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fio.h
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fio.h
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#ifndef FIO_H
#define FIO_H
#include <sched.h>
#include <limits.h>
#include <pthread.h>
#include <sys/time.h>
#include <sys/resource.h>
#include <errno.h>
#include <stdlib.h>
#include <stdio.h>
#include <unistd.h>
#include <string.h>
#include <inttypes.h>
#include <assert.h>
#include "compiler/compiler.h"
#include "thread_options.h"
#include "flist.h"
#include "fifo.h"
#include "arch/arch.h"
#include "os/os.h"
#include "log.h"
#include "debug.h"
#include "file.h"
#include "io_ddir.h"
#include "ioengines.h"
#include "iolog.h"
#include "helpers.h"
#include "minmax.h"
#include "options.h"
#include "profile.h"
#include "fio_time.h"
#include "gettime.h"
#include "oslib/getopt.h"
#include "lib/rand.h"
#include "lib/rbtree.h"
#include "lib/num2str.h"
#include "lib/memalign.h"
#include "smalloc.h"
#include "client.h"
#include "server.h"
#include "stat.h"
#include "flow.h"
#include "io_u.h"
#include "io_u_queue.h"
#include "workqueue.h"
#include "steadystate.h"
#include "lib/nowarn_snprintf.h"
#include "dedupe.h"
#ifdef CONFIG_SOLARISAIO
#include <sys/asynch.h>
#endif
#ifdef CONFIG_LIBNUMA
#include <linux/mempolicy.h>
#include <numa.h>
/*
* "local" is pseudo-policy
*/
#ifndef MPOL_LOCAL
#define MPOL_LOCAL 4
#endif
#endif
#ifdef CONFIG_CUDA
#include <cuda.h>
#endif
struct fio_sem;
#define MAX_TRIM_RANGE 256
/*
* Range for trim command
*/
struct trim_range {
unsigned long long start;
unsigned long long len;
};
/*
* offset generator types
*/
enum {
RW_SEQ_SEQ = 0,
RW_SEQ_IDENT,
};
enum {
__TD_F_VER_BACKLOG = 0,
__TD_F_TRIM_BACKLOG,
__TD_F_READ_IOLOG,
__TD_F_REFILL_BUFFERS,
__TD_F_SCRAMBLE_BUFFERS,
__TD_F_DO_VERIFY,
__TD_F_PROFILE_OPS,
__TD_F_COMPRESS,
__TD_F_COMPRESS_LOG,
__TD_F_VSTATE_SAVED,
__TD_F_NEED_LOCK,
__TD_F_CHILD,
__TD_F_NO_PROGRESS,
__TD_F_REGROW_LOGS,
__TD_F_MMAP_KEEP,
__TD_F_DIRS_CREATED,
__TD_F_CHECK_RATE,
__TD_F_SYNCS,
__TD_F_LAST, /* not a real bit, keep last */
};
enum {
TD_F_VER_BACKLOG = 1U << __TD_F_VER_BACKLOG,
TD_F_TRIM_BACKLOG = 1U << __TD_F_TRIM_BACKLOG,
TD_F_READ_IOLOG = 1U << __TD_F_READ_IOLOG,
TD_F_REFILL_BUFFERS = 1U << __TD_F_REFILL_BUFFERS,
TD_F_SCRAMBLE_BUFFERS = 1U << __TD_F_SCRAMBLE_BUFFERS,
TD_F_DO_VERIFY = 1U << __TD_F_DO_VERIFY,
TD_F_PROFILE_OPS = 1U << __TD_F_PROFILE_OPS,
TD_F_COMPRESS = 1U << __TD_F_COMPRESS,
TD_F_COMPRESS_LOG = 1U << __TD_F_COMPRESS_LOG,
TD_F_VSTATE_SAVED = 1U << __TD_F_VSTATE_SAVED,
TD_F_NEED_LOCK = 1U << __TD_F_NEED_LOCK,
TD_F_CHILD = 1U << __TD_F_CHILD,
TD_F_NO_PROGRESS = 1U << __TD_F_NO_PROGRESS,
TD_F_REGROW_LOGS = 1U << __TD_F_REGROW_LOGS,
TD_F_MMAP_KEEP = 1U << __TD_F_MMAP_KEEP,
TD_F_DIRS_CREATED = 1U << __TD_F_DIRS_CREATED,
TD_F_CHECK_RATE = 1U << __TD_F_CHECK_RATE,
TD_F_SYNCS = 1U << __TD_F_SYNCS,
};
enum {
FIO_RAND_BS_OFF = 0,
FIO_RAND_BS1_OFF,
FIO_RAND_BS2_OFF,
FIO_RAND_VER_OFF,
FIO_RAND_MIX_OFF,
FIO_RAND_FILE_OFF,
FIO_RAND_BLOCK_OFF,
FIO_RAND_FILE_SIZE_OFF,
FIO_RAND_TRIM_OFF,
FIO_RAND_BUF_OFF,
