components/visitedlink/browser/visitedlink_master.h - chromium/src.git - Git at Google

 // 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.

 #ifndef COMPONENTS_VISITEDLINK_BROWSER_VISITEDLINK_MASTER_H_
 #define COMPONENTS_VISITEDLINK_BROWSER_VISITEDLINK_MASTER_H_

 #include <stddef.h>
 #include <stdint.h>

 #include <memory>
 #include <set>
 #include <vector>

 #include "base/callback.h"
 #include "base/callback_forward.h"
 #include "base/files/file_path.h"
 #include "base/gtest_prod_util.h"
 #include "base/macros.h"
 #include "base/memory/ref_counted.h"
 #include "base/memory/weak_ptr.h"
 #include "base/sequenced_task_runner.h"
 #include "base/task_scheduler/post_task.h"
 #include "build/build_config.h"
 #include "components/visitedlink/common/visitedlink_common.h"
 #include "mojo/public/cpp/system/buffer.h"

 #if defined(OS_WIN)
 #include <windows.h>
 #endif

 #if defined(UNIT_TEST) || defined(PERF_TEST) || !defined(NDEBUG)
 #include "base/logging.h"
 #endif

 class GURL;

 namespace content {
 class BrowserContext;
 }

 namespace visitedlink {

 class VisitedLinkDelegate;

 // Controls the link coloring database. The master controls all writing to the
 // database as well as disk I/O. There should be only one master.
 //
 // This class will defer writing operations to the file thread. This means that
 // class destruction, the file may still be open since operations are pending on
 // another thread.
 class VisitedLinkMaster : public VisitedLinkCommon {
  public:
   // Listens to the link coloring database events. The master is given this
   // event as a constructor argument and dispatches events using it.
   class Listener {
    public:
     virtual ~Listener() {}

     // Called when link coloring database has been created or replaced. The
     // argument is the new table handle.
     virtual void NewTable(mojo::SharedBufferHandle table) = 0;

     // Called when new link has been added. The argument is the fingerprint
     // (hash) of the link.
     virtual void Add(Fingerprint fingerprint) = 0;

     // Called when link coloring state has been reset. This may occur when
     // entire or parts of history were deleted. Also this may occur when
     // the table was rebuilt or loaded. The salt is stored in the database file.
     // As a result the salt will change after loading the table from the
     // database file. In this case we use |invalidate_hashes| to inform that
     // all cached visitedlink hashes need to be recalculated.
     virtual void Reset(bool invalidate_hashes) = 0;
   };

   VisitedLinkMaster(content::BrowserContext* browser_context,
                     VisitedLinkDelegate* delegate,
                     bool persist_to_disk);

   // In unit test mode, we allow the caller to optionally specify the database
   // filename so that it can be run from a unit test. The directory where this
   // file resides must exist in this mode. You can also specify the default
   // table size to test table resizing. If this parameter is 0, we will use the
   // defaults.
   //
   // In the unit test mode, we also allow the caller to provide a history
   // service pointer (the history service can't be fetched from the browser
   // process when we're in unit test mode). This can be NULL to try to access
   // the main version, which will probably fail (which can be good for testing
   // this failure mode).
   //
   // When |suppress_rebuild| is set, we'll not attempt to load data from
   // history if the file can't be loaded. This should generally be set for
   // testing except when you want to test the rebuild process explicitly.
   VisitedLinkMaster(Listener* listener,
                     VisitedLinkDelegate* delegate,
                     bool persist_to_disk,
                     bool suppress_rebuild,
                     const base::FilePath& filename,
                     int32_t default_table_size);
   ~VisitedLinkMaster() override;

   // Must be called immediately after object creation. Nothing else will work
   // until this is called. Returns true on success, false means that this
   // object won't work.
   bool Init();

   const mojo::SharedBufferHandle& shared_memory() {
     return shared_memory_.get();
   }

   // Adds a URL to the table.
   void AddURL(const GURL& url);

   // Adds a set of URLs to the table.
   void AddURLs(const std::vector<GURL>& urls);

   // See DeleteURLs.
   class URLIterator {
    public:
     // HasNextURL must return true when this is called. Returns the next URL
     // then advances the iterator. Note that the returned reference is only
     // valid until the next call of NextURL.
     virtual const GURL& NextURL() = 0;

     // Returns true if still has URLs to be iterated.
     virtual bool HasNextURL() const = 0;

    protected:
     virtual ~URLIterator() {}
   };

   // Deletes the specified URLs from |rows| from the table.
   void DeleteURLs(URLIterator* iterator);

   // Clears the visited links table by deleting the file from disk. Used as
   // part of history clearing.
   void DeleteAllURLs();

   // Returns the Delegate of this Master.
   VisitedLinkDelegate* GetDelegate();

