// 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 SQL_DATABASE_H_ #define SQL_DATABASE_H_ #include #include #include #include #include #include #include #include "base/callback.h" #include "base/compiler_specific.h" #include "base/component_export.h" #include "base/containers/flat_map.h" #include "base/gtest_prod_util.h" #include "base/macros.h" #include "base/memory/ref_counted.h" #include "base/optional.h" #include "base/sequence_checker.h" #include "base/threading/scoped_blocking_call.h" #include "sql/internal_api_token.h" #include "sql/statement_id.h" struct sqlite3; struct sqlite3_stmt; namespace base { class FilePath; class HistogramBase; namespace trace_event { class ProcessMemoryDump; } // namespace trace_event } // namespace base namespace sql { class DatabaseMemoryDumpProvider; class Statement; namespace test { class ScopedErrorExpecter; } // namespace test // Handle to an open SQLite database. // // Instances of this class are thread-unsafe and DCHECK that they are accessed // on the same sequence. class COMPONENT_EXPORT(SQL) Database { private: class StatementRef; // Forward declaration, see real one below. public: // The database is opened by calling Open[InMemory](). Any uncommitted // transactions will be rolled back when this object is deleted. Database(); ~Database(); // Pre-init configuration ---------------------------------------------------- // Sets the page size that will be used when creating a new database. This // must be called before Init(), and will only have an effect on new // databases. // // The page size must be a power of two between 512 and 65536 inclusive. void set_page_size(int page_size) { DCHECK_GE(page_size, 512); DCHECK_LE(page_size, 65536); DCHECK(!(page_size & (page_size - 1))) << "page_size must be a power of two"; page_size_ = page_size; } // The page size that will be used when creating a new database. int page_size() const { return page_size_; } // Sets the number of pages that will be cached in memory by sqlite. The // total cache size in bytes will be page_size * cache_size. This must be // called before Open() to have an effect. void set_cache_size(int cache_size) { DCHECK_GE(cache_size, 0); cache_size_ = cache_size; } // Returns whether a database will be opened in WAL mode. bool UseWALMode() const; // Enables/disables WAL mode (https://www.sqlite.org/wal.html) when // opening a new database. // // WAL mode is currently not fully supported on FuchsiaOS. It will only be // turned on if the database is also using exclusive locking mode. // (https://crbug.com/1082059) // // Note: Changing page size is not supported when in WAL mode. So running // 'PRAGMA page_size = ' or using set_page_size will result in // no-ops. // // This must be called before Open() to have an effect. void want_wal_mode(bool enabled) { want_wal_mode_ = enabled; } // Call to put the database in exclusive locking mode. There is no "back to // normal" flag because of some additional requirements sqlite puts on this // transaction (requires another access to the DB) and because we don't // actually need it. // // Exclusive mode means that the database is not unlocked at the end of each // transaction, which means there may be less time spent initializing the // next transaction because it doesn't have to re-aquire locks. // // This must be called before Open() to have an effect. void set_exclusive_locking() { exclusive_locking_ = true; } // Call to use alternative status-tracking for mmap. Usually this is tracked // in the meta table, but some databases have no meta table. // TODO(shess): Maybe just have all databases use the alt option? void set_mmap_alt_status() { mmap_alt_status_ = true; } // Opt out of memory-mapped file I/O. void set_mmap_disabled() { mmap_disabled_ = true; } // Set an error-handling callback. On errors, the error number (and // statement, if available) will be passed to the callback. // // If no callback is set, the default action is to crash in debug // mode or return failure in release mode. using ErrorCallback = base::RepeatingCallback; void set_error_callback(const ErrorCallback& callback) { error_callback_ = callback; } bool has_error_callback() const { return !error_callback_.is_null(); } void reset_error_callback() { error_callback_.Reset(); } // Set this to enable additional per-database histogramming. Must be called // before Open(). void set_histogram_tag(const std::string& tag); // Record a sparse UMA histogram sample under // |name|+"."