src/net/base/sdch_manager.h - cobalt - 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.

 // Provides global database of differential decompression dictionaries for the
 // SDCH filter (processes sdch enconded content).

 // Exactly one instance of SdchManager is built, and all references are made
 // into that collection.
 //
 // The SdchManager maintains a collection of memory resident dictionaries.  It
 // can find a dictionary (based on a server specification of a hash), store a
 // dictionary, and make judgements about what URLs can use, set, etc. a
 // dictionary.

 // These dictionaries are acquired over the net, and include a header
 // (containing metadata) as well as a VCDIFF dictionary (for use by a VCDIFF
 // module) to decompress data.

 #ifndef NET_BASE_SDCH_MANAGER_H_
 #define NET_BASE_SDCH_MANAGER_H_

 #include <map>
 #include <set>
 #include <string>

 #include "base/gtest_prod_util.h"
 #include "base/memory/ref_counted.h"
 #include "base/memory/scoped_ptr.h"
 #include "base/time.h"
 #include "base/threading/non_thread_safe.h"
 #include "googleurl/src/gurl.h"
 #include "net/base/net_export.h"

 namespace net {

 //------------------------------------------------------------------------------
 // Create a public interface to help us load SDCH dictionaries.
 // The SdchManager class allows registration to support this interface.
 // A browser may register a fetcher that is used by the dictionary managers to
 // get data from a specified URL.  This allows us to use very high level browser
 // functionality in this base (when the functionaity can be provided).
 class SdchFetcher {
  public:
   SdchFetcher() {}
   virtual ~SdchFetcher() {}

   // The Schedule() method is called when there is a need to get a dictionary
   // from a server.  The callee is responsible for getting that dictionary_text,
   // and then calling back to AddSdchDictionary() to the SdchManager instance.
   virtual void Schedule(const GURL& dictionary_url) = 0;
  private:
   DISALLOW_COPY_AND_ASSIGN(SdchFetcher);
 };

 //------------------------------------------------------------------------------

 class NET_EXPORT SdchManager : public NON_EXPORTED_BASE(base::NonThreadSafe) {
  public:
   // A list of errors that appeared and were either resolved, or used to turn
   // off sdch encoding.
   enum ProblemCodes {
     MIN_PROBLEM_CODE,

     // Content-encoding correction problems.
     ADDED_CONTENT_ENCODING = 1,
     FIXED_CONTENT_ENCODING = 2,
     FIXED_CONTENT_ENCODINGS = 3,

     // Content decoding errors.
     DECODE_HEADER_ERROR = 4,
     DECODE_BODY_ERROR = 5,

     // More content-encoding correction problems.
     OPTIONAL_GUNZIP_ENCODING_ADDED = 6,

     // Content encoding correction when we're not even tagged as HTML!?!
     BINARY_ADDED_CONTENT_ENCODING = 7,
     BINARY_FIXED_CONTENT_ENCODING = 8,
     BINARY_FIXED_CONTENT_ENCODINGS = 9,

     // Dictionary selection for use problems.
     DICTIONARY_FOUND_HAS_WRONG_DOMAIN = 10,
     DICTIONARY_FOUND_HAS_WRONG_PORT_LIST = 11,
     DICTIONARY_FOUND_HAS_WRONG_PATH = 12,
     DICTIONARY_FOUND_HAS_WRONG_SCHEME = 13,
     DICTIONARY_HASH_NOT_FOUND = 14,
     DICTIONARY_HASH_MALFORMED = 15,

     // Dictionary saving problems.
     DICTIONARY_HAS_NO_HEADER = 20,
     DICTIONARY_HEADER_LINE_MISSING_COLON = 21,
     DICTIONARY_MISSING_DOMAIN_SPECIFIER = 22,
     DICTIONARY_SPECIFIES_TOP_LEVEL_DOMAIN = 23,
     DICTIONARY_DOMAIN_NOT_MATCHING_SOURCE_URL = 24,
     DICTIONARY_PORT_NOT_MATCHING_SOURCE_URL = 25,
     DICTIONARY_HAS_NO_TEXT = 26,
     DICTIONARY_REFERER_URL_HAS_DOT_IN_PREFIX = 27,

