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lvm2/libdm/libdm-stats.c

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/*
* Copyright (C) 2016 Red Hat, Inc. All rights reserved.
*
* _stats_get_extents_for_file() based in part on filefrag_fiemap() from
* e2fsprogs/misc/filefrag.c. Copyright 2003 by Theodore Ts'o.
*
* This file is part of the device-mapper userspace tools.
*
* This copyrighted material is made available to anyone wishing to use,
* modify, copy, or redistribute it subject to the terms and conditions
* of the GNU Lesser General Public License v.2.1.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program; if not, write to the Free Software Foundation,
* Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include "libdm/misc/dmlib.h"
#include "libdm/misc/kdev_t.h"
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
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#include "math.h" /* log10() */
#include <sys/sysmacros.h>
#include <sys/ioctl.h>
#include <sys/vfs.h> /* fstatfs */
#ifdef __linux__
#include <linux/fs.h> /* FS_IOC_FIEMAP */
#endif
#ifdef HAVE_LINUX_FIEMAP_H
#include <linux/fiemap.h> /* fiemap */
#endif
#ifdef HAVE_LINUX_MAGIC_H
#include <linux/magic.h> /* BTRFS_SUPER_MAGIC */
#endif
#define DM_STATS_REGION_NOT_PRESENT UINT64_MAX
#define DM_STATS_GROUP_NOT_PRESENT DM_STATS_GROUP_NONE
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
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#define NSEC_PER_USEC 1000L
#define NSEC_PER_MSEC 1000000L
#define NSEC_PER_SEC 1000000000L
#define PRECISE_ARG "precise_timestamps"
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
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#define HISTOGRAM_ARG "histogram:"
#define STATS_ROW_BUF_LEN 4096
#define STATS_MSG_BUF_LEN 1024
#define STATS_FIE_BUF_LEN 2048
#define SECTOR_SHIFT 9L
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
/* Histogram bin */
struct dm_histogram_bin {
uint64_t upper; /* Upper bound on this bin. */
uint64_t count; /* Count value for this bin. */
};
struct dm_histogram {
/* The stats handle this histogram belongs to. */
const struct dm_stats *dms;
/* The region this histogram belongs to. */
const struct dm_stats_region *region;
uint64_t sum; /* Sum of histogram bin counts. */
int nr_bins; /* Number of histogram bins assigned. */
struct dm_histogram_bin bins[];
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
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};
/*
* See Documentation/device-mapper/statistics.txt for full descriptions
* of the device-mapper statistics counter fields.
*/
struct dm_stats_counters {
uint64_t reads; /* Num reads completed */
uint64_t reads_merged; /* Num reads merged */
uint64_t read_sectors; /* Num sectors read */
uint64_t read_nsecs; /* Num milliseconds spent reading */
uint64_t writes; /* Num writes completed */
uint64_t writes_merged; /* Num writes merged */
uint64_t write_sectors; /* Num sectors written */
uint64_t write_nsecs; /* Num milliseconds spent writing */
uint64_t io_in_progress; /* Num I/Os currently in progress */
uint64_t io_nsecs; /* Num milliseconds spent doing I/Os */
uint64_t weighted_io_nsecs; /* Weighted num milliseconds doing I/Os */
uint64_t total_read_nsecs; /* Total time spent reading in milliseconds */
uint64_t total_write_nsecs; /* Total time spent writing in milliseconds */
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
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struct dm_histogram *histogram; /* Histogram. */
};
struct dm_stats_region {
uint64_t region_id; /* as returned by @stats_list */
uint64_t group_id;
uint64_t start;
uint64_t len;
uint64_t step;
char *program_id;
char *aux_data;
uint64_t timescale; /* precise_timestamps is per-region */
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
struct dm_histogram *bounds; /* histogram configuration */
struct dm_histogram *histogram; /* aggregate cache */
struct dm_stats_counters *counters;
};
struct dm_stats_group {
uint64_t group_id;
const char *alias;
dm_bitset_t regions;
struct dm_histogram *histogram;
};
struct dm_stats {
/* device binding */
int bind_major; /* device major that this dm_stats object is bound to */
int bind_minor; /* device minor that this dm_stats object is bound to */
char *bind_name; /* device-mapper device name */
char *bind_uuid; /* device-mapper UUID */
char *program_id; /* default program_id for this handle */
const char *name; /* cached device_name used for reporting */
struct dm_pool *mem; /* memory pool for region and counter tables */
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
struct dm_pool *hist_mem; /* separate pool for histogram tables */
struct dm_pool *group_mem; /* separate pool for group tables */
uint64_t nr_regions; /* total number of present regions */
uint64_t max_region; /* size of the regions table */
uint64_t interval_ns; /* sampling interval in nanoseconds */
uint64_t timescale; /* default sample value multiplier */
int precise; /* use precise_timestamps when creating regions */
struct dm_stats_region *regions;
struct dm_stats_group *groups;
/* statistics cursor */
uint64_t walk_flags; /* walk control flags */
uint64_t cur_flags;
uint64_t cur_group;
uint64_t cur_region;
uint64_t cur_area;
};
static char *_stats_escape_aux_data(const char *aux_data)
{
size_t aux_data_len = strlen(aux_data);
char *escaped = dm_malloc((3 * aux_data_len + 1) * sizeof(char));
size_t index = 0, i;
if (!escaped) {
log_error("Could not allocate memory for escaped "
"aux_data string.");
return NULL;
}
for (i = 0; i < aux_data_len; i++) {
if (aux_data[i] == ' ') {
escaped[index++] = '\\';
escaped[index++] = ' ';
} else if (aux_data[i] == '\\') {
escaped[index++] = '\\';
escaped[index++] = '\\';
} else if (aux_data[i] == '\t') {
escaped[index++] = '\\';
escaped[index++] = '\t';
} else {
escaped[index++] = aux_data[i];
}
}
escaped[index] = '\0';
return escaped;
}
#define PROC_SELF_COMM "/proc/self/comm"
static char *_program_id_from_proc(void)
{
FILE *comm = NULL;
char buf[STATS_ROW_BUF_LEN];
if (!(comm = fopen(PROC_SELF_COMM, "r")))
return_NULL;
if (!fgets(buf, sizeof(buf), comm)) {
log_error("Could not read from %s", PROC_SELF_COMM);
2015-09-06 01:56:30 +03:00
if (fclose(comm))
stack;
return NULL;
}
if (fclose(comm))
stack;
return dm_strdup(buf);
}
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
static uint64_t _nr_areas(uint64_t len, uint64_t step)
{
/* Default is one area. */
if (!len || !step)
return 1;
/*
* drivers/md/dm-stats.c::message_stats_create()
* A region may be sub-divided into areas with their own counters.
* Any partial area at the end of the region is treated as an
* additional complete area.
*/
return (len + step - 1) / step;
}
static uint64_t _nr_areas_region(struct dm_stats_region *region)
{
return _nr_areas(region->len, region->step);
}
struct dm_stats *dm_stats_create(const char *program_id)
{
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
size_t hist_hint = sizeof(struct dm_histogram_bin);
size_t group_hint = sizeof(struct dm_stats_group);
struct dm_stats *dms = NULL;
if (!(dms = dm_zalloc(sizeof(*dms))))
return_NULL;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
/* FIXME: better hint. */
if (!(dms->mem = dm_pool_create("stats_pool", 4096))) {
dm_free(dms);
return_NULL;
}
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
if (!(dms->hist_mem = dm_pool_create("histogram_pool", hist_hint)))
goto_bad;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
if (!(dms->group_mem = dm_pool_create("group_pool", group_hint)))
goto_bad;
if (!program_id || !strlen(program_id))
dms->program_id = _program_id_from_proc();
else
dms->program_id = dm_strdup(program_id);
if (!dms->program_id) {
log_error("Could not allocate memory for program_id");
goto bad;
}
dms->bind_major = -1;
dms->bind_minor = -1;
dms->bind_name = NULL;
dms->bind_uuid = NULL;
dms->name = NULL;
/* by default all regions use msec precision */
dms->timescale = NSEC_PER_MSEC;
dms->precise = 0;
dms->nr_regions = DM_STATS_REGION_NOT_PRESENT;
dms->max_region = DM_STATS_REGION_NOT_PRESENT;
dms->regions = NULL;
/* maintain compatibility with earlier walk version */
dms->walk_flags = dms->cur_flags = DM_STATS_WALK_DEFAULT;
return dms;
2015-09-06 01:56:30 +03:00
bad:
dm_pool_destroy(dms->mem);
if (dms->hist_mem)
dm_pool_destroy(dms->hist_mem);
if (dms->group_mem)
dm_pool_destroy(dms->group_mem);
dm_free(dms);
return NULL;
}
/*
* Test whether the stats region pointed to by region is present.
*/
static int _stats_region_present(const struct dm_stats_region *region)
{
return !(region->region_id == DM_STATS_REGION_NOT_PRESENT);
}
/*
* Test whether the stats group pointed to by group is present.
*/
static int _stats_group_present(const struct dm_stats_group *group)
{
return !(group->group_id == DM_STATS_GROUP_NOT_PRESENT);
}
/*
* Test whether a stats group id is present.
*/
static int _stats_group_id_present(const struct dm_stats *dms, uint64_t id)
{
struct dm_stats_group *group = NULL;
if (id == DM_STATS_GROUP_NOT_PRESENT)
return 0;
if (!dms)
return_0;
if (!dms->regions)
return 0;
if (id > dms->max_region)
return 0;
group = &dms->groups[id];
return _stats_group_present(group);
}
/*
* Test whether the given region_id is a member of any group.
*/
static uint64_t _stats_region_is_grouped(const struct dm_stats* dms,
uint64_t region_id)
{
uint64_t group_id;
if (region_id == DM_STATS_GROUP_NOT_PRESENT)
return 0;
if (!_stats_region_present(&dms->regions[region_id]))
return 0;
group_id = dms->regions[region_id].group_id;
return group_id != DM_STATS_GROUP_NOT_PRESENT;
}
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
static void _stats_histograms_destroy(struct dm_pool *mem,
struct dm_stats_region *region)
{
/* Unpopulated handle. */
if (!region->counters)
return;
/*
2015-09-15 15:17:50 +03:00
* Free everything in the pool back to the first histogram.
*/
if (region->counters[0].histogram)
dm_pool_free(mem, region->counters[0].histogram);
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
}
static void _stats_region_destroy(struct dm_stats_region *region)
{
if (!_stats_region_present(region))
return;
region->start = region->len = region->step = 0;
region->timescale = 0;
/*
* Don't free counters and histogram bounds here: they are
* dropped from the pool along with the corresponding
* regions table.
