#ifndef __SQLITEASYNC_H_ #define __SQLITEASYNC_H_ 1 #define SQLITEASYNC_VFSNAME "sqlite3async" /* ** THREAD SAFETY NOTES: ** ** Of the four API functions in this file, the following are not threadsafe: ** ** sqlite3async_initialize() ** sqlite3async_shutdown() ** ** Care must be taken that neither of these functions is called while ** another thread may be calling either any sqlite3async_XXX() function ** or an sqlite3_XXX() API function related to a database handle that ** is using the asynchronous IO VFS. ** ** These functions: ** ** sqlite3async_run() ** sqlite3async_control() ** ** are threadsafe. It is quite safe to call either of these functions even ** if another thread may also be calling one of them or an sqlite3_XXX() ** function related to a database handle that uses the asynchronous IO VFS. */ /* ** Initialize the asynchronous IO VFS and register it with SQLite using ** sqlite3_vfs_register(). If the asynchronous VFS is already initialized ** and registered, this function is a no-op. The asynchronous IO VFS ** is registered as "sqlite3async". ** ** The asynchronous IO VFS does not make operating system IO requests ** directly. Instead, it uses an existing VFS implementation for all ** required file-system operations. If the first parameter to this function ** is NULL, then the current default VFS is used for IO. If it is not ** NULL, then it must be the name of an existing VFS. In other words, the ** first argument to this function is passed to sqlite3_vfs_find() to ** locate the VFS to use for all real IO operations. This VFS is known ** as the "parent VFS". ** ** If the second parameter to this function is non-zero, then the ** asynchronous IO VFS is registered as the default VFS for all SQLite ** database connections within the process. Otherwise, the asynchronous IO ** VFS is only used by connections opened using sqlite3_open_v2() that ** specifically request VFS "sqlite3async". ** ** If a parent VFS cannot be located, then SQLITE_ERROR is returned. ** In the unlikely event that operating system specific initialization ** fails (win32 systems create the required critical section and event ** objects within this function), then SQLITE_ERROR is also returned. ** Finally, if the call to sqlite3_vfs_register() returns an error, then ** the error code is returned to the user by this function. In all three ** of these cases, intialization has failed and the asynchronous IO VFS ** is not registered with SQLite. ** ** Otherwise, if no error occurs, SQLITE_OK is returned. */ int sqlite3async_initialize(const char *zParent, int isDefault); /* ** This function unregisters the asynchronous IO VFS using ** sqlite3_vfs_unregister(). ** ** On win32 platforms, this function also releases the small number of ** critical section and event objects created by sqlite3async_initialize(). */ void sqlite3async_shutdown(); /* ** This function may only be called when the asynchronous IO VFS is ** installed (after a call to sqlite3async_initialize()). It processes ** zero or more queued write operations before returning. It is expected ** (but not required) that this function will be called by a different ** thread than those threads that use SQLite. The "background thread" ** that performs IO. ** ** How many queued write operations are performed before returning ** depends on the global setting configured by passing the SQLITEASYNC_HALT ** verb to sqlite3async_control() (see below for details). By default ** this function never returns - it processes all pending operations and ** then blocks waiting for new ones. ** ** If multiple simultaneous calls are made to sqlite3async_run() from two ** or more threads, then the calls are serialized internally. */ void sqlite3async_run(); /* ** This function may only be called when the asynchronous IO VFS is ** installed (after a call to sqlite3async_initialize()). It is used ** to query or configure various parameters that affect the operation ** of the asynchronous IO VFS. At present there are three parameters ** supported: ** ** * The "halt" parameter, which configures the circumstances under ** which the sqlite3async_run() parameter is configured. ** ** * The "delay" parameter. Setting the delay parameter to a non-zero ** value causes the sqlite3async_run() function to sleep for the ** configured number of milliseconds between each queued write ** operation. ** ** * The "lockfiles" parameter. This parameter determines whether or ** not the asynchronous IO VFS locks the database files it operates ** on. Disabling