     // Dictionary loading problems.
     DICTIONARY_LOAD_ATTEMPT_FROM_DIFFERENT_HOST = 30,
     DICTIONARY_SELECTED_FOR_SSL = 31,
     DICTIONARY_ALREADY_LOADED = 32,
     DICTIONARY_SELECTED_FROM_NON_HTTP = 33,
     DICTIONARY_IS_TOO_LARGE= 34,
     DICTIONARY_COUNT_EXCEEDED = 35,
     DICTIONARY_ALREADY_SCHEDULED_TO_DOWNLOAD = 36,
     DICTIONARY_ALREADY_TRIED_TO_DOWNLOAD = 37,

     // Failsafe hack.
     ATTEMPT_TO_DECODE_NON_HTTP_DATA = 40,


     // Content-Encoding problems detected, with no action taken.
     MULTIENCODING_FOR_NON_SDCH_REQUEST = 50,
     SDCH_CONTENT_ENCODE_FOR_NON_SDCH_REQUEST = 51,

     // Dictionary manager issues.
     DOMAIN_BLACKLIST_INCLUDES_TARGET = 61,

     // Problematic decode recovery methods.
     META_REFRESH_RECOVERY = 70,            // Dictionary not found.
     // defunct =  71, // Almost the same as META_REFRESH_UNSUPPORTED.
     // defunct = 72,  // Almost the same as CACHED_META_REFRESH_UNSUPPORTED.
     // defunct = 73,  // PASSING_THROUGH_NON_SDCH plus DISCARD_TENTATIVE_SDCH.
     META_REFRESH_UNSUPPORTED = 74,         // Unrecoverable error.
     CACHED_META_REFRESH_UNSUPPORTED = 75,  // As above, but pulled from cache.
     PASSING_THROUGH_NON_SDCH = 76,  // Tagged sdch but missing dictionary-hash.
     INCOMPLETE_SDCH_CONTENT = 77,   // Last window was not completely decoded.
     PASS_THROUGH_404_CODE = 78,     // URL not found message passing through.

     // This next report is very common, and not really an error scenario, but
     // it exercises the error recovery logic.
     PASS_THROUGH_OLD_CACHED = 79,   // Back button got pre-SDCH cached content.

     // Common decoded recovery methods.
     META_REFRESH_CACHED_RECOVERY = 80,  // Probably startup tab loading.
     DISCARD_TENTATIVE_SDCH = 81,        // Server decided not to use sdch.

     // Non SDCH problems, only accounted for to make stat counting complete
     // (i.e., be able to be sure all dictionary advertisements are accounted
     // for).

     UNFLUSHED_CONTENT = 90,    // Possible error in filter chaining.
     // defunct = 91,           // MISSING_TIME_STATS (Should never happen.)
     CACHE_DECODED = 92,        // No timing stats recorded.
     // defunct = 93,           // OVER_10_MINUTES (No timing stats recorded.)
     UNINITIALIZED = 94,        // Filter never even got initialized.
     PRIOR_TO_DICTIONARY = 95,  // We hadn't even parsed a dictionary selector.
     DECODE_ERROR = 96,         // Something went wrong during decode.

     // Problem during the latency test.
     LATENCY_TEST_DISALLOWED = 100,  // SDCH now failing, but it worked before!