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
*
* The following objects are all allocated with dm_malloc.
*/
region->counters = NULL;
region->bounds = NULL;
dm_free(region->program_id);
region->program_id = NULL;
dm_free(region->aux_data);
region->aux_data = NULL;
region->region_id = DM_STATS_REGION_NOT_PRESENT;
}
static void _stats_regions_destroy(struct dm_stats *dms)
{
struct dm_pool *mem = dms->mem;
uint64_t i;
if (!dms->regions)
return;
/* walk backwards to obey pool order */
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
for (i = dms->max_region; (i != DM_STATS_REGION_NOT_PRESENT); i--) {
_stats_histograms_destroy(dms->hist_mem, &dms->regions[i]);
_stats_region_destroy(&dms->regions[i]);
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
}
dm_pool_free(mem, dms->regions);
dms->regions = NULL;
}
static void _stats_group_destroy(struct dm_stats_group *group)
{
if (!_stats_group_present(group))
return;
group->histogram = NULL;
if (group->alias) {
dm_free((char *) group->alias);
group->alias = NULL;
}
if (group->regions) {
dm_bitset_destroy(group->regions);
group->regions = NULL;
}
group->group_id = DM_STATS_GROUP_NOT_PRESENT;
}
static void _stats_groups_destroy(struct dm_stats *dms)
{
uint64_t i;
if (!dms->groups)
return;
for (i = dms->max_region; (i != DM_STATS_REGION_NOT_PRESENT); i--)
_stats_group_destroy(&dms->groups[i]);
dm_pool_free(dms->group_mem, dms->groups);
dms->groups = NULL;
}
static int _set_stats_device(struct dm_stats *dms, struct dm_task *dmt)
{
if (dms->bind_name)
return dm_task_set_name(dmt, dms->bind_name);
if (dms->bind_uuid)
return dm_task_set_uuid(dmt, dms->bind_uuid);
if (dms->bind_major > 0)
return dm_task_set_major(dmt, dms->bind_major)
&& dm_task_set_minor(dmt, dms->bind_minor);
return_0;
}
static int _stats_bound(const struct dm_stats *dms)
{
if (dms->bind_major > 0 || dms->bind_name || dms->bind_uuid)
return 1;
/* %p format specifier expects a void pointer. */
log_error("Stats handle at %p is not bound.", (const void *)dms);
return 0;
}
static void _stats_clear_binding(struct dm_stats *dms)
{
if (dms->bind_name)
dm_pool_free(dms->mem, dms->bind_name);
if (dms->bind_uuid)
dm_pool_free(dms->mem, dms->bind_uuid);
dm_free((char *) dms->name);
dms->bind_name = dms->bind_uuid = NULL;
dms->bind_major = dms->bind_minor = -1;
dms->name = NULL;
}
int dm_stats_bind_devno(struct dm_stats *dms, int major, int minor)
{
_stats_clear_binding(dms);
_stats_regions_destroy(dms);
_stats_groups_destroy(dms);
dms->bind_major = major;
dms->bind_minor = minor;
return 1;
}
int dm_stats_bind_name(struct dm_stats *dms, const char *name)
{
_stats_clear_binding(dms);
_stats_regions_destroy(dms);
_stats_groups_destroy(dms);
if (!(dms->bind_name = dm_pool_strdup(dms->mem, name)))
return_0;
return 1;
}
int dm_stats_bind_uuid(struct dm_stats *dms, const char *uuid)
{
_stats_clear_binding(dms);
_stats_regions_destroy(dms);
_stats_groups_destroy(dms);
if (!(dms->bind_uuid = dm_pool_strdup(dms->mem, uuid)))
return_0;
return 1;
}
int dm_stats_bind_from_fd(struct dm_stats *dms, int fd)
{
int major, minor;
struct stat buf;
if (fstat(fd, &buf)) {
log_error("fstat failed for fd %d.", fd);
return 0;
}
major = (int) MAJOR(buf.st_dev);
minor = (int) MINOR(buf.st_dev);
if (!dm_stats_bind_devno(dms, major, minor))
return_0;
return 1;
}
static int _stats_check_precise_timestamps(const struct dm_stats *dms)
{
/* Already checked? */
if (dms && dms->precise)
return 1;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
return dm_message_supports_precise_timestamps();
}
int dm_stats_driver_supports_precise(void)
{
return _stats_check_precise_timestamps(NULL);
}
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
int dm_stats_driver_supports_histogram(void)
{
return _stats_check_precise_timestamps(NULL);
}
static int _fill_hist_arg(char *hist_arg, size_t hist_len, uint64_t scale,
struct dm_histogram *bounds)
{
int i, l, len = 0, nr_bins;
char *arg = hist_arg;
uint64_t value;
nr_bins = bounds->nr_bins;
for (i = 0; i < nr_bins; i++) {
value = bounds->bins[i].upper / scale;
if ((l = dm_snprintf(arg, hist_len - len, FMTu64"%s", value,
(i == (nr_bins - 1)) ? "" : ",")) < 0)
return_0;
len += l;
arg += l;
}
return 1;
}
static void *_get_hist_arg(struct dm_histogram *bounds, uint64_t scale,
size_t *len)
{
struct dm_histogram_bin *entry, *bins;
size_t hist_len = 1; /* terminating '\0' */
double value;
entry = bins = bounds->bins;
entry += bounds->nr_bins - 1;
while(entry >= bins) {
value = (double) (entry--)->upper;
/* Use lround to avoid size_t -> double cast warning. */
hist_len += 1 + (size_t) lround(log10(value / scale));
if (entry != bins)
hist_len++; /* ',' */
}
*len = hist_len;
return dm_zalloc(hist_len);
}
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
static char *_build_histogram_arg(struct dm_histogram *bounds, int *precise)
{
struct dm_histogram_bin *entry, *bins;
size_t hist_len;
char *hist_arg;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
uint64_t scale;
entry = bins = bounds->bins;
/* Empty histogram is invalid. */
if (!bounds->nr_bins) {
log_error("Cannot format empty histogram description.");
return NULL;
}
/* Validate entries and set *precise if precision < 1ms. */
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
entry += bounds->nr_bins - 1;
while (entry >= bins) {
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
if (entry != bins) {
if (entry->upper < (entry - 1)->upper) {
log_error("Histogram boundaries must be in "
"order of increasing magnitude.");
return 0;
}
}
/*
* Only enable precise_timestamps automatically if any
* value in the histogram bounds uses precision < 1ms.
*/
if (((entry--)->upper % NSEC_PER_MSEC) && !*precise)
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
*precise = 1;
}
scale = (*precise) ? 1 : NSEC_PER_MSEC;
/* Calculate hist_len and allocate a character buffer. */
if (!(hist_arg = _get_hist_arg(bounds, scale, &hist_len))) {
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
log_error("Could not allocate memory for histogram argument.");
return 0;
}
/* Fill hist_arg with boundary strings. */
if (!_fill_hist_arg(hist_arg, hist_len, scale, bounds))
goto_bad;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
return hist_arg;
2015-09-06 01:56:30 +03:00
bad:
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
log_error("Could not build histogram arguments.");
dm_free(hist_arg);
2015-09-06 01:56:30 +03:00
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
return NULL;
}
static struct dm_task *_stats_send_message(struct dm_stats *dms, char *msg)
{
struct dm_task *dmt;
if (!(dmt = dm_task_create(DM_DEVICE_TARGET_MSG)))
return_0;
if (!_set_stats_device(dms, dmt))
2015-09-06 01:56:30 +03:00
goto_bad;
if (!dm_task_set_message(dmt, msg))
2015-09-06 01:56:30 +03:00
goto_bad;
if (!dm_task_run(dmt))
2015-09-06 01:56:30 +03:00
goto_bad;
return dmt;
2015-09-06 01:56:30 +03:00
bad:
dm_task_destroy(dmt);
return NULL;
}
/*
* Cache the dm device_name for the device bound to dms.
*/
static int _stats_set_name_cache(struct dm_stats *dms)
{
struct dm_task *dmt;
if (dms->name)
return 1;
if (!(dmt = dm_task_create(DM_DEVICE_INFO)))
return_0;
if (!_set_stats_device(dms, dmt))
goto_bad;
if (!dm_task_run(dmt))
goto_bad;
if (!(dms->name = dm_strdup(dm_task_get_name(dmt))))
goto_bad;
dm_task_destroy(dmt);
return 1;
bad:
log_error("Could not retrieve device-mapper name for device.");
dm_task_destroy(dmt);
return 0;
}
/*
* update region group_id values
*/
static void _stats_update_groups(struct dm_stats *dms)
{
struct dm_stats_group *group;
uint64_t group_id, i;
for (group_id = 0; group_id < dms->max_region + 1; group_id++) {
if (!_stats_group_id_present(dms, group_id))
continue;
group = &dms->groups[group_id];
for (i = dm_bit_get_first(group->regions);
i != DM_STATS_GROUP_NOT_PRESENT;
i = dm_bit_get_next(group->regions, i))
dms->regions[i].group_id = group_id;
}
}
static void _check_group_regions_present(struct dm_stats *dms,
struct dm_stats_group *group)
{
dm_bitset_t regions = group->regions;
int64_t i, group_id;
group_id = i = dm_bit_get_first(regions);
for (; i > 0; i = dm_bit_get_next(regions, i))
if (!_stats_region_present(&dms->regions[i])) {
log_warn("Group descriptor " FMTd64 " contains "
"non-existent region_id " FMTd64 ".",
group_id, i);
dm_bit_clear(regions, i);
}
}
/*
* Parse a DMS_GROUP group descriptor embedded in a region's aux_data.
*
* DMS_GROUP="ALIAS:MEMBERS"
*
* ALIAS: group alias
* MEMBERS: list of group member region ids.
