// Copyright 2014 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. #include "net/extras/sqlite/sqlite_channel_id_store.h" #include #include #include #include #include "base/bind.h" #include "base/files/file_path.h" #include "base/files/file_util.h" #include "base/location.h" #include "base/logging.h" #include "base/macros.h" #include "base/metrics/histogram_macros.h" #include "base/sequenced_task_runner.h" #include "base/stl_util.h" #include "base/strings/string_util.h" #include "crypto/ec_private_key.h" #include "net/cert/asn1_util.h" #include "net/cert/x509_certificate.h" #include "net/cookies/cookie_util.h" #include "net/ssl/channel_id_service.h" #include "net/ssl/ssl_client_cert_type.h" #include "sql/error_delegate_util.h" #include "sql/meta_table.h" #include "sql/statement.h" #include "sql/transaction.h" #include "url/gurl.h" namespace { // Version number of the database. const int kCurrentVersionNumber = 6; const int kCompatibleVersionNumber = 6; // Used in the DomainBoundCerts.DBLoadStatus histogram to record the status of // the Channel ID database when loading it from disk. It reports reasons why the // db could fail to load, or that it was loaded successfully. // Do not change or re-use values. enum DbLoadStatus { // The path for the directory containing the db doesn't exist and couldn't be // created. PATH_DOES_NOT_EXIST = 0, // Unable to open the database. FAILED_TO_OPEN = 1, // Failed to migrate the db to the current version. MIGRATION_FAILED = 2, // Unable to execute SELECT statement to load contents from db. INVALID_SELECT_STATEMENT = 3, // New database successfully created. NEW_DB = 4, // Database successfully loaded. LOADED = 5, // Database loaded, but one or more keys were skipped. LOADED_WITH_ERRORS = 6, DB_LOAD_STATUS_MAX }; void RecordDbLoadStatus(DbLoadStatus status) { UMA_HISTOGRAM_ENUMERATION("DomainBoundCerts.DBLoadStatus", status, DB_LOAD_STATUS_MAX); } } // namespace namespace net { // This class is designed to be shared between any calling threads and the // background task runner. It batches operations and commits them on a timer. class SQLiteChannelIDStore::Backend : public base::RefCountedThreadSafe { public: Backend( const base::FilePath& path, const scoped_refptr& background_task_runner) : path_(path), num_pending_(0), force_keep_session_state_(false), background_task_runner_(background_task_runner), corruption_detected_(false) {} // Creates or loads the SQLite database. void Load(const LoadedCallback& loaded_callback); // Batch a channel ID addition. void AddChannelID(const DefaultChannelIDStore::ChannelID& channel_id); // Batch a channel ID deletion. void DeleteChannelID(const DefaultChannelIDStore::ChannelID& channel_id); // Post background delete of all channel ids for |server_identifiers|. void DeleteAllInList(const std::list& server_identifiers); // Commit any pending operations and close the database. This must be called // before the object is destructed. void Close(); void SetForceKeepSessionState(); // Posts a task to flush pending operations to the database. void Flush(); private: friend class base::RefCountedThreadSafe; // You should call Close() before destructing this object. virtual ~Backend() { DCHECK(!db_.get()) << "Close should have already been called."; DCHECK_EQ(0u, num_pending_); DCHECK(pending_.empty()); } void LoadInBackground( std::vector>* channel_ids); // Database upgrade statements. bool EnsureDatabaseVersion(); class PendingOperation { public: enum OperationType { CHANNEL_ID_ADD, CHANNEL_ID_DELETE }; PendingOperation(OperationType op, const DefaultChannelIDStore::ChannelID& channel_id) : op_(op), channel_id_(channel_id) {} OperationType op() const { return op_; } const DefaultChannelIDStore::ChannelID& channel_id() const { return channel_id_; } private: OperationType op_; DefaultChannelIDStore::ChannelID channel_id_; }; private: // Batch a channel id operation (add or delete). void BatchOperation(PendingOperation::OperationType op, const DefaultChannelIDStore::ChannelID& channel_id); // Prunes the list of pending operations to remove any operations for an // identifier in |server_identifiers|. void PrunePendingOperationsForDeletes( const std::list& server_identifiers); // Commit our pending operations to the database. void Commit(); // Close() executed on the background task runner. void