     MAX_PROBLEM_CODE  // Used to bound histogram.
   };

   // Use the following static limits to block DOS attacks until we implement
   // a cached dictionary evicition strategy.
   static const size_t kMaxDictionarySize;
   static const size_t kMaxDictionaryCount;

   // There is one instance of |Dictionary| for each memory-cached SDCH
   // dictionary.
   class NET_EXPORT_PRIVATE Dictionary : public base::RefCounted<Dictionary> {
    public:
     // Sdch filters can get our text to use in decoding compressed data.
     const std::string& text() const { return text_; }

    private:
     friend class base::RefCounted<Dictionary>;
     friend class SdchManager;  // Only manager can construct an instance.
     FRIEND_TEST_ALL_PREFIXES(SdchFilterTest, PathMatch);

     // Construct a vc-diff usable dictionary from the dictionary_text starting
     // at the given offset.  The supplied client_hash should be used to
     // advertise the dictionary's availability relative to the suppplied URL.
     Dictionary(const std::string& dictionary_text,
                size_t offset,
                const std::string& client_hash,
                const GURL& url,
                const std::string& domain,
                const std::string& path,
                const base::Time& expiration,
                const std::set<int>& ports);
     ~Dictionary();

     const GURL& url() const { return url_; }
     const std::string& client_hash() const { return client_hash_; }

     // Security method to check if we can advertise this dictionary for use
     // if the |target_url| returns SDCH compressed data.
     bool CanAdvertise(const GURL& target_url);

     // Security methods to check if we can establish a new dictionary with the
     // given data, that arrived in response to get of dictionary_url.
     static bool CanSet(const std::string& domain, const std::string& path,
                        const std::set<int>& ports, const GURL& dictionary_url);

     // Security method to check if we can use a dictionary to decompress a
     // target that arrived with a reference to this dictionary.
     bool CanUse(const GURL& referring_url);

     // Compare paths to see if they "match" for dictionary use.
     static bool PathMatch(const std::string& path,
                           const std::string& restriction);

     // Compare domains to see if the "match" for dictionary use.
     static bool DomainMatch(const GURL& url, const std::string& restriction);


     // The actual text of the dictionary.
     std::string text_;

     // Part of the hash of text_ that the client uses to advertise the fact that
     // it has a specific dictionary pre-cached.
     std::string client_hash_;

     // The GURL that arrived with the text_ in a URL request to specify where
     // this dictionary may be used.
     const GURL url_;

     // Metadate "headers" in before dictionary text contained the following:
     // Each dictionary payload consists of several headers, followed by the text
     // of the dictionary.  The following are the known headers.
     const std::string domain_;
     const std::string path_;
     const base::Time expiration_;  // Implied by max-age.
     const std::set<int> ports_;

     DISALLOW_COPY_AND_ASSIGN(Dictionary);
   };

   SdchManager();
   ~SdchManager();

   // Discontinue fetching of dictionaries, as we're now shutting down.
   static void Shutdown();

   // Provide access to the single instance of this class.
   static SdchManager* Global();

   // Record stats on various errors.
   static void SdchErrorRecovery(ProblemCodes problem);

   // Register a fetcher that this class can use to obtain dictionaries.
   void set_sdch_fetcher(SdchFetcher* fetcher);

   // Enables or disables SDCH compression.
   static void EnableSdchSupport(bool enabled);

   static bool sdch_enabled() { return g_sdch_enabled_; }

   // Briefly prevent further advertising of SDCH on this domain (if SDCH is
   // enabled). After enough calls to IsInSupportedDomain() the blacklisting
   // will be removed.  Additional blacklists take exponentially more calls
   // to IsInSupportedDomain() before the blacklisting is undone.
   // Used when filter errors are found from a given domain, but it is plausible
   // that the cause is temporary (such as application startup, where cached
   // entries are used, but a dictionary is not yet loaded).
   static void BlacklistDomain(const GURL& url);

   // Used when SEVERE filter errors are found from a given domain, to prevent
   // further use of SDCH on that domain.
   static void BlacklistDomainForever(const GURL& url);

   // Unit test only, this function resets enabling of sdch, and clears the
   // blacklist.
   static void ClearBlacklistings();

   // Unit test only, this function resets the blacklisting count for a domain.
   static void ClearDomainBlacklisting(const std::string& domain);

   // Unit test only: indicate how many more times a domain will be blacklisted.
   static int BlackListDomainCount(const std::string& domain);