*
*/
#define DMS_GROUP_TAG "DMS_GROUP="
#define DMS_GROUP_TAG_LEN (sizeof(DMS_GROUP_TAG) - 1)
#define DMS_GROUP_SEP ':'
#define DMS_AUX_SEP "#"
#define DMS_AUX_SEP_CHAR '#'
#define DMS_GROUP_QUOTE '"'
static int _parse_aux_data_group(struct dm_stats *dms,
struct dm_stats_region *region,
struct dm_stats_group *group)
{
char *alias, *c, *end;
dm_bitset_t regions;
memset(group, 0, sizeof(*group));
group->group_id = DM_STATS_GROUP_NOT_PRESENT;
/* find start of group tag */
c = strstr(region->aux_data, DMS_GROUP_TAG);
if (!c)
return 1; /* no group is not an error */
/* extract alias from quotes */
alias = c + strlen(DMS_GROUP_TAG) + 1;
c = strchr(c, DMS_GROUP_SEP);
if (!c) {
log_error("Found malformed group tag while reading aux_data");
return 0;
}
/* terminate alias and advance to members accounting for closing quote */
*(c - 1) = '\0';
c++;
log_debug("Read alias '%s' from aux_data", alias);
if (!c) {
log_error("Found malformed group descriptor while "
"reading aux_data, expected '%c'", DMS_GROUP_SEP);
return 0;
}
/* if user aux_data follows make sure we have a terminated
* string to pass to dm_bitset_parse_list().
*/
end = strstr(c, DMS_AUX_SEP);
if (!end)
end = c + strlen(c);
*(end++) = '\0';
if (!(regions = dm_bitset_parse_list(c, NULL, 0))) {
log_error("Could not parse member list while "
"reading group aux_data");
return 0;
}
group->group_id = dm_bit_get_first(regions);
if (group->group_id != region->region_id) {
log_error("Found invalid group descriptor in region " FMTu64
" aux_data.", region->region_id);
group->group_id = DM_STATS_GROUP_NOT_PRESENT;
goto bad;
}
group->regions = regions;
group->alias = NULL;
if (strlen(alias)) {
group->alias = dm_strdup(alias);
if (!group->alias) {
log_error("Could not allocate memory for group alias");
goto bad;
}
}
/* separate group tag from user aux_data */
if ((strlen(end) > 1) || strncmp(end, "-", 1))
c = dm_strdup(end);
else
c = dm_strdup("");
if (!c) {
log_error("Could not allocate memory for user aux_data");
goto bad_alias;
}
dm_free(region->aux_data);
region->aux_data = c;
log_debug("Found group_id " FMTu64 ": alias=\"%s\"", group->group_id,
(group->alias) ? group->alias : "");
return 1;
bad_alias:
dm_free((char *) group->alias);
bad:
dm_bitset_destroy(regions);
return 0;
}
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
/*
* Parse a histogram specification returned by the kernel in a
* @stats_list response.
*/
static int _stats_parse_histogram_spec(struct dm_stats *dms,
struct dm_stats_region *region,
const char *histogram)
{
const char valid_chars[] = "0123456789,";
uint64_t scale = region->timescale, this_val = 0;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
struct dm_pool *mem = dms->hist_mem;
struct dm_histogram_bin cur;
2024-05-08 15:24:21 +03:00
struct dm_histogram hist = { 0 };
int nr_bins = 1;
const char *c, *v, *val_start;
char *p, *endptr = NULL;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
/* Advance past "histogram:". */
histogram = strchr(histogram, ':');
2015-09-06 01:56:30 +03:00
if (!histogram) {
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
log_error("Could not parse histogram description.");
return 0;
}
histogram++;
/* @stats_list rows are newline terminated. */
if ((p = strchr(histogram, '\n')))
*p = '\0';
if (!dm_pool_begin_object(mem, sizeof(cur)))
return_0;
hist.nr_bins = 0; /* fix later */
hist.region = region;
hist.dms = dms;
2015-09-06 01:56:30 +03:00
if (!dm_pool_grow_object(mem, &hist, sizeof(hist)))
goto_bad;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
c = histogram;
do {
for (v = valid_chars; *v; v++)
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
if (*c == *v)
break;
2015-09-06 01:56:30 +03:00
if (!*v) {
stack;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
goto badchar;
2015-09-06 01:56:30 +03:00
}
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
if (*c == ',') {
log_error("Invalid histogram description: %s",
histogram);
2015-09-06 01:56:30 +03:00
goto bad;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
} else {
val_start = c;
endptr = NULL;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
errno = 0;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
this_val = strtoull(val_start, &endptr, 10);
if (errno || !endptr) {
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
log_error("Could not parse histogram boundary.");
2015-09-06 01:56:30 +03:00
goto bad;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
}
c = endptr; /* Advance to units, comma, or end. */
if (*c == ',')
c++;
2015-09-06 01:56:30 +03:00
else if (*c || (*c == ' ')) { /* Expected ',' or NULL. */
stack;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
goto badchar;
2015-09-06 01:56:30 +03:00
}
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
if (*c == ',')
c++;
cur.upper = scale * this_val;
cur.count = 0;
if (!dm_pool_grow_object(mem, &cur, sizeof(cur)))
2015-09-06 01:56:30 +03:00
goto_bad;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
nr_bins++;
}
} while (*c && (*c != ' '));
/* final upper bound. */
cur.upper = UINT64_MAX;
if (!dm_pool_grow_object(mem, &cur, sizeof(cur)))
2015-09-06 01:56:30 +03:00
goto_bad;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
region->bounds = dm_pool_end_object(mem);
if (!region->bounds)
return_0;
region->bounds->nr_bins = nr_bins;
log_debug("Added region histogram spec with %d entries.", nr_bins);
return 1;
badchar:
log_error("Invalid character in histogram: '%c' (0x%x)", *c, *c);
2015-09-06 01:56:30 +03:00
bad:
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
dm_pool_abandon_object(mem);
return 0;
}
static int _stats_parse_string_data(char *string_data, char **program_id,
char **aux_data, char **stats_args)
{
char *p, *next_gap, *empty_string = (char *)"";
size_t len;
/*
* String data format:
* <program_id> <aux_data> [precise_timestamps] [histogram:n1,n2,n3,..]
*/
/* Remove trailing whitespace */
len = strlen(string_data);
if (len > 0 && (string_data)[len - 1] == '\n') {
(string_data)[len - 1] = '\0';
}
p = strchr(string_data, ' ');
*program_id = string_data;
if (!p) {
*aux_data = *stats_args = empty_string;
return 1;
}
*p = '\0';
p++;
if (strstr(p, DMS_GROUP_TAG)) {
*aux_data = p;
/* Skip over the group tag */
2023-10-14 17:54:54 +03:00
if ((next_gap = strchr(p, DMS_AUX_SEP_CHAR)))
next_gap = strchr(next_gap, ' ');
if (next_gap) {
*(next_gap++) = '\0';
*stats_args = next_gap++;
} else
*stats_args = empty_string;
} else {
next_gap = strchr(p, ' ');
if (next_gap) {
*next_gap = '\0';
*aux_data = p;
*stats_args = next_gap + 1;
} else {
*aux_data = p;
*stats_args = empty_string;
}
}
if (!strncmp(*program_id, "-", 1))
*program_id = empty_string;
if (!strncmp(*aux_data, "-", 1))
*aux_data = empty_string;
return 1;
}
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
static int _stats_parse_list_region(struct dm_stats *dms,
struct dm_stats_region *region, char *line)
{
char string_data[STATS_ROW_BUF_LEN] = { 0 };
char *p, *program_id, *aux_data, *stats_args;
int r;
/*
* Parse fixed fields, line format:
*
* <region_id>: <start_sector>+<length> <step> <string data>
*
* Maximum string data size is 4096 - 1 bytes.
*/
r = sscanf(line, FMTu64 ": " FMTu64 "+" FMTu64 " " FMTu64 " %4095c",
&region->region_id, &region->start, &region->len,
&region->step, string_data);
if (r != 5) {
return 0;
}
if (!_stats_parse_string_data(string_data, &program_id, &aux_data, &stats_args)) {
return_0;
}
region->timescale = strstr(stats_args, PRECISE_ARG) ? 1 : NSEC_PER_MSEC;
p = strstr(stats_args, HISTOGRAM_ARG);
if (p) {
if (!_stats_parse_histogram_spec(dms, region, p)) {
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
return_0;
}
} else {
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
region->bounds = NULL;
}
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
region->histogram = NULL;
region->group_id = DM_STATS_GROUP_NOT_PRESENT;
if (!(region->program_id = dm_strdup(program_id))) {
return_0;
}
if (!(region->aux_data = dm_strdup(aux_data))) {
dm_free(region->program_id);
return_0;
}
region->counters = NULL;
return 1;
}
static int _stats_parse_list(struct dm_stats *dms, const char *resp)
{
uint64_t max_region = 0, nr_regions = 0;
struct dm_stats_region cur, fill;
struct dm_stats_group cur_group;
struct dm_pool *mem = dms->mem, *group_mem = dms->group_mem;
char line[STATS_ROW_BUF_LEN];
FILE *list_rows;
if (!resp) {
log_error("Could not parse NULL @stats_list response.");
return 0;
}
_stats_regions_destroy(dms);
_stats_groups_destroy(dms);
/* no regions */
if (!strlen(resp)) {
dms->nr_regions = dms->max_region = 0;
dms->regions = NULL;
return 1;
}
/*
* dm_task_get_message_response() returns a 'const char *' but
* since fmemopen also permits "w" it expects a 'char *'.