+|histogram_tag_|. If |histogram_tag_| is empty, no // histogram is recorded. void AddTaggedHistogram(const std::string& name, int sample) const; // Track various API calls and results. Values correspond to UMA // histograms, do not modify, or add or delete other than directly // before EVENT_MAX_VALUE. enum Events { // Number of statements run, either with sql::Statement or Execute*(). EVENT_STATEMENT_RUN_DEPRECATED = 0, // Number of rows returned by statements run. EVENT_STATEMENT_ROWS_DEPRECATED, // Number of statements successfully run (all steps returned SQLITE_DONE or // SQLITE_ROW). EVENT_STATEMENT_SUCCESS_DEPRECATED, // Number of statements run by Execute() or ExecuteAndReturnErrorCode(). EVENT_EXECUTE_DEPRECATED, // Number of rows changed by autocommit statements. EVENT_CHANGES_AUTOCOMMIT_DEPRECATED, // Number of rows changed by statements in transactions. EVENT_CHANGES_DEPRECATED, // Count actual SQLite transaction statements (not including nesting). EVENT_BEGIN_DEPRECATED, EVENT_COMMIT_DEPRECATED, EVENT_ROLLBACK_DEPRECATED, // Track success and failure in GetAppropriateMmapSize(). // GetAppropriateMmapSize() should record at most one of these per run. The // case of mapping everything is not recorded. EVENT_MMAP_META_MISSING, // No meta table present. EVENT_MMAP_META_FAILURE_READ, // Failed reading meta table. EVENT_MMAP_META_FAILURE_UPDATE, // Failed updating meta table. EVENT_MMAP_VFS_FAILURE, // Failed to access VFS. EVENT_MMAP_FAILED, // Failure from past run. EVENT_MMAP_FAILED_NEW, // Read error in this run. EVENT_MMAP_SUCCESS_NEW_DEPRECATED, // Read to EOF in this run. EVENT_MMAP_SUCCESS_PARTIAL_DEPRECATED, // Read but did not reach EOF. EVENT_MMAP_SUCCESS_NO_PROGRESS_DEPRECATED, // Read quota exhausted. EVENT_MMAP_STATUS_FAILURE_READ, // Failure reading MmapStatus view. EVENT_MMAP_STATUS_FAILURE_UPDATE, // Failure updating MmapStatus view. // Leave this at the end. // TODO(shess): |EVENT_MAX| causes compile fail on Windows. EVENT_MAX_VALUE, }; void RecordEvent(Events event, size_t count); void RecordOneEvent(Events event) { RecordEvent(event, 1); } // Run "PRAGMA integrity_check" and post each line of // results into |messages|. Returns the success of running the // statement - per the SQLite documentation, if no errors are found the // call should succeed, and a single value "ok" should be in messages. bool FullIntegrityCheck(std::vector* messages); // Runs "PRAGMA quick_check" and, unlike the FullIntegrityCheck method, // interprets the results returning true if the the statement executes // without error and results in a single "ok" value. bool QuickIntegrityCheck() WARN_UNUSED_RESULT; // Meant to be called from a client error callback so that it's able to // get diagnostic information about the database. std::string GetDiagnosticInfo(int extended_error, Statement* statement); // Reports memory usage into provided memory dump with the given name. bool ReportMemoryUsage(base::trace_event::ProcessMemoryDump* pmd, const std::string& dump_name); // Initialization ------------------------------------------------------------ // Initializes the SQL database for the given file, returning true if the // file could be opened. You can call this or OpenInMemory. bool Open(const base::FilePath& path) WARN_UNUSED_RESULT; // Initializes the SQL database for a temporary in-memory database. There // will be no associated file on disk, and the initial database will be // empty. You can call this or Open. bool OpenInMemory() WARN_UNUSED_RESULT; // Create a temporary on-disk database. The database will be // deleted after close. This kind of database is similar to // OpenInMemory() for small databases, but can page to disk if the // database becomes large. bool OpenTemporary() WARN_UNUSED_RESULT; // Returns true if the database has been successfully opened. bool is_open() const { return static_cast(db_); } // Closes the database. This is automatically performed on destruction for // you, but this allows you to close the database early. You must not call // any other functions after closing it. It is permissable to call Close on // an uninitialized or already-closed database. void Close(); // Reads the first * bytes of the file to prime the // filesystem cache. This can be more efficient than faulting pages // individually. Since this involves blocking I/O, it should only be used if // the caller will