FIO_RAND_SEQ_RAND_READ_OFF,
FIO_RAND_SEQ_RAND_WRITE_OFF,
FIO_RAND_SEQ_RAND_TRIM_OFF,
FIO_RAND_START_DELAY,
FIO_DEDUPE_OFF,
FIO_RAND_POISSON_OFF,
FIO_RAND_ZONE_OFF,
FIO_RAND_POISSON2_OFF,
FIO_RAND_POISSON3_OFF,
FIO_RAND_PRIO_CMDS,
FIO_RAND_DEDUPE_WORKING_SET_IX,
FIO_RAND_FDP_OFF,
FIO_RAND_NR_OFFS,
};
enum {
IO_MODE_INLINE = 0,
IO_MODE_OFFLOAD = 1,
RATE_PROCESS_LINEAR = 0,
RATE_PROCESS_POISSON = 1,
THINKTIME_BLOCKS_TYPE_COMPLETE = 0,
THINKTIME_BLOCKS_TYPE_ISSUE = 1,
};
enum {
F_ADV_NONE = 0,
F_ADV_TYPE,
F_ADV_RANDOM,
F_ADV_SEQUENTIAL,
F_ADV_NOREUSE,
};
/*
* Per-thread/process specific data. Only used for the network client
* for now.
*/
void sk_out_assign(struct sk_out *);
void sk_out_drop(void);
struct zone_split_index {
uint8_t size_perc;
uint8_t size_perc_prev;
uint64_t size;
uint64_t size_prev;
};
/*
* This describes a single thread/process executing a fio job.
*/
struct thread_data {
struct flist_head opt_list;
unsigned long long flags;
struct thread_options o;
void *eo;
pthread_t thread;
unsigned int thread_number;
unsigned int subjob_number;
unsigned int groupid;
struct thread_stat ts __attribute__ ((aligned(8)));
int client_type;
struct io_log *slat_log;
struct io_log *clat_log;
struct io_log *clat_hist_log;
struct io_log *lat_log;
struct io_log *bw_log;
struct io_log *iops_log;
struct workqueue log_compress_wq;
struct thread_data *parent;
uint64_t stat_io_bytes[DDIR_RWDIR_CNT];
struct timespec bw_sample_time;
uint64_t stat_io_blocks[DDIR_RWDIR_CNT];
struct timespec iops_sample_time;
volatile int update_rusage;
struct fio_sem *rusage_sem;
struct rusage ru_start;
struct rusage ru_end;
struct fio_file **files;
unsigned char *file_locks;
unsigned int files_size;
unsigned int files_index;
unsigned int nr_open_files;
unsigned int nr_done_files;
union {
unsigned int next_file;
struct frand_state next_file_state;
};
union {
struct zipf_state next_file_zipf;
struct gauss_state next_file_gauss;
};
union {
double zipf_theta;
double pareto_h;
double gauss_dev;
};
double random_center;
int error;
int sig;
int done;
int stop_io;
pid_t pid;
char *orig_buffer;
size_t orig_buffer_size;
volatile int runstate;
volatile bool terminate;
bool last_was_sync;
enum fio_ddir last_ddir;
int mmapfd;
void *iolog_buf;
FILE *iolog_f;
uint64_t rand_seeds[FIO_RAND_NR_OFFS];
struct frand_state bsrange_state[DDIR_RWDIR_CNT];
struct frand_state verify_state;
struct frand_state verify_state_last_do_io;
struct frand_state trim_state;
struct frand_state delay_state;
struct frand_state fdp_state;
struct frand_state buf_state;
struct frand_state buf_state_prev;
struct frand_state buf_state_ret;
struct frand_state dedupe_state;
struct frand_state zone_state;
struct frand_state prio_state;
struct frand_state dedupe_working_set_index_state;
struct frand_state *dedupe_working_set_states;
unsigned long long num_unique_pages;
struct zone_split_index **zone_state_index;
unsigned int num_write_zones;
unsigned int verify_batch;
unsigned int trim_batch;
struct thread_io_list *vstate;
int shm_id;
/*
* Job default IO priority set with prioclass and prio options.