*/
/* coverity[alloc_strlen] intentional */
if (!(list_rows = fmemopen((char *)resp, strlen(resp), "r")))
return_0;
/* begin region table */
if (!dm_pool_begin_object(mem, 1024))
2015-09-06 01:56:30 +03:00
goto_bad;
/* begin group table */
if (!dm_pool_begin_object(group_mem, 32))
goto_bad;
while(fgets(line, sizeof(line), list_rows)) {
cur_group.group_id = DM_STATS_GROUP_NOT_PRESENT;
cur_group.regions = NULL;
cur_group.alias = NULL;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
if (!_stats_parse_list_region(dms, &cur, line))
2015-09-06 01:56:30 +03:00
goto_bad;
/* handle holes in the list of region_ids */
if (cur.region_id > max_region) {
memset(&fill, 0, sizeof(fill));
memset(&cur_group, 0, sizeof(cur_group));
fill.region_id = DM_STATS_REGION_NOT_PRESENT;
cur_group.group_id = DM_STATS_GROUP_NOT_PRESENT;
do {
if (!dm_pool_grow_object(mem, &fill, sizeof(fill)))
2015-09-06 01:56:30 +03:00
goto_bad;
if (!dm_pool_grow_object(group_mem, &cur_group,
sizeof(cur_group)))
goto_bad;
} while (max_region++ < (cur.region_id - 1));
}
if (cur.aux_data)
if (!_parse_aux_data_group(dms, &cur, &cur_group))
log_error("Failed to parse group descriptor "
"from region_id " FMTu64 " aux_data:"
"'%s'", cur.region_id, cur.aux_data);
/* continue */
if (!dm_pool_grow_object(mem, &cur, sizeof(cur)))
2015-09-06 01:56:30 +03:00
goto_bad;
if (!dm_pool_grow_object(group_mem, &cur_group,
sizeof(cur_group)))
goto_bad;
max_region++;
nr_regions++;
}
if (!nr_regions)
/* no region data read from @stats_list */
goto bad;
dms->nr_regions = nr_regions;
dms->max_region = max_region - 1;
dms->regions = dm_pool_end_object(mem);
dms->groups = dm_pool_end_object(group_mem);
dm_stats_foreach_group(dms)
_check_group_regions_present(dms, &dms->groups[dms->cur_group]);
_stats_update_groups(dms);
if (fclose(list_rows))
stack;
return 1;
2015-09-06 01:56:30 +03:00
bad:
if (fclose(list_rows))
stack;
dm_pool_abandon_object(mem);
dm_pool_abandon_object(group_mem);
2015-09-06 01:56:30 +03:00
return 0;
}
int dm_stats_list(struct dm_stats *dms, const char *program_id)
{
char msg[STATS_MSG_BUF_LEN];
struct dm_task *dmt;
int r;
if (!_stats_bound(dms))
return_0;
/* allow zero-length program_id for list */
if (!program_id)
program_id = dms->program_id;
if (!_stats_set_name_cache(dms))
return_0;
if (dms->regions)
_stats_regions_destroy(dms);
r = dm_snprintf(msg, sizeof(msg), "@stats_list %s", program_id);
if (r < 0) {
log_error("Failed to prepare stats message.");
return 0;
}
if (!(dmt = _stats_send_message(dms, msg)))
2015-09-06 01:56:30 +03:00
return_0;
if (!_stats_parse_list(dms, dm_task_get_message_response(dmt))) {
log_error("Could not parse @stats_list response.");
2015-09-06 01:56:30 +03:00
goto bad;
}
dm_task_destroy(dmt);
return 1;
2015-09-06 01:56:30 +03:00
bad:
dm_task_destroy(dmt);
return 0;
}
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
/*
* Parse histogram data returned from a @stats_print operation.
*/
static int _stats_parse_histogram(struct dm_pool *mem, char *hist_str,
struct dm_histogram **histogram,
struct dm_stats_region *region)
{
const char valid_chars[] = "0123456789:";
struct dm_histogram *bounds = region->bounds;
struct dm_histogram hist = {
.nr_bins = region->bounds->nr_bins
};
const char *c, *v, *val_start;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
struct dm_histogram_bin cur;
uint64_t sum = 0, this_val;
char *endptr = NULL;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
int bin = 0;
c = hist_str;
if (!dm_pool_begin_object(mem, sizeof(cur)))
return_0;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
if (!dm_pool_grow_object(mem, &hist, sizeof(hist)))
goto_bad;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
do {
memset(&cur, 0, sizeof(cur));
for (v = valid_chars; *v; v++)
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
if (*c == *v)
break;
if (!*v)
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
goto badchar;
if (*c == ',')
goto badchar;
else {
val_start = c;
endptr = NULL;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
errno = 0;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
this_val = strtoull(val_start, &endptr, 10);
if (errno || !endptr) {
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
log_error("Could not parse histogram value.");
goto bad;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
}
c = endptr; /* Advance to colon, or end. */
if (*c == ':')
c++;
else if (*c & (*c != '\n'))
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
/* Expected ':', '\n', or NULL. */
goto badchar;
if (*c == ':')
c++;
cur.upper = bounds->bins[bin].upper;
cur.count = this_val;
sum += this_val;
if (!dm_pool_grow_object(mem, &cur, sizeof(cur)))
goto_bad;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
bin++;
}
} while (*c && (*c != '\n'));
log_debug("Added region histogram data with %d entries.", hist.nr_bins);
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
*histogram = dm_pool_end_object(mem);
(*histogram)->sum = sum;
return 1;
badchar:
log_error("Invalid character in histogram data: '%c' (0x%x)", *c, *c);
bad:
dm_pool_abandon_object(mem);
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
return 0;
}
static int _stats_parse_region(struct dm_stats *dms, const char *resp,
struct dm_stats_region *region,
uint64_t timescale)
{
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
struct dm_histogram *hist = NULL;
struct dm_pool *mem = dms->mem;
struct dm_stats_counters cur;
FILE *stats_rows = NULL;
uint64_t start = 0, len = 0;
char row[STATS_ROW_BUF_LEN];
int r;
if (!resp) {
log_error("Could not parse empty @stats_print response.");
return 0;
}
region->start = UINT64_MAX;
if (!dm_pool_begin_object(mem, 512))
2015-09-06 01:56:30 +03:00
goto_bad;
/*
* dm_task_get_message_response() returns a 'const char *' but
* since fmemopen also permits "w" it expects a 'char *'.
*/
/* coverity[alloc_strlen] intentional */
stats_rows = fmemopen((char *)resp, strlen(resp), "r");
if (!stats_rows)
2015-09-06 01:56:30 +03:00
goto_bad;
/*
* Output format for each step-sized area of a region:
*
* <start_sector>+<length> counters
*
* The first 11 counters have the same meaning as
* /sys/block/ * /stat or /proc/diskstats.
*
* Please refer to Documentation/iostats.txt for details.
*
* 1. the number of reads completed
* 2. the number of reads merged
* 3. the number of sectors read
* 4. the number of milliseconds spent reading
* 5. the number of writes completed
* 6. the number of writes merged
* 7. the number of sectors written
* 8. the number of milliseconds spent writing
* 9. the number of I/Os currently in progress
* 10. the number of milliseconds spent doing I/Os
* 11. the weighted number of milliseconds spent doing I/Os
*
* Additional counters:
* 12. the total time spent reading in milliseconds
* 13. the total time spent writing in milliseconds
*
*/
while (fgets(row, sizeof(row), stats_rows)) {
r = sscanf(row, FMTu64 "+" FMTu64 /* start+len */
/* reads */
FMTu64 " " FMTu64 " " FMTu64 " " FMTu64 " "
/* writes */
FMTu64 " " FMTu64 " " FMTu64 " " FMTu64 " "
/* in flight & io nsecs */
FMTu64 " " FMTu64 " " FMTu64 " "
/* tot read/write nsecs */
FMTu64 " " FMTu64, &start, &len,
&cur.reads, &cur.reads_merged, &cur.read_sectors,
&cur.read_nsecs,
&cur.writes, &cur.writes_merged, &cur.write_sectors,
&cur.write_nsecs,
&cur.io_in_progress,
&cur.io_nsecs, &cur.weighted_io_nsecs,
&cur.total_read_nsecs, &cur.total_write_nsecs);
if (r != 15) {
log_error("Could not parse @stats_print row.");
2015-09-06 01:56:30 +03:00
goto bad;
}
/* scale time values up if needed */
if (timescale != 1) {
cur.read_nsecs *= timescale;
cur.write_nsecs *= timescale;
cur.io_nsecs *= timescale;
cur.weighted_io_nsecs *= timescale;
cur.total_read_nsecs *= timescale;
cur.total_write_nsecs *= timescale;
}
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
if (region->bounds) {
/* Find first histogram separator. */
char *hist_str = strchr(row, ':');
if (!hist_str) {
log_error("Could not parse histogram value.");
2015-09-06 01:56:30 +03:00
goto bad;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
}
/* Find space preceding histogram. */
while (hist_str && *(hist_str - 1) != ' ')
hist_str--;
/* Use a separate pool for histogram objects since we
* are growing the area table and each area's histogram
* table simultaneously.