 #if defined(UNIT_TEST) || !defined(NDEBUG) || defined(PERF_TEST)
   // This is a debugging function that can be called to double-check internal
   // data structures. It will assert if the check fails.
   void DebugValidate();

   // Sets a task to execute when the next rebuild from history is complete.
   // This is used by unit tests to wait for the rebuild to complete before
   // they continue. The pointer will be owned by this object after the call.
   void set_rebuild_complete_task(const base::Closure& task) {
     DCHECK(rebuild_complete_task_.is_null());
     rebuild_complete_task_ = task;
   }

   // returns the number of items in the table for testing verification
   int32_t GetUsedCount() const { return used_items_; }

   // Returns the listener.
   VisitedLinkMaster::Listener* GetListener() const {
     return listener_.get();
   }

   // Call to cause the entire database file to be re-written from scratch
   // to disk. Used by the performance tester.
   void RewriteFile() {
     WriteFullTable();
   }
 #endif

  private:
   FRIEND_TEST_ALL_PREFIXES(VisitedLinkTest, Delete);
   FRIEND_TEST_ALL_PREFIXES(VisitedLinkTest, BigDelete);
   FRIEND_TEST_ALL_PREFIXES(VisitedLinkTest, BigImport);

   // Keeps the result of loading the table from the database file to the UI
   // thread.
   struct LoadFromFileResult;

   using TableLoadCompleteCallback = base::Callback<void(
       bool success,
       scoped_refptr<LoadFromFileResult> load_from_file_result)>;

   // Object to rebuild the table on the history thread (see the .cc file).
   class TableBuilder;

   // Byte offsets of values in the header.
   static const int32_t kFileHeaderSignatureOffset;
   static const int32_t kFileHeaderVersionOffset;
   static const int32_t kFileHeaderLengthOffset;
   static const int32_t kFileHeaderUsedOffset;
   static const int32_t kFileHeaderSaltOffset;

   // The signature at the beginning of a file.
   static const int32_t kFileSignature;

   // version of the file format this module currently uses
   static const int32_t kFileCurrentVersion;

   // Bytes in the file header, including the salt.
   static const size_t kFileHeaderSize;

   // When creating a fresh new table, we use this many entries.
   static const unsigned kDefaultTableSize;

   // When the user is deleting a boatload of URLs, we don't really want to do
   // individual writes for each of them. When the count exceeds this threshold,
   // we will write the whole table to disk at once instead of individual items.
   static const size_t kBigDeleteThreshold;

   // If a rebuild is in progress, we save the URL in the temporary list.
   // Otherwise, we add this to the table. Returns the index of the
   // inserted fingerprint or null_hash_ on failure.
   Hash TryToAddURL(const GURL& url);

   // File I/O functions
   // ------------------
   // These functions are only called if |persist_to_disk_| is true.

   // Posts the given task to the blocking worker pool with our options.
   void PostIOTask(const base::Location& from_here, const base::Closure& task);

   // Writes the entire table to disk. It will leave the table file open and
   // the handle to it will be stored in file_.
   void WriteFullTable();

   // Tries to load asynchronously the table from the database file.
   bool InitFromFile();

   // Load the table from the database file. Calls |callback| when completed. It
   // is called from the background thread. It must be first in the sequence of
   // background operations with the database file.
   static void LoadFromFile(const base::FilePath& filename,
                            const TableLoadCompleteCallback& callback);

   // Load the table from the database file. Returns true on success.
   // Fills parameter |load_from_file_result| on success. It is called from
   // the background thread.
   static bool LoadApartFromFile(
       const base::FilePath& filename,
       scoped_refptr<LoadFromFileResult>* load_from_file_result);

   // It is called from the background thread and executed on the UI
   // thread.
   void OnTableLoadComplete(
       bool success,
       scoped_refptr<LoadFromFileResult> load_from_file_result);

   // Reads the header of the link coloring database from disk. Assumes the
   // file pointer is at the beginning of the file and that it is the first
   // asynchronous I/O operation on the background thread.
   //
   // Returns true on success and places the size of the table in num_entries
   // and the number of nonzero fingerprints in used_count. This will fail if
   // the version of the file is not the current version of the database.
   static bool ReadFileHeader(FILE* hfile,
                              int32_t* num_entries,
                              int32_t* used_count,
                              uint8_t salt[LINK_SALT_LENGTH]);

   // Fills *filename with the name of the link database filename
   bool GetDatabaseFileName(base::FilePath* filename);

   // Wrapper around Window's WriteFile using asynchronous I/O. This will proxy
   // the write to a background thread.
   void WriteToFile(FILE** hfile, off_t offset, void* data, int32_t data_size);

   // Helper function to schedule and asynchronous write of the used count to
   // disk (this is a common operation).
   void WriteUsedItemCountToFile();