*/
unsigned int ioprio;
/*
* IO engine hooks, contains everything needed to submit an io_u
* to any of the available IO engines.
*/
struct ioengine_ops *io_ops;
int io_ops_init;
/*
* IO engine private data and dlhandle.
*/
void *io_ops_data;
/*
* Queue depth of io_u's that fio MIGHT do
*/
unsigned int cur_depth;
/*
* io_u's about to be committed
*/
unsigned int io_u_queued;
/*
* io_u's submitted but not completed yet
*/
unsigned int io_u_in_flight;
/*
* List of free and busy io_u's
*/
struct io_u_ring io_u_requeues;
struct io_u_queue io_u_freelist;
struct io_u_queue io_u_all;
pthread_mutex_t io_u_lock;
pthread_cond_t free_cond;
/*
* async verify offload
*/
struct flist_head verify_list;
pthread_t *verify_threads;
unsigned int nr_verify_threads;
pthread_cond_t verify_cond;
int verify_thread_exit;
/*
* Rate state
*/
uint64_t rate_bps[DDIR_RWDIR_CNT];
uint64_t rate_next_io_time[DDIR_RWDIR_CNT];
unsigned long long last_rate_check_bytes[DDIR_RWDIR_CNT];
unsigned long last_rate_check_blocks[DDIR_RWDIR_CNT];
unsigned long long rate_io_issue_bytes[DDIR_RWDIR_CNT];
struct timespec last_rate_check_time[DDIR_RWDIR_CNT];
int64_t last_usec[DDIR_RWDIR_CNT];
struct frand_state poisson_state[DDIR_RWDIR_CNT];
/*
* Enforced rate submission/completion workqueue
*/
struct workqueue io_wq;
uint64_t total_io_size;
uint64_t fill_device_size;
/*
* Issue side
*/
uint64_t io_issues[DDIR_RWDIR_CNT];
uint64_t verify_read_issues;
uint64_t io_issue_bytes[DDIR_RWDIR_CNT];
uint64_t loops;
/*
* Completions
*/
uint64_t io_blocks[DDIR_RWDIR_CNT];
uint64_t this_io_blocks[DDIR_RWDIR_CNT];
uint64_t io_bytes[DDIR_RWDIR_CNT];
uint64_t this_io_bytes[DDIR_RWDIR_CNT];
uint64_t io_skip_bytes;
uint64_t zone_bytes;
struct fio_sem *sem;
uint64_t bytes_done[DDIR_RWDIR_CNT];
uint64_t bytes_verified;
uint64_t *thinktime_blocks_counter;
struct timespec last_thinktime;
int64_t last_thinktime_blocks;
/*
* State for random io, a bitmap of blocks done vs not done
*/
struct frand_state random_state;
struct timespec start; /* start of this loop */
struct timespec epoch; /* time job was started */
unsigned long long alternate_epoch; /* Time job was started, as clock_gettime(log_alternate_epoch_clock_id) */
unsigned long long job_start; /* Time job was started, as clock_gettime(job_start_clock_id) */
struct timespec last_issue;
long time_offset;
struct timespec ts_cache;
struct timespec terminate_time;
unsigned int ts_cache_nr;
unsigned int ts_cache_mask;
bool ramp_time_over;
/*
* Time since last latency_window was started
*/
struct timespec latency_ts;
unsigned int latency_qd;
unsigned int latency_qd_high;
unsigned int latency_qd_low;
unsigned int latency_failed;
unsigned int latency_stable_count;
uint64_t latency_ios;
int latency_end_run;
/*
* read/write mixed workload state
*/
struct frand_state rwmix_state;
unsigned long rwmix_issues;
enum fio_ddir rwmix_ddir;
unsigned int ddir_seq_nr;
/*
* rand/seq mixed workload state
*/
struct frand_state seq_rand_state[DDIR_RWDIR_CNT];
/*
* 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;
unsigned long io_hist_len;
/*
* For IO replaying
*/
struct flist_head io_log_list;
FILE *io_log_rfile;
unsigned int io_log_blktrace;
unsigned int io_log_blktrace_swap;
unsigned long long io_log_last_ttime;
struct timespec io_log_start_time;
unsigned int io_log_current;
unsigned int io_log_checkmark;
unsigned int io_log_highmark;
unsigned int io_log_version;
struct timespec io_log_highmark_time;
/*
* For tracking/handling discards
*/
struct flist_head trim_list;
unsigned long trim_entries;
/*
* 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;
unsigned int sync_file_range_nr;
/*