immediately read a substantial amount of data from the // database. // // TODO(shess): Design a set of histograms or an experiment to inform this // decision. Preloading should almost always improve later performance // numbers for this database simply because it pulls operations forward, but // if the data isn't actually used soon then preloading just slows down // everything else. void Preload(); // Release all non-essential memory associated with this database connection. void TrimMemory(); // Raze the database to the ground. This approximates creating a // fresh database from scratch, within the constraints of SQLite's // locking protocol (locks and open handles can make doing this with // filesystem operations problematic). Returns true if the database // was razed. // // false is returned if the database is locked by some other // process. // // NOTE(shess): Raze() will DCHECK in the following situations: // - database is not open. // - the database has a transaction open. // - a SQLite issue occurs which is structural in nature (like the // statements used are broken). // Since Raze() is expected to be called in unexpected situations, // these all return false, since it is unlikely that the caller // could fix them. // // The database's page size is taken from |page_size_|. The // existing database's |auto_vacuum| setting is lost (the // possibility of corruption makes it unreliable to pull it from the // existing database). To re-enable on the empty database requires // running "PRAGMA auto_vacuum = 1;" then "VACUUM". // // NOTE(shess): For Android, SQLITE_DEFAULT_AUTOVACUUM is set to 1, // so Raze() sets auto_vacuum to 1. // // TODO(shess): Raze() needs a database so cannot clear SQLITE_NOTADB. // TODO(shess): Bake auto_vacuum into Database's API so it can // just pick up the default. bool Raze(); // Breaks all outstanding transactions (as initiated by // BeginTransaction()), closes the SQLite database, and poisons the // object so that all future operations against the Database (or // its Statements) fail safely, without side effects. // // This is intended as an alternative to Close() in error callbacks. // Close() should still be called at some point. void Poison(); // Raze() the database and Poison() the handle. Returns the return // value from Raze(). // TODO(shess): Rename to RazeAndPoison(). bool RazeAndClose(); // Delete the underlying database files associated with |path|. This should be // used on a database which is not opened by any Database instance. Open // Database instances pointing to the database can cause odd results or // corruption (for instance if a hot journal is deleted but the associated // database is not). // // Returns true if the database file and associated journals no // longer exist, false otherwise. If the database has never // existed, this will return true. static bool Delete(const base::FilePath& path); // Transactions -------------------------------------------------------------- // Transaction management. We maintain a virtual transaction stack to emulate // nested transactions since sqlite can't do nested transactions. The // limitation is you can't roll back a sub transaction: if any transaction // fails, all transactions open will also be rolled back. Any nested // transactions after one has rolled back will return fail for Begin(). If // Begin() fails, you must not call Commit or Rollback(). // // Normally you should use sql::Transaction to manage a transaction, which // will scope it to a C++ context. bool BeginTransaction(); void RollbackTransaction(); bool CommitTransaction(); // Rollback all outstanding transactions. Use with care, there may // be scoped transactions on the stack. void RollbackAllTransactions(); // Returns the current transaction nesting, which will be 0 if there are // no open transactions. int transaction_nesting() const { return transaction_nesting_; } // Attached databases--------------------------------------------------------- // SQLite supports attaching multiple database files to a single connection. // // Attach the database in |other_db_path| to the current connection under // |attachment_point|. |attachment_point| must only contain characters from // [a-zA-Z0-9_]. // // On the SQLite version shipped with Chrome (3.21+, Oct 2017), databases can // be attached while a transaction is opened. However, these databases cannot // be detached until the transaction is