   // Helper function to schedule an asynchronous write of the given range of
   // hash functions to disk. The range is inclusive on both ends. The range can
   // wrap around at 0 and this function will handle it.
   void WriteHashRangeToFile(Hash first_hash, Hash last_hash);

   // Synchronous read from the file. Assumes that it is the first asynchronous
   // I/O operation in the background thread. Returns true if the entire buffer
   // was successfully filled.
   static bool ReadFromFile(FILE* hfile,
                            off_t offset,
                            void* data,
                            size_t data_size);

   // General table handling
   // ----------------------

   // Called to add a fingerprint to the table. If |send_notifications| is true
   // and the item is added successfully, Listener::Add will be invoked.
   // Returns the index of the inserted fingerprint or null_hash_ if there was a
   // duplicate and this item was skippped.
   Hash AddFingerprint(Fingerprint fingerprint, bool send_notifications);

   // Deletes all fingerprints from the given vector from the current hash table
   // and syncs it to disk if there are changes. This does not update the
   // deleted_since_rebuild_ list, the caller must update this itself if there
   // is an update pending.
   void DeleteFingerprintsFromCurrentTable(
       const std::set<Fingerprint>& fingerprints);

   // Removes the indicated fingerprint from the table. If the update_file flag
   // is set, the changes will also be written to disk. Returns true if the
   // fingerprint was deleted, false if it was not in the table to delete.
   bool DeleteFingerprint(Fingerprint fingerprint, bool update_file);

   // Creates a new empty table, call if InitFromFile() fails. Normally, when
   // |suppress_rebuild| is false, the table will be rebuilt from history,
   // keeping us in sync. When |suppress_rebuild| is true, the new table will be
   // empty and we will not consult history. This is used when clearing the
   // database and for unit tests.
   bool InitFromScratch(bool suppress_rebuild);

   // Allocates the Fingerprint structure and length. Structure is filled with 0s
   // and shared header with salt and used_items_ is set to 0.
   bool CreateURLTable(int32_t num_entries);

   // Allocates the Fingerprint structure and length. Returns true on success.
   // Structure is filled with 0s and shared header with salt. The result of
   // allocation is saved into |shared_memory| and |hash_table| points to the
   // beginning of Fingerprint table in |shared_memory|.
   static bool CreateApartURLTable(int32_t num_entries,
                                   const uint8_t salt[LINK_SALT_LENGTH],
                                   mojo::ScopedSharedBufferHandle* shared_memory,
                                   mojo::ScopedSharedBufferMapping* hash_table);

   // A wrapper for CreateURLTable, this will allocate a new table, initialized
   // to empty. The caller is responsible for saving the shared memory pointer
   // and handles before this call (they will be replaced with new ones) and
   // releasing them later. This is designed for callers that make a new table
   // and then copy values from the old table to the new one, then release the
   // old table.
   //
   // Returns true on success. On failure, the old table will be restored. The
   // caller should not attemp to release the pointer/handle in this case.
   bool BeginReplaceURLTable(int32_t num_entries);

   // unallocates the Fingerprint table
   void FreeURLTable();

   // For growing the table. ResizeTableIfNecessary will check to see if the
   // table should be resized and calls ResizeTable if needed. Returns true if
   // we decided to resize the table.
   bool ResizeTableIfNecessary();

   // Resizes the table (growing or shrinking) as necessary to accomodate the
   // current count.
   void ResizeTable(int32_t new_size);

   // Returns the default table size. It can be overrided in unit tests.
   uint32_t DefaultTableSize() const;

   // Returns the desired table size for |item_count| URLs.
   uint32_t NewTableSizeForCount(int32_t item_count) const;

   // Computes the table load as fraction. For example, if 1/4 of the entries are
   // full, this value will be 0.25
   float ComputeTableLoad() const {
     return static_cast<float>(used_items_) / static_cast<float>(table_length_);
   }

   // Initializes a rebuild of the visited link database based on the browser
   // history. This will set table_builder_ while working, and there should not
   // already be a rebuild in place when called. See the definition for more
   // details on how this works.
   //
   // Returns true on success. Failure means we're not attempting to rebuild
   // the database because something failed.
   bool RebuildTableFromDelegate();

   // Callback that the table rebuilder uses when the rebuild is complete.
   // |success| is true if the fingerprint generation succeeded, in which case
   // |fingerprints| will contain the computed fingerprints. On failure, there
   // will be no fingerprints.
   void OnTableRebuildComplete(bool success,
                               const std::vector<Fingerprint>& fingerprints);

   // Increases or decreases the given hash value by one, wrapping around as
   // necessary. Used for probing.
   inline Hash IncrementHash(Hash hash) {
     if (hash >= table_length_ - 1)
       return 0;  // Wrap around.
     return hash + 1;
   }
   inline Hash DecrementHash(Hash hash) {
     if (hash <= 0)
       return table_length_ - 1;  // Wrap around.
     return hash - 1;
   }

