chrome/browser/safe_browsing/safe_browsing_store.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.

 #ifndef CHROME_BROWSER_SAFE_BROWSING_SAFE_BROWSING_STORE_H_
 #define CHROME_BROWSER_SAFE_BROWSING_SAFE_BROWSING_STORE_H_
 #pragma once

 #include <set>
 #include <vector>

 #include "base/basictypes.h"
 #include "base/callback.h"
 #include "base/hash_tables.h"
 #include "base/time.h"
 #include "chrome/browser/safe_browsing/safe_browsing_util.h"

 class FilePath;

 // SafeBrowsingStore provides a storage abstraction for the
 // safe-browsing data used to build the bloom filter.  The items
 // stored are:
 //   The set of add and sub chunks seen.
 //   List of SBAddPrefix (chunk_id and SBPrefix).
 //   List of SBSubPrefix (chunk_id and the target SBAddPrefix).
 //   List of SBAddFullHash (SBAddPrefix, time received and an SBFullHash).
 //   List of SBSubFullHash (chunk_id, target SBAddPrefix, and an SBFullHash).
 //
 // The store is geared towards updating the data, not runtime access
 // to the data (that is handled by SafeBrowsingDatabase).  Updates are
 // handled similar to a SQL transaction cycle, with the new data being
 // returned from FinishUpdate() (the COMMIT).  Data is not persistent
 // until FinishUpdate() returns successfully.
 //
 // FinishUpdate() also handles dropping items who's chunk has been
 // deleted, and netting out the add/sub lists (when a sub matches an
 // add, both are dropped).

 // GetAddChunkId(), GetAddPrefix() and GetFullHash() are exposed so
 // that these items can be generically compared with each other by
 // SBAddPrefixLess() and SBAddPrefixHashLess().

 struct SBAddPrefix {
   int32 chunk_id;
   SBPrefix prefix;

   SBAddPrefix(int32 id, SBPrefix p) : chunk_id(id), prefix(p) {}
   SBAddPrefix() : chunk_id(), prefix() {}

   int32 GetAddChunkId() const { return chunk_id; }
   SBPrefix GetAddPrefix() const { return prefix; }
 };

 typedef std::deque<SBAddPrefix> SBAddPrefixes;

 struct SBSubPrefix {
   int32 chunk_id;
   int32 add_chunk_id;
   SBPrefix add_prefix;

   SBSubPrefix(int32 id, int32 add_id, int prefix)
       : chunk_id(id), add_chunk_id(add_id), add_prefix(prefix) {}
   SBSubPrefix() : chunk_id(), add_chunk_id(), add_prefix() {}

   int32 GetAddChunkId() const { return add_chunk_id; }
   SBPrefix GetAddPrefix() const { return add_prefix; }
 };

 struct SBAddFullHash {
   int32 chunk_id;
   int32 received;
   SBFullHash full_hash;

   SBAddFullHash(int32 id, base::Time r, const SBFullHash& h)
       : chunk_id(id),
         received(static_cast<int32>(r.ToTimeT())),
         full_hash(h) {
   }

   // Provided for ReadAddHashes() implementations, which already have
   // an int32 for the time.
   SBAddFullHash(int32 id, int32 r, const SBFullHash& h)
       : chunk_id(id), received(r), full_hash(h) {}

   SBAddFullHash() : chunk_id(), received(), full_hash() {}

   int32 GetAddChunkId() const { return chunk_id; }
   SBPrefix GetAddPrefix() const { return full_hash.prefix; }
 };

 struct SBSubFullHash {
   int32 chunk_id;
   int32 add_chunk_id;
   SBFullHash full_hash;

   SBSubFullHash(int32 id, int32 add_id, const SBFullHash& h)
       : chunk_id(id), add_chunk_id(add_id), full_hash(h) {}
   SBSubFullHash() : chunk_id(), add_chunk_id(), full_hash() {}

   int32 GetAddChunkId() const { return add_chunk_id; }
   SBPrefix GetAddPrefix() const { return full_hash.prefix; }
 };