committed or aborted. // // These APIs are only exposed for use in recovery. They are extremely subtle // and are not useful for features built on top of //sql. bool AttachDatabase(const base::FilePath& other_db_path, const char* attachment_point, InternalApiToken); bool DetachDatabase(const char* attachment_point, InternalApiToken); // Statements ---------------------------------------------------------------- // Executes the given SQL string, returning true on success. This is // normally used for simple, 1-off statements that don't take any bound // parameters and don't return any data (e.g. CREATE TABLE). // // This will DCHECK if the |sql| contains errors. // // Do not use ignore_result() to ignore all errors. Use // ExecuteAndReturnErrorCode() and ignore only specific errors. bool Execute(const char* sql) WARN_UNUSED_RESULT; // Like Execute(), but returns the error code given by SQLite. int ExecuteAndReturnErrorCode(const char* sql) WARN_UNUSED_RESULT; // Returns a statement for the given SQL using the statement cache. It can // take a nontrivial amount of work to parse and compile a statement, so // keeping commonly-used ones around for future use is important for // performance. // // The SQL_FROM_HERE macro is the recommended way of generating a StatementID. // Code that generates custom IDs must ensure that a StatementID is never used // for different SQL statements. Failing to meet this requirement results in // incorrect behavior, and should be caught by a DCHECK. // // The SQL statement passed in |sql| must match the SQL statement reported // back by SQLite. Mismatches are caught by a DCHECK, so any code that has // automated test coverage or that was manually tested on a DCHECK build will // not exhibit this problem. Mismatches generally imply that the statement // passed in has extra whitespace or comments surrounding it, which waste // storage and CPU cycles. // // If the |sql| has an error, an invalid, inert StatementRef is returned (and // the code will crash in debug). The caller must deal with this eventuality, // either by checking validity of the |sql| before calling, by correctly // handling the return of an inert statement, or both. // // Example: // sql::Statement stmt(database_.GetCachedStatement( // SQL_FROM_HERE, "SELECT * FROM foo")); // if (!stmt) // return false; // Error creating statement. scoped_refptr GetCachedStatement(StatementID id, const char* sql); // Used to check a |sql| statement for syntactic validity. If the statement is // valid SQL, returns true. bool IsSQLValid(const char* sql); // Returns a non-cached statement for the given SQL. Use this for SQL that // is only executed once or only rarely (there is overhead associated with // keeping a statement cached). // // See GetCachedStatement above for examples and error information. scoped_refptr GetUniqueStatement(const char* sql); // Performs a passive checkpoint on the main attached database if it is in // WAL mode. Returns true if the checkpoint was successful and false in case // of an error. It is a no-op if the database is not in WAL mode. // // Note: Checkpointing is a very slow operation and will block any writes // until it is finished. Please use with care. bool CheckpointDatabase(); // Info querying ------------------------------------------------------------- // Returns true if the given structure exists. Instead of test-then-create, // callers should almost always prefer the "IF NOT EXISTS" version of the // CREATE statement. bool DoesIndexExist(const char* index_name) const; bool DoesTableExist(const char* table_name) const; bool DoesViewExist(const char* table_name) const; // Returns true if a column with the given name exists in the given table. // // Calling this method on a VIEW returns an unspecified result. // // This should only be used by migration code for legacy features that do not // use MetaTable, and need an alternative way of figuring out the database's // current version. bool DoesColumnExist(const char* table_name, const char* column_name) const; // Returns sqlite's internal ID for the last inserted row. Valid only // immediately after an insert. int64_t GetLastInsertRowId() const; // Returns sqlite's count of the number of rows modified by the last // statement executed. Will be 0 if no statement has executed or the database // is closed. int GetLastChangeCount() const; // Errors -------------------------------------------------------------------- // Returns