   // Returns a pointer to the start of the hash table, given the mapping
   // containing the hash table.
   static Fingerprint* GetHashTableFromMapping(
       const mojo::ScopedSharedBufferMapping& hash_table_mapping);

   // Reference to the browser context that this object belongs to
   // (it knows the path to where the data is stored)
   content::BrowserContext* browser_context_ = nullptr;

   // Client owns the delegate and is responsible for it being valid through
   // the life time this VisitedLinkMaster.
   VisitedLinkDelegate* delegate_;

   // VisitedLinkEventListener to handle incoming events.
   std::unique_ptr<Listener> listener_;

   // Task runner for posting file tasks.
   scoped_refptr<base::SequencedTaskRunner> file_task_runner_ =
       base::CreateSequencedTaskRunnerWithTraits(
           {base::MayBlock(), base::TaskPriority::USER_VISIBLE,
            base::TaskShutdownBehavior::SKIP_ON_SHUTDOWN});

   // When non-NULL, indicates we are in database rebuild mode and points to
   // the class collecting fingerprint information from the history system.
   // The pointer is owned by this class, but it must remain valid while the
   // history query is running. We must only delete it when the query is done.
   scoped_refptr<TableBuilder> table_builder_;

   // Indicates URLs added and deleted since we started rebuilding the table.
   std::set<Fingerprint> added_since_rebuild_;
   std::set<Fingerprint> deleted_since_rebuild_;

   // Indicates URLs added and deleted since we started loading the table.
   // It can be only url because after loading table the salt will be changed.
   std::set<GURL> added_since_load_;
   std::set<GURL> deleted_since_load_;

   // The currently open file with the table in it. This may be NULL if we're
   // rebuilding and haven't written a new version yet or if |persist_to_disk_|
   // is false. Writing to the file may be safely ignored in this case. Also
   // |file_| may be non-NULL but point to a NULL pointer. That would mean that
   // opening of the file is already scheduled in a background thread and any
   // writing to the file can also be scheduled to the background thread as it's
   // guaranteed to be executed after the opening.
   // The class owns both the |file_| pointer and the pointer pointed
   // by |*file_|.
   FILE** file_ = nullptr;

   // If true, will try to persist the hash table to disk. Will rebuild from
   // VisitedLinkDelegate::RebuildTable if there are disk corruptions.
   bool persist_to_disk_;

   // Shared memory consists of a SharedHeader followed by the table.
   mojo::ScopedSharedBufferHandle shared_memory_;

   // A mapping of the table including the SharedHeader.
   // GetHashTableFromMapping() can be used to obtain a pointer to the hash table
   // contained in this mapping.
   mojo::ScopedSharedBufferMapping hash_table_mapping_;

   // When we generate new tables, we increment the serial number of the
   // shared memory object.
   int32_t shared_memory_serial_ = 0;

   // Number of non-empty items in the table, used to compute fullness.
   int32_t used_items_ = 0;

   // We set this to true to avoid writing to the database file.
   bool table_is_loading_from_file_ = false;

   // Testing values -----------------------------------------------------------
   //
   // The following fields exist for testing purposes. They are not used in
   // release builds. It'd be nice to eliminate them in release builds, but we
   // don't want to change the signature of the object between the unit test and
   // regular builds. Instead, we just have "default" values that these take
   // in release builds that give "regular" behavior.

   // Overridden database file name for testing
   base::FilePath database_name_override_;

   // When nonzero, overrides the table size for new databases for testing
   int32_t table_size_override_ = 0;

   // When set, indicates the task that should be run after the next rebuild from
   // history is complete.
   base::Closure rebuild_complete_task_;

   // Set to prevent us from attempting to rebuild the database from global
   // history if we have an error opening the file. This is used for testing,
   // will be false in production.
   bool suppress_rebuild_ = false;

   base::WeakPtrFactory<VisitedLinkMaster> weak_ptr_factory_;

   DISALLOW_COPY_AND_ASSIGN(VisitedLinkMaster);
 };

 // NOTE: These methods are defined inline here, so we can share the compilation
 //       of visitedlink_master.cc between the browser and the unit/perf tests.

 #if defined(UNIT_TEST) || defined(PERF_TEST) || !defined(NDEBUG)
 inline void VisitedLinkMaster::DebugValidate() {
   int32_t used_count = 0;
   for (int32_t i = 0; i < table_length_; i++) {
     if (hash_table_[i])
       used_count++;
   }
   DCHECK_EQ(used_count, used_items_);
 }
 #endif

 }  // namespace visitedlink

 #endif  // COMPONENTS_VISITEDLINK_BROWSER_VISITEDLINK_MASTER_H_
	// 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.

