Hide things not appropriate behind is_backend

[fio.git] / fio.h

#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>

struct thread_data;

#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"
#include "file.h"
#include "io_ddir.h"
#include "ioengine.h"
#include "iolog.h"
#include "helpers.h"
#include "options.h"
#include "profile.h"
#include "time.h"
#include "lib/getopt.h"
#include "lib/rand.h"

#ifdef FIO_HAVE_GUASI
#include <guasi.h>
#endif

#ifdef FIO_HAVE_SOLARISAIO
#include <sys/asynch.h>
#endif

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];
        unsigned int kb_base;
};

/*
 * 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 */
};

/*
 * offset generator types
 */
enum {
        RW_SEQ_SEQ      = 0,
        RW_SEQ_IDENT,
};

/*
 * How many depth levels to log
 */
#define FIO_IO_U_MAP_NR 7
#define FIO_IO_U_LAT_U_NR 10
#define FIO_IO_U_LAT_M_NR 12

/*
 * Aggregate clat samples to report percentile(s) of them.
 *
 * EXECUTIVE SUMMARY
 *
 * FIO_IO_U_PLAT_BITS determines the maximum statistical error on the
 * value of resulting percentiles. The error will be approximately
 * 1/2^(FIO_IO_U_PLAT_BITS+1) of the value.
 *
 * FIO_IO_U_PLAT_GROUP_NR and FIO_IO_U_PLAT_BITS determine the maximum
 * range being tracked for latency samples. The maximum value tracked
 * accurately will be 2^(GROUP_NR + PLAT_BITS -1) microseconds.
 *
 * FIO_IO_U_PLAT_GROUP_NR and FIO_IO_U_PLAT_BITS determine the memory
 * requirement of storing those aggregate counts. The memory used will
 * be (FIO_IO_U_PLAT_GROUP_NR * 2^FIO_IO_U_PLAT_BITS) * sizeof(int)
 * bytes.
 *
 * FIO_IO_U_PLAT_NR is the total number of buckets.
 *
 * DETAILS
 *
 * Suppose the clat varies from 0 to 999 (usec), the straightforward
 * method is to keep an array of (999 + 1) buckets, in which a counter
 * keeps the count of samples which fall in the bucket, e.g.,
 * {[0],[1],...,[999]}. However this consumes a huge amount of space,
 * and can be avoided if an approximation is acceptable.
 *
 * One such method is to let the range of the bucket to be greater
 * than one. This method has low accuracy when the value is small. For
 * example, let the buckets be {[0,99],[100,199],...,[900,999]}, and
 * the represented value of each bucket be the mean of the range. Then
 * a value 0 has an round-off error of 49.5. To improve on this, we
 * use buckets with non-uniform ranges, while bounding the error of
 * each bucket within a ratio of the sample value. A simple example
 * would be when error_bound = 0.005, buckets are {
 * {[0],[1],...,[99]}, {[100,101],[102,103],...,[198,199]},..,
 * {[900,909],[910,919]...}  }. The total range is partitioned into
 * groups with different ranges, then buckets with uniform ranges. An
 * upper bound of the error is (range_of_bucket/2)/value_of_bucket
 *
 * For better efficiency, we implement this using base two. We group
 * samples by their Most Significant Bit (MSB), extract the next M bit
 * of them as an index within the group, and discard the rest of the
 * bits.
 *
 * E.g., assume a sample 'x' whose MSB is bit n (starting from bit 0),
 * and use M bit for indexing
 *
 *        | n |    M bits   | bit (n-M-1) ... bit 0 |
 *
 * Because x is at least 2^n, and bit 0 to bit (n-M-1) is at most
 * (2^(n-M) - 1), discarding bit 0 to (n-M-1) makes the round-off
 * error
 *
 *           2^(n-M)-1    2^(n-M)    1
 *      e <= --------- <= ------- = ---
 *             2^n          2^n     2^M
 *
 * Furthermore, we use "mean" of the range to represent the bucket,
 * the error e can be lowered by half to 1 / 2^(M+1). By using M bits
 * as the index, each group must contains 2^M buckets.
 *
 * E.g. Let M (FIO_IO_U_PLAT_BITS) be 6
 *      Error bound is 1/2^(6+1) = 0.0078125 (< 1%)
 *
 *      Group   MSB     #discarded      range of                #buckets
 *                      error_bits      value
 *      ----------------------------------------------------------------
 *      0*      0~5     0               [0,63]                  64
 *      1*      6       0               [64,127]                64
 *      2       7       1               [128,255]               64
 *      3       8       2               [256,511]               64
 *      4       9       3               [512,1023]              64
 *      ...     ...     ...             [...,...]               ...
 *      18      23      17              [8838608,+inf]**        64
 *
 *  * Special cases: when n < (M-1) or when n == (M-1), in both cases,
 *    the value cannot be rounded off. Use all bits of the sample as
 *    index.
 *
 *  ** If a sample's MSB is greater than 23, it will be counted as 23.
 */

