#ifndef FIO_H #define FIO_H #include #include #include #include #include #include #include #include #include #include #include #include #include #include "compiler/compiler.h" #include "flist.h" #include "fifo.h" #include "rbtree.h" #include "arch/arch.h" #include "os/os.h" #include "mutex.h" #include "log.h" #include "debug.h" #ifdef FIO_HAVE_GUASI #include #endif #ifdef FIO_HAVE_SOLARISAIO #include #endif enum fio_ddir { DDIR_READ = 0, DDIR_WRITE, DDIR_SYNC, DDIR_INVAL = -1, }; enum td_ddir { TD_DDIR_READ = 1 << 0, TD_DDIR_WRITE = 1 << 1, TD_DDIR_RAND = 1 << 2, TD_DDIR_RW = TD_DDIR_READ | TD_DDIR_WRITE, TD_DDIR_RANDREAD = TD_DDIR_READ | TD_DDIR_RAND, TD_DDIR_RANDWRITE = TD_DDIR_WRITE | TD_DDIR_RAND, TD_DDIR_RANDRW = TD_DDIR_RW | TD_DDIR_RAND, }; enum file_lock_mode { FILE_LOCK_NONE, FILE_LOCK_EXCLUSIVE, FILE_LOCK_READWRITE, }; /* * Use for maintaining statistics */ struct io_stat { unsigned long max_val; unsigned long min_val; unsigned long samples; double mean; double S; }; /* * A single data sample */ struct io_sample { unsigned long time; unsigned long val; enum fio_ddir ddir; }; /* * Dynamically growing data sample log */ struct io_log { unsigned long nr_samples; unsigned long max_samples; struct io_sample *log; }; /* * When logging io actions, this matches a single sent io_u */ struct io_piece { union { struct rb_node rb_node; struct flist_head list; }; union { int fileno; struct fio_file *file; }; unsigned long long offset; unsigned long len; enum fio_ddir ddir; union { unsigned long delay; unsigned int file_action; }; }; enum { IO_U_F_FREE = 1 << 0, IO_U_F_FLIGHT = 1 << 1, }; struct thread_data; /* * The io unit */ struct io_u { union { #ifdef FIO_HAVE_LIBAIO struct iocb iocb; #endif #ifdef FIO_HAVE_POSIXAIO struct aiocb aiocb; #endif #ifdef FIO_HAVE_SGIO struct sg_io_hdr hdr; #endif #ifdef FIO_HAVE_GUASI guasi_req_t greq; #endif #ifdef FIO_HAVE_SOLARISAIO aio_result_t resultp; #endif }; struct timeval start_time; struct timeval issue_time; /* * Allocated/set buffer and length */ void *buf; unsigned long buflen; unsigned long long offset; unsigned long long endpos; /* * IO engine state, may be different from above when we get * partial transfers / residual data counts */ void *xfer_buf; unsigned long xfer_buflen; unsigned int resid; unsigned int error; enum fio_ddir ddir; /* * io engine private data */ union { unsigned int index; unsigned int seen; void *engine_data; }; unsigned int flags; struct fio_file *file; struct flist_head list; /* * Callback for io completion */ int (*end_io)(struct thread_data *, struct io_u *); }; /* * io_ops->queue() return values */ enum { FIO_Q_COMPLETED = 0, /* completed sync */ FIO_Q_QUEUED = 1, /* queued, will complete async */ FIO_Q_BUSY = 2, /* no more room, call ->commit() */ }; #define FIO_HDR_MAGIC 0xf00baaef enum { VERIFY_NONE = 0, /* no verification */ VERIFY_MD5, /* md5 sum data blocks */ VERIFY_CRC64, /* crc64 sum data blocks */ VERIFY_CRC32, /* crc32 sum data blocks */ VERIFY_CRC32C, /* crc32c sum data blocks */ VERIFY_CRC32C_INTEL, /* crc32c sum data blocks with hw */ VERIFY_CRC16, /* crc16 sum data blocks */ VERIFY_CRC7, /* crc7 sum data blocks */ VERIFY_SHA256, /* sha256 sum data blocks */ VERIFY_SHA512, /* sha512 sum data blocks */ VERIFY_META, /* block_num, timestamp etc. */ VERIFY_NULL, /* pretend to verify */ }; /* * A header structure associated with each checksummed data block. It is * followed by a checksum specific header that contains the verification * data. */ struct verify_header { unsigned int fio_magic; unsigned int len; unsigned int verify_type; }; struct vhdr_md5 { uint32_t md5_digest[16]; }; struct vhdr_sha512 { uint8_t sha512[128]; }; struct