	#ifndef COMPONENTS_VISITEDLINK_BROWSER_VISITEDLINK_MASTER_H_
	#define COMPONENTS_VISITEDLINK_BROWSER_VISITEDLINK_MASTER_H_

	#include <stddef.h>
	#include <stdint.h>

	#include <memory>
	#include <set>
	#include <vector>

	#include "base/callback.h"
	#include "base/callback_forward.h"
	#include "base/files/file_path.h"
	#include "base/gtest_prod_util.h"
	#include "base/macros.h"
	#include "base/memory/ref_counted.h"
	#include "base/memory/weak_ptr.h"
	#include "base/sequenced_task_runner.h"
	#include "base/task_scheduler/post_task.h"
	#include "build/build_config.h"
	#include "components/visitedlink/common/visitedlink_common.h"
	#include "mojo/public/cpp/system/buffer.h"

	#if defined(OS_WIN)
	#include <windows.h>
	#endif

	#if defined(UNIT_TEST) \|\| defined(PERF_TEST) \|\| !defined(NDEBUG)
	#include "base/logging.h"
	#endif

	class GURL;

	namespace content {
	class BrowserContext;
	}

	namespace visitedlink {

	class VisitedLinkDelegate;

	// Controls the link coloring database. The master controls all writing to the
	// database as well as disk I/O. There should be only one master.
	//
	// This class will defer writing operations to the file thread. This means that
	// class destruction, the file may still be open since operations are pending on
	// another thread.
	class VisitedLinkMaster : public VisitedLinkCommon {
	public:
	// Listens to the link coloring database events. The master is given this
	// event as a constructor argument and dispatches events using it.
	class Listener {
	public:
	virtual ~Listener() {}

	// Called when link coloring database has been created or replaced. The
	// argument is the new table handle.
	virtual void NewTable(mojo::SharedBufferHandle table) = 0;

	// Called when new link has been added. The argument is the fingerprint
	// (hash) of the link.
	virtual void Add(Fingerprint fingerprint) = 0;

	// Called when link coloring state has been reset. This may occur when
	// entire or parts of history were deleted. Also this may occur when
	// the table was rebuilt or loaded. The salt is stored in the database file.
	// As a result the salt will change after loading the table from the
	// database file. In this case we use \|invalidate_hashes\| to inform that
	// all cached visitedlink hashes need to be recalculated.
	virtual void Reset(bool invalidate_hashes) = 0;
	};

	VisitedLinkMaster(content::BrowserContext* browser_context,
	VisitedLinkDelegate* delegate,
	bool persist_to_disk);

	// In unit test mode, we allow the caller to optionally specify the database
	// filename so that it can be run from a unit test. The directory where this
	// file resides must exist in this mode. You can also specify the default
	// table size to test table resizing. If this parameter is 0, we will use the
	// defaults.
	//
	// In the unit test mode, we also allow the caller to provide a history
	// service pointer (the history service can't be fetched from the browser
	// process when we're in unit test mode). This can be NULL to try to access
	// the main version, which will probably fail (which can be good for testing
	// this failure mode).
	//
	// When \|suppress_rebuild\| is set, we'll not attempt to load data from
	// history if the file can't be loaded. This should generally be set for
	// testing except when you want to test the rebuild process explicitly.
	VisitedLinkMaster(Listener* listener,
	VisitedLinkDelegate* delegate,
	bool persist_to_disk,
	bool suppress_rebuild,
	const base::FilePath& filename,
	int32_t default_table_size);
	~VisitedLinkMaster() override;

	// Must be called immediately after object creation. Nothing else will work
	// until this is called. Returns true on success, false means that this
	// object won't work.
	bool Init();

	const mojo::SharedBufferHandle& shared_memory() {
	return shared_memory_.get();
	}

	// Adds a URL to the table.
	void AddURL(const GURL& url);

	// Adds a set of URLs to the table.
	void AddURLs(const std::vector<GURL>& urls);

	// See DeleteURLs.
	class URLIterator {
	public:
	// HasNextURL must return true when this is called. Returns the next URL
	// then advances the iterator. Note that the returned reference is only
	// valid until the next call of NextURL.
	virtual const GURL& NextURL() = 0;

	// Returns true if still has URLs to be iterated.
	virtual bool HasNextURL() const = 0;

	protected:
	virtual ~URLIterator() {}
	};

	// Deletes the specified URLs from \|rows\| from the table.
	void DeleteURLs(URLIterator* iterator);

	// Clears the visited links table by deleting the file from disk. Used as
	// part of history clearing.
	void DeleteAllURLs();

	// Returns the Delegate of this Master.
	VisitedLinkDelegate* GetDelegate();