 // Determine less-than based on add chunk and prefix.
 template <class T, class U>
 bool SBAddPrefixLess(const T& a, const U& b) {
   if (a.GetAddChunkId() != b.GetAddChunkId())
     return a.GetAddChunkId() < b.GetAddChunkId();

   return a.GetAddPrefix() < b.GetAddPrefix();
 }

 // Determine less-than based on add chunk, prefix, and full hash.
 // Prefix can compare differently than hash due to byte ordering,
 // so it must take precedence.
 template <class T, class U>
 bool SBAddPrefixHashLess(const T& a, const U& b) {
   if (SBAddPrefixLess(a, b))
     return true;

   if (SBAddPrefixLess(b, a))
     return false;

   return memcmp(a.full_hash.full_hash, b.full_hash.full_hash,
                 sizeof(a.full_hash.full_hash)) < 0;
 }

 // Process the lists for subs which knock out adds.  For any item in
 // |sub_prefixes| which has a match in |add_prefixes|, knock out the
 // matched items from all vectors.  Additionally remove items from
 // deleted chunks.
 //
 // TODO(shess): Since the prefixes are uniformly-distributed hashes,
 // there aren't many ways to organize the inputs for efficient
 // processing.  For this reason, the vectors are sorted and processed
 // in parallel.  At this time this code does the sorting internally,
 // but it might make sense to make sorting an API requirement so that
 // the storage can optimize for it.
 //
 // TODO(shess): The original code did not process |sub_full_hashes|
 // for matches in |add_full_hashes|, so this code doesn't, either.  I
 // think this is probably a bug.
 void SBProcessSubs(SBAddPrefixes* add_prefixes,
                    std::vector<SBSubPrefix>* sub_prefixes,
                    std::vector<SBAddFullHash>* add_full_hashes,
                    std::vector<SBSubFullHash>* sub_full_hashes,
                    const base::hash_set<int32>& add_chunks_deleted,
                    const base::hash_set<int32>& sub_chunks_deleted);

 // Records a histogram of the number of items in |prefix_misses| which
 // are not in |add_prefixes|.
 void SBCheckPrefixMisses(const SBAddPrefixes& add_prefixes,
                          const std::set<SBPrefix>& prefix_misses);

 // TODO(shess): This uses int32 rather than int because it's writing
 // specifically-sized items to files.  SBPrefix should likewise be
 // explicitly sized.

 // Abstract interface for storing data.
 class SafeBrowsingStore {
  public:
   SafeBrowsingStore() {}
   virtual ~SafeBrowsingStore() {}

   // Sets up the information for later use, but does not necessarily
   // check whether the underlying file exists, or is valid.  If
   // |curruption_callback| is non-NULL it will be called if corruption
   // is detected, which could happen as part of any call other than
   // Delete().  The appropriate action is to use Delete() to clear the
   // store.
   virtual void Init(const FilePath& filename,
                     const base::Closure& corruption_callback) = 0;

   // Deletes the files which back the store, returning true if
   // successful.
   virtual bool Delete() = 0;

   // Get all Add prefixes out from the store.
   virtual bool GetAddPrefixes(SBAddPrefixes* add_prefixes) = 0;

   // Get all add full-length hashes.
   virtual bool GetAddFullHashes(
       std::vector<SBAddFullHash>* add_full_hashes) = 0;

   // Start an update.  None of the following methods should be called
   // unless this returns true.  If this returns true, the update
   // should be terminated by FinishUpdate() or CancelUpdate().
   virtual bool BeginUpdate() = 0;

   // Start a chunk of data.  None of the methods through FinishChunk()
   // should be called unless this returns true.
   // TODO(shess): Would it make sense for this to accept |chunk_id|?
   // Possibly not, because of possible confusion between sub_chunk_id
   // and add_chunk_id.
   virtual bool BeginChunk() = 0;

   virtual bool WriteAddPrefix(int32 chunk_id, SBPrefix prefix) = 0;
   virtual bool WriteAddHash(int32 chunk_id,
                             base::Time receive_time,
                             const SBFullHash& full_hash) = 0;
   virtual bool WriteSubPrefix(int32 chunk_id,
                               int32 add_chunk_id, SBPrefix prefix) = 0;
   virtual bool WriteSubHash(int32 chunk_id, int32 add_chunk_id,
                             const SBFullHash& full_hash) = 0;