   // Unit test only: Indicate what current blacklist increment is for a domain.
   static int BlacklistDomainExponential(const std::string& domain);

   // Check to see if SDCH is enabled (globally), and the given URL is in a
   // supported domain (i.e., not blacklisted, and either the specific supported
   // domain, or all domains were assumed supported).  If it is blacklist, reduce
   // by 1 the number of times it will be reported as blacklisted.
   bool IsInSupportedDomain(const GURL& url);

   // Schedule the URL fetching to load a dictionary. This will always return
   // before the dictionary is actually loaded and added.
   // After the implied task does completes, the dictionary will have been
   // cached in memory.
   void FetchDictionary(const GURL& request_url, const GURL& dictionary_url);

   // Security test function used before initiating a FetchDictionary.
   // Return true if fetch is legal.
   bool CanFetchDictionary(const GURL& referring_url,
                           const GURL& dictionary_url) const;

   // Add an SDCH dictionary to our list of availible dictionaries. This addition
   // will fail (return false) if addition is illegal (data in the dictionary is
   // not acceptable from the dictionary_url; dictionary already added, etc.).
   bool AddSdchDictionary(const std::string& dictionary_text,
                          const GURL& dictionary_url);

   // Find the vcdiff dictionary (the body of the sdch dictionary that appears
   // after the meta-data headers like Domain:...) with the given |server_hash|
   // to use to decompreses data that arrived as SDCH encoded content.  Check to
   // be sure the returned |dictionary| can be used for decoding content supplied
   // in response to a request for |referring_url|.
   // Caller is responsible for AddRef()ing the dictionary, and Release()ing it
   // when done.
   // Return null in |dictionary| if there is no matching legal dictionary.
   void GetVcdiffDictionary(const std::string& server_hash,
                            const GURL& referring_url,
                            Dictionary** dictionary);

   // Get list of available (pre-cached) dictionaries that we have already loaded
   // into memory.  The list is a comma separated list of (client) hashes per
   // the SDCH spec.
   void GetAvailDictionaryList(const GURL& target_url, std::string* list);

   // Construct the pair of hashes for client and server to identify an SDCH
   // dictionary.  This is only made public to facilitate unit testing, but is
   // otherwise private
   static void GenerateHash(const std::string& dictionary_text,
                            std::string* client_hash, std::string* server_hash);

   // For Latency testing only, we need to know if we've succeeded in doing a
   // round trip before starting our comparative tests.  If ever we encounter
   // problems with SDCH, we opt-out of the test unless/until we perform a
   // complete SDCH decoding.
   bool AllowLatencyExperiment(const GURL& url) const;

   void SetAllowLatencyExperiment(const GURL& url, bool enable);

  private:
   typedef std::map<std::string, int> DomainCounter;
   typedef std::set<std::string> ExperimentSet;

   // A map of dictionaries info indexed by the hash that the server provides.
   typedef std::map<std::string, Dictionary*> DictionaryMap;

   // The one global instance of that holds all the data.
   static SdchManager* global_;

   // Support SDCH compression, by advertising in headers.
   static bool g_sdch_enabled_;

   // A simple implementation of a RFC 3548 "URL safe" base64 encoder.
   static void UrlSafeBase64Encode(const std::string& input,
                                   std::string* output);
   DictionaryMap dictionaries_;

   // An instance that can fetch a dictionary given a URL.
   scoped_ptr<SdchFetcher> fetcher_;

   // List domains where decode failures have required disabling sdch, along with
   // count of how many additonal uses should be blacklisted.
   DomainCounter blacklisted_domains_;

   // Support exponential backoff in number of domain accesses before
   // blacklisting expires.
   DomainCounter exponential_blacklist_count;

   // List of hostnames for which a latency experiment is allowed (because a
   // round trip test has recently passed).
   ExperimentSet allow_latency_experiment_;

   DISALLOW_COPY_AND_ASSIGN(SdchManager);
 };

 }  // namespace net

 #endif  // NET_BASE_SDCH_MANAGER_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.