	#if defined(UNIT_TEST) \|\| !defined(NDEBUG) \|\| defined(PERF_TEST)
	// This is a debugging function that can be called to double-check internal
	// data structures. It will assert if the check fails.
	void DebugValidate();

	// Sets a task to execute when the next rebuild from history is complete.
	// This is used by unit tests to wait for the rebuild to complete before
	// they continue. The pointer will be owned by this object after the call.
	void set_rebuild_complete_task(const base::Closure& task) {
	DCHECK(rebuild_complete_task_.is_null());
	rebuild_complete_task_ = task;
	}

	// returns the number of items in the table for testing verification
	int32_t GetUsedCount() const { return used_items_; }

	// Returns the listener.
	VisitedLinkMaster::Listener* GetListener() const {
	return listener_.get();
	}

	// Call to cause the entire database file to be re-written from scratch
	// to disk. Used by the performance tester.
	void RewriteFile() {
	WriteFullTable();
	}
	#endif

	private:
	FRIEND_TEST_ALL_PREFIXES(VisitedLinkTest, Delete);
	FRIEND_TEST_ALL_PREFIXES(VisitedLinkTest, BigDelete);
	FRIEND_TEST_ALL_PREFIXES(VisitedLinkTest, BigImport);

	// Keeps the result of loading the table from the database file to the UI
	// thread.
	struct LoadFromFileResult;

	using TableLoadCompleteCallback = base::Callback<void(
	bool success,
	scoped_refptr<LoadFromFileResult> load_from_file_result)>;

	// Object to rebuild the table on the history thread (see the .cc file).
	class TableBuilder;

	// Byte offsets of values in the header.
	static const int32_t kFileHeaderSignatureOffset;
	static const int32_t kFileHeaderVersionOffset;
	static const int32_t kFileHeaderLengthOffset;
	static const int32_t kFileHeaderUsedOffset;
	static const int32_t kFileHeaderSaltOffset;

	// The signature at the beginning of a file.
	static const int32_t kFileSignature;

	// version of the file format this module currently uses
	static const int32_t kFileCurrentVersion;

	// Bytes in the file header, including the salt.
	static const size_t kFileHeaderSize;

	// When creating a fresh new table, we use this many entries.
	static const unsigned kDefaultTableSize;

	// When the user is deleting a boatload of URLs, we don't really want to do
	// individual writes for each of them. When the count exceeds this threshold,
	// we will write the whole table to disk at once instead of individual items.
	static const size_t kBigDeleteThreshold;

	// If a rebuild is in progress, we save the URL in the temporary list.
	// Otherwise, we add this to the table. Returns the index of the
	// inserted fingerprint or null_hash_ on failure.
	Hash TryToAddURL(const GURL& url);

	// File I/O functions
	// ------------------
	// These functions are only called if \|persist_to_disk_\| is true.

	// Posts the given task to the blocking worker pool with our options.
	void PostIOTask(const base::Location& from_here, const base::Closure& task);

	// Writes the entire table to disk. It will leave the table file open and
	// the handle to it will be stored in file_.
	void WriteFullTable();

	// Tries to load asynchronously the table from the database file.
	bool InitFromFile();

	// Load the table from the database file. Calls \|callback\| when completed. It
	// is called from the background thread. It must be first in the sequence of
	// background operations with the database file.
	static void LoadFromFile(const base::FilePath& filename,
	const TableLoadCompleteCallback& callback);

	// Load the table from the database file. Returns true on success.
	// Fills parameter \|load_from_file_result\| on success. It is called from
	// the background thread.
	static bool LoadApartFromFile(
	const base::FilePath& filename,
	scoped_refptr<LoadFromFileResult>* load_from_file_result);

	// It is called from the background thread and executed on the UI
	// thread.
	void OnTableLoadComplete(
	bool success,
	scoped_refptr<LoadFromFileResult> load_from_file_result);

	// Reads the header of the link coloring database from disk. Assumes the
	// file pointer is at the beginning of the file and that it is the first
	// asynchronous I/O operation on the background thread.
	//
	// Returns true on success and places the size of the table in num_entries
	// and the number of nonzero fingerprints in used_count. This will fail if
	// the version of the file is not the current version of the database.
	static bool ReadFileHeader(FILE* hfile,
	int32_t* num_entries,
	int32_t* used_count,
	uint8_t salt[LINK_SALT_LENGTH]);

	// Fills *filename with the name of the link database filename
	bool GetDatabaseFileName(base::FilePath* filename);

	// Wrapper around Window's WriteFile using asynchronous I/O. This will proxy
	// the write to a background thread.
	void WriteToFile(FILE** hfile, off_t offset, void* data, int32_t data_size);

	// Helper function to schedule and asynchronous write of the used count to
	// disk (this is a common operation).
	void WriteUsedItemCountToFile();