   // Collect the chunk data and preferrably store it on disk to
   // release memory.  Shoul not modify the data in-place.
   virtual bool FinishChunk() = 0;

   // Track the chunks which have been seen.
   virtual void SetAddChunk(int32 chunk_id) = 0;
   virtual bool CheckAddChunk(int32 chunk_id) = 0;
   virtual void GetAddChunks(std::vector<int32>* out) = 0;
   virtual void SetSubChunk(int32 chunk_id) = 0;
   virtual bool CheckSubChunk(int32 chunk_id) = 0;
   virtual void GetSubChunks(std::vector<int32>* out) = 0;

   // Delete the indicated chunk_id.  The chunk will continue to be
   // visible until the end of the transaction.
   virtual void DeleteAddChunk(int32 chunk_id) = 0;
   virtual void DeleteSubChunk(int32 chunk_id) = 0;

   // Pass the collected chunks through SBPRocessSubs() and commit to
   // permanent storage.  The resulting add prefixes and hashes will be
   // stored in |add_prefixes_result| and |add_full_hashes_result|.
   // |pending_adds| is the set of full hashes which have been received
   // since the previous update, and is provided as a convenience
   // (could be written via WriteAddHash(), but that would flush the
   // chunk to disk).  |prefix_misses| is the set of prefixes where the
   // |GetHash()| request returned no full hashes, used for diagnostic
   // purposes.
   virtual bool FinishUpdate(
       const std::vector<SBAddFullHash>& pending_adds,
       const std::set<SBPrefix>& prefix_misses,
       SBAddPrefixes* add_prefixes_result,
       std::vector<SBAddFullHash>* add_full_hashes_result) = 0;

   // Cancel the update in process and remove any temporary disk
   // storage, leaving the original data unmodified.
   virtual bool CancelUpdate() = 0;

  private:
   DISALLOW_COPY_AND_ASSIGN(SafeBrowsingStore);
 };

 #endif  // CHROME_BROWSER_SAFE_BROWSING_SAFE_BROWSING_STORE_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.

	#ifndef CHROME_BROWSER_SAFE_BROWSING_SAFE_BROWSING_STORE_H_
	#define CHROME_BROWSER_SAFE_BROWSING_SAFE_BROWSING_STORE_H_
	#pragma once

	#include <set>
	#include <vector>

	#include "base/basictypes.h"
	#include "base/callback.h"
	#include "base/hash_tables.h"
	#include "base/time.h"
	#include "chrome/browser/safe_browsing/safe_browsing_util.h"

	class FilePath;

	// SafeBrowsingStore provides a storage abstraction for the
	// safe-browsing data used to build the bloom filter. The items
	// stored are:
	// The set of add and sub chunks seen.
	// List of SBAddPrefix (chunk_id and SBPrefix).
	// List of SBSubPrefix (chunk_id and the target SBAddPrefix).
	// List of SBAddFullHash (SBAddPrefix, time received and an SBFullHash).
	// List of SBSubFullHash (chunk_id, target SBAddPrefix, and an SBFullHash).
	//
	// The store is geared towards updating the data, not runtime access
	// to the data (that is handled by SafeBrowsingDatabase). Updates are
	// handled similar to a SQL transaction cycle, with the new data being
	// returned from FinishUpdate() (the COMMIT). Data is not persistent
	// until FinishUpdate() returns successfully.
	//
	// FinishUpdate() also handles dropping items who's chunk has been
	// deleted, and netting out the add/sub lists (when a sub matches an
	// add, both are dropped).