	// Provides global database of differential decompression dictionaries for the
	// SDCH filter (processes sdch enconded content).

	// Exactly one instance of SdchManager is built, and all references are made
	// into that collection.
	//
	// The SdchManager maintains a collection of memory resident dictionaries. It
	// can find a dictionary (based on a server specification of a hash), store a
	// dictionary, and make judgements about what URLs can use, set, etc. a
	// dictionary.

	// These dictionaries are acquired over the net, and include a header
	// (containing metadata) as well as a VCDIFF dictionary (for use by a VCDIFF
	// module) to decompress data.

	#ifndef NET_BASE_SDCH_MANAGER_H_
	#define NET_BASE_SDCH_MANAGER_H_

	#include <map>
	#include <set>
	#include <string>

	#include "base/gtest_prod_util.h"
	#include "base/memory/ref_counted.h"
	#include "base/memory/scoped_ptr.h"
	#include "base/time.h"
	#include "base/threading/non_thread_safe.h"
	#include "googleurl/src/gurl.h"
	#include "net/base/net_export.h"

	namespace net {

	//------------------------------------------------------------------------------
	// Create a public interface to help us load SDCH dictionaries.
	// The SdchManager class allows registration to support this interface.
	// A browser may register a fetcher that is used by the dictionary managers to
	// get data from a specified URL. This allows us to use very high level browser
	// functionality in this base (when the functionaity can be provided).
	class SdchFetcher {
	public:
	SdchFetcher() {}
	virtual ~SdchFetcher() {}

	// The Schedule() method is called when there is a need to get a dictionary
	// from a server. The callee is responsible for getting that dictionary_text,
	// and then calling back to AddSdchDictionary() to the SdchManager instance.
	virtual void Schedule(const GURL& dictionary_url) = 0;
	private:
	DISALLOW_COPY_AND_ASSIGN(SdchFetcher);
	};

	//------------------------------------------------------------------------------

	class NET_EXPORT SdchManager : public NON_EXPORTED_BASE(base::NonThreadSafe) {
	public:
	// A list of errors that appeared and were either resolved, or used to turn
	// off sdch encoding.
	enum ProblemCodes {
	MIN_PROBLEM_CODE,

	// Content-encoding correction problems.
	ADDED_CONTENT_ENCODING = 1,
	FIXED_CONTENT_ENCODING = 2,
	FIXED_CONTENT_ENCODINGS = 3,

	// Content decoding errors.
	DECODE_HEADER_ERROR = 4,
	DECODE_BODY_ERROR = 5,

	// More content-encoding correction problems.
	OPTIONAL_GUNZIP_ENCODING_ADDED = 6,

	// Content encoding correction when we're not even tagged as HTML!?!
	BINARY_ADDED_CONTENT_ENCODING = 7,
	BINARY_FIXED_CONTENT_ENCODING = 8,
	BINARY_FIXED_CONTENT_ENCODINGS = 9,

	// Dictionary selection for use problems.
	DICTIONARY_FOUND_HAS_WRONG_DOMAIN = 10,
	DICTIONARY_FOUND_HAS_WRONG_PORT_LIST = 11,
	DICTIONARY_FOUND_HAS_WRONG_PATH = 12,
	DICTIONARY_FOUND_HAS_WRONG_SCHEME = 13,
	DICTIONARY_HASH_NOT_FOUND = 14,
	DICTIONARY_HASH_MALFORMED = 15,

	// Dictionary saving problems.
	DICTIONARY_HAS_NO_HEADER = 20,
	DICTIONARY_HEADER_LINE_MISSING_COLON = 21,
	DICTIONARY_MISSING_DOMAIN_SPECIFIER = 22,
	DICTIONARY_SPECIFIES_TOP_LEVEL_DOMAIN = 23,
	DICTIONARY_DOMAIN_NOT_MATCHING_SOURCE_URL = 24,
	DICTIONARY_PORT_NOT_MATCHING_SOURCE_URL = 25,
	DICTIONARY_HAS_NO_TEXT = 26,
	DICTIONARY_REFERER_URL_HAS_DOT_IN_PREFIX = 27,