	// Helper function to schedule an asynchronous write of the given range of
	// hash functions to disk. The range is inclusive on both ends. The range can
	// wrap around at 0 and this function will handle it.
	void WriteHashRangeToFile(Hash first_hash, Hash last_hash);

	// Synchronous read from the file. Assumes that it is the first asynchronous
	// I/O operation in the background thread. Returns true if the entire buffer
	// was successfully filled.
	static bool ReadFromFile(FILE* hfile,
	off_t offset,
	void* data,
	size_t data_size);

	// General table handling
	// ----------------------

	// Called to add a fingerprint to the table. If \|send_notifications\| is true
	// and the item is added successfully, Listener::Add will be invoked.
	// Returns the index of the inserted fingerprint or null_hash_ if there was a
	// duplicate and this item was skippped.
	Hash AddFingerprint(Fingerprint fingerprint, bool send_notifications);

	// Deletes all fingerprints from the given vector from the current hash table
	// and syncs it to disk if there are changes. This does not update the
	// deleted_since_rebuild_ list, the caller must update this itself if there
	// is an update pending.
	void DeleteFingerprintsFromCurrentTable(
	const std::set<Fingerprint>& fingerprints);

	// Removes the indicated fingerprint from the table. If the update_file flag
	// is set, the changes will also be written to disk. Returns true if the
	// fingerprint was deleted, false if it was not in the table to delete.
	bool DeleteFingerprint(Fingerprint fingerprint, bool update_file);

	// Creates a new empty table, call if InitFromFile() fails. Normally, when
	// \|suppress_rebuild\| is false, the table will be rebuilt from history,
	// keeping us in sync. When \|suppress_rebuild\| is true, the new table will be
	// empty and we will not consult history. This is used when clearing the
	// database and for unit tests.
	bool InitFromScratch(bool suppress_rebuild);

	// Allocates the Fingerprint structure and length. Structure is filled with 0s
	// and shared header with salt and used_items_ is set to 0.
	bool CreateURLTable(int32_t num_entries);

	// Allocates the Fingerprint structure and length. Returns true on success.
	// Structure is filled with 0s and shared header with salt. The result of
	// allocation is saved into \|shared_memory\| and \|hash_table\| points to the
	// beginning of Fingerprint table in \|shared_memory\|.
	static bool CreateApartURLTable(int32_t num_entries,
	const uint8_t salt[LINK_SALT_LENGTH],
	mojo::ScopedSharedBufferHandle* shared_memory,
	mojo::ScopedSharedBufferMapping* hash_table);

	// A wrapper for CreateURLTable, this will allocate a new table, initialized
	// to empty. The caller is responsible for saving the shared memory pointer
	// and handles before this call (they will be replaced with new ones) and
	// releasing them later. This is designed for callers that make a new table
	// and then copy values from the old table to the new one, then release the
	// old table.
	//
	// Returns true on success. On failure, the old table will be restored. The
	// caller should not attemp to release the pointer/handle in this case.
	bool BeginReplaceURLTable(int32_t num_entries);

	// unallocates the Fingerprint table
	void FreeURLTable();

	// For growing the table. ResizeTableIfNecessary will check to see if the
	// table should be resized and calls ResizeTable if needed. Returns true if
	// we decided to resize the table.
	bool ResizeTableIfNecessary();

	// Resizes the table (growing or shrinking) as necessary to accomodate the
	// current count.
	void ResizeTable(int32_t new_size);

	// Returns the default table size. It can be overrided in unit tests.
	uint32_t DefaultTableSize() const;

	// Returns the desired table size for \|item_count\| URLs.
	uint32_t NewTableSizeForCount(int32_t item_count) const;

	// Computes the table load as fraction. For example, if 1/4 of the entries are
	// full, this value will be 0.25
	float ComputeTableLoad() const {
	return static_cast<float>(used_items_) / static_cast<float>(table_length_);
	}

	// Initializes a rebuild of the visited link database based on the browser
	// history. This will set table_builder_ while working, and there should not
	// already be a rebuild in place when called. See the definition for more
	// details on how this works.
	//
	// Returns true on success. Failure means we're not attempting to rebuild
	// the database because something failed.
	bool RebuildTableFromDelegate();

	// Callback that the table rebuilder uses when the rebuild is complete.
	// \|success\| is true if the fingerprint generation succeeded, in which case
	// \|fingerprints\| will contain the computed fingerprints. On failure, there
	// will be no fingerprints.
	void OnTableRebuildComplete(bool success,
	const std::vector<Fingerprint>& fingerprints);

	// Increases or decreases the given hash value by one, wrapping around as
	// necessary. Used for probing.
	inline Hash IncrementHash(Hash hash) {
	if (hash >= table_length_ - 1)
	return 0; // Wrap around.
	return hash + 1;
	}
	inline Hash DecrementHash(Hash hash) {
	if (hash <= 0)
	return table_length_ - 1; // Wrap around.
	return hash - 1;
	}

