/* * DiskThreads.h * * Internal declarations for the DiskThreads routines */ #ifndef __DISKTHREADS_H__ #define __DISKTHREADS_H__ #include "dlink.h" #include "typedefs.h" /* this non-standard-conformant include is needed in order to have stat(2) and struct stat properly defined on some systems (e.g. OpenBSD 5.4) */ #if HAVE_SYS_STAT_H #include #endif #if AUFS_IO_THREADS #define NUMTHREADS AUFS_IO_THREADS #else #define NUMTHREADS (Config.cacheSwap.n_configured*16) #endif /* Queue limit where swapouts are deferred (load calculation) */ #define MAGIC1 (NUMTHREADS*Config.cacheSwap.n_configured*5) /* Queue limit where swapins are deferred (open/create fails) */ #define MAGIC2 (NUMTHREADS*Config.cacheSwap.n_configured*20) /* Which operations to run async */ #define ASYNC_OPEN 1 #define ASYNC_CLOSE 0 #define ASYNC_CREATE 1 #define ASYNC_WRITE 0 #define ASYNC_READ 1 enum _squidaio_request_type { _AIO_OP_NONE = 0, _AIO_OP_OPEN, _AIO_OP_READ, _AIO_OP_WRITE, _AIO_OP_CLOSE, _AIO_OP_UNLINK, _AIO_OP_OPENDIR, _AIO_OP_STAT }; typedef enum _squidaio_request_type squidaio_request_type; typedef void AIOCB(int fd, void *cbdata, const char *buf, int aio_return, int aio_errno); struct squidaio_result_t { int aio_return; int aio_errno; enum _squidaio_request_type result_type; void *_data; /* Internal housekeeping */ void *data; /* Available to the caller */ }; struct squidaio_ctrl_t { struct squidaio_ctrl_t *next; int fd; int operation; AIOCB *done_handler; void *done_handler_data; squidaio_result_t result; int len; char *bufp; FREE *free_func; dlink_node node; }; void squidaio_init(void); void squidaio_shutdown(void); int squidaio_cancel(squidaio_result_t *); int squidaio_open(const char *, int, mode_t, squidaio_result_t *); int squidaio_read(int, char *, size_t, off_t, int, squidaio_result_t *); int squidaio_write(int, char *, size_t, off_t, int, squidaio_result_t *); int squidaio_close(int, squidaio_result_t *); int squidaio_stat(const char *, struct stat *, squidaio_result_t *); int squidaio_unlink(const char *, squidaio_result_t *); int squidaio_opendir(const char *, squidaio_result_t *); squidaio_result_t *squidaio_poll_done(void); int squidaio_operations_pending(void); int squidaio_sync(void); int squidaio_get_queue_len(void); void *squidaio_xmalloc(int size); void squidaio_xfree(void *p, int size); void squidaio_stats(StoreEntry *); void aioInit(void); void aioDone(void); void aioCancel(int); void aioOpen(const char *, int, mode_t, AIOCB *, void *); void aioClose(int); void aioWrite(int, off_t offset, char *, size_t size, AIOCB *, void *, FREE *); void aioRead(int, off_t offset, size_t size, AIOCB *, void *); void aioStat(char *, struct stat *, AIOCB *, void *); void aioUnlink(const char *, AIOCB *, void *); int aioQueueSize(void); #include "DiskIO/DiskFile.h" class DiskThreadsIOStrategy; struct AIOCounts { int open_start; int open_finish; int close_start; int close_finish; int cancel; int write_start; int write_finish; int read_start; int read_finish; int stat_start; int stat_finish; int unlink_start; int unlink_finish; int check_callback; }; extern AIOCounts squidaio_counts; extern dlink_list used_list; #endif