*/
if (!_stats_parse_histogram(dms->hist_mem, hist_str,
&hist, region))
2015-09-06 01:56:30 +03:00
goto_bad;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
hist->dms = dms;
hist->region = region;
}
cur.histogram = hist;
2015-09-06 01:56:30 +03:00
if (!dm_pool_grow_object(mem, &cur, sizeof(cur)))
goto_bad;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
if (region->start == UINT64_MAX) {
region->start = start;
region->step = len; /* area size is always uniform. */
}
}
if (region->start == UINT64_MAX)
/* no area data read from @stats_print */
goto bad;
region->len = (start + len) - region->start;
region->timescale = timescale;
region->counters = dm_pool_end_object(mem);
if (fclose(stats_rows))
stack;
return 1;
2015-09-06 01:56:30 +03:00
bad:
if (stats_rows)
2015-09-06 01:56:30 +03:00
if (fclose(stats_rows))
stack;
dm_pool_abandon_object(mem);
2015-09-06 01:56:30 +03:00
return 0;
}
static void _stats_walk_next_present(const struct dm_stats *dms,
uint64_t *flags,
uint64_t *cur_r, uint64_t *cur_a,
uint64_t *cur_g)
{
struct dm_stats_region *cur = NULL;
/* start of walk: region loop advances *cur_r to 0. */
if (*cur_r != DM_STATS_REGION_NOT_PRESENT)
cur = &dms->regions[*cur_r];
/* within current region? */
if (cur && (*flags & DM_STATS_WALK_AREA)) {
if (++(*cur_a) < _nr_areas_region(cur))
return;
else
*cur_a = 0;
}
/* advance to next present, non-skipped region or end */
/* count can start as UINT64_MAX, probably rework to use post++ */
/* coverity[overflow_const] overflow is expected here */
while (++(*cur_r) <= dms->max_region) {
cur = &dms->regions[*cur_r];
if (!_stats_region_present(cur))
continue;
if ((*flags & DM_STATS_WALK_SKIP_SINGLE_AREA))
if (!(*flags & DM_STATS_WALK_AREA))
if (_nr_areas_region(cur) < 2)
continue;
/* matching region found */
break;
}
return;
}
static void _stats_walk_next(const struct dm_stats *dms, uint64_t *flags,
uint64_t *cur_r, uint64_t *cur_a, uint64_t *cur_g)
{
if (!dms || !dms->regions)
return;
if (*flags & DM_STATS_WALK_AREA) {
/* advance to next area, region, or end */
_stats_walk_next_present(dms, flags, cur_r, cur_a, cur_g);
return;
}
if (*flags & DM_STATS_WALK_REGION) {
/* enable region aggregation */
*cur_a = DM_STATS_WALK_REGION;
_stats_walk_next_present(dms, flags, cur_r, cur_a, cur_g);
return;
}
if (*flags & DM_STATS_WALK_GROUP) {
/* enable group aggregation */
*cur_r = *cur_a = DM_STATS_WALK_GROUP;
while (!_stats_group_id_present(dms, ++(*cur_g))
&& (*cur_g) < dms->max_region + 1)
; /* advance to next present group or end */
return;
}
log_error("stats_walk_next called with empty walk flags");
}
static void _group_walk_start(const struct dm_stats *dms, uint64_t *flags,
uint64_t *cur_r, uint64_t *cur_a, uint64_t *cur_g)
{
if (!(*flags & DM_STATS_WALK_GROUP))
return;
*cur_a = *cur_r = DM_STATS_WALK_GROUP;
*cur_g = 0;
/* advance to next present group or end */
while ((*cur_g) <= dms->max_region) {
if (_stats_region_is_grouped(dms, *cur_g))
break;
(*cur_g)++;
}
if (*cur_g > dms->max_region)
/* no groups to walk */
*flags &= ~DM_STATS_WALK_GROUP;
}
static void _stats_walk_start(const struct dm_stats *dms, uint64_t *flags,
uint64_t *cur_r, uint64_t *cur_a,
uint64_t *cur_g)
{
log_debug("starting stats walk with %s %s %s %s",
(*flags & DM_STATS_WALK_AREA) ? "AREA" : "",
(*flags & DM_STATS_WALK_REGION) ? "REGION" : "",
(*flags & DM_STATS_WALK_GROUP) ? "GROUP" : "",
(*flags & DM_STATS_WALK_SKIP_SINGLE_AREA) ? "SKIP" : "");
if (!dms->regions)
return;
if (!(*flags & (DM_STATS_WALK_AREA | DM_STATS_WALK_REGION))) {
_group_walk_start(dms, flags, cur_r, cur_a, cur_g);
return;
}
/* initialise cursor state */
*cur_a = 0;
*cur_r = DM_STATS_REGION_NOT_PRESENT;
*cur_g = DM_STATS_GROUP_NOT_PRESENT;
if (!(*flags & DM_STATS_WALK_AREA))
*cur_a = DM_STATS_WALK_REGION;
/* advance to first present, non-skipped region */
_stats_walk_next_present(dms, flags, cur_r, cur_a, cur_g);
}
#define DM_STATS_WALK_MASK (DM_STATS_WALK_AREA \
| DM_STATS_WALK_REGION \
| DM_STATS_WALK_GROUP \
| DM_STATS_WALK_SKIP_SINGLE_AREA)
int dm_stats_walk_init(struct dm_stats *dms, uint64_t flags)
{
if (!dms)
return_0;
if (flags & ~DM_STATS_WALK_MASK) {
log_error("Unknown value in walk flags: 0x" FMTx64,
(uint64_t) (flags & ~DM_STATS_WALK_MASK));
return 0;
}
dms->walk_flags = flags;
log_debug("dm_stats_walk_init: initialised flags to " FMTx64, flags);
return 1;
}
void dm_stats_walk_start(struct dm_stats *dms)
{
if (!dms || !dms->regions)
return;
dms->cur_flags = dms->walk_flags;
_stats_walk_start(dms, &dms->cur_flags,
&dms->cur_region, &dms->cur_area,
&dms->cur_group);
}
void dm_stats_walk_next(struct dm_stats *dms)
{
_stats_walk_next(dms, &dms->cur_flags,
&dms->cur_region, &dms->cur_area,
&dms->cur_group);
}
void dm_stats_walk_next_region(struct dm_stats *dms)
{
dms->cur_flags &= ~DM_STATS_WALK_AREA;
_stats_walk_next(dms, &dms->cur_flags,
&dms->cur_region, &dms->cur_area,
&dms->cur_group);
}
/*
* Return 1 if any regions remain that are present and not skipped
* by the current walk flags or 0 otherwise.
*/
static uint64_t _stats_walk_any_unskipped(const struct dm_stats *dms,
uint64_t *flags,
uint64_t *cur_r, uint64_t *cur_a)
{
struct dm_stats_region *region;
uint64_t i;
if (*cur_r > dms->max_region)
return 0;
for (i = *cur_r; i <= dms->max_region; i++) {
region = &dms->regions[i];
if (!_stats_region_present(region))
continue;
if ((*flags & DM_STATS_WALK_SKIP_SINGLE_AREA)
&& !(*flags & DM_STATS_WALK_AREA))
if (_nr_areas_region(region) < 2)
continue;
return 1;
}
return 0;
}
static void _stats_walk_end_areas(const struct dm_stats *dms, uint64_t *flags,
uint64_t *cur_r, uint64_t *cur_a,
uint64_t *cur_g)
{
int end = !_stats_walk_any_unskipped(dms, flags, cur_r, cur_a);
if (!(*flags & DM_STATS_WALK_AREA))
return;
if (!end)
return;
*flags &= ~DM_STATS_WALK_AREA;
if (*flags & DM_STATS_WALK_REGION) {
/* start region walk */
*cur_a = DM_STATS_WALK_REGION;
*cur_r = DM_STATS_REGION_NOT_PRESENT;
_stats_walk_next_present(dms, flags, cur_r, cur_a, cur_g);
if (!_stats_walk_any_unskipped(dms, flags, cur_r, cur_a)) {
/* no more regions */
*flags &= ~DM_STATS_WALK_REGION;
if (!(*flags & DM_STATS_WALK_GROUP))
*cur_r = dms->max_region;
}
}
if (*flags & DM_STATS_WALK_REGION)
return;
if (*flags & DM_STATS_WALK_GROUP)
_group_walk_start(dms, flags, cur_r, cur_a, cur_g);
}
static int _stats_walk_end(const struct dm_stats *dms, uint64_t *flags,
uint64_t *cur_r, uint64_t *cur_a, uint64_t *cur_g)
{
if (*flags & DM_STATS_WALK_AREA) {
_stats_walk_end_areas(dms, flags, cur_r, cur_a, cur_g);
goto out;
}
if (*flags & DM_STATS_WALK_REGION) {
if (!_stats_walk_any_unskipped(dms, flags, cur_r, cur_a)) {
*flags &= ~DM_STATS_WALK_REGION;
_group_walk_start(dms, flags, cur_r, cur_a, cur_g);
}
goto out;
}
if (*flags & DM_STATS_WALK_GROUP) {
if (*cur_g <= dms->max_region)
goto out;
*flags &= ~DM_STATS_WALK_GROUP;
}
out:
return !(*flags & ~DM_STATS_WALK_SKIP_SINGLE_AREA);
}
int dm_stats_walk_end(struct dm_stats *dms)
{
if (!dms)
return 1;
if (_stats_walk_end(dms, &dms->cur_flags,
&dms->cur_region, &dms->cur_area,
&dms->cur_group)) {
dms->cur_flags = dms->walk_flags;
return 1;
}
return 0;
}
dm_stats_obj_type_t dm_stats_object_type(const struct dm_stats *dms,
uint64_t region_id,
uint64_t area_id)
{
uint64_t group_id;
region_id = (region_id == DM_STATS_REGION_CURRENT)
? dms->cur_region : region_id ;
area_id = (area_id == DM_STATS_AREA_CURRENT)
? dms->cur_area : area_id ;
if (region_id == DM_STATS_REGION_NOT_PRESENT)
/* no region */
return DM_STATS_OBJECT_TYPE_NONE;
if (region_id & DM_STATS_WALK_GROUP) {
if (region_id == DM_STATS_WALK_GROUP)
/* indirect group_id from cursor */
group_id = dms->cur_group;
else
/* immediate group_id encoded in region_id */
group_id = region_id & ~DM_STATS_WALK_GROUP;
if (!_stats_group_id_present(dms, group_id))
return DM_STATS_OBJECT_TYPE_NONE;
return DM_STATS_OBJECT_TYPE_GROUP;
}
if (region_id > dms->max_region)
/* end of table */
return DM_STATS_OBJECT_TYPE_NONE;
if (area_id & DM_STATS_WALK_REGION)
/* aggregate region */
return DM_STATS_OBJECT_TYPE_REGION;
/* plain region_id and area_id */
return DM_STATS_OBJECT_TYPE_AREA;
}
dm_stats_obj_type_t dm_stats_current_object_type(const struct dm_stats *dms)
{
/* dm_stats_object_type will decode region/area */
return dm_stats_object_type(dms,
DM_STATS_REGION_CURRENT,
DM_STATS_AREA_CURRENT);
}
uint64_t dm_stats_get_region_nr_areas(const struct dm_stats *dms,
uint64_t region_id)
{
struct dm_stats_region *region = NULL;
/* groups or aggregate regions cannot be subdivided */
if (region_id & DM_STATS_WALK_GROUP)
return 1;
region = &dms->regions[region_id];
return _nr_areas_region(region);
}
uint64_t dm_stats_get_current_nr_areas(const struct dm_stats *dms)
{
/* groups or aggregate regions cannot be subdivided */
if (dms->cur_region & DM_STATS_WALK_GROUP)
return 1;
return dm_stats_get_region_nr_areas(dms, dms->cur_region);
}
uint64_t dm_stats_get_nr_areas(const struct dm_stats *dms)
{
uint64_t nr_areas = 0, flags = DM_STATS_WALK_AREA;
/* use a separate cursor */
uint64_t cur_region = 0, cur_area = 0, cur_group = 0;
/* no regions to visit? */
if (!dms->regions)
return 0;
flags = DM_STATS_WALK_AREA;
_stats_walk_start(dms, &flags, &cur_region, &cur_area, &cur_group);
do {
nr_areas += dm_stats_get_current_nr_areas(dms);
_stats_walk_next(dms, &flags,
&cur_region, &cur_area,
&cur_group);
} while (!_stats_walk_end(dms, &flags,
&cur_region, &cur_area,
&cur_group));
return nr_areas;
}
int dm_stats_group_present(const struct dm_stats *dms, uint64_t group_id)
{
return _stats_group_id_present(dms, group_id);
}
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
int dm_stats_get_region_nr_histogram_bins(const struct dm_stats *dms,
uint64_t region_id)
{
region_id = (region_id == DM_STATS_REGION_CURRENT)
? dms->cur_region : region_id ;
/* FIXME: support group histograms if all region bounds match */
if (region_id & DM_STATS_WALK_GROUP)
return 0;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
if (!dms->regions[region_id].bounds)
return 0;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
return dms->regions[region_id].bounds->nr_bins;
}
/*
* Fill buf with a list of set regions in the regions bitmap. Consecutive
* ranges of set region IDs are output using "M-N" range notation.
*
* The number of bytes consumed is returned or zero on error.