* For generating file sizes
*/
struct frand_state file_size_state;
/*
* Error counts
*/
unsigned int total_err_count;
int first_error;
struct fio_flow *flow;
unsigned long long flow_counter;
/*
* Can be overloaded by profiles
*/
struct prof_io_ops prof_io_ops;
void *prof_data;
void *pinned_mem;
struct steadystate_data ss;
char verror[FIO_VERROR_SIZE];
#ifdef CONFIG_CUDA
/*
* for GPU memory management
*/
int gpu_dev_cnt;
int gpu_dev_id;
CUdevice cu_dev;
CUcontext cu_ctx;
CUdeviceptr dev_mem_ptr;
#endif
};
struct thread_segment {
struct thread_data *threads;
int shm_id;
int nr_threads;
};
/*
* 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 { \
unsigned int ____e = (err); \
if ((td)->error) \
break; \
(td)->error = ____e; \
if (!(td)->first_error) \
nowarn_snprintf(td->verror, sizeof(td->verror), \
"file:%s:%d, func=%s, error=%s", \
__FILE__, __LINE__, (func), (msg)); \
} while (0)
#define td_clear_error(td) do { \
(td)->error = 0; \
if ((td)->parent) \
(td)->parent->error = 0; \
} while (0)
#define td_verror(td, err, func) do { \
__td_verror((td), (err), strerror((err)), (func)); \
if ((td)->parent) \
__td_verror((td)->parent, (err), strerror((err)), (func)); \
} while (0)
#define td_vmsg(td, err, msg, func) do { \
__td_verror((td), (err), (msg), (func)); \
if ((td)->parent) \
__td_verror((td)->parent, (err), (msg), (func)); \
} while (0)
#define __fio_stringify_1(x) #x
#define __fio_stringify(x) __fio_stringify_1(x)
#define REAL_MAX_JOBS 4096
#define JOBS_PER_SEG 8
#define REAL_MAX_SEG (REAL_MAX_JOBS / JOBS_PER_SEG)
extern bool exitall_on_terminate;
extern unsigned int thread_number;
extern unsigned int stat_number;
extern unsigned int nr_segments;
extern unsigned int cur_segment;
extern int groupid;
extern int output_format;
extern int append_terse_output;
extern int temp_stall_ts;
extern uintptr_t page_mask, page_size;
extern bool read_only;
extern int eta_print;
extern int eta_new_line;
extern unsigned int eta_interval_msec;
extern unsigned long done_secs;
extern int fio_gtod_offload;
extern int fio_gtod_cpu;
extern enum fio_cs fio_clock_source;
extern int fio_clock_source_set;
extern int warnings_fatal;
extern int terse_version;
extern bool is_backend;
extern bool is_local_backend;
extern int nr_clients;
extern bool log_syslog;
extern int status_interval;
extern const char fio_version_string[];
extern char *trigger_file;
extern char *trigger_cmd;
extern char *trigger_remote_cmd;
extern long long trigger_timeout;
extern char *aux_path;
extern struct thread_segment segments[REAL_MAX_SEG];
static inline struct thread_data *tnumber_to_td(unsigned int tnumber)
{
struct thread_segment *seg;
seg = &segments[tnumber / JOBS_PER_SEG];
return &seg->threads[tnumber & (JOBS_PER_SEG - 1)];
}
static inline bool is_running_backend(void)
{
return is_backend || is_local_backend;
}
extern bool eta_time_within_slack(unsigned int time);
static inline void fio_ro_check(const struct thread_data *td, struct io_u *io_u)
{
assert(!(io_u->ddir == DDIR_WRITE && !td_write(td)) &&
!(io_u->ddir == DDIR_TRIM && !td_trim(td)));
}
static inline bool multi_range_trim(struct thread_data *td, struct io_u *io_u)
{
if (io_u->ddir == DDIR_TRIM && td->o.num_range > 1)
return true;
return false;
}
static inline bool should_fsync(struct thread_data *td)
{
if (td->last_was_sync)
return false;
if (td_write(td) || td->o.override_sync)
return true;
return false;
}
/*
* Init/option functions
*/
extern int __must_check fio_init_options(void);
extern int __must_check parse_options(int, char **);
extern int parse_jobs_ini(char *, int, int, int);
extern int parse_cmd_line(int, char **, int);