InternalBackgroundClose(); void BackgroundDeleteAllInList( const std::list& server_identifiers); void DatabaseErrorCallback(int error, sql::Statement* stmt); void KillDatabase(); const base::FilePath path_; std::unique_ptr db_; sql::MetaTable meta_table_; typedef std::list> PendingOperationsList; PendingOperationsList pending_; PendingOperationsList::size_type num_pending_; // True if the persistent store should skip clear on exit rules. bool force_keep_session_state_; // Guard |pending_|, |num_pending_| and |force_keep_session_state_|. base::Lock lock_; scoped_refptr background_task_runner_; // Indicates if the kill-database callback has been scheduled. bool corruption_detected_; DISALLOW_COPY_AND_ASSIGN(Backend); }; void SQLiteChannelIDStore::Backend::Load( const LoadedCallback& loaded_callback) { // This function should be called only once per instance. DCHECK(!db_.get()); std::unique_ptr< std::vector>> channel_ids( new std::vector>()); std::vector>* channel_ids_ptr = channel_ids.get(); background_task_runner_->PostTaskAndReply( FROM_HERE, base::Bind(&Backend::LoadInBackground, this, channel_ids_ptr), base::Bind(loaded_callback, base::Passed(&channel_ids))); } void SQLiteChannelIDStore::Backend::LoadInBackground( std::vector>* channel_ids) { DCHECK(background_task_runner_->RunsTasksInCurrentSequence()); // This method should be called only once per instance. DCHECK(!db_.get()); // Ensure the parent directory for storing certs is created before reading // from it. const base::FilePath dir = path_.DirName(); if (!base::PathExists(dir) && !base::CreateDirectory(dir)) { RecordDbLoadStatus(PATH_DOES_NOT_EXIST); return; } db_.reset(new sql::Connection); db_->set_histogram_tag("DomainBoundCerts"); // Unretained to avoid a ref loop with db_. db_->set_error_callback( base::Bind(&SQLiteChannelIDStore::Backend::DatabaseErrorCallback, base::Unretained(this))); DbLoadStatus load_result = LOADED; if (!base::PathExists(path_)) { load_result = NEW_DB; } if (!db_->Open(path_)) { NOTREACHED() << "Unable to open cert DB."; if (corruption_detected_) KillDatabase(); db_.reset(); RecordDbLoadStatus(FAILED_TO_OPEN); return; } if (!EnsureDatabaseVersion()) { NOTREACHED() << "Unable to open cert DB."; if (corruption_detected_) KillDatabase(); meta_table_.Reset(); db_.reset(); RecordDbLoadStatus(MIGRATION_FAILED); return; } db_->Preload(); // Slurp all the certs into the out-vector. sql::Statement smt(db_->GetUniqueStatement( "SELECT host, private_key, creation_time FROM channel_id")); if (!smt.is_valid()) { if (corruption_detected_) KillDatabase(); meta_table_.Reset(); db_.reset(); RecordDbLoadStatus(INVALID_SELECT_STATEMENT); return; } while (smt.Step()) { std::vector private_key_from_db; smt.ColumnBlobAsVector(1, &private_key_from_db); std::unique_ptr key( crypto::ECPrivateKey::CreateFromPrivateKeyInfo(private_key_from_db)); if (!key) { load_result = LOADED_WITH_ERRORS; continue; } std::unique_ptr channel_id( new DefaultChannelIDStore::ChannelID( smt.ColumnString(0), // host base::Time::FromInternalValue(smt.ColumnInt64(2)), std::move(key))); channel_ids->push_back(std::move(channel_id)); } RecordDbLoadStatus(load_result); } bool SQLiteChannelIDStore::Backend::EnsureDatabaseVersion() { // Version check. if (!meta_table_.Init( db_.get(), kCurrentVersionNumber, kCompatibleVersionNumber)) { return false; } if (meta_table_.GetCompatibleVersionNumber() > kCurrentVersionNumber) { LOG(WARNING) << "Server bound cert database is too new."; return false; } int cur_version = meta_table_.GetVersionNumber(); UMA_HISTOGRAM_EXACT_LINEAR("DomainBoundCerts.DBVersion", cur_version, kCurrentVersionNumber + 1); sql::Transaction transaction(db_.get()); if (!transaction.Begin()) return false; // Create new table if it doesn't already exist if (!db_->DoesTableExist("channel_id")) { if (!db_->Execute( "CREATE TABLE channel_id (" "host TEXT NOT NULL UNIQUE PRIMARY KEY," "private_key BLOB NOT NULL," "public_key BLOB NOT NULL," "creation_time INTEGER)")) { return false; } } if (cur_version < kCurrentVersionNumber) { if (cur_version <= 4) { sql::Statement statement( db_->GetUniqueStatement("DROP TABLE origin_bound_certs")); if (!statement.Run()) { LOG(WARNING) << "Error dropping old origin_bound_certs table"; return false; } } if (cur_version < 6) { // The old format had the private_key column