	// GetAddChunkId(), GetAddPrefix() and GetFullHash() are exposed so
	// that these items can be generically compared with each other by
	// SBAddPrefixLess() and SBAddPrefixHashLess().

	struct SBAddPrefix {
	int32 chunk_id;
	SBPrefix prefix;

	SBAddPrefix(int32 id, SBPrefix p) : chunk_id(id), prefix(p) {}
	SBAddPrefix() : chunk_id(), prefix() {}

	int32 GetAddChunkId() const { return chunk_id; }
	SBPrefix GetAddPrefix() const { return prefix; }
	};

	typedef std::deque<SBAddPrefix> SBAddPrefixes;

	struct SBSubPrefix {
	int32 chunk_id;
	int32 add_chunk_id;
	SBPrefix add_prefix;

	SBSubPrefix(int32 id, int32 add_id, int prefix)
	: chunk_id(id), add_chunk_id(add_id), add_prefix(prefix) {}
	SBSubPrefix() : chunk_id(), add_chunk_id(), add_prefix() {}

	int32 GetAddChunkId() const { return add_chunk_id; }
	SBPrefix GetAddPrefix() const { return add_prefix; }
	};

	struct SBAddFullHash {
	int32 chunk_id;
	int32 received;
	SBFullHash full_hash;

	SBAddFullHash(int32 id, base::Time r, const SBFullHash& h)
	: chunk_id(id),
	received(static_cast<int32>(r.ToTimeT())),
	full_hash(h) {
	}

	// Provided for ReadAddHashes() implementations, which already have
	// an int32 for the time.
	SBAddFullHash(int32 id, int32 r, const SBFullHash& h)
	: chunk_id(id), received(r), full_hash(h) {}

	SBAddFullHash() : chunk_id(), received(), full_hash() {}

	int32 GetAddChunkId() const { return chunk_id; }
	SBPrefix GetAddPrefix() const { return full_hash.prefix; }
	};

	struct SBSubFullHash {
	int32 chunk_id;
	int32 add_chunk_id;
	SBFullHash full_hash;

	SBSubFullHash(int32 id, int32 add_id, const SBFullHash& h)
	: chunk_id(id), add_chunk_id(add_id), full_hash(h) {}
	SBSubFullHash() : chunk_id(), add_chunk_id(), full_hash() {}

	int32 GetAddChunkId() const { return add_chunk_id; }
	SBPrefix GetAddPrefix() const { return full_hash.prefix; }
	};

	// Determine less-than based on add chunk and prefix.
	template <class T, class U>
	bool SBAddPrefixLess(const T& a, const U& b) {
	if (a.GetAddChunkId() != b.GetAddChunkId())
	return a.GetAddChunkId() < b.GetAddChunkId();

	return a.GetAddPrefix() < b.GetAddPrefix();
	}

	// Determine less-than based on add chunk, prefix, and full hash.
	// Prefix can compare differently than hash due to byte ordering,
	// so it must take precedence.
	template <class T, class U>
	bool SBAddPrefixHashLess(const T& a, const U& b) {
	if (SBAddPrefixLess(a, b))
	return true;

	if (SBAddPrefixLess(b, a))
	return false;

	return memcmp(a.full_hash.full_hash, b.full_hash.full_hash,
	sizeof(a.full_hash.full_hash)) < 0;
	}

	// Process the lists for subs which knock out adds. For any item in
	// \|sub_prefixes\| which has a match in \|add_prefixes\|, knock out the
	// matched items from all vectors. Additionally remove items from
	// deleted chunks.
	//
	// TODO(shess): Since the prefixes are uniformly-distributed hashes,
	// there aren't many ways to organize the inputs for efficient
	// processing. For this reason, the vectors are sorted and processed
	// in parallel. At this time this code does the sorting internally,
	// but it might make sense to make sorting an API requirement so that
	// the storage can optimize for it.
	//
	// TODO(shess): The original code did not process \|sub_full_hashes\|
	// for matches in \|add_full_hashes\|, so this code doesn't, either. I
	// think this is probably a bug.
	void SBProcessSubs(SBAddPrefixes* add_prefixes,
	std::vector<SBSubPrefix>* sub_prefixes,
	std::vector<SBAddFullHash>* add_full_hashes,
	std::vector<SBSubFullHash>* sub_full_hashes,
	const base::hash_set<int32>& add_chunks_deleted,
	const base::hash_set<int32>& sub_chunks_deleted);

	// Records a histogram of the number of items in \|prefix_misses\| which
	// are not in \|add_prefixes\|.
	void SBCheckPrefixMisses(const SBAddPrefixes& add_prefixes,
	const std::set<SBPrefix>& prefix_misses);

	// TODO(shess): This uses int32 rather than int because it's writing
	// specifically-sized items to files. SBPrefix should likewise be
	// explicitly sized.

