#include <unistd.h>
-#include <fcntl.h>
#include <string.h>
-#include <signal.h>
-#include <time.h>
#include <assert.h>
#include "fio.h"
-#include "hash.h"
#include "verify.h"
#include "trim.h"
#include "lib/rand.h"
return 0;
}
+static int __get_next_rand_offset_zoned_abs(struct thread_data *td,
+ struct fio_file *f,
+ enum fio_ddir ddir, uint64_t *b)
+{
+ struct zone_split_index *zsi;
+ uint64_t lastb, send, stotal;
+ unsigned int v;
+
+ lastb = last_block(td, f, ddir);
+ if (!lastb)
+ return 1;
+
+ if (!td->o.zone_split_nr[ddir]) {
+bail:
+ return __get_next_rand_offset(td, f, ddir, b, lastb);
+ }
+
+ /*
+ * Generate a value, v, between 1 and 100, both inclusive
+ */
+ v = rand32_between(&td->zone_state, 1, 100);
+
+ /*
+ * Find our generated table. 'send' is the end block of this zone,
+ * 'stotal' is our start offset.
+ */
+ zsi = &td->zone_state_index[ddir][v - 1];
+ stotal = zsi->size_prev / td->o.ba[ddir];
+ send = zsi->size / td->o.ba[ddir];
+
+ /*
+ * Should never happen
+ */
+ if (send == -1U) {
+ if (!fio_did_warn(FIO_WARN_ZONED_BUG))
+ log_err("fio: bug in zoned generation\n");
+ goto bail;
+ } else if (send > lastb) {
+ /*
+ * This happens if the user specifies ranges that exceed
+ * the file/device size. We can't handle that gracefully,
+ * so error and exit.
+ */
+ log_err("fio: zoned_abs sizes exceed file size\n");
+ return 1;
+ }
+
+ /*
+ * Generate index from 0..send-stotal
+ */
+ if (__get_next_rand_offset(td, f, ddir, b, send - stotal) == 1)
+ return 1;
+
+ *b += stotal;
+ return 0;
+}
+
static int __get_next_rand_offset_zoned(struct thread_data *td,
struct fio_file *f, enum fio_ddir ddir,
uint64_t *b)
{
unsigned int v, send, stotal;
uint64_t offset, lastb;
- static int warned;
struct zone_split_index *zsi;
lastb = last_block(td, f, ddir);
* Should never happen
*/
if (send == -1U) {
- if (!warned) {
+ if (!fio_did_warn(FIO_WARN_ZONED_BUG))
log_err("fio: bug in zoned generation\n");
- warned = 1;
- }
goto bail;
}
return __get_next_rand_offset_gauss(td, f, ddir, b);
else if (td->o.random_distribution == FIO_RAND_DIST_ZONED)
return __get_next_rand_offset_zoned(td, f, ddir, b);
+ else if (td->o.random_distribution == FIO_RAND_DIST_ZONED_ABS)
+ return __get_next_rand_offset_zoned_abs(td, f, ddir, b);
log_err("fio: unknown random distribution: %d\n", td->o.random_distribution);
return 1;
*/
if (f->last_pos[ddir] >= f->io_size + get_start_offset(td, f) &&
o->time_based) {
- f->last_pos[ddir] = 0;
+ f->last_pos[ddir] = f->file_offset;
loop_cache_invalidate(td, f);
}
if (f->last_pos[ddir] < f->real_file_size) {
uint64_t pos;
- if (f->last_pos[ddir] == f->file_offset && o->ddir_seq_add < 0) {
+ /*
+ * Only rewind if we already hit the end
+ */
+ if (f->last_pos[ddir] == f->file_offset &&
+ f->file_offset && o->ddir_seq_add < 0) {
if (f->real_file_size > f->io_size)
f->last_pos[ddir] = f->io_size;
else
static int get_next_block(struct thread_data *td, struct io_u *io_u,
enum fio_ddir ddir, int rw_seq,
- unsigned int *is_random)
+ bool *is_random)
{
struct fio_file *f = io_u->file;
uint64_t b, offset;
if (td_random(td)) {
if (should_do_random(td, ddir)) {
ret = get_next_rand_block(td, f, ddir, &b);
- *is_random = 1;
+ *is_random = true;
} else {
- *is_random = 0;
+ *is_random = false;
io_u_set(td, io_u, IO_U_F_BUSY_OK);
ret = get_next_seq_offset(td, f, ddir, &offset);
if (ret)
ret = get_next_rand_block(td, f, ddir, &b);
}
} else {
- *is_random = 0;
+ *is_random = false;
ret = get_next_seq_offset(td, f, ddir, &offset);
}
} else {
io_u_set(td, io_u, IO_U_F_BUSY_OK);
- *is_random = 0;
+ *is_random = false;
if (td->o.rw_seq == RW_SEQ_SEQ) {
ret = get_next_seq_offset(td, f, ddir, &offset);
if (ret) {
ret = get_next_rand_block(td, f, ddir, &b);
- *is_random = 0;
+ *is_random = false;
}
} else if (td->o.rw_seq == RW_SEQ_IDENT) {
if (f->last_start[ddir] != -1ULL)
* until we find a free one. For sequential io, just return the end of
* the last io issued.