in a format we no longer // read. Just delete any entries in that format. sql::Statement statement( db_->GetUniqueStatement("DELETE FROM channel_id")); if (!statement.Run()) { LOG(WARNING) << "Error clearing channel_id table"; return false; } } meta_table_.SetVersionNumber(kCurrentVersionNumber); meta_table_.SetCompatibleVersionNumber(kCompatibleVersionNumber); } transaction.Commit(); // Put future migration cases here. return true; } void SQLiteChannelIDStore::Backend::DatabaseErrorCallback( int error, sql::Statement* stmt) { DCHECK(background_task_runner_->RunsTasksInCurrentSequence()); if (!sql::IsErrorCatastrophic(error)) return; // TODO(shess): Running KillDatabase() multiple times should be // safe. if (corruption_detected_) return; corruption_detected_ = true; // TODO(shess): Consider just calling RazeAndClose() immediately. // db_ may not be safe to reset at this point, but RazeAndClose() // would cause the stack to unwind safely with errors. background_task_runner_->PostTask(FROM_HERE, base::Bind(&Backend::KillDatabase, this)); } void SQLiteChannelIDStore::Backend::KillDatabase() { DCHECK(background_task_runner_->RunsTasksInCurrentSequence()); if (db_) { // This Backend will now be in-memory only. In a future run the database // will be recreated. Hopefully things go better then! bool success = db_->RazeAndClose(); UMA_HISTOGRAM_BOOLEAN("DomainBoundCerts.KillDatabaseResult", success); meta_table_.Reset(); db_.reset(); } } void SQLiteChannelIDStore::Backend::AddChannelID( const DefaultChannelIDStore::ChannelID& channel_id) { BatchOperation(PendingOperation::CHANNEL_ID_ADD, channel_id); } void SQLiteChannelIDStore::Backend::DeleteChannelID( const DefaultChannelIDStore::ChannelID& channel_id) { BatchOperation(PendingOperation::CHANNEL_ID_DELETE, channel_id); } void SQLiteChannelIDStore::Backend::DeleteAllInList( const std::list& server_identifiers) { if (server_identifiers.empty()) return; // Perform deletion on background task runner. background_task_runner_->PostTask( FROM_HERE, base::Bind( &Backend::BackgroundDeleteAllInList, this, server_identifiers)); } void SQLiteChannelIDStore::Backend::BatchOperation( PendingOperation::OperationType op, const DefaultChannelIDStore::ChannelID& channel_id) { // These thresholds used to be 30 seconds or 512 outstanding operations (the // same values used in CookieMonster). Since cookies can be bound to Channel // IDs, it's possible for a cookie to get committed to the cookie database // before the Channel ID it is bound to gets committed. Decreasing these // thresholds increases the chance that the Channel ID will be committed // before or at the same time as the cookie. // Commit every 2 seconds. static const int kCommitIntervalMs = 2 * 1000; // Commit right away if we have more than 3 outstanding operations. static const size_t kCommitAfterBatchSize = 3; // We do a full copy of the cert here, and hopefully just here. std::unique_ptr po(new PendingOperation(op, channel_id)); PendingOperationsList::size_type num_pending; { base::AutoLock locked(lock_); pending_.push_back(std::move(po)); num_pending = ++num_pending_; } if (num_pending == 1) { // We've gotten our first entry for this batch, fire off the timer. background_task_runner_->PostDelayedTask( FROM_HERE, base::Bind(&Backend::Commit, this), base::TimeDelta::FromMilliseconds(kCommitIntervalMs)); } else if (num_pending == kCommitAfterBatchSize) { // We've reached a big enough batch, fire off a commit now. background_task_runner_->PostTask(FROM_HERE, base::Bind(&Backend::Commit, this)); } } void SQLiteChannelIDStore::Backend::PrunePendingOperationsForDeletes( const std::list& server_identifiers) { DCHECK(background_task_runner_->RunsTasksInCurrentSequence()); base::AutoLock locked(lock_); for (PendingOperationsList::iterator it = pending_.begin(); it != pending_.end();) { if (base::ContainsValue(server_identifiers, (*it)->channel_id().server_identifier())) { std::unique_ptr po(std::move(*it)); it = pending_.erase(it); --num_pending_; } else { ++it; } } } void SQLiteChannelIDStore::Backend::Flush() { if (background_task_runner_->RunsTasksInCurrentSequence()) { Commit(); } else { background_task_runner_->PostTask(FROM_HERE, base::Bind(&Backend::Commit, this)); } } void SQLiteChannelIDStore::Backend::Commit() { DCHECK(background_task_runner_->RunsTasksInCurrentSequence()); PendingOperationsList