	// Dictionary loading problems.
	DICTIONARY_LOAD_ATTEMPT_FROM_DIFFERENT_HOST = 30,
	DICTIONARY_SELECTED_FOR_SSL = 31,
	DICTIONARY_ALREADY_LOADED = 32,
	DICTIONARY_SELECTED_FROM_NON_HTTP = 33,
	DICTIONARY_IS_TOO_LARGE= 34,
	DICTIONARY_COUNT_EXCEEDED = 35,
	DICTIONARY_ALREADY_SCHEDULED_TO_DOWNLOAD = 36,
	DICTIONARY_ALREADY_TRIED_TO_DOWNLOAD = 37,

	// Failsafe hack.
	ATTEMPT_TO_DECODE_NON_HTTP_DATA = 40,


	// Content-Encoding problems detected, with no action taken.
	MULTIENCODING_FOR_NON_SDCH_REQUEST = 50,
	SDCH_CONTENT_ENCODE_FOR_NON_SDCH_REQUEST = 51,

	// Dictionary manager issues.
	DOMAIN_BLACKLIST_INCLUDES_TARGET = 61,

	// Problematic decode recovery methods.
	META_REFRESH_RECOVERY = 70, // Dictionary not found.
	// defunct = 71, // Almost the same as META_REFRESH_UNSUPPORTED.
	// defunct = 72, // Almost the same as CACHED_META_REFRESH_UNSUPPORTED.
	// defunct = 73, // PASSING_THROUGH_NON_SDCH plus DISCARD_TENTATIVE_SDCH.
	META_REFRESH_UNSUPPORTED = 74, // Unrecoverable error.
	CACHED_META_REFRESH_UNSUPPORTED = 75, // As above, but pulled from cache.
	PASSING_THROUGH_NON_SDCH = 76, // Tagged sdch but missing dictionary-hash.
	INCOMPLETE_SDCH_CONTENT = 77, // Last window was not completely decoded.
	PASS_THROUGH_404_CODE = 78, // URL not found message passing through.

	// This next report is very common, and not really an error scenario, but
	// it exercises the error recovery logic.
	PASS_THROUGH_OLD_CACHED = 79, // Back button got pre-SDCH cached content.

	// Common decoded recovery methods.
	META_REFRESH_CACHED_RECOVERY = 80, // Probably startup tab loading.
	DISCARD_TENTATIVE_SDCH = 81, // Server decided not to use sdch.

	// Non SDCH problems, only accounted for to make stat counting complete
	// (i.e., be able to be sure all dictionary advertisements are accounted
	// for).

	UNFLUSHED_CONTENT = 90, // Possible error in filter chaining.
	// defunct = 91, // MISSING_TIME_STATS (Should never happen.)
	CACHE_DECODED = 92, // No timing stats recorded.
	// defunct = 93, // OVER_10_MINUTES (No timing stats recorded.)
	UNINITIALIZED = 94, // Filter never even got initialized.
	PRIOR_TO_DICTIONARY = 95, // We hadn't even parsed a dictionary selector.
	DECODE_ERROR = 96, // Something went wrong during decode.

	// Problem during the latency test.
	LATENCY_TEST_DISALLOWED = 100, // SDCH now failing, but it worked before!