	// Returns a pointer to the start of the hash table, given the mapping
	// containing the hash table.
	static Fingerprint* GetHashTableFromMapping(
	const mojo::ScopedSharedBufferMapping& hash_table_mapping);

	// Reference to the browser context that this object belongs to
	// (it knows the path to where the data is stored)
	content::BrowserContext* browser_context_ = nullptr;

	// Client owns the delegate and is responsible for it being valid through
	// the life time this VisitedLinkMaster.
	VisitedLinkDelegate* delegate_;

	// VisitedLinkEventListener to handle incoming events.
	std::unique_ptr<Listener> listener_;

	// Task runner for posting file tasks.
	scoped_refptr<base::SequencedTaskRunner> file_task_runner_ =
	base::CreateSequencedTaskRunnerWithTraits(
	{base::MayBlock(), base::TaskPriority::USER_VISIBLE,
	base::TaskShutdownBehavior::SKIP_ON_SHUTDOWN});

	// When non-NULL, indicates we are in database rebuild mode and points to
	// the class collecting fingerprint information from the history system.
	// The pointer is owned by this class, but it must remain valid while the
	// history query is running. We must only delete it when the query is done.
	scoped_refptr<TableBuilder> table_builder_;

	// Indicates URLs added and deleted since we started rebuilding the table.
	std::set<Fingerprint> added_since_rebuild_;
	std::set<Fingerprint> deleted_since_rebuild_;

	// Indicates URLs added and deleted since we started loading the table.
	// It can be only url because after loading table the salt will be changed.
	std::set<GURL> added_since_load_;
	std::set<GURL> deleted_since_load_;

	// The currently open file with the table in it. This may be NULL if we're
	// rebuilding and haven't written a new version yet or if \|persist_to_disk_\|
	// is false. Writing to the file may be safely ignored in this case. Also
	// \|file_\| may be non-NULL but point to a NULL pointer. That would mean that
	// opening of the file is already scheduled in a background thread and any
	// writing to the file can also be scheduled to the background thread as it's
	// guaranteed to be executed after the opening.
	// The class owns both the \|file_\| pointer and the pointer pointed
	// by \|*file_\|.
	FILE** file_ = nullptr;

	// If true, will try to persist the hash table to disk. Will rebuild from
	// VisitedLinkDelegate::RebuildTable if there are disk corruptions.
	bool persist_to_disk_;

	// Shared memory consists of a SharedHeader followed by the table.
	mojo::ScopedSharedBufferHandle shared_memory_;

	// A mapping of the table including the SharedHeader.
	// GetHashTableFromMapping() can be used to obtain a pointer to the hash table
	// contained in this mapping.
	mojo::ScopedSharedBufferMapping hash_table_mapping_;

	// When we generate new tables, we increment the serial number of the
	// shared memory object.
	int32_t shared_memory_serial_ = 0;

	// Number of non-empty items in the table, used to compute fullness.
	int32_t used_items_ = 0;

	// We set this to true to avoid writing to the database file.
	bool table_is_loading_from_file_ = false;

	// Testing values -----------------------------------------------------------
	//
	// The following fields exist for testing purposes. They are not used in
	// release builds. It'd be nice to eliminate them in release builds, but we
	// don't want to change the signature of the object between the unit test and
	// regular builds. Instead, we just have "default" values that these take
	// in release builds that give "regular" behavior.

	// Overridden database file name for testing
	base::FilePath database_name_override_;

	// When nonzero, overrides the table size for new databases for testing
	int32_t table_size_override_ = 0;

	// When set, indicates the task that should be run after the next rebuild from
	// history is complete.
	base::Closure rebuild_complete_task_;

	// Set to prevent us from attempting to rebuild the database from global
	// history if we have an error opening the file. This is used for testing,
	// will be false in production.
	bool suppress_rebuild_ = false;

	base::WeakPtrFactory<VisitedLinkMaster> weak_ptr_factory_;

	DISALLOW_COPY_AND_ASSIGN(VisitedLinkMaster);
	};

	// NOTE: These methods are defined inline here, so we can share the compilation
	// of visitedlink_master.cc between the browser and the unit/perf tests.

	#if defined(UNIT_TEST) \|\| defined(PERF_TEST) \|\| !defined(NDEBUG)
	inline void VisitedLinkMaster::DebugValidate() {
	int32_t used_count = 0;
	for (int32_t i = 0; i < table_length_; i++) {
	if (hash_table_[i])
	used_count++;
	}
	DCHECK_EQ(used_count, used_items_);
	}
	#endif

	} // namespace visitedlink

	#endif // COMPONENTS_VISITEDLINK_BROWSER_VISITEDLINK_MASTER_H_