*/
static size_t _stats_group_tag_fill(const struct dm_stats *dms,
dm_bitset_t regions,
char *buf, size_t buflen)
{
int i, j, r, next, last = 0;
size_t used = 0;
last = dm_bit_get_last(regions);
i = dm_bit_get_first(regions);
for(; i >= 0; i = dm_bit_get_next(regions, i)) {
/* find range end */
j = i;
do
next = j + 1;
while ((j = dm_bit_get_next(regions, j)) == next);
/* set to last set bit */
j = next - 1;
/* handle range vs. single region */
if (i != j)
r = dm_snprintf(buf, buflen, FMTu64 "-" FMTu64 "%s",
(uint64_t) i, (uint64_t) j,
(j == last) ? "" : ",");
else
r = dm_snprintf(buf, buflen, FMTu64 "%s", (uint64_t) i,
(i == last) ? "" : ",");
if (r < 0)
goto_bad;
i = next; /* skip handled bits if in range */
buf += r;
used += r;
}
return used;
bad:
log_error("Could not format group list.");
return 0;
}
/*
* Calculate the space required to hold a string description of the group
* described by the regions bitset using comma separated list in range
* notation ("A,B,C,M-N").
*/
static size_t _stats_group_tag_len(const struct dm_stats *dms,
dm_bitset_t regions)
{
int64_t i, j, next, nr_regions = 0;
size_t buflen = 0, id_len = 0;
/* check region ids and find last set bit */
i = dm_bit_get_first(regions);
for (; i >= 0; i = dm_bit_get_next(regions, i)) {
/* length of region_id or range start in characters */
id_len = (i) ? 1 + (size_t) log10(i) : 1;
buflen += id_len;
j = i;
do
next = j + 1;
while ((j = dm_bit_get_next(regions, j)) == next);
/* set to last set bit */
j = next - 1;
nr_regions += j - i + 1;
/* handle range */
if (i != j) {
/* j is always > i, which is always >= 0 */
id_len = 1 + (size_t) log10(j);
buflen += id_len + 1; /* range end plus "-" */
}
buflen++;
i = next; /* skip bits if handling range */
}
return buflen;
}
/*
* Build a DMS_GROUP="..." tag for the group specified by group_id,
* to be stored in the corresponding region's aux_data field.
*/
static char *_build_group_tag(struct dm_stats *dms, uint64_t group_id)
{
char *aux_string, *buf;
dm_bitset_t regions;
const char *alias;
size_t buflen = 0;
int r;
regions = dms->groups[group_id].regions;
alias = dms->groups[group_id].alias;
buflen = _stats_group_tag_len(dms, regions);
if (!buflen)
return_0;
buflen += DMS_GROUP_TAG_LEN;
buflen += 1 + (alias ? strlen(alias) + 2 : 0); /* 'alias:' */
buf = aux_string = dm_malloc(buflen);
if (!buf) {
log_error("Could not allocate memory for aux_data string.");
return NULL;
}
if (!_dm_strncpy(buf, DMS_GROUP_TAG, DMS_GROUP_TAG_LEN + 1))
goto_bad;
buf += DMS_GROUP_TAG_LEN;
buflen -= DMS_GROUP_TAG_LEN;
if (alias)
r = dm_snprintf(buf, buflen, "\"%s\"%c", alias, DMS_GROUP_SEP);
else
r = dm_snprintf(buf, buflen, "%c", DMS_GROUP_SEP);
if (r < 0)
goto_bad;
buf += r;
buflen -= r;
r = _stats_group_tag_fill(dms, regions, buf, buflen);
if (!r)
goto_bad;
return aux_string;
bad:
log_error("Could not format group aux_data.");
dm_free(aux_string);
return NULL;
}
/*
* Store updated aux_data for a region. The aux_data is passed to the
* kernel using the @stats_set_aux message. Any required group tag is
* generated from the current group table and included in the message.
*/
static int _stats_set_aux(struct dm_stats *dms,
uint64_t region_id, const char *user_data)
{
char *group_tag = NULL, *group_tag_escaped = NULL;
struct dm_task *dmt = NULL;
char msg[STATS_MSG_BUF_LEN];
2023-10-14 17:55:46 +03:00
int r = 0;
/* group data required? */
if (_stats_group_id_present(dms, region_id)) {
group_tag = _build_group_tag(dms, region_id);
if (!group_tag) {
log_error("Could not build group descriptor for "
"region ID " FMTu64, region_id);
goto bad;
}
group_tag_escaped = _stats_escape_aux_data(group_tag);
if (!group_tag_escaped)
goto bad;
}
if (dm_snprintf(msg, sizeof(msg), "@stats_set_aux " FMTu64 " %s%s%s ",
region_id, (group_tag_escaped) ? group_tag_escaped : "",
(group_tag_escaped) ? DMS_AUX_SEP : "",
(strlen(user_data)) ? user_data : "-") < 0) {
log_error("Could not prepare @stats_set_aux message");
goto bad;
}
if (!(dmt = _stats_send_message(dms, msg)))
goto_bad;
/* no response to a @stats_set_aux message */
dm_task_destroy(dmt);
2023-10-14 17:55:46 +03:00
r = 1;
bad:
2023-10-14 17:55:46 +03:00
dm_free(group_tag_escaped);
dm_free(group_tag);
return r;
}
/*
* Maximum length of a "start+end" range string:
* Two 20 digit uint64_t, '+', and NULL.
*/
#define RANGE_LEN 42
static int _stats_create_region(struct dm_stats *dms, uint64_t *region_id,
uint64_t start, uint64_t len, int64_t step,
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
int precise, const char *hist_arg,
const char *program_id, const char *aux_data)
{
char msg[STATS_MSG_BUF_LEN], range[RANGE_LEN], *endptr = NULL;
2024-05-04 12:10:10 +03:00
const char *err = NULL;
const char *precise_str = PRECISE_ARG;
const char *resp, *opt_args = NULL;
char *aux_data_escaped = NULL;
struct dm_task *dmt = NULL;
int r = 0, nr_opt = 0;
if (!_stats_bound(dms))
return_0;
if (!program_id || !strlen(program_id))
program_id = dms->program_id;
if (start || len) {
if (dm_snprintf(range, sizeof(range), FMTu64 "+" FMTu64,
start, len) < 0) {
2024-05-04 12:10:10 +03:00
err ="range";
goto_bad;
}
}
if (precise < 0)
precise = dms->precise;
if (precise)
nr_opt++;
else
precise_str = "";
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
if (hist_arg)
nr_opt++;
else
hist_arg = "";
aux_data_escaped = _stats_escape_aux_data(aux_data);
if (!aux_data_escaped)
return_0;
if (nr_opt) {
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
if ((dm_asprintf((char **)&opt_args, "%d %s %s%s", nr_opt,
precise_str,
(strlen(hist_arg)) ? HISTOGRAM_ARG : "",
hist_arg)) < 0) {
2024-05-04 12:10:10 +03:00
err = PRECISE_ARG " option.";
goto_bad;
}
} else
opt_args = dm_strdup("");
if (dm_snprintf(msg, sizeof(msg), "@stats_create %s %s" FMTu64
" %s %s %s", (start || len) ? range : "-",
(step < 0) ? "/" : "",
(uint64_t)llabs(step),
opt_args, program_id, aux_data) < 0) {
2024-05-04 12:10:10 +03:00
err = "message";
goto_bad;
}
if (!(dmt = _stats_send_message(dms, msg)))
2015-09-06 01:56:30 +03:00
goto_out;
resp = dm_task_get_message_response(dmt);
if (!resp) {
log_error("Could not parse empty @stats_create response.");
goto out;
}
if (region_id) {
errno = 0;
*region_id = strtoull(resp, &endptr, 10);
if (errno || resp == endptr)
goto_out;
}
r = 1;
2024-05-04 12:10:10 +03:00
goto out;
bad:
log_error("Could not prepare @stats_create %s.", err);
out:
2015-09-06 01:56:30 +03:00
if (dmt)
dm_task_destroy(dmt);
dm_free((void *) opt_args);
dm_free(aux_data_escaped);
2015-09-06 01:56:30 +03:00
return r;
}
DM_EXPORT_NEW_SYMBOL(int, dm_stats_create_region, 1_02_107)
(struct dm_stats *dms, uint64_t *region_id,
uint64_t start, uint64_t len, int64_t step,
int precise, struct dm_histogram *bounds,
const char *program_id, const char *user_data)
{
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
char *hist_arg = NULL;
int r = 0;
/* Nanosecond counters and histograms both need precise_timestamps. */
2015-09-06 01:56:30 +03:00
if ((precise || bounds) && !_stats_check_precise_timestamps(dms))
return_0;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
if (bounds) {
/* _build_histogram_arg enables precise if vals < 1ms. */
if (!(hist_arg = _build_histogram_arg(bounds, &precise)))
goto_out;
}
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
r = _stats_create_region(dms, region_id, start, len, step,
precise, hist_arg, program_id, user_data);
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
dm_free(hist_arg);
2015-09-06 01:56:30 +03:00
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
out:
return r;
}
static void _stats_clear_group_regions(struct dm_stats *dms, uint64_t group_id)
{
struct dm_stats_group *group;
uint64_t i;
group = &dms->groups[group_id];
for (i = dm_bit_get_first(group->regions);
i != DM_STATS_GROUP_NOT_PRESENT;
i = dm_bit_get_next(group->regions, i))
dms->regions[i].group_id = DM_STATS_GROUP_NOT_PRESENT;
}
static int _stats_remove_region_id_from_group(struct dm_stats *dms,
uint64_t region_id)
{
struct dm_stats_region *region = &dms->regions[region_id];
uint64_t group_id = region->group_id;
dm_bitset_t regions = dms->groups[group_id].regions;
if (!_stats_region_is_grouped(dms, region_id))
return_0;
dm_bit_clear(regions, region_id);
/* removing group leader? */
if (region_id == group_id) {
_stats_clear_group_regions(dms, group_id);
_stats_group_destroy(&dms->groups[group_id]);
}
return _stats_set_aux(dms, group_id, dms->regions[group_id].aux_data);
}
static int _stats_delete_region(struct dm_stats *dms, uint64_t region_id)
{
char msg[STATS_MSG_BUF_LEN];
struct dm_task *dmt;
if (_stats_region_is_grouped(dms, region_id))
if (!_stats_remove_region_id_from_group(dms, region_id)) {
log_error("Could not remove region ID " FMTu64 " from "
"group ID " FMTu64,
region_id, dms->regions[region_id].group_id);
return 0;
}
if (dm_snprintf(msg, sizeof(msg), "@stats_delete " FMTu64, region_id) < 0) {
log_error("Could not prepare @stats_delete message.");
return 0;
}
dmt = _stats_send_message(dms, msg);
if (!dmt)
return_0;
dm_task_destroy(dmt);
return 1;
}
int dm_stats_delete_region(struct dm_stats *dms, uint64_t region_id)
{
int listed = 0;
if (!_stats_bound(dms))
return_0;
/*
* To correctly delete a region, that may be part of a group, a
* listed handle is required, since the region may need to be
* removed from another region's group descriptor; earlier
* versions of the region deletion interface do not have this
* requirement since there are no dependencies between regions.