vhdr_sha256 { uint8_t sha256[128]; }; struct vhdr_crc64 { uint64_t crc64; }; struct vhdr_crc32 { uint32_t crc32; }; struct vhdr_crc16 { uint16_t crc16; }; struct vhdr_crc7 { uint8_t crc7; }; struct vhdr_meta { uint64_t offset; unsigned char thread; unsigned short numberio; unsigned long time_sec; unsigned long time_usec; }; struct group_run_stats { unsigned long long max_run[2], min_run[2]; unsigned long long max_bw[2], min_bw[2]; unsigned long long io_kb[2]; unsigned long long agg[2]; }; /* * What type of allocation to use for io buffers */ enum fio_memtype { MEM_MALLOC = 0, /* ordinary malloc */ MEM_SHM, /* use shared memory segments */ MEM_SHMHUGE, /* use shared memory segments with huge pages */ MEM_MMAP, /* use anonynomous mmap */ MEM_MMAPHUGE, /* memory mapped huge file */ }; /* * The type of object we are working on */ enum fio_filetype { FIO_TYPE_FILE = 1, /* plain file */ FIO_TYPE_BD, /* block device */ FIO_TYPE_CHAR, /* character device */ FIO_TYPE_PIPE, /* pipe */ }; enum fio_ioengine_flags { FIO_SYNCIO = 1 << 0, /* io engine has synchronous ->queue */ FIO_RAWIO = 1 << 1, /* some sort of direct/raw io */ FIO_DISKLESSIO = 1 << 2, /* no disk involved */ FIO_NOEXTEND = 1 << 3, /* engine can't extend file */ FIO_NODISKUTIL = 1 << 4, /* diskutil can't handle filename */ FIO_UNIDIR = 1 << 5, /* engine is uni-directional */ FIO_NOIO = 1 << 6, /* thread does only pseudo IO */ FIO_SIGQUIT = 1 << 7, /* needs SIGQUIT to exit */ }; enum fio_file_flags { FIO_FILE_OPEN = 1 << 0, /* file is open */ FIO_FILE_CLOSING = 1 << 1, /* file being closed */ FIO_FILE_EXTEND = 1 << 2, /* needs extend */ FIO_FILE_DONE = 1 << 3, /* io completed to this file */ FIO_SIZE_KNOWN = 1 << 4, /* size has been set */ FIO_FILE_HASHED = 1 << 5, /* file is on hash */ }; /* * Each thread_data structure has a number of files associated with it, * this structure holds state information for a single file. */ struct fio_file { struct flist_head hash_list; enum fio_filetype filetype; /* * A file may not be a file descriptor, let the io engine decide */ union { unsigned long file_data; int fd; }; /* * filename and possible memory mapping */ char *file_name; void *mmap; unsigned int major, minor; /* * size of the file, offset into file, and io size from that offset */ unsigned long long real_file_size; unsigned long long file_offset; unsigned long long io_size; unsigned long long last_pos; /* * if io is protected by a semaphore, this is set */ struct fio_mutex *lock; void *lock_owner; unsigned int lock_batch; enum fio_ddir lock_ddir; /* * block map for random io */ unsigned int *file_map; unsigned int num_maps; unsigned int last_free_lookup; int references; enum fio_file_flags flags; }; /* * How many depth levels to log */ #define FIO_IO_U_MAP_NR 8 #define FIO_IO_U_LAT_U_NR 10 #define FIO_IO_U_LAT_M_NR 12 struct thread_stat { char *name; char *verror; int error; int groupid; pid_t pid; char *description; int members; struct io_log *slat_log; struct io_log *clat_log; struct io_log *bw_log; /* * bandwidth and latency stats */ struct io_stat clat_stat[2]; /* completion latency */ struct io_stat slat_stat[2]; /* submission latency */ struct io_stat bw_stat[2]; /* bandwidth stats */ unsigned long long stat_io_bytes[2]; struct timeval stat_sample_time[2]; /* * fio system usage accounting */ struct rusage ru_start; struct rusage ru_end; unsigned long usr_time; unsigned long sys_time; unsigned long ctx; unsigned long minf, majf; /* * IO depth and latency stats */ unsigned int io_u_map[FIO_IO_U_MAP_NR]; unsigned int io_u_submit[FIO_IO_U_MAP_NR]; unsigned int io_u_complete[FIO_IO_U_MAP_NR]; unsigned int io_u_lat_u[FIO_IO_U_LAT_U_NR]; unsigned