extern int fio_backend(struct sk_out *);
extern void reset_fio_state(void);
extern void clear_io_state(struct thread_data *, int);
extern int fio_options_parse(struct thread_data *, char **, int);
extern void fio_keywords_init(void);
extern void fio_keywords_exit(void);
extern int fio_cmd_option_parse(struct thread_data *, const char *, char *);
extern int fio_cmd_ioengine_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_set_ioengine_opts(struct option *long_options, struct thread_data *td);
extern void fio_options_dup_and_init(struct option *);
extern char *fio_option_dup_subs(const char *);
extern void fio_options_mem_dupe(struct thread_data *);
extern void td_fill_rand_seeds(struct thread_data *);
extern void add_job_opts(const char **, int);
extern int ioengine_load(struct thread_data *);
extern bool parse_dryrun(void);
extern int fio_running_or_pending_io_threads(void);
extern int fio_set_fd_nonblocking(int, const char *);
extern void sig_show_status(int sig);
extern struct thread_data *get_global_options(void);
extern uintptr_t page_mask;
extern uintptr_t page_size;
extern int initialize_fio(char *envp[]);
extern void deinitialize_fio(void);
#define FIO_GETOPT_JOB 0x89000000
#define FIO_GETOPT_IOENGINE 0x98000000
#define FIO_NR_OPTIONS (FIO_MAX_OPTS + 128)
/*
* ETA/status stuff
*/
extern void print_thread_status(void);
extern void print_status_init(int);
extern char *fio_uint_to_kmg(unsigned int val);
/*
* 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_SETTING_UP,
TD_RUNNING,
TD_PRE_READING,
TD_VERIFYING,
TD_FSYNCING,
TD_FINISHING,
TD_EXITED,
TD_REAPED,
TD_LAST,
TD_NR,
};
#define TD_ENG_FLAG_SHIFT 18
#define TD_ENG_FLAG_MASK ((1ULL << 18) - 1)
static inline void td_set_ioengine_flags(struct thread_data *td)
{
td->flags = (~(TD_ENG_FLAG_MASK << TD_ENG_FLAG_SHIFT) & td->flags) |
((unsigned long long)td->io_ops->flags << TD_ENG_FLAG_SHIFT);
}
static inline bool td_ioengine_flagged(struct thread_data *td,
enum fio_ioengine_flags flags)
{
return ((td->flags >> TD_ENG_FLAG_SHIFT) & flags) != 0;
}
extern void td_set_runstate(struct thread_data *, int);
extern int td_bump_runstate(struct thread_data *, int);
extern void td_restore_runstate(struct thread_data *, int);
extern const char *runstate_to_name(int runstate);
/*
* Allow 60 seconds for a job to quit on its own, otherwise reap with
* a vengeance.
*/
#define FIO_REAP_TIMEOUT 300
enum {
TERMINATE_NONE = 0,
TERMINATE_GROUP = 1,
TERMINATE_STONEWALL = 2,
TERMINATE_ALL = -1,
};
extern void fio_terminate_threads(unsigned int, unsigned int);
extern void fio_mark_td_terminate(struct thread_data *);
/*
* Memory helpers
*/
extern int __must_check fio_pin_memory(struct thread_data *);
extern void fio_unpin_memory(struct thread_data *);
extern int __must_check allocate_io_mem(struct thread_data *);
extern void free_io_mem(struct thread_data *);
extern void free_threads_shm(void);
#ifdef FIO_INTERNAL
#define PTR_ALIGN(ptr, mask) \
(char *) (((uintptr_t) (ptr) + (mask)) & ~(mask))
#endif
/*
* Reset stats after ramp time completes
*/
extern void reset_all_stats(struct thread_data *);
extern int io_queue_event(struct thread_data *td, struct io_u *io_u, int *ret,
enum fio_ddir ddir, uint64_t *bytes_issued, int from_verify,
struct timespec *comp_time);
/*
* Latency target helpers
*/
extern void lat_target_check(struct thread_data *);
extern void lat_target_init(struct thread_data *);
extern void lat_target_reset(struct thread_data *);
/*
* Iterates all threads/processes within all the defined jobs
* Usage:
* for_each_td(var_name_for_td) {
* << bodoy of your loop >>
* Note: internally-scoped loop index availble as __td_index
