the Predictor class, which only
	// operates on the IO thread.

	#ifndef CHROME_BROWSER_NET_REFERRER_H_
	#define CHROME_BROWSER_NET_REFERRER_H_

	#include <stdint.h>

	#include <map>
	#include <memory>

	#include "base/macros.h"
	#include "base/time/time.h"
	#include "base/values.h"
	#include "net/base/host_port_pair.h"
	#include "url/gurl.h"

	namespace chrome_browser_net {

	//------------------------------------------------------------------------------
	// For each hostname in a Referrer, we have a ReferrerValue. It indicates
	// exactly how much value (re: latency reduction, or connection use) has
	// resulted from having this entry.
	class ReferrerValue {
	public:
	ReferrerValue();

	// Used during deserialization.
	void SetSubresourceUseRate(double rate) { subresource_use_rate_ = rate; }

	base::Time birth_time() const { return birth_time_; }

	// Record the fact that we navigated to the associated subresource URL. This
	// will increase the value of the expected subresource_use_rate_
	void SubresourceIsNeeded();

	// Record the fact that the referrer of this subresource was observed. This
	// will diminish the expected subresource_use_rate_ (and will only be
	// counteracted later if we really needed this subresource as a consequence
	// of our associated referrer.)
	void ReferrerWasObserved();

	int64_t navigation_count() const { return navigation_count_; }
	double subresource_use_rate() const { return subresource_use_rate_; }

	int64_t preconnection_count() const { return preconnection_count_; }
	void IncrementPreconnectionCount() { ++preconnection_count_; }

	int64_t preresolution_count() const { return preresolution_count_; }
	void preresolution_increment() { ++preresolution_count_; }

	private:
	const base::Time birth_time_;

	// The number of times this item was navigated to with the fixed referrer.
	int64_t navigation_count_;

	// The number of times this item was preconnected as a consequence of its
	// referrer.
	int64_t preconnection_count_;

	// The number of times this item was pre-resolved (via DNS) as a consequence
	// of its referrer.
	int64_t preresolution_count_;

	// A smoothed estimate of the expected number of connections that will be made
	// to this subresource.
	double subresource_use_rate_;
	};

	//------------------------------------------------------------------------------
	// A list of domain names to pre-resolve. The names are the keys to this map,
	// and the values indicate the amount of benefit derived from having each name
	// around.
	typedef std::map<GURL, ReferrerValue> SubresourceMap;

	//------------------------------------------------------------------------------
	// There is one Referrer instance for each hostname that has acted as an HTTP
	// referer (note mispelling is intentional) for a hostname that was otherwise
	// unexpectedly navgated towards ("unexpected" in the sense that the hostname
	// was probably needed as a subresource of a page, and was not otherwise
	// predictable until the content with the reference arrived). Most typically,
	// an outer page was a page fetched by the user, and this instance lists names
	// in SubresourceMap which are subresources and that were needed to complete the
	// rendering of the outer page.
	class Referrer : public SubresourceMap {
	public:
	Referrer();
	void IncrementUseCount() { ++use_count_; }
	int64_t use_count() const { return use_count_; }

	// Add the indicated url to the list that are resolved via DNS when the user
	// navigates to this referrer. Note that if the list is long, an entry may be
	// discarded to make room for this insertion.
	void SuggestHost(const GURL& url);

	// Provide methods for persisting, and restoring contents into a Value class.
	std::unique_ptr<base::ListValue> Serialize() const;
	void Deserialize(const base::Value& referrers);

	private:
	// Helper function for pruning list. Metric for usefulness is "large accrued
	// value," in the form of latency_ savings associated with a host name. We
	// also give credit for a name being newly added, by scalling latency per
	// lifetime (time since birth). For instance, when two names have accrued
	// the same latency_ savings, the older one is less valuable as it didn't
	// accrue savings as quickly.
	void DeleteLeastUseful();

	// The number of times this referer had its subresources scanned for possible
	// preconnection or DNS preresolution.
	int64_t use_count_;

	// We put these into a std::map<>, so we need copy constructors.
	// DISALLOW_COPY_AND_ASSIGN(Referrer);
	// TODO(jar): Consider optimization to use pointers to these instances, and
	// avoid deep copies during re-alloc of the containing map.
	};

	} // namespace chrome_browser_net

	#endif // CHROME_BROWSER_NET_REFERRER_H_