int io_u_lat_m[FIO_IO_U_LAT_M_NR]; unsigned long total_io_u[2]; unsigned long short_io_u[2]; unsigned long total_submit; unsigned long total_complete; unsigned long long io_bytes[2]; unsigned long runtime[2]; unsigned long total_run_time; }; struct bssplit { unsigned int bs; unsigned char perc; }; struct thread_options { int pad; char *description; char *name; char *directory; char *filename; char *opendir; char *ioengine; enum td_ddir td_ddir; unsigned int ddir_nr; unsigned int iodepth; unsigned int iodepth_low; unsigned int iodepth_batch; unsigned int iodepth_batch_complete; unsigned long long size; unsigned int fill_device; unsigned long long file_size_low; unsigned long long file_size_high; unsigned long long start_offset; unsigned int bs[2]; unsigned int ba[2]; unsigned int min_bs[2]; unsigned int max_bs[2]; struct bssplit *bssplit; unsigned int bssplit_nr; unsigned int nr_files; unsigned int open_files; enum file_lock_mode file_lock_mode; unsigned int lockfile_batch; unsigned int odirect; unsigned int invalidate_cache; unsigned int create_serialize; unsigned int create_fsync; unsigned int create_on_open; unsigned int end_fsync; unsigned int sync_io; unsigned int verify; unsigned int do_verify; unsigned int verifysort; unsigned int verify_interval; unsigned int verify_offset; unsigned int verify_pattern; unsigned int verify_pattern_bytes; unsigned int verify_fatal; unsigned int use_thread; unsigned int unlink; unsigned int do_disk_util; unsigned int override_sync; unsigned int rand_repeatable; unsigned int write_lat_log; unsigned int write_bw_log; unsigned int norandommap; unsigned int softrandommap; unsigned int bs_unaligned; unsigned int fsync_on_close; unsigned int hugepage_size; unsigned int rw_min_bs; unsigned int thinktime; unsigned int thinktime_spin; unsigned int thinktime_blocks; unsigned int fsync_blocks; unsigned int start_delay; unsigned long long timeout; unsigned long long ramp_time; unsigned int overwrite; unsigned int bw_avg_time; unsigned int loops; unsigned long long zone_size; unsigned long long zone_skip; enum fio_memtype mem_type; unsigned int stonewall; unsigned int new_group; unsigned int numjobs; os_cpu_mask_t cpumask; unsigned int cpumask_set; unsigned int iolog; unsigned int rwmixcycle; unsigned int rwmix[2]; unsigned int nice; unsigned int file_service_type; unsigned int group_reporting; unsigned int fadvise_hint; unsigned int zero_buffers; unsigned int refill_buffers; unsigned int time_based; unsigned int disable_clat; unsigned int disable_slat; unsigned int disable_bw; unsigned int gtod_reduce; unsigned int gtod_cpu; unsigned int gtod_offload; char *read_iolog_file; char *write_iolog_file; char *bw_log_file; char *lat_log_file; /* * Pre-run and post-run shell */ char *exec_prerun; char *exec_postrun; unsigned int rate; unsigned int ratemin; unsigned int ratecycle; unsigned int rate_iops; unsigned int rate_iops_min; char *ioscheduler; /* * CPU "io" cycle burner */ unsigned int cpuload; unsigned int cpucycle; }; #define FIO_VERROR_SIZE 128 /* * This describes a single thread/process executing a fio job. */ struct thread_data { struct thread_options o; char verror[FIO_VERROR_SIZE]; pthread_t thread; int thread_number; int groupid; struct thread_stat ts; struct fio_file **files; unsigned int files_size; unsigned int files_index; unsigned int nr_open_files; unsigned int nr_done_files; unsigned int nr_normal_files; union { unsigned int next_file; os_random_state_t next_file_state; }; int error; int done; pid_t pid; char *orig_buffer; size_t orig_buffer_size; volatile int terminate; volatile int runstate; unsigned int ioprio; unsigned int ioprio_set; unsigned int last_was_sync; char *mmapfile; int mmapfd; void *iolog_buf; FILE *iolog_f; char *sysfs_root; unsigned long rand_seeds[6]; os_random_state_t bsrange_state; os_random_state_t verify_state; int shm_id; /* * IO engine hooks, contains everything needed to submit an io_u * to any of the available IO engines. */ struct ioengine_ops *io_ops; /* * Current IO depth and list of free and busy io_u's. */ unsigned int cur_depth; unsigned int io_u_queued; struct flist_head io_u_freelist; struct flist_head io_u_busylist; struct flist_head io_u_requeues; /* * Rate state */ unsigned long rate_usec_cycle; long rate_pending_usleep; unsigned long rate_bytes; unsigned long rate_blocks; struct timeval lastrate; unsigned long long total_io_size; unsigned long io_issues[2]; unsigned long long io_blocks[2]; unsigned long long io_bytes[2]; unsigned long long io_skip_bytes; unsigned long long this_io_bytes[2]; unsigned long long zone_bytes; struct fio_mutex *mutex; /* * State for random io, a bitmap of blocks done vs not done */ os_random_state_t random_state; struct timeval start; /* start of this loop */ struct timeval epoch; /* time job was started */ struct timeval rw_end[2]; struct timeval last_issue; struct timeval tv_cache; unsigned int tv_cache_nr; unsigned int tv_cache_mask; unsigned int rw_end_set[2]; unsigned int ramp_time_over; /* * read/write mixed workload state */ os_random_state_t rwmix_state; unsigned long rwmix_issues; enum fio_ddir rwmix_ddir; unsigned int ddir_nr; /* * IO history logs for verification. We use a tree for sorting, * if we are overwriting. Otherwise just use a fifo. */ struct rb_root io_hist_tree; struct flist_head io_hist_list; /* * For IO replaying */ struct flist_head io_log_list; /* * for fileservice, how often to switch to a new file */ unsigned int file_service_nr; unsigned int file_service_left; struct fio_file *file_service_file; /* * For generating file sizes */ os_random_state_t file_size_state; }; /* * roundrobin available files, or choose one at random, or do each one * serially. */ enum { FIO_FSERVICE_RANDOM = 1, FIO_FSERVICE_RR = 2, FIO_FSERVICE_SEQ = 3, }; /* * when should interactive ETA output be generated */ enum { FIO_ETA_AUTO, FIO_ETA_ALWAYS, FIO_ETA_NEVER, }; #define __td_verror(td, err, msg, func) \ do { \ if ((td)->error) \ break; \ int e = (err); \ (td)->error = e; \ snprintf(td->verror, sizeof(td->verror) - 1, "file:%s:%d, func=%s, error=%s", __FILE__, __LINE__, (func), (msg)); \ } while (0) #define td_verror(td, err, func) \ __td_verror((td), (err), strerror((err)), (func)) #define td_vmsg(td, err, msg, func) \ __td_verror((td), (err), (msg), (func)) extern int exitall_on_terminate; extern int thread_number; extern int nr_process, nr_thread; extern int shm_id; extern int groupid; extern int terse_output; extern int temp_stall_ts; extern unsigned long long mlock_size; extern unsigned long page_mask, page_size; extern int read_only; extern int eta_print; extern unsigned long done_secs; extern char *job_section; extern int fio_gtod_offload; extern int fio_gtod_cpu; extern struct thread_data *threads; #define td_read(td) ((td)->o.td_ddir & TD_DDIR_READ) #define td_write(td) ((td)->o.td_ddir & TD_DDIR_WRITE) #define td_rw(td) (((td)->o.td_ddir & TD_DDIR_RW) == TD_DDIR_RW) #define td_random(td) ((td)->o.td_ddir & TD_DDIR_RAND) #define file_randommap(td, f) (!(td)->o.norandommap && (f)->file_map) static inline void fio_ro_check(struct thread_data *td, struct io_u *io_u) { assert(!