#define FIO_IO_U_PLAT_BITS 6
#define FIO_IO_U_PLAT_VAL (1 << FIO_IO_U_PLAT_BITS)
#define FIO_IO_U_PLAT_GROUP_NR 19
#define FIO_IO_U_PLAT_NR (FIO_IO_U_PLAT_GROUP_NR * FIO_IO_U_PLAT_VAL)
#define FIO_IO_U_LIST_MAX_LEN 20 /* The size of the default and user-specified
                                        list of percentiles */

#define MAX_PATTERN_SIZE 512

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 *lat_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 lat_stat[2];             /* total 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 clat_percentiles;
        double* percentile_list;

        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 int io_u_plat[2][FIO_IO_U_PLAT_NR];
        unsigned long total_io_u[3];
        unsigned long short_io_u[3];
        unsigned long total_submit;
        unsigned long total_complete;

        unsigned long long io_bytes[2];
        unsigned long long runtime[2];
        unsigned long total_run_time;

        /*
         * IO Error related stats
         */
        unsigned continue_on_error;
        unsigned long total_err_count;
        int first_error;

        unsigned int kb_base;
};

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 rw_seq;
        unsigned int kb_base;
        unsigned int ddir_seq_nr;
        long ddir_seq_add;
        unsigned int iodepth;
        unsigned int iodepth_low;
        unsigned int iodepth_batch;
        unsigned int iodepth_batch_complete;

        unsigned long long size;
        unsigned int size_percent;
        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[2];
        unsigned int bssplit_nr[2];

        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 pre_read;
        unsigned int sync_io;
        unsigned int verify;
        unsigned int do_verify;
        unsigned int verifysort;
        unsigned int verify_interval;
        unsigned int verify_offset;
        char verify_pattern[MAX_PATTERN_SIZE];
        unsigned int verify_pattern_bytes;
        unsigned int verify_fatal;
        unsigned int verify_dump;
        unsigned int verify_async;
        unsigned long long verify_backlog;
        unsigned int verify_batch;
        unsigned int use_thread;
        unsigned int unlink;
        unsigned int do_disk_util;
        unsigned int override_sync;
        unsigned int rand_repeatable;
        unsigned int use_os_rand;
        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 fdatasync_blocks;
        unsigned int barrier_blocks;
        unsigned long long 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 mem_align;

        unsigned int stonewall;
        unsigned int new_group;
        unsigned int numjobs;
        os_cpu_mask_t cpumask;
        unsigned int cpumask_set;
        os_cpu_mask_t verify_cpumask;
        unsigned int verify_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;
        enum fio_fallocate_mode fallocate_mode;
        unsigned int zero_buffers;
        unsigned int refill_buffers;
        unsigned int scramble_buffers;
        unsigned int time_based;
        unsigned int disable_lat;
        unsigned int disable_clat;
        unsigned int disable_slat;
        unsigned int disable_bw;
        unsigned int gtod_reduce;
        unsigned int gtod_cpu;
        unsigned int gtod_offload;
        enum fio_cs clocksource;
        unsigned int no_stall;
        unsigned int trim_percentage;
        unsigned int trim_batch;
        unsigned int trim_zero;
        unsigned long long trim_backlog;
        unsigned int clat_percentiles;
        unsigned int overwrite_plist;
        double percentile_list[FIO_IO_U_LIST_MAX_LEN];

        char *read_iolog_file;
        char *write_iolog_file;
        char *bw_log_file;
        char *lat_log_file;
        char *replay_redirect;

        /*
         * Pre-run and post-run shell
         */
        char *exec_prerun;
        char *exec_postrun;

        unsigned int rate[2];
        unsigned int ratemin[2];
        unsigned int ratecycle;
        unsigned int rate_iops[2];
        unsigned int rate_iops_min[2];

        char *ioscheduler;

        /*
         * CPU "io" cycle burner
         */
        unsigned int cpuload;
        unsigned int cpucycle;

        /*
         * I/O Error handling
         */
        unsigned int continue_on_error;

        /*
         * Benchmark profile type
         */
        char *profile;

        /*
         * blkio cgroup support
         */
        char *cgroup;
        unsigned int cgroup_weight;
        unsigned int cgroup_nodelete;

        unsigned int uid;
        unsigned int gid;

        unsigned int sync_file_range;

        unsigned int userspace_libaio_reap;
};