the error code associated with the last sqlite operation. int GetErrorCode() const; // Returns the errno associated with GetErrorCode(). See // SQLITE_LAST_ERRNO in SQLite documentation. int GetLastErrno() const; // Returns a pointer to a statically allocated string associated with the // last sqlite operation. const char* GetErrorMessage() const; // Return a reproducible representation of the schema equivalent to // running the following statement at a sqlite3 command-line: // SELECT type, name, tbl_name, sql FROM sqlite_master ORDER BY 1, 2, 3, 4; std::string GetSchema() const; // Returns |true| if there is an error expecter (see SetErrorExpecter), and // that expecter returns |true| when passed |error|. Clients which provide an // |error_callback| should use IsExpectedSqliteError() to check for unexpected // errors; if one is detected, DLOG(DCHECK) is generally appropriate (see // OnSqliteError implementation). static bool IsExpectedSqliteError(int error); // Computes the path of a database's rollback journal. // // The journal file is created at the beginning of the database's first // transaction. The file may be removed and re-created between transactions, // depending on whether the database is opened in exclusive mode, and on // configuration options. The journal file does not exist when the database // operates in WAL mode. // // This is intended for internal use and tests. To preserve our ability to // iterate on our SQLite configuration, features must avoid relying on // the existence of specific files. static base::FilePath JournalPath(const base::FilePath& db_path); // Computes the path of a database's write-ahead log (WAL). // // The WAL file exists while a database is opened in WAL mode. // // This is intended for internal use and tests. To preserve our ability to // iterate on our SQLite configuration, features must avoid relying on // the existence of specific files. static base::FilePath WriteAheadLogPath(const base::FilePath& db_path); // Computes the path of a database's shared memory (SHM) file. // // The SHM file is used to coordinate between multiple processes using the // same database in WAL mode. Thus, this file only exists for databases using // WAL and not opened in exclusive mode. // // This is intended for internal use and tests. To preserve our ability to // iterate on our SQLite configuration, features must avoid relying on // the existence of specific files. static base::FilePath SharedMemoryFilePath(const base::FilePath& db_path); // Default page size for newly created databases. // // Guaranteed to match SQLITE_DEFAULT_PAGE_SIZE. static constexpr int kDefaultPageSize = 4096; // Internal state accessed by other classes in //sql. sqlite3* db(InternalApiToken) const { return db_; } bool poisoned(InternalApiToken) const { return poisoned_; } private: // Allow test-support code to set/reset error expecter. friend class test::ScopedErrorExpecter; // Statement accesses StatementRef which we don't want to expose to everybody // (they should go through Statement). friend class Statement; FRIEND_TEST_ALL_PREFIXES(SQLDatabaseTest, CachedStatement); FRIEND_TEST_ALL_PREFIXES(SQLDatabaseTest, CollectDiagnosticInfo); FRIEND_TEST_ALL_PREFIXES(SQLDatabaseTest, GetAppropriateMmapSize); FRIEND_TEST_ALL_PREFIXES(SQLDatabaseTest, GetAppropriateMmapSizeAltStatus); FRIEND_TEST_ALL_PREFIXES(SQLDatabaseTest, OnMemoryDump); FRIEND_TEST_ALL_PREFIXES(SQLDatabaseTest, RegisterIntentToUpload); FRIEND_TEST_ALL_PREFIXES(SQLiteFeaturesTest, WALNoClose); // Internal initialize function used by both Init and InitInMemory. The file // name is always 8 bits since we want to use the 8-bit version of // sqlite3_open. The string can also be sqlite's special ":memory:" string. // // |retry_flag| controls retrying the open if the error callback // addressed errors using RazeAndClose(). enum Retry { NO_RETRY = 0, RETRY_ON_POISON }; bool OpenInternal(const std::string& file_name, Retry retry_flag); // Internal close function used by Close() and RazeAndClose(). // |forced| indicates that orderly-shutdown checks should not apply. void CloseInternal(bool forced); // Construct a ScopedBlockingCall to annotate IO calls, but only if // database wasn't open in memory. ScopedBlockingCall uses |from_here| to // declare its blocking execution scope (see https://www.crbug/934302). void InitScopedBlockingCall( const