*/
-static int __get_next_offset(struct thread_data *td, struct io_u *io_u,
- unsigned int *is_random)
+static int get_next_offset(struct thread_data *td, struct io_u *io_u,
+ bool *is_random)
{
struct fio_file *f = io_u->file;
enum fio_ddir ddir = io_u->ddir;
return 0;
}
-static int get_next_offset(struct thread_data *td, struct io_u *io_u,
- unsigned int *is_random)
-{
- if (td->flags & TD_F_PROFILE_OPS) {
- struct prof_io_ops *ops = &td->prof_io_ops;
-
- if (ops->fill_io_u_off)
- return ops->fill_io_u_off(td, io_u, is_random);
- }
-
- return __get_next_offset(td, io_u, is_random);
-}
-
static inline bool io_u_fits(struct thread_data *td, struct io_u *io_u,
unsigned int buflen)
{
return io_u->offset + buflen <= f->io_size + get_start_offset(td, f);
}
-static unsigned int __get_next_buflen(struct thread_data *td, struct io_u *io_u,
- unsigned int is_random)
+static unsigned int get_next_buflen(struct thread_data *td, struct io_u *io_u,
+ bool is_random)
{
int ddir = io_u->ddir;
unsigned int buflen = 0;
assert(ddir_rw(ddir));
if (td->o.bs_is_seq_rand)
- ddir = is_random ? DDIR_WRITE: DDIR_READ;
+ ddir = is_random ? DDIR_WRITE : DDIR_READ;
minbs = td->o.min_bs[ddir];
maxbs = td->o.max_bs[ddir];
return buflen;
}
-static unsigned int get_next_buflen(struct thread_data *td, struct io_u *io_u,
- unsigned int is_random)
-{
- if (td->flags & TD_F_PROFILE_OPS) {
- struct prof_io_ops *ops = &td->prof_io_ops;
-
- if (ops->fill_io_u_size)
- return ops->fill_io_u_size(td, io_u, is_random);
- }
-
- return __get_next_buflen(td, io_u, is_random);
-}
-
static void set_rwmix_bytes(struct thread_data *td)
{
unsigned int diff;
return odir;
/*
- * Both directions are ahead of rate. sleep the min
- * switch if necissary
+ * Both directions are ahead of rate. sleep the min,
+ * switch if necessary
*/
if (td->rate_next_io_time[ddir] <=
- td->rate_next_io_time[odir]) {
+ td->rate_next_io_time[odir]) {
usec = td->rate_next_io_time[ddir] - now;
} else {
usec = td->rate_next_io_time[odir] - now;
if (td->o.io_submit_mode == IO_MODE_INLINE)
io_u_quiesce(td);
- usec = usec_sleep(td, usec);
-
+ usec_sleep(td, usec);
return ddir;
}
assert(!(td->flags & TD_F_CHILD));
}
io_u_qpush(&td->io_u_freelist, io_u);
- td_io_u_unlock(td);
td_io_u_free_notify(td);
+ td_io_u_unlock(td);
}
void clear_io_u(struct thread_data *td, struct io_u *io_u)
}
io_u_rpush(&td->io_u_requeues, __io_u);
- td_io_u_unlock(td);
td_io_u_free_notify(td);
+ td_io_u_unlock(td);
*io_u = NULL;
}
-static int fill_io_u(struct thread_data *td, struct io_u *io_u)
+static void __fill_io_u_zone(struct thread_data *td, struct io_u *io_u)
{
- unsigned int is_random;
-
- if (td_ioengine_flagged(td, FIO_NOIO))
- goto out;
-
- set_rw_ddir(td, io_u);
-
- /*
- * fsync() or fdatasync() or trim etc, we are done