	MAX_PROBLEM_CODE // Used to bound histogram.
	};

	// Use the following static limits to block DOS attacks until we implement
	// a cached dictionary evicition strategy.
	static const size_t kMaxDictionarySize;
	static const size_t kMaxDictionaryCount;

	// There is one instance of \|Dictionary\| for each memory-cached SDCH
	// dictionary.
	class NET_EXPORT_PRIVATE Dictionary : public base::RefCounted<Dictionary> {
	public:
	// Sdch filters can get our text to use in decoding compressed data.
	const std::string& text() const { return text_; }

	private:
	friend class base::RefCounted<Dictionary>;
	friend class SdchManager; // Only manager can construct an instance.
	FRIEND_TEST_ALL_PREFIXES(SdchFilterTest, PathMatch);

	// Construct a vc-diff usable dictionary from the dictionary_text starting
	// at the given offset. The supplied client_hash should be used to
	// advertise the dictionary's availability relative to the suppplied URL.
	Dictionary(const std::string& dictionary_text,
	size_t offset,
	const std::string& client_hash,
	const GURL& url,
	const std::string& domain,
	const std::string& path,
	const base::Time& expiration,
	const std::set<int>& ports);
	~Dictionary();

	const GURL& url() const { return url_; }
	const std::string& client_hash() const { return client_hash_; }

	// Security method to check if we can advertise this dictionary for use
	// if the \|target_url\| returns SDCH compressed data.
	bool CanAdvertise(const GURL& target_url);

	// Security methods to check if we can establish a new dictionary with the
	// given data, that arrived in response to get of dictionary_url.
	static bool CanSet(const std::string& domain, const std::string& path,
	const std::set<int>& ports, const GURL& dictionary_url);

	// Security method to check if we can use a dictionary to decompress a
	// target that arrived with a reference to this dictionary.
	bool CanUse(const GURL& referring_url);

	// Compare paths to see if they "match" for dictionary use.
	static bool PathMatch(const std::string& path,
	const std::string& restriction);

	// Compare domains to see if the "match" for dictionary use.
	static bool DomainMatch(const GURL& url, const std::string& restriction);


	// The actual text of the dictionary.
	std::string text_;

	// Part of the hash of text_ that the client uses to advertise the fact that
	// it has a specific dictionary pre-cached.
	std::string client_hash_;

	// The GURL that arrived with the text_ in a URL request to specify where
	// this dictionary may be used.
	const GURL url_;

	// Metadate "headers" in before dictionary text contained the following:
	// Each dictionary payload consists of several headers, followed by the text
	// of the dictionary. The following are the known headers.
	const std::string domain_;
	const std::string path_;
	const base::Time expiration_; // Implied by max-age.
	const std::set<int> ports_;

	DISALLOW_COPY_AND_ASSIGN(Dictionary);
	};

	SdchManager();
	~SdchManager();

	// Discontinue fetching of dictionaries, as we're now shutting down.
	static void Shutdown();

	// Provide access to the single instance of this class.
	static SdchManager* Global();

	// Record stats on various errors.
	static void SdchErrorRecovery(ProblemCodes problem);

	// Register a fetcher that this class can use to obtain dictionaries.
	void set_sdch_fetcher(SdchFetcher* fetcher);

	// Enables or disables SDCH compression.
	static void EnableSdchSupport(bool enabled);

	static bool sdch_enabled() { return g_sdch_enabled_; }

	// Briefly prevent further advertising of SDCH on this domain (if SDCH is
	// enabled). After enough calls to IsInSupportedDomain() the blacklisting
	// will be removed. Additional blacklists take exponentially more calls
	// to IsInSupportedDomain() before the blacklisting is undone.
	// Used when filter errors are found from a given domain, but it is plausible
	// that the cause is temporary (such as application startup, where cached
	// entries are used, but a dictionary is not yet loaded).
	static void BlacklistDomain(const GURL& url);

	// Used when SEVERE filter errors are found from a given domain, to prevent
	// further use of SDCH on that domain.
	static void BlacklistDomainForever(const GURL& url);

	// Unit test only, this function resets enabling of sdch, and clears the
	// blacklist.
	static void ClearBlacklistings();

	// Unit test only, this function resets the blacklisting count for a domain.
	static void ClearDomainBlacklisting(const std::string& domain);

	// Unit test only: indicate how many more times a domain will be blacklisted.
	static int BlackListDomainCount(const std::string& domain);