base::Location& from_here, base::Optional* scoped_blocking_call) const { if (!in_memory_) scoped_blocking_call->emplace(from_here, base::BlockingType::MAY_BLOCK); } // Internal helper for Does*Exist() functions. bool DoesSchemaItemExist(const char* name, const char* type) const; // Accessors for global error-expecter, for injecting behavior during tests. // See test/scoped_error_expecter.h. using ErrorExpecterCallback = base::RepeatingCallback; static ErrorExpecterCallback* current_expecter_cb_; static void SetErrorExpecter(ErrorExpecterCallback* expecter); static void ResetErrorExpecter(); // A StatementRef is a refcounted wrapper around a sqlite statement pointer. // Refcounting allows us to give these statements out to sql::Statement // objects while also optionally maintaining a cache of compiled statements // by just keeping a refptr to these objects. // // A statement ref can be valid, in which case it can be used, or invalid to // indicate that the statement hasn't been created yet, has an error, or has // been destroyed. // // The Database may revoke a StatementRef in some error cases, so callers // should always check validity before using. class COMPONENT_EXPORT(SQL) StatementRef : public base::RefCounted { public: REQUIRE_ADOPTION_FOR_REFCOUNTED_TYPE(); // |database| is the sql::Database instance associated with // the statement, and is used for tracking outstanding statements // and for error handling. Set to nullptr for invalid or untracked // refs. |stmt| is the actual statement, and should only be null // to create an invalid ref. |was_valid| indicates whether the // statement should be considered valid for diagnostic purposes. // |was_valid| can be true for a null |stmt| if the Database has // been forcibly closed by an error handler. StatementRef(Database* database, sqlite3_stmt* stmt, bool was_valid); // When true, the statement can be used. bool is_valid() const { return !!stmt_; } // When true, the statement is either currently valid, or was // previously valid but the database was forcibly closed. Used // for diagnostic checks. bool was_valid() const { return was_valid_; } // If we've not been linked to a database, this will be null. // // TODO(shess): database_ can be nullptr in case of // GetUntrackedStatement(), which prevents Statement::OnError() from // forwarding errors. Database* database() const { return database_; } // Returns the sqlite statement if any. If the statement is not active, // this will return nullptr. sqlite3_stmt* stmt() const { return stmt_; } // Destroys the compiled statement and sets it to nullptr. The statement // will no longer be active. |forced| is used to indicate if // orderly-shutdown checks should apply (see Database::RazeAndClose()). void Close(bool forced); // Construct a ScopedBlockingCall to annotate IO calls, but only if // database wasn't open in memory. ScopedBlockingCall uses |from_here| to // declare its blocking execution scope (see https://www.crbug/934302). void InitScopedBlockingCall( const base::Location& from_here, base::Optional* scoped_blocking_call) const { if (database_) database_->InitScopedBlockingCall(from_here, scoped_blocking_call); } private: friend class base::RefCounted; ~StatementRef(); Database* database_; sqlite3_stmt* stmt_; bool was_valid_; DISALLOW_COPY_AND_ASSIGN(StatementRef); }; friend class StatementRef; // Executes a rollback statement, ignoring all transaction state. Used // internally in the transaction management code. void DoRollback(); // Called by a StatementRef when it's being created or destroyed. See // open_statements_ below. void StatementRefCreated(StatementRef* ref); void StatementRefDeleted(StatementRef* ref); // Called when a sqlite function returns an error, which is passed // as |err|. The return value is the error code to be reflected // back to client code. |stmt| is non-null if the error relates to // an sql::Statement instance. |sql| is non-nullptr if the error // relates to non-statement sql code (Execute, for instance). Both // can be null, but both should never be set. // NOTE(shess): Originally, the return value was intended to allow // error handlers to transparently convert errors into success. // Unfortunately, transactions are not generally restartable, so // this did not work out. int OnSqliteError(int err, Statement* stmt, const char* sql) const; // Like |Execute()|, but retries if the database is locked. bool ExecuteWithTimeout(const