- */
- if (!ddir_rw(io_u->ddir))
- goto out;
+ struct fio_file *f = io_u->file;
/*
* See if it's time to switch to a new zone
*/
if (td->zone_bytes >= td->o.zone_size && td->o.zone_skip) {
- struct fio_file *f = io_u->file;
-
td->zone_bytes = 0;
f->file_offset += td->o.zone_range + td->o.zone_skip;
td->io_skip_bytes += td->o.zone_skip;
}
+ /*
+ * If zone_size > zone_range, then maintain the same zone until
+ * zone_bytes >= zone_size.
+ */
+ if (f->last_pos[io_u->ddir] >= (f->file_offset + td->o.zone_range)) {
+ dprint(FD_IO, "io_u maintain zone offset=%" PRIu64 "/last_pos=%" PRIu64 "\n",
+ f->file_offset, f->last_pos[io_u->ddir]);
+ f->last_pos[io_u->ddir] = f->file_offset;
+ }
+
+ /*
+ * For random: if 'norandommap' is not set and zone_size > zone_range,
+ * map needs to be reset as it's done with zone_range everytime.
+ */
+ if ((td->zone_bytes % td->o.zone_range) == 0) {
+ fio_file_reset(td, f);
+ }
+}
+
+static int fill_io_u(struct thread_data *td, struct io_u *io_u)
+{
+ bool is_random;
+
+ if (td_ioengine_flagged(td, FIO_NOIO))
+ goto out;
+
+ set_rw_ddir(td, io_u);
+
+ /*
+ * fsync() or fdatasync() or trim etc, we are done
+ */
+ if (!ddir_rw(io_u->ddir))
+ goto out;
+
+ /*
+ * When file is zoned zone_range is always positive
+ */
+ if (td->o.zone_range) {
+ __fill_io_u_zone(td, io_u);
+ }
+
/*
* No log, let the seq/rand engine retrieve the next buflen and
* position.
}
if (io_u->offset + io_u->buflen > io_u->file->real_file_size) {
- dprint(FD_IO, "io_u %p, offset + buflen exceeds file size\n",
- io_u);
- dprint(FD_IO, " offset=%llu/buflen=%lu > %llu\n",
+ dprint(FD_IO, "io_u %p, off=0x%llx + len=0x%lx exceeds file size=0x%llx\n",
+ io_u,
(unsigned long long) io_u->offset, io_u->buflen,
(unsigned long long) io_u->file->real_file_size);
return 1;
mark_random_map(td, io_u);
out:
- dprint_io_u(io_u, "fill_io_u");
+ dprint_io_u(io_u, "fill");
td->zone_bytes += io_u->buflen;
return 0;
}
-static void __io_u_mark_map(unsigned int *map, unsigned int nr)
+static void __io_u_mark_map(uint64_t *map, unsigned int nr)
{
int idx = 0;
static struct fio_file *get_next_file(struct thread_data *td)
{
- if (td->flags & TD_F_PROFILE_OPS) {
- struct prof_io_ops *ops = &td->prof_io_ops;
-
- if (ops->get_next_file)
- return ops->get_next_file(td);
- }
-
return __get_next_file(td);
}
}
static void lat_fatal(struct thread_data *td, struct io_completion_data *icd,
- unsigned long tusec, unsigned long max_usec)
+ unsigned long long tnsec, unsigned long long max_nsec)
{
if (!td->error)
- log_err("fio: latency of %lu usec exceeds specified max (%lu usec)\n", tusec, max_usec);
+ log_err("fio: latency of %llu nsec exceeds specified max (%llu nsec)\n", tnsec, max_nsec);
td_verror(td, ETIMEDOUT, "max latency exceeded");