#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;
                struct frand_state __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;
        enum fio_ddir last_ddir;

        char *mmapfile;
        int mmapfd;

        void *iolog_buf;
        FILE *iolog_f;

        char *sysfs_root;

        unsigned long rand_seeds[8];

        union {
                os_random_state_t bsrange_state;
                struct frand_state __bsrange_state;
        };
        union {
                os_random_state_t verify_state;
                struct frand_state __verify_state;
        };
        union {
                os_random_state_t trim_state;
                struct frand_state __trim_state;
        };

        struct frand_state buf_state;

        unsigned int verify_batch;
        unsigned int trim_batch;

        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;
        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
         */
        unsigned long rate_nsec_cycle[2];
        long rate_pending_usleep[2];
        unsigned long rate_bytes[2];
        unsigned long rate_blocks[2];
        struct timeval lastrate[2];

        unsigned long long total_io_size;
        unsigned long long fill_device_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
         */
        union {
                os_random_state_t random_state;
                struct frand_state __random_state;
        };

        struct timeval start;   /* start of this loop */
        struct timeval epoch;   /* time job was started */
        struct timeval last_issue;
        struct timeval tv_cache;
        unsigned int tv_cache_nr;
        unsigned int tv_cache_mask;
        unsigned int ramp_time_over;

        /*
         * read/write mixed workload state
         */
        union {
                os_random_state_t rwmix_state;
                struct frand_state __rwmix_state;
        };
        unsigned long rwmix_issues;
        enum fio_ddir rwmix_ddir;
        unsigned int ddir_seq_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;
        unsigned long io_hist_len;

        /*
         * For IO replaying
         */
        struct flist_head io_log_list;

        /*
         * 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
         */
        union {
                os_random_state_t file_size_state;
                struct frand_state __file_size_state;
        };

        /*
         * Error counts
         */
        unsigned int total_err_count;
        int first_error;

        /*
         * Can be overloaded by profiles
         */
        struct prof_io_ops prof_io_ops;
        void *prof_data;
};

/*
 * 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;                                        \
                if (!(td)->first_error)                                 \
                        snprintf(td->verror, sizeof(td->verror) - 1, "file:%s:%d, func=%s, error=%s", __FILE__, __LINE__, (func), (msg));               \
        } while (0)


#define td_clear_error(td)              \
        (td)->error = 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 enum fio_cs fio_clock_source;
extern int warnings_fatal;
extern int terse_version;
extern int is_backend;

extern struct thread_data *threads;

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(unsigned long))
#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 REAL_MAX_JOBS           2048

#define td_non_fatal_error(e)   ((e) == EIO || (e) == EILSEQ)

static inline void update_error_count(struct thread_data *td, int err)
{
        td->total_err_count++;
        if (td->total_err_count == 1)
                td->first_error = err;
}

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;
}

/*
 * Init/option functions
 */
extern int __must_check parse_options(int, char **);
extern int parse_jobs_ini(char *, int, int);
extern int exec_run(void);
extern void reset_fio_state(void);
extern int fio_options_parse(struct thread_data *, char **, int);
extern void fio_keywords_init(void);
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 *);
extern void add_job_opts(const char **);
extern char *num2str(unsigned long, int, int, int);

#define FIO_GETOPT_JOB          0x89988998
#define FIO_NR_OPTIONS          (FIO_MAX_OPTS + 128)

/*
 * ETA/status stuff
 */
extern void print_thread_status(void);
extern void print_status_init(int);

/*
 * 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_PRE_READING,
        TD_VERIFYING,
        TD_FSYNCING,
        TD_EXITED,
        TD_REAPED,
};

extern void td_set_runstate(struct thread_data *, int);

/*
 * 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 *);

/*
 * Reset stats after ramp time completes
 */
extern void reset_all_stats(struct thread_data *);

/*
 * blktrace support
 */
#ifdef FIO_HAVE_BLKTRACE
extern int is_blktrace(const char *);
extern int load_blktrace(struct thread_data *, const char *);
#endif

/*
 * 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_set_runstate((td), TD_EXITED);       \
                (td)->error = EFAULT;           \
                *__foo = 0;                     \
        }       \
} while (0)

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;
}

static inline int __should_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 1;

        return 0;
}

static inline int should_check_rate(struct thread_data *td,
                                    unsigned long *bytes_done)
{
        int ret = 0;

        if (bytes_done[0])
                ret |= __should_check_rate(td, 0);
        if (bytes_done[1])
                ret |= __should_check_rate(td, 1);

        return ret;
}

static inline int is_power_of_2(unsigned int val)
{
        return (val != 0 && ((val & (val - 1)) == 0));
}

/*
 * 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)
{
        if (td->o.verify_async)
                pthread_mutex_lock(&td->io_u_lock);
}

static inline void td_io_u_unlock(struct thread_data *td)
{
        if (td->o.verify_async)
                pthread_mutex_unlock(&td->io_u_lock);
}

static inline void td_io_u_free_notify(struct thread_data *td)
{
        if (td->o.verify_async)
                pthread_cond_signal(&td->free_cond);
}

#endif