file locking can improve throughput. ** ** This function is always passed two arguments. When setting the value ** of a parameter, the first argument must be one of SQLITEASYNC_HALT, ** SQLITEASYNC_DELAY or SQLITEASYNC_LOCKFILES. The second argument must ** be passed the new value for the parameter as type "int". ** ** When querying the current value of a paramter, the first argument must ** be one of SQLITEASYNC_GET_HALT, GET_DELAY or GET_LOCKFILES. The second ** argument to this function must be of type (int *). The current value ** of the queried parameter is copied to the memory pointed to by the ** second argument. For example: ** ** int eCurrentHalt; ** int eNewHalt = SQLITEASYNC_HALT_IDLE; ** ** sqlite3async_control(SQLITEASYNC_HALT, eNewHalt); ** sqlite3async_control(SQLITEASYNC_GET_HALT, &eCurrentHalt); ** assert( eNewHalt==eCurrentHalt ); ** ** See below for more detail on each configuration parameter. ** ** SQLITEASYNC_HALT: ** ** This is used to set the value of the "halt" parameter. The second ** argument must be one of the SQLITEASYNC_HALT_XXX symbols defined ** below (either NEVER, IDLE and NOW). ** ** If the parameter is set to NEVER, then calls to sqlite3async_run() ** never return. This is the default setting. If the parameter is set ** to IDLE, then calls to sqlite3async_run() return as soon as the ** queue of pending write operations is empty. If the parameter is set ** to NOW, then calls to sqlite3async_run() return as quickly as ** possible, without processing any pending write requests. ** ** If an attempt is made to set this parameter to an integer value other ** than SQLITEASYNC_HALT_NEVER, IDLE or NOW, then sqlite3async_control() ** returns SQLITE_MISUSE and the current value of the parameter is not ** modified. ** ** Modifying the "halt" parameter affects calls to sqlite3async_run() ** made by other threads that are currently in progress. ** ** SQLITEASYNC_DELAY: ** ** This is used to set the value of the "delay" parameter. If set to ** a non-zero value, then after completing a pending write request, the ** sqlite3async_run() function sleeps for the configured number of ** milliseconds. ** ** If an attempt is made to set this parameter to a negative value, ** sqlite3async_control() returns SQLITE_MISUSE and the current value ** of the parameter is not modified. ** ** Modifying the "delay" parameter affects calls to sqlite3async_run() ** made by other threads that are currently in progress. ** ** SQLITEASYNC_LOCKFILES: ** ** This is used to set the value of the "lockfiles" parameter. This ** parameter must be set to either 0 or 1. If set to 1, then the ** asynchronous IO VFS uses the xLock() and xUnlock() methods of the ** parent VFS to lock database files being read and/or written. If ** the parameter is set to 0, then these locks are omitted. ** ** This parameter may only be set when there are no open database ** connections using the VFS and the queue of pending write requests ** is empty. Attempting to set it when this is not true, or to set it ** to a value other than 0 or 1 causes sqlite3async_control() to return ** SQLITE_MISUSE and the value of the parameter to remain unchanged. ** ** If this parameter is set to zero, then it is only safe to access the ** database via the asynchronous IO VFS from within a single process. If ** while writing to the database via the asynchronous IO VFS the database ** is also read or written from within another process, or via another ** connection that does not use the asynchronous IO VFS within the same ** process, the results are undefined (and may include crashes or database ** corruption). ** ** Alternatively, if this parameter is set to 1, then it is safe to access ** the database from multiple connections within multiple processes using ** either the asynchronous IO VFS or the parent VFS directly. */ int sqlite3async_control(int op, ...); /* ** Values that can be used as the first argument to sqlite3async_control(). */ #define SQLITEASYNC_HALT 1 #define SQLITEASYNC_GET_HALT 2 #define SQLITEASYNC_DELAY 3 #define SQLITEASYNC_GET_DELAY 4 #define SQLITEASYNC_LOCKFILES 5 #define SQLITEASYNC_GET_LOCKFILES 6 /* ** If the first argument to sqlite3async_control() is SQLITEASYNC_HALT, ** the second argument should be one of the following. */ #define SQLITEASYNC_HALT_NEVER 0 /* Never halt (default value) */ #define SQLITEASYNC_HALT_NOW 1 /* Halt as soon as possible */ #define SQLITEASYNC_HALT_IDLE 2 /* Halt when write-queue is empty */ #endif /* ifndef __SQLITEASYNC_H_ */