icd->error = ETIMEDOUT;
}
struct io_u *__get_io_u(struct thread_data *td)
{
struct io_u *io_u = NULL;
+ int ret;
if (td->stop_io)
return NULL;
* return one
*/
assert(!(td->flags & TD_F_CHILD));
- assert(!pthread_cond_wait(&td->free_cond, &td->io_u_lock));
+ ret = pthread_cond_wait(&td->free_cond, &td->io_u_lock);
+ assert(ret == 0);
goto again;
}
{
if (!(td->flags & TD_F_TRIM_BACKLOG))
return false;
+ if (!td->trim_entries)
+ return false;
- if (td->trim_entries) {
- int get_trim = 0;
-
- if (td->trim_batch) {
- td->trim_batch--;
- get_trim = 1;
- } else if (!(td->io_hist_len % td->o.trim_backlog) &&
- td->last_ddir != DDIR_READ) {
- td->trim_batch = td->o.trim_batch;
- if (!td->trim_batch)
- td->trim_batch = td->o.trim_backlog;
- get_trim = 1;
- }
-
- if (get_trim && get_next_trim(td, io_u))
+ if (td->trim_batch) {
+ td->trim_batch--;
+ if (get_next_trim(td, io_u))
+ return true;
+ } else if (!(td->io_hist_len % td->o.trim_backlog) &&
+ td->last_ddir != DDIR_READ) {
+ td->trim_batch = td->o.trim_batch;
+ if (!td->trim_batch)
+ td->trim_batch = td->o.trim_backlog;
+ if (get_next_trim(td, io_u))
return true;
}
*/
static void small_content_scramble(struct io_u *io_u)
{
- unsigned int i, nr_blocks = io_u->buflen / 512;
- uint64_t boffset;
+ unsigned int i, nr_blocks = io_u->buflen >> 9;
unsigned int offset;
- char *p, *end;
+ uint64_t boffset, *iptr;
+ char *p;
if (!nr_blocks)
return;
p = io_u->xfer_buf;
boffset = io_u->offset;
- io_u->buf_filled_len = 0;
+
+ if (io_u->buf_filled_len)
+ io_u->buf_filled_len = 0;
+
+ /*
+ * Generate random index between 0..7. We do chunks of 512b, if
+ * we assume a cacheline is 64 bytes, then we have 8 of those.
+ * Scramble content within the blocks in the same cacheline to
+ * speed things up.
+ */
+ offset = (io_u->start_time.tv_nsec ^ boffset) & 7;
for (i = 0; i < nr_blocks; i++) {
/*
- * Fill the byte offset into a "random" start offset of
- * the buffer, given by the product of the usec time
- * and the actual offset.
+ * Fill offset into start of cacheline, time into end
+ * of cacheline
*/
- offset = ((io_u->start_time.tv_nsec/1000) ^ boffset) & 511;
- offset &= ~(sizeof(uint64_t) - 1);
- if (offset >= 512 - sizeof(uint64_t))
- offset -= sizeof(uint64_t);
- memcpy(p + offset, &boffset, sizeof(boffset));
-
- end = p + 512 - sizeof(io_u->start_time);
- memcpy(end, &io_u->start_time, sizeof(io_u->start_time));
+ iptr = (void *) p + (offset << 6);
+ *iptr = boffset;
+
+ iptr = (void *) p + 64 - 2 * sizeof(uint64_t);
+ iptr[0] = io_u->start_time.tv_sec;
+ iptr[1] = io_u->start_time.tv_nsec;
+
p += 512;
boffset += 512;
}
/*
* Return an io_u to be processed. Gets a buflen and offset, sets direction,
- * etc. The returned io_u is fully ready to be prepped and submitted.