(io_u->ddir == DDIR_WRITE && !td_write(td))); } #define BLOCKS_PER_MAP (8 * sizeof(int)) #define TO_MAP_BLOCK(f, b) (b) #define RAND_MAP_IDX(f, b) (TO_MAP_BLOCK(f, b) / BLOCKS_PER_MAP) #define RAND_MAP_BIT(f, b) (TO_MAP_BLOCK(f, b) & (BLOCKS_PER_MAP - 1)) #define MAX_JOBS (1024) static inline int should_fsync(struct thread_data *td) { if (td->last_was_sync) return 0; if (td->o.odirect) return 0; if (td_write(td) || td_rw(td) || td->o.override_sync) return 1; return 0; } /* * Disk utils as read in /sys/block//stat */ struct disk_util_stat { unsigned ios[2]; unsigned merges[2]; unsigned long long sectors[2]; unsigned ticks[2]; unsigned io_ticks; unsigned time_in_queue; }; /* * Per-device disk util management */ struct disk_util { struct flist_head list; /* If this disk is a slave, hook it into the master's * list using this head. */ struct flist_head slavelist; char *name; char *sysfs_root; char path[256]; int major, minor; struct disk_util_stat dus; struct disk_util_stat last_dus; /* For software raids, this entry maintains pointers to the * entries for the slave devices. The disk_util entries for * the slaves devices should primarily be maintained through * the disk_list list, i.e. for memory allocation and * de-allocation, etc. Whereas this list should be used only * for aggregating a software RAID's disk util figures. */ struct flist_head slaves; unsigned long msec; struct timeval time; }; #define DISK_UTIL_MSEC (250) /* * Log exports */ enum file_log_act { FIO_LOG_ADD_FILE, FIO_LOG_OPEN_FILE, FIO_LOG_CLOSE_FILE, FIO_LOG_UNLINK_FILE, }; extern int __must_check read_iolog_get(struct thread_data *, struct io_u *); extern void log_io_u(struct thread_data *, struct io_u *); extern void log_file(struct thread_data *, struct fio_file *, enum file_log_act); extern int __must_check init_iolog(struct thread_data *td); extern void log_io_piece(struct thread_data *, struct io_u *); extern void queue_io_piece(struct thread_data *, struct io_piece *); extern void prune_io_piece_log(struct thread_data *); extern void write_iolog_close(struct thread_data *); /* * Logging */ extern void add_clat_sample(struct thread_data *, enum fio_ddir, unsigned long); extern void add_slat_sample(struct thread_data *, enum fio_ddir, unsigned long); extern void add_bw_sample(struct thread_data *, enum fio_ddir, struct timeval *); extern void show_run_stats(void); extern void init_disk_util(struct thread_data *); extern void update_rusage_stat(struct thread_data *); extern void update_io_ticks(void); extern void setup_log(struct io_log **); extern void finish_log(struct thread_data *, struct io_log *, const char *); extern void finish_log_named(struct thread_data *, struct io_log *, const char *, const char *); extern void __finish_log(struct io_log *, const char *); extern struct io_log *agg_io_log[2]; extern int write_bw_log; extern void add_agg_sample(unsigned long, enum fio_ddir); /* * Time functions */ extern unsigned long long utime_since(struct timeval *, struct timeval *); extern unsigned long long utime_since_now(struct timeval *); extern unsigned long mtime_since(struct timeval *, struct timeval *); extern unsigned long mtime_since_now(struct timeval *); extern unsigned long time_since_now(struct timeval *); extern unsigned long mtime_since_genesis(void); extern void usec_spin(unsigned int); extern void usec_sleep(struct thread_data *, unsigned long); extern void rate_throttle(struct thread_data *, unsigned long, unsigned int); extern void fill_start_time(struct timeval *); extern void fio_gettime(struct timeval *, void *); extern void fio_gtod_init(void); extern void fio_gtod_update(void); extern void set_genesis_time(void); extern int ramp_time_over(struct thread_data *); extern int in_ramp_time(struct thread_data *); /* * Init/option functions */ extern int __must_check parse_options(int, char **); extern int fio_options_parse(struct thread_data *, char **, int); extern int fio_cmd_option_parse(struct thread_data *, const char *, char *); extern void fio_fill_default_options(struct thread_data *); extern int fio_show_option_help(const char *); extern void fio_options_dup_and_init(struct option *); extern void options_mem_dupe(struct thread_data *); extern void options_mem_free(struct thread_data *); extern void td_fill_rand_seeds(struct thread_data *); #define FIO_GETOPT_JOB 0x89988998 #define FIO_NR_OPTIONS 128 /* * File setup/shutdown */ extern void close_files(struct thread_data *); extern void close_and_free_files(struct thread_data *); extern int __must_check setup_files(struct thread_data *); extern int __must_check file_invalidate_cache(struct thread_data *, struct fio_file *); extern int __must_check generic_open_file(struct thread_data *, struct fio_file *); extern int __must_check generic_close_file(struct thread_data *, struct fio_file *); extern int __must_check generic_get_file_size(struct thread_data *, struct fio_file *); extern int add_file(struct thread_data *, const char *); extern void get_file(struct fio_file *); extern int __must_check put_file(struct thread_data *, struct fio_file *); extern void lock_file(struct thread_data *, struct fio_file *, enum fio_ddir); extern void unlock_file(struct thread_data *, struct fio_file *); extern void unlock_file_all(struct thread_data *, struct fio_file *); extern int add_dir_files(struct thread_data *, const char *); extern int init_random_map(struct thread_data *); extern void dup_files(struct thread_data *, struct thread_data *); extern int get_fileno(struct thread_data *, const char *); extern void free_release_files(struct thread_data *); /* * ETA/status stuff */ extern void print_thread_status(void); extern void print_status_init(int); /* * disk util stuff */ #ifdef FIO_HAVE_DISK_UTIL extern void show_disk_util(void); extern void init_disk_util(struct thread_data *); extern void update_io_ticks(void); #else #define show_disk_util() #define init_disk_util(td) #define update_io_ticks() #endif /* * Thread life cycle. Once a thread has a runstate beyond TD_INITIALIZED, it * will never back again. It may cycle between running/verififying/fsyncing. * Once the thread reaches TD_EXITED, it is just waiting for the core to * reap it. */ enum { TD_NOT_CREATED = 0, TD_CREATED, TD_INITIALIZED, TD_RAMP, TD_RUNNING, TD_VERIFYING, TD_FSYNCING, TD_EXITED, TD_REAPED, }; extern void td_set_runstate(struct thread_data *, int); /* * Verify helpers */ extern void populate_verify_io_u(struct thread_data *, struct io_u *); extern int __must_check get_next_verify(struct thread_data *td, struct io_u *); extern int __must_check verify_io_u(struct thread_data *, struct io_u *); /* * Memory helpers */ extern int __must_check fio_pin_memory(void); extern void fio_unpin_memory(void); extern int __must_check allocate_io_mem(struct thread_data *); extern void free_io_mem(struct thread_data *); /* * io unit handling */ #define queue_full(td) flist_empty(&(td)->io_u_freelist) extern struct io_u *__get_io_u(struct thread_data *); extern struct io_u *get_io_u(struct thread_data *); extern void put_io_u(struct thread_data *, struct io_u *); extern void requeue_io_u(struct thread_data *, struct io_u **); extern long __must_check io_u_sync_complete(struct thread_data *, struct io_u *); extern long __must_check io_u_queued_complete(struct thread_data *, int); extern void io_u_queued(struct thread_data *, struct io_u *); extern void io_u_log_error(struct thread_data *, struct io_u *); extern void io_u_mark_depth(struct thread_data *, unsigned int); extern void io_u_fill_buffer(struct thread_data *td, struct io_u *, unsigned