char* sql, base::TimeDelta ms_timeout) WARN_UNUSED_RESULT; // Implementation helper for GetUniqueStatement() and GetUntrackedStatement(). // |tracking_db| is the db the resulting ref should register with for // outstanding statement tracking, which should be |this| to track or null to // not track. scoped_refptr GetStatementImpl(sql::Database* tracking_db, const char* sql) const; // Helper for implementing const member functions. Like GetUniqueStatement(), // except the StatementRef is not entered into |open_statements_|, so an // outstanding StatementRef from this function can block closing the database. // The StatementRef will not call OnSqliteError(), because that can call // |error_callback_| which can close the database. scoped_refptr GetUntrackedStatement(const char* sql) const; bool IntegrityCheckHelper(const char* pragma_sql, std::vector* messages) WARN_UNUSED_RESULT; // Release page-cache memory if memory-mapped I/O is enabled and the database // was changed. Passing true for |implicit_change_performed| allows // overriding the change detection for cases like DDL (CREATE, DROP, etc), // which do not participate in the total-rows-changed tracking. void ReleaseCacheMemoryIfNeeded(bool implicit_change_performed); // Returns the results of sqlite3_db_filename(), which should match the path // passed to Open(). base::FilePath DbPath() const; // Helper to collect diagnostic info for a corrupt database. std::string CollectCorruptionInfo(); // Helper to collect diagnostic info for errors. std::string CollectErrorInfo(int error, Statement* stmt) const; // Calculates a value appropriate to pass to "PRAGMA mmap_size = ". So errors // can make it unsafe to map a file, so the file is read using regular I/O, // with any errors causing 0 (don't map anything) to be returned. If the // entire file is read without error, a large value is returned which will // allow the entire file to be mapped in most cases. // // Results are recorded in the database's meta table for future reference, so // the file should only be read through once. size_t GetAppropriateMmapSize(); // Helpers for GetAppropriateMmapSize(). bool GetMmapAltStatus(int64_t* status); bool SetMmapAltStatus(int64_t status); // The actual sqlite database. Will be null before Init has been called or if // Init resulted in an error. sqlite3* db_; // Parameters we'll configure in sqlite before doing anything else. Zero means // use the default value. int page_size_; int cache_size_; bool exclusive_locking_; bool want_wal_mode_; // Holds references to all cached statements so they remain active. // // flat_map is appropriate here because the codebase has ~400 cached // statements, and each statement is at most one insertion in the map // throughout a process' lifetime. base::flat_map> statement_cache_; // A list of all StatementRefs we've given out. Each ref must register with // us when it's created or destroyed. This allows us to potentially close // any open statements when we encounter an error. std::set open_statements_; // Number of currently-nested transactions. int transaction_nesting_; // True if any of the currently nested transactions have been rolled back. // When we get to the outermost transaction, this will determine if we do // a rollback instead of a commit. bool needs_rollback_; // True if database is open with OpenInMemory(), False if database is open // with Open(). bool in_memory_; // |true| if the Database was closed using RazeAndClose(). Used // to enable diagnostics to distinguish calls to never-opened // databases (incorrect use of the API) from calls to once-valid // databases. bool poisoned_; // |true| to use alternate storage for tracking mmap status. bool mmap_alt_status_; // |true| if SQLite memory-mapped I/O is not desired for this database. bool mmap_disabled_; // |true| if SQLite memory-mapped I/O was enabled for this database. // Used by ReleaseCacheMemoryIfNeeded(). bool mmap_enabled_; // Used by ReleaseCacheMemoryIfNeeded() to track if new changes have happened // since memory was last released. int total_changes_at_last_release_; ErrorCallback error_callback_; // Tag for auxiliary histograms. std::string histogram_tag_; // Linear histogram for RecordEvent(). base::HistogramBase* stats_histogram_; // Stores the dump provider object when db is open. std::unique_ptr memory_dump_provider_; DISALLOW_COPY_AND_ASSIGN(Database); }; } // namespace sql #endif // SQL_DATABASE_H_