+ * etc. The returned io_u is fully ready to be prepped, populated and submitted.
*/
struct io_u *get_io_u(struct thread_data *td)
{
td->o.min_bs[DDIR_WRITE],
io_u->buflen);
} else if ((td->flags & TD_F_SCRAMBLE_BUFFERS) &&
- !(td->flags & TD_F_COMPRESS))
+ !(td->flags & TD_F_COMPRESS) &&
+ !(td->flags & TD_F_DO_VERIFY))
do_scramble = 1;
- if (td->flags & TD_F_VER_NONE) {
- populate_verify_io_u(td, io_u);
- do_scramble = 0;
- }
} else if (io_u->ddir == DDIR_READ) {
/*
* Reset the buf_filled parameters so next time if the
struct prof_io_ops *ops = &td->prof_io_ops;
if (ops->io_u_lat)
- icd->error = ops->io_u_lat(td, tnsec/1000);
+ icd->error = ops->io_u_lat(td, tnsec);
}
- if (td->o.max_latency && tnsec/1000 > td->o.max_latency)
- lat_fatal(td, icd, tnsec/1000, td->o.max_latency);
- if (td->o.latency_target && tnsec/1000 > td->o.latency_target) {
+ if (td->o.max_latency && tnsec > td->o.max_latency)
+ lat_fatal(td, icd, tnsec, td->o.max_latency);
+ if (td->o.latency_target && tnsec > td->o.latency_target) {
if (lat_target_failed(td))
- lat_fatal(td, icd, tnsec/1000, td->o.latency_target);
+ lat_fatal(td, icd, tnsec, td->o.latency_target);
}
}
if (no_reduce && per_unit_log(td->iops_log))
add_iops_sample(td, io_u, bytes);
- }
+ } else if (ddir_sync(idx) && !td->o.disable_clat)
+ add_sync_clat_sample(&td->ts, llnsec);
if (td->ts.nr_block_infos && io_u->ddir == DDIR_TRIM) {
uint32_t *info = io_u_block_info(td, io_u);
f->last_write_idx = 0;
}
+static bool should_account(struct thread_data *td)
+{
+ return ramp_time_over(td) && (td->runstate == TD_RUNNING ||
+ td->runstate == TD_VERIFYING);
+}
+
static void io_completed(struct thread_data *td, struct io_u **io_u_ptr,
struct io_completion_data *icd)
{
enum fio_ddir ddir = io_u->ddir;
struct fio_file *f = io_u->file;
- dprint_io_u(io_u, "io complete");
+ dprint_io_u(io_u, "complete");
assert(io_u->flags & IO_U_F_FLIGHT);
io_u_clear(td, io_u, IO_U_F_FLIGHT | IO_U_F_BUSY_OK);
}
if (ddir_sync(ddir)) {
- td->last_was_sync = 1;
+ td->last_was_sync = true;
if (f) {
f->first_write = -1ULL;
f->last_write = -1ULL;
}
+ if (should_account(td))
+ account_io_completion(td, io_u, icd, ddir, io_u->buflen);
return;
}
- td->last_was_sync = 0;
+ td->last_was_sync = false;
td->last_ddir = ddir;
if (!io_u->error && ddir_rw(ddir)) {
int ret;
td->io_blocks[ddir]++;
- td->this_io_blocks[ddir]++;
td->io_bytes[ddir] += bytes;
- if (!(io_u->flags & IO_U_F_VER_LIST))
+ if (!(io_u->flags & IO_U_F_VER_LIST)) {
+ td->this_io_blocks[ddir]++;
td->this_io_bytes[ddir] += bytes;
+ }
if (ddir == DDIR_WRITE)
file_log_write_comp(td, f, io_u->offset, bytes);
- if (ramp_time_over(td) && (td->runstate == TD_RUNNING ||
- td->runstate == TD_VERIFYING))
+ if (should_account(td))
account_io_completion(td, io_u, icd, ddir, bytes);
icd->bytes_done[ddir] += bytes;