	// Abstract interface for storing data.
	class SafeBrowsingStore {
	public:
	SafeBrowsingStore() {}
	virtual ~SafeBrowsingStore() {}

	// Sets up the information for later use, but does not necessarily
	// check whether the underlying file exists, or is valid. If
	// \|curruption_callback\| is non-NULL it will be called if corruption
	// is detected, which could happen as part of any call other than
	// Delete(). The appropriate action is to use Delete() to clear the
	// store.
	virtual void Init(const FilePath& filename,
	const base::Closure& corruption_callback) = 0;

	// Deletes the files which back the store, returning true if
	// successful.
	virtual bool Delete() = 0;

	// Get all Add prefixes out from the store.
	virtual bool GetAddPrefixes(SBAddPrefixes* add_prefixes) = 0;

	// Get all add full-length hashes.
	virtual bool GetAddFullHashes(
	std::vector<SBAddFullHash>* add_full_hashes) = 0;

	// Start an update. None of the following methods should be called
	// unless this returns true. If this returns true, the update
	// should be terminated by FinishUpdate() or CancelUpdate().
	virtual bool BeginUpdate() = 0;

	// Start a chunk of data. None of the methods through FinishChunk()
	// should be called unless this returns true.
	// TODO(shess): Would it make sense for this to accept \|chunk_id\|?
	// Possibly not, because of possible confusion between sub_chunk_id
	// and add_chunk_id.
	virtual bool BeginChunk() = 0;

	virtual bool WriteAddPrefix(int32 chunk_id, SBPrefix prefix) = 0;
	virtual bool WriteAddHash(int32 chunk_id,
	base::Time receive_time,
	const SBFullHash& full_hash) = 0;
	virtual bool WriteSubPrefix(int32 chunk_id,
	int32 add_chunk_id, SBPrefix prefix) = 0;
	virtual bool WriteSubHash(int32 chunk_id, int32 add_chunk_id,
	const SBFullHash& full_hash) = 0;

	// Collect the chunk data and preferrably store it on disk to
	// release memory. Shoul not modify the data in-place.
	virtual bool FinishChunk() = 0;

	// Track the chunks which have been seen.
	virtual void SetAddChunk(int32 chunk_id) = 0;
	virtual bool CheckAddChunk(int32 chunk_id) = 0;
	virtual void GetAddChunks(std::vector<int32>* out) = 0;
	virtual void SetSubChunk(int32 chunk_id) = 0;
	virtual bool CheckSubChunk(int32 chunk_id) = 0;
	virtual void GetSubChunks(std::vector<int32>* out) = 0;

	// Delete the indicated chunk_id. The chunk will continue to be
	// visible until the end of the transaction.
	virtual void DeleteAddChunk(int32 chunk_id) = 0;
	virtual void DeleteSubChunk(int32 chunk_id) = 0;

	// Pass the collected chunks through SBPRocessSubs() and commit to
	// permanent storage. The resulting add prefixes and hashes will be
	// stored in \|add_prefixes_result\| and \|add_full_hashes_result\|.
	// \|pending_adds\| is the set of full hashes which have been received
	// since the previous update, and is provided as a convenience
	// (could be written via WriteAddHash(), but that would flush the
	// chunk to disk). \|prefix_misses\| is the set of prefixes where the
	// \|GetHash()\| request returned no full hashes, used for diagnostic
	// purposes.
	virtual bool FinishUpdate(
	const std::vector<SBAddFullHash>& pending_adds,
	const std::set<SBPrefix>& prefix_misses,
	SBAddPrefixes* add_prefixes_result,
	std::vector<SBAddFullHash>* add_full_hashes_result) = 0;

	// Cancel the update in process and remove any temporary disk
	// storage, leaving the original data unmodified.
	virtual bool CancelUpdate() = 0;

	private:
	DISALLOW_COPY_AND_ASSIGN(SafeBrowsingStore);
	};

	#endif // CHROME_BROWSER_SAFE_BROWSING_SAFE_BROWSING_STORE_H_