* } end_for_each_td()
*/
#define for_each_td(td) \
{ \
int __td_index; \
struct thread_data *(td); \
for (__td_index = 0, (td) = &segments[0].threads[0];\
__td_index < (int) thread_number; __td_index++, (td) = tnumber_to_td(__td_index))
#define for_each_td_index() \
{ \
int __td_index; \
for (__td_index = 0; __td_index < (int) thread_number; __td_index++)
#define end_for_each() }
#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)++)
static inline bool 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 true;
return false;
}
static inline bool option_check_rate(struct thread_data *td, enum fio_ddir ddir)
{
struct thread_options *o = &td->o;
/*
* If some rate setting was given, we need to check it
*/
if (o->rate[ddir] || o->ratemin[ddir] || o->rate_iops[ddir] ||
o->rate_iops_min[ddir])
return true;
return false;
}
static inline bool should_check_rate(struct thread_data *td)
{
return (td->flags & TD_F_CHECK_RATE) != 0;
}
static inline unsigned long long td_max_bs(struct thread_data *td)
{
unsigned long long max_bs;
max_bs = max(td->o.max_bs[DDIR_READ], td->o.max_bs[DDIR_WRITE]);
return max(td->o.max_bs[DDIR_TRIM], max_bs);
}
static inline unsigned long long td_min_bs(struct thread_data *td)
{
unsigned long long min_bs;
min_bs = min(td->o.min_bs[DDIR_READ], td->o.min_bs[DDIR_WRITE]);
return min(td->o.min_bs[DDIR_TRIM], min_bs);
}
static inline bool td_async_processing(struct thread_data *td)
{
return (td->flags & TD_F_NEED_LOCK) != 0;
}
static inline bool td_offload_overlap(struct thread_data *td)
{
return td->o.serialize_overlap && td->o.io_submit_mode == IO_MODE_OFFLOAD;
}
/*
* We currently only need to do locking if we have verifier threads
* accessing our internal structures too
*/
static inline void __td_io_u_lock(struct thread_data *td)
{
pthread_mutex_lock(&td->io_u_lock);
}
static inline void __td_io_u_unlock(struct thread_data *td)
{
pthread_mutex_unlock(&td->io_u_lock);
}
static inline void td_io_u_free_notify(struct thread_data *td)
{
if (td_async_processing(td))
pthread_cond_signal(&td->free_cond);
}
static inline void td_flags_clear(struct thread_data *td, unsigned int *flags,
unsigned int value)
{
if (!td_async_processing(td))
*flags &= ~value;
else
__sync_fetch_and_and(flags, ~value);
}
static inline void td_flags_set(struct thread_data *td, unsigned int *flags,
unsigned int value)
{
if (!td_async_processing(td))
*flags |= value;
else
__sync_fetch_and_or(flags, value);
}
extern const char *fio_get_arch_string(int);
extern const char *fio_get_os_string(int);
enum {
__FIO_OUTPUT_TERSE = 0,
__FIO_OUTPUT_JSON = 1,
__FIO_OUTPUT_NORMAL = 2,
__FIO_OUTPUT_JSON_PLUS = 3,
FIO_OUTPUT_NR = 4,
FIO_OUTPUT_TERSE = 1U << __FIO_OUTPUT_TERSE,
FIO_OUTPUT_JSON = 1U << __FIO_OUTPUT_JSON,
FIO_OUTPUT_NORMAL = 1U << __FIO_OUTPUT_NORMAL,
FIO_OUTPUT_JSON_PLUS = 1U << __FIO_OUTPUT_JSON_PLUS,
};
enum {
FIO_RAND_DIST_RANDOM = 0,
FIO_RAND_DIST_ZIPF,
FIO_RAND_DIST_PARETO,
FIO_RAND_DIST_GAUSS,
FIO_RAND_DIST_ZONED,
FIO_RAND_DIST_ZONED_ABS,
};
#define FIO_DEF_ZIPF 1.1
#define FIO_DEF_PARETO 0.2
enum {
FIO_RAND_GEN_TAUSWORTHE = 0,
FIO_RAND_GEN_LFSR,
FIO_RAND_GEN_TAUSWORTHE64,
};
enum {
FIO_CPUS_SHARED = 0,
FIO_CPUS_SPLIT,
};
extern void exec_trigger(const char *);
extern void check_trigger_file(void);
extern bool in_flight_overlap(struct io_u_queue *q, struct io_u *io_u);
extern pthread_mutex_t overlap_check;
static inline void *fio_memalign(size_t alignment, size_t size, bool shared)
{
return __fio_memalign(alignment, size, shared ? smalloc : malloc);
}
static inline void fio_memfree(void *ptr, size_t size, bool shared)
{
return __fio_memfree(ptr, size, shared ? sfree : free);
}
#endif