ops; { base::AutoLock locked(lock_); pending_.swap(ops); num_pending_ = 0; } // Maybe an old timer fired or we are already Close()'ed. if (!db_.get() || ops.empty()) return; sql::Statement add_statement(db_->GetCachedStatement( SQL_FROM_HERE, "INSERT INTO channel_id (host, private_key, public_key, creation_time) " "VALUES (?,?,\"\",?)")); if (!add_statement.is_valid()) return; sql::Statement del_statement(db_->GetCachedStatement( SQL_FROM_HERE, "DELETE FROM channel_id WHERE host=?")); if (!del_statement.is_valid()) return; sql::Transaction transaction(db_.get()); if (!transaction.Begin()) return; for (PendingOperationsList::iterator it = ops.begin(); it != ops.end(); ++it) { // Free the certs as we commit them to the database. std::unique_ptr po(std::move(*it)); switch (po->op()) { case PendingOperation::CHANNEL_ID_ADD: { add_statement.Reset(true); add_statement.BindString(0, po->channel_id().server_identifier()); std::vector private_key; if (!po->channel_id().key()->ExportPrivateKey(&private_key)) continue; add_statement.BindBlob( 1, private_key.data(), static_cast(private_key.size())); add_statement.BindInt64( 2, po->channel_id().creation_time().ToInternalValue()); if (!add_statement.Run()) NOTREACHED() << "Could not add a server bound cert to the DB."; break; } case PendingOperation::CHANNEL_ID_DELETE: del_statement.Reset(true); del_statement.BindString(0, po->channel_id().server_identifier()); if (!del_statement.Run()) NOTREACHED() << "Could not delete a server bound cert from the DB."; break; default: NOTREACHED(); break; } } transaction.Commit(); } // Fire off a close message to the background task runner. We could still have a // pending commit timer that will be holding a reference on us, but if/when // this fires we will already have been cleaned up and it will be ignored. void SQLiteChannelIDStore::Backend::Close() { // Must close the backend on the background task runner. background_task_runner_->PostTask( FROM_HERE, base::Bind(&Backend::InternalBackgroundClose, this)); } void SQLiteChannelIDStore::Backend::InternalBackgroundClose() { DCHECK(background_task_runner_->RunsTasksInCurrentSequence()); // Commit any pending operations Commit(); db_.reset(); } void SQLiteChannelIDStore::Backend::BackgroundDeleteAllInList( const std::list& server_identifiers) { DCHECK(background_task_runner_->RunsTasksInCurrentSequence()); if (!db_.get()) return; PrunePendingOperationsForDeletes(server_identifiers); sql::Statement del_smt(db_->GetCachedStatement( SQL_FROM_HERE, "DELETE FROM channel_id WHERE host=?")); if (!del_smt.is_valid()) { LOG(WARNING) << "Unable to delete channel ids."; return; } sql::Transaction transaction(db_.get()); if (!transaction.Begin()) { LOG(WARNING) << "Unable to delete channel ids."; return; } for (std::list::const_iterator it = server_identifiers.begin(); it != server_identifiers.end(); ++it) { del_smt.Reset(true); del_smt.BindString(0, *it); if (!del_smt.Run()) NOTREACHED() << "Could not delete a channel id from the DB."; } if (!transaction.Commit()) LOG(WARNING) << "Unable to delete channel ids."; } void SQLiteChannelIDStore::Backend::SetForceKeepSessionState() { base::AutoLock locked(lock_); force_keep_session_state_ = true; } SQLiteChannelIDStore::SQLiteChannelIDStore( const base::FilePath& path, const scoped_refptr& background_task_runner) : backend_(new Backend(path, background_task_runner)) { } void SQLiteChannelIDStore::Load(const LoadedCallback& loaded_callback) { backend_->Load(loaded_callback); } void SQLiteChannelIDStore::AddChannelID( const DefaultChannelIDStore::ChannelID& channel_id) { backend_->AddChannelID(channel_id); } void SQLiteChannelIDStore::DeleteChannelID( const DefaultChannelIDStore::ChannelID& channel_id) { backend_->DeleteChannelID(channel_id); } void SQLiteChannelIDStore::DeleteAllInList( const std::list& server_identifiers) { backend_->DeleteAllInList(server_identifiers); } void SQLiteChannelIDStore::SetForceKeepSessionState() { backend_->SetForceKeepSessionState(); } void SQLiteChannelIDStore::Flush() { backend_->Flush(); } SQLiteChannelIDStore::~SQLiteChannelIDStore() { backend_->Close(); // We release our reference to the Backend, though it will probably still have // a reference if the background task runner has not run Close() yet. } } // namespace net