*
* Listing a previously unlisted handle has numerous
* side-effects on other calls and operations (e.g. stats
* walks), especially when returning to a function that depends
* on the state of the region table, or statistics cursor.
*
* To avoid changing the semantics of the API, and the need for
* a versioned symbol, maintain a flag indicating when a listing
* has been carried out, and drop the region table before
* returning.
*
* This ensures compatibility with programs compiled against
* earlier versions of libdm.
*/
if (!dms->regions && !(listed = dm_stats_list(dms, dms->program_id))) {
log_error("Could not obtain region list while deleting "
"region ID " FMTu64, region_id);
goto bad;
}
libdm-stats: fix dm_stats_delete_region() performance Fix a silly bug in dm_stats_delete_region() that hugely inflates runtimes when deleting a large number of regions. For ~50,000 regions this change reduces the runtime from 98s to 6s on my test systems (a ~93% reduction). The bug exists because dm_stats_delete_region() applies a truth test to the return value of dm_stats_get_nr_areas(); this is never correct usage - it will walk the entire region table and calculate area counts for each region (which is roughly O(n^2) in the number of regions, as dm_stats_delete_region() is being called inside a region walk). Although the individual area calculation is not that costly, uselessly running anything 2,500,000,000 times over gets a bit slow. A much cheaper test (which is always true if the areas check is true) is to just test dm_stats_get_nr_regions() or dms->regions; if either is true it implies at least one area exists. Old: Performance counter stats for 'dmstats delete --allregions --alldevices': 98117.791458 task-clock (msec) # 1.000 CPUs utilized 127 context-switches # 0.001 K/sec 3 cpu-migrations # 0.000 K/sec 6,631 page-faults # 0.068 K/sec 307,711,724,562 cycles # 3.136 GHz 544,762,959,577 instructions # 1.77 insn per cycle 84,287,824,115 branches # 859.047 M/sec 2,538,875 branch-misses # 0.00% of all branches 98.119578733 seconds time elapsed New: Performance counter stats for 'dmstats delete --allregions --alldevices': 6427.251074 task-clock (msec) # 1.000 CPUs utilized 6 context-switches # 0.001 K/sec 0 cpu-migrations # 0.000 K/sec 6,634 page-faults # 0.001 M/sec 21,613,018,724 cycles # 3.363 GHz 3,794,755,445 instructions # 0.18 insn per cycle 852,974,026 branches # 132.712 M/sec 808,625 branch-misses # 0.09% of all branches 6.428953647 seconds time elapsed
2016-12-08 23:55:47 +03:00
if (!dm_stats_get_nr_regions(dms)) {
log_error("Could not delete region ID " FMTu64 ": "
"no regions found", region_id);
goto bad;
}
/* includes invalid and special region_id values */
if (!dm_stats_region_present(dms, region_id)) {
log_error("Region ID " FMTu64 " does not exist", region_id);
goto bad;
}
if (!_stats_delete_region(dms, region_id))
goto bad;
if (!listed)
/* wipe region and mark as not present */
_stats_region_destroy(&dms->regions[region_id]);
else
/* return handle to prior state */
_stats_regions_destroy(dms);
2015-09-06 01:56:30 +03:00
return 1;
bad:
if (listed)
_stats_regions_destroy(dms);
return 0;
}
int dm_stats_clear_region(struct dm_stats *dms, uint64_t region_id)
{
char msg[STATS_MSG_BUF_LEN];
struct dm_task *dmt;
if (!_stats_bound(dms))
return_0;
if (dm_snprintf(msg, sizeof(msg), "@stats_clear " FMTu64, region_id) < 0) {
log_error("Could not prepare @stats_clear message.");
2015-09-06 01:56:30 +03:00
return 0;
}
dmt = _stats_send_message(dms, msg);
2015-09-06 01:56:30 +03:00
if (!dmt)
2015-09-06 01:56:30 +03:00
return_0;
dm_task_destroy(dmt);
2015-09-06 01:56:30 +03:00
return 1;
}
static struct dm_task *_stats_print_region(struct dm_stats *dms,
uint64_t region_id, unsigned start_line,
unsigned num_lines, unsigned clear)
{
/* @stats_print[_clear] <region_id> [<start_line> <num_lines>] */
char msg[STATS_MSG_BUF_LEN], lines[RANGE_LEN];
struct dm_task *dmt = NULL;
2024-05-04 12:10:10 +03:00
const char *err = NULL;
if (start_line || num_lines)
if (dm_snprintf(lines, sizeof(lines),
"%u %u", start_line, num_lines) < 0) {
2024-05-04 12:10:10 +03:00
err = "row specification";
goto_bad;
}
if (dm_snprintf(msg, sizeof(msg), "@stats_print%s " FMTu64 " %s",
(clear) ? "_clear" : "",
region_id, (start_line || num_lines) ? lines : "") < 0) {
2024-05-04 12:10:10 +03:00
err = "message";
goto_bad;
}
if (!(dmt = _stats_send_message(dms, msg)))
2015-09-06 01:56:30 +03:00
return_NULL;
return dmt;
2024-05-04 12:10:10 +03:00
bad:
log_error("Could not prepare @stats_print %s.", err);
return NULL;
}
char *dm_stats_print_region(struct dm_stats *dms, uint64_t region_id,
unsigned start_line, unsigned num_lines,
unsigned clear)
{
char *resp = NULL;
struct dm_task *dmt = NULL;
const char *response;
if (!_stats_bound(dms))
return_0;
/*
* FIXME: 'print' can be emulated for groups or aggregate regions
* by populating the handle and emitting aggregate counter data
* in the kernel print format.
*/
if (region_id == DM_STATS_WALK_GROUP)
return_0;
dmt = _stats_print_region(dms, region_id,
start_line, num_lines, clear);
if (!dmt)
2015-09-06 01:56:30 +03:00
return_0;
if (!(response = dm_task_get_message_response(dmt)))
goto_out;
if (!(resp = dm_pool_strdup(dms->mem, response)))
log_error("Could not allocate memory for response buffer.");
out:
dm_task_destroy(dmt);
return resp;
}
void dm_stats_buffer_destroy(struct dm_stats *dms, char *buffer)
{
dm_pool_free(dms->mem, buffer);
}
uint64_t dm_stats_get_nr_regions(const struct dm_stats *dms)
{
if (!dms)
2015-09-06 01:56:30 +03:00
return_0;
if (!dms->regions)
return 0;
return dms->nr_regions;
}
uint64_t dm_stats_get_nr_groups(const struct dm_stats *dms)
{
uint64_t group_id, nr_groups = 0;
if (!dms)
return_0;
/* no regions or groups? */
if (!dms->regions || !dms->groups)
return 0;
for (group_id = 0; group_id <= dms->max_region; group_id++)
if (dms->groups[group_id].group_id
!= DM_STATS_GROUP_NOT_PRESENT)
nr_groups++;
return nr_groups;
}
/**
* Test whether region_id is present in this set of stats data.
*/
int dm_stats_region_present(const struct dm_stats *dms, uint64_t region_id)
{
if (!dms->regions)
2015-09-06 01:56:30 +03:00
return_0;
if (region_id > dms->max_region)
return 0;
return _stats_region_present(&dms->regions[region_id]);
}
static int _dm_stats_populate_region(struct dm_stats *dms, uint64_t region_id,
const char *resp)
{
struct dm_stats_region *region = &dms->regions[region_id];
if (!_stats_bound(dms))
return_0;
if (!region) {
log_error("Cannot populate empty handle before dm_stats_list().");
return 0;
}
if (!_stats_parse_region(dms, resp, region, region->timescale)) {
log_error("Could not parse @stats_print message response.");
return 0;
}
region->region_id = region_id;
return 1;
}
int dm_stats_populate(struct dm_stats *dms, const char *program_id,
uint64_t region_id)
{
int all_regions = (region_id == DM_STATS_REGIONS_ALL);
struct dm_task *dmt = NULL; /* @stats_print task */
uint64_t saved_flags; /* saved walk flags */
const char *resp;
/*
* We are about do destroy and re-create the region table, so it
* is safe to use the cursor embedded in the stats handle: just
* save a copy of the current walk_flags to restore later.
*/
saved_flags = dms->walk_flags;
if (!_stats_bound(dms))
return_0;
if ((!all_regions) && (region_id & DM_STATS_WALK_GROUP)) {
log_error("Invalid region_id for dm_stats_populate: "
"DM_STATS_WALK_GROUP");
return 0;
}
/* allow zero-length program_id for populate */
if (!program_id)
program_id = dms->program_id;
if (all_regions && !dm_stats_list(dms, program_id)) {
log_error("Could not parse @stats_list response.");
2015-09-06 01:56:30 +03:00
goto bad;
} else if (!_stats_set_name_cache(dms)) {
goto_bad;
}
if (!dms->nr_regions) {
log_verbose("No stats regions registered: %s", dms->name);
return 0;
}
dms->walk_flags = DM_STATS_WALK_REGION;
dm_stats_walk_start(dms);
do {
region_id = (all_regions)
? dm_stats_get_current_region(dms) : region_id;
/* obtain all lines and clear counter values */
if (!(dmt = _stats_print_region(dms, region_id, 0, 0, 1)))
2015-09-06 01:56:30 +03:00
goto_bad;
resp = dm_task_get_message_response(dmt);
if (!_dm_stats_populate_region(dms, region_id, resp)) {
dm_task_destroy(dmt);
2015-09-06 01:56:30 +03:00
goto_bad;
}
dm_task_destroy(dmt);
dm_stats_walk_next(dms);
} while (all_regions && !dm_stats_walk_end(dms));
dms->walk_flags = saved_flags;
return 1;
2015-09-06 01:56:30 +03:00
bad:
dms->walk_flags = saved_flags;
_stats_regions_destroy(dms);
dms->regions = NULL;
return 0;
}
/**
* destroy a dm_stats object and all associated regions and counter sets.