	// Unit test only: Indicate what current blacklist increment is for a domain.
	static int BlacklistDomainExponential(const std::string& domain);

	// Check to see if SDCH is enabled (globally), and the given URL is in a
	// supported domain (i.e., not blacklisted, and either the specific supported
	// domain, or all domains were assumed supported). If it is blacklist, reduce
	// by 1 the number of times it will be reported as blacklisted.
	bool IsInSupportedDomain(const GURL& url);

	// Schedule the URL fetching to load a dictionary. This will always return
	// before the dictionary is actually loaded and added.
	// After the implied task does completes, the dictionary will have been
	// cached in memory.
	void FetchDictionary(const GURL& request_url, const GURL& dictionary_url);

	// Security test function used before initiating a FetchDictionary.
	// Return true if fetch is legal.
	bool CanFetchDictionary(const GURL& referring_url,
	const GURL& dictionary_url) const;

	// Add an SDCH dictionary to our list of availible dictionaries. This addition
	// will fail (return false) if addition is illegal (data in the dictionary is
	// not acceptable from the dictionary_url; dictionary already added, etc.).
	bool AddSdchDictionary(const std::string& dictionary_text,
	const GURL& dictionary_url);

	// Find the vcdiff dictionary (the body of the sdch dictionary that appears
	// after the meta-data headers like Domain:...) with the given \|server_hash\|
	// to use to decompreses data that arrived as SDCH encoded content. Check to
	// be sure the returned \|dictionary\| can be used for decoding content supplied
	// in response to a request for \|referring_url\|.
	// Caller is responsible for AddRef()ing the dictionary, and Release()ing it
	// when done.
	// Return null in \|dictionary\| if there is no matching legal dictionary.
	void GetVcdiffDictionary(const std::string& server_hash,
	const GURL& referring_url,
	Dictionary** dictionary);

	// Get list of available (pre-cached) dictionaries that we have already loaded
	// into memory. The list is a comma separated list of (client) hashes per
	// the SDCH spec.
	void GetAvailDictionaryList(const GURL& target_url, std::string* list);

	// Construct the pair of hashes for client and server to identify an SDCH
	// dictionary. This is only made public to facilitate unit testing, but is
	// otherwise private
	static void GenerateHash(const std::string& dictionary_text,
	std::string* client_hash, std::string* server_hash);

	// For Latency testing only, we need to know if we've succeeded in doing a
	// round trip before starting our comparative tests. If ever we encounter
	// problems with SDCH, we opt-out of the test unless/until we perform a
	// complete SDCH decoding.
	bool AllowLatencyExperiment(const GURL& url) const;

	void SetAllowLatencyExperiment(const GURL& url, bool enable);

	private:
	typedef std::map<std::string, int> DomainCounter;
	typedef std::set<std::string> ExperimentSet;

	// A map of dictionaries info indexed by the hash that the server provides.
	typedef std::map<std::string, Dictionary*> DictionaryMap;

	// The one global instance of that holds all the data.
	static SdchManager* global_;

	// Support SDCH compression, by advertising in headers.
	static bool g_sdch_enabled_;

	// A simple implementation of a RFC 3548 "URL safe" base64 encoder.
	static void UrlSafeBase64Encode(const std::string& input,
	std::string* output);
	DictionaryMap dictionaries_;

	// An instance that can fetch a dictionary given a URL.
	scoped_ptr<SdchFetcher> fetcher_;

	// List domains where decode failures have required disabling sdch, along with
	// count of how many additonal uses should be blacklisted.
	DomainCounter blacklisted_domains_;

	// Support exponential backoff in number of domain accesses before
	// blacklisting expires.
	DomainCounter exponential_blacklist_count;

	// List of hostnames for which a latency experiment is allowed (because a
	// round trip test has recently passed).
	ExperimentSet allow_latency_experiment_;

	DISALLOW_COPY_AND_ASSIGN(SdchManager);
	};

	} // namespace net

	#endif // NET_BASE_SDCH_MANAGER_H_