int); void io_u_mark_complete(struct thread_data *, unsigned int); void io_u_mark_submit(struct thread_data *, unsigned int); /* * Reset stats after ramp time completes */ extern void reset_all_stats(struct thread_data *); /* * io engine entry points */ extern int __must_check td_io_init(struct thread_data *); extern int __must_check td_io_prep(struct thread_data *, struct io_u *); extern int __must_check td_io_queue(struct thread_data *, struct io_u *); extern int __must_check td_io_sync(struct thread_data *, struct fio_file *); extern int __must_check td_io_getevents(struct thread_data *, unsigned int, unsigned int, struct timespec *); extern int __must_check td_io_commit(struct thread_data *); extern int __must_check td_io_open_file(struct thread_data *, struct fio_file *); extern int td_io_close_file(struct thread_data *, struct fio_file *); extern int __must_check td_io_get_file_size(struct thread_data *, struct fio_file *); /* * blktrace support */ #ifdef FIO_HAVE_BLKTRACE extern int is_blktrace(const char *); extern int load_blktrace(struct thread_data *, const char *); #endif struct ioengine_ops { struct flist_head list; char name[16]; int version; int flags; int (*setup)(struct thread_data *); int (*init)(struct thread_data *); int (*prep)(struct thread_data *, struct io_u *); int (*queue)(struct thread_data *, struct io_u *); int (*commit)(struct thread_data *); int (*getevents)(struct thread_data *, unsigned int, unsigned int, struct timespec *); struct io_u *(*event)(struct thread_data *, int); int (*cancel)(struct thread_data *, struct io_u *); void (*cleanup)(struct thread_data *); int (*open_file)(struct thread_data *, struct fio_file *); int (*close_file)(struct thread_data *, struct fio_file *); int (*get_file_size)(struct thread_data *, struct fio_file *); void *data; void *dlhandle; }; #define FIO_IOOPS_VERSION 10 extern struct ioengine_ops *load_ioengine(struct thread_data *, const char *); extern void register_ioengine(struct ioengine_ops *); extern void unregister_ioengine(struct ioengine_ops *); extern void close_ioengine(struct thread_data *); /* * Mark unused variables passed to ops functions as unused, to silence gcc */ #define fio_unused __attribute((__unused__)) #define fio_init __attribute__((constructor)) #define fio_exit __attribute__((destructor)) #define for_each_td(td, i) \ for ((i) = 0, (td) = &threads[0]; (i) < (int) thread_number; (i)++, (td)++) #define for_each_file(td, f, i) \ if ((td)->files_index) \ for ((i) = 0, (f) = (td)->files[0]; \ (i) < (td)->o.nr_files && ((f) = (td)->files[i]) != NULL; \ (i)++) #define fio_assert(td, cond) do { \ if (!(cond)) { \ int *__foo = NULL; \ fprintf(stderr, "file:%s:%d, assert %s failed\n", __FILE__, __LINE__, #cond); \ (td)->runstate = TD_EXITED; \ (td)->error = EFAULT; \ *__foo = 0; \ } \ } while (0) static inline void fio_file_reset(struct fio_file *f) { f->last_free_lookup = 0; f->last_pos = f->file_offset; if (f->file_map) memset(f->file_map, 0, f->num_maps * sizeof(int)); } static inline void clear_error(struct thread_data *td) { td->error = 0; td->verror[0] = '\0'; } #ifdef FIO_INC_DEBUG static inline void dprint_io_u(struct io_u *io_u, const char *p) { struct fio_file *f = io_u->file; dprint(FD_IO, "%s: io_u %p: off=%llu/len=%lu/ddir=%d", p, io_u, (unsigned long long) io_u->offset, io_u->buflen, io_u->ddir); if (fio_debug & (1 << FD_IO)) { if (f) log_info("/%s", f->file_name); log_info("\n"); } } #else #define dprint_io_u(io_u, p) #endif static inline int fio_fill_issue_time(struct thread_data *td) { if (td->o.read_iolog_file || !td->o.disable_clat || !td->o.disable_slat || !td->o.disable_bw) return 1; return 0; } #endif