*/
void dm_stats_destroy(struct dm_stats *dms)
{
if (!dms)
return;
_stats_regions_destroy(dms);
_stats_groups_destroy(dms);
_stats_clear_binding(dms);
dm_pool_destroy(dms->mem);
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
dm_pool_destroy(dms->hist_mem);
dm_pool_destroy(dms->group_mem);
dm_free(dms->program_id);
dm_free((char *) dms->name);
dm_free(dms);
}
/*
* Walk each area that is a member of region_id rid.
* i is a variable of type int that holds the current area_id.
*/
#define _foreach_region_area(dms, rid, i) \
for ((i) = 0; (i) < _nr_areas_region(&dms->regions[(rid)]); (i)++) \
/*
* Walk each region that is a member of group_id gid.
* i is a variable of type int that holds the current region_id.
*/
#define _foreach_group_region(dms, gid, i) \
for ((i) = dm_bit_get_first((dms)->groups[(gid)].regions); \
(i) != DM_STATS_GROUP_NOT_PRESENT; \
(i) = dm_bit_get_next((dms)->groups[(gid)].regions, (i))) \
/*
* Walk each region that is a member of group_id gid visiting each
* area within the region.
* i is a variable of type int that holds the current region_id.
* j is a variable of type int variable that holds the current area_id.
*/
#define _foreach_group_area(dms, gid, i, j) \
_foreach_group_region(dms, gid, i) \
_foreach_region_area(dms, i, j)
static uint64_t _stats_get_counter(const struct dm_stats *dms,
const struct dm_stats_counters *area,
dm_stats_counter_t counter)
{
switch(counter) {
case DM_STATS_READS_COUNT:
return area->reads;
case DM_STATS_READS_MERGED_COUNT:
return area->reads_merged;
case DM_STATS_READ_SECTORS_COUNT:
return area->read_sectors;
case DM_STATS_READ_NSECS:
return area->read_nsecs;
case DM_STATS_WRITES_COUNT:
return area->writes;
case DM_STATS_WRITES_MERGED_COUNT:
return area->writes_merged;
case DM_STATS_WRITE_SECTORS_COUNT:
return area->write_sectors;
case DM_STATS_WRITE_NSECS:
return area->write_nsecs;
case DM_STATS_IO_IN_PROGRESS_COUNT:
return area->io_in_progress;
case DM_STATS_IO_NSECS:
return area->io_nsecs;
case DM_STATS_WEIGHTED_IO_NSECS:
return area->weighted_io_nsecs;
case DM_STATS_TOTAL_READ_NSECS:
return area->total_read_nsecs;
case DM_STATS_TOTAL_WRITE_NSECS:
return area->total_write_nsecs;
case DM_STATS_NR_COUNTERS:
default:
log_error("Attempt to read invalid counter: %d", counter);
}
return 0;
}
uint64_t dm_stats_get_counter(const struct dm_stats *dms,
dm_stats_counter_t counter,
uint64_t region_id, uint64_t area_id)
{
uint64_t i, j, sum = 0; /* aggregation */
int sum_regions = 0;
struct dm_stats_region *region;
struct dm_stats_counters *area;
region_id = (region_id == DM_STATS_REGION_CURRENT)
? dms->cur_region : region_id ;
area_id = (area_id == DM_STATS_REGION_CURRENT)
? dms->cur_area : area_id ;
sum_regions = !!(region_id & DM_STATS_WALK_GROUP);
if (region_id == DM_STATS_WALK_GROUP)
/* group walk using the cursor */
region_id = dms->cur_group;
else if (region_id & DM_STATS_WALK_GROUP)
/* group walk using immediate group_id */
region_id &= ~DM_STATS_WALK_GROUP;
region = &dms->regions[region_id];
/*
* All statistics aggregation takes place here: aggregate metrics
* are calculated as normal using the aggregated counter values
* returned for the region or group specified.
*/
if (_stats_region_is_grouped(dms, region_id) && (sum_regions)) {
/* group */
if (area_id & DM_STATS_WALK_GROUP)
_foreach_group_area(dms, region->group_id, i, j) {
area = &dms->regions[i].counters[j];
sum += _stats_get_counter(dms, area, counter);
}
else
_foreach_group_region(dms, region->group_id, i) {
area = &dms->regions[i].counters[area_id];
sum += _stats_get_counter(dms, area, counter);
}
} else if (area_id == DM_STATS_WALK_REGION) {
/* aggregate region */
_foreach_region_area(dms, region_id, j) {
area = &dms->regions[region_id].counters[j];
sum += _stats_get_counter(dms, area, counter);
}
} else {
/* plain region / area */
area = &region->counters[area_id];
sum = _stats_get_counter(dms, area, counter);
}
return sum;
}
/*
* Methods for accessing named counter fields. All methods share the
* following naming scheme and prototype:
*
* uint64_t dm_stats_get_COUNTER(const struct dm_stats *, uint64_t, uint64_t)
*
* Where the two integer arguments are the region_id and area_id
* respectively.
*
* name is the name of the counter (lower case)
* counter is the part of the enum name following DM_STATS_ (upper case)
*/
#define MK_STATS_GET_COUNTER_FN(name, counter) \
uint64_t dm_stats_get_ ## name(const struct dm_stats *dms, \
uint64_t region_id, uint64_t area_id) \
{ \
return dm_stats_get_counter(dms, DM_STATS_ ## counter, \
region_id, area_id); \
}
MK_STATS_GET_COUNTER_FN(reads, READS_COUNT)
MK_STATS_GET_COUNTER_FN(reads_merged, READS_MERGED_COUNT)
MK_STATS_GET_COUNTER_FN(read_sectors, READ_SECTORS_COUNT)
MK_STATS_GET_COUNTER_FN(read_nsecs, READ_NSECS)
MK_STATS_GET_COUNTER_FN(writes, WRITES_COUNT)
MK_STATS_GET_COUNTER_FN(writes_merged, WRITES_MERGED_COUNT)
MK_STATS_GET_COUNTER_FN(write_sectors, WRITE_SECTORS_COUNT)
MK_STATS_GET_COUNTER_FN(write_nsecs, WRITE_NSECS)
MK_STATS_GET_COUNTER_FN(io_in_progress, IO_IN_PROGRESS_COUNT)
MK_STATS_GET_COUNTER_FN(io_nsecs, IO_NSECS)
MK_STATS_GET_COUNTER_FN(weighted_io_nsecs, WEIGHTED_IO_NSECS)
MK_STATS_GET_COUNTER_FN(total_read_nsecs, TOTAL_READ_NSECS)
MK_STATS_GET_COUNTER_FN(total_write_nsecs, TOTAL_WRITE_NSECS)
#undef MK_STATS_GET_COUNTER_FN
/*
* Floating point stats metric functions
*
* Called from dm_stats_get_metric() to calculate the value of
* the requested metric.
*
* int _metric_name(const struct dm_stats *dms,
* struct dm_stats_counters *c,
* double *value);
*
* Calculate a metric value from the counter data for the given
* identifiers and store it in the memory pointed to by value,
* applying group or region aggregation if enabled.
*
* Return one on success or zero on failure.
*
* To add a new metric:
*
* o Add a new name to the dm_stats_metric_t enum.
* o Create a _metric_fn() to calculate the new metric.
* o Add _metric_fn to the _metrics function table
* (entries in enum order).
* o Do not add a new named public function for the metric -
* users of new metrics are encouraged to convert to the enum
* based metric interface.
*
*/
static int _rd_merges_per_sec(const struct dm_stats *dms, double *rrqm,
uint64_t region_id, uint64_t area_id)
{
double mrgs;
mrgs = (double) dm_stats_get_counter(dms, DM_STATS_READS_MERGED_COUNT,
region_id, area_id);
*rrqm = mrgs / (double) dms->interval_ns;
return 1;
}
static int _wr_merges_per_sec(const struct dm_stats *dms, double *wrqm,
uint64_t region_id, uint64_t area_id)
{
double mrgs;
mrgs = (double) dm_stats_get_counter(dms, DM_STATS_WRITES_MERGED_COUNT,
region_id, area_id);
*wrqm = mrgs / (double) dms->interval_ns;
return 1;
}
static int _reads_per_sec(const struct dm_stats *dms, double *rd_s,
uint64_t region_id, uint64_t area_id)
{
double reads;
reads = (double) dm_stats_get_counter(dms, DM_STATS_READS_COUNT,
region_id, area_id);
*rd_s = (reads * NSEC_PER_SEC) / (double) dms->interval_ns;
return 1;
}
static int _writes_per_sec(const struct dm_stats *dms, double *wr_s,
uint64_t region_id, uint64_t area_id)
{
double writes;
writes = (double) dm_stats_get_counter(dms, DM_STATS_WRITES_COUNT,
region_id, area_id);
*wr_s = (writes * NSEC_PER_SEC) / (double) dms->interval_ns;
return 1;
}
static int _read_sectors_per_sec(const struct dm_stats *dms, double *rsec_s,
uint64_t region_id, uint64_t area_id)
{
double sect;
sect = (double) dm_stats_get_counter(dms, DM_STATS_READ_SECTORS_COUNT,
region_id, area_id);
*rsec_s = (sect * (double) NSEC_PER_SEC) / (double) dms->interval_ns;
return 1;
}
static int _write_sectors_per_sec(const struct dm_stats *dms, double *wsec_s,
uint64_t region_id, uint64_t area_id)
{
double sect;
sect = (double) dm_stats_get_counter(dms, DM_STATS_WRITE_SECTORS_COUNT,
region_id, area_id);
*wsec_s = (sect * (double) NSEC_PER_SEC) / (double) dms->interval_ns;
return 1;
}
static int _average_request_size(const struct dm_stats *dms, double *arqsz,
uint64_t region_id, uint64_t area_id)
{
double ios, sectors;
ios = (double) (dm_stats_get_counter(dms, DM_STATS_READS_COUNT,
region_id, area_id)
+ dm_stats_get_counter(dms, DM_STATS_WRITES_COUNT,
region_id, area_id));
sectors = (double) (dm_stats_get_counter(dms, DM_STATS_READ_SECTORS_COUNT,
region_id, area_id)
+ dm_stats_get_counter(dms, DM_STATS_WRITE_SECTORS_COUNT,
region_id, area_id));
if (ios > 0.0)
*arqsz = sectors / ios;
else
*arqsz = 0.0;
return 1;
}
static int _average_queue_size(const struct dm_stats *dms, double *qusz,
uint64_t region_id, uint64_t area_id)
{
double io_ticks;
io_ticks = (double) dm_stats_get_counter(dms, DM_STATS_WEIGHTED_IO_NSECS,
region_id, area_id);
if (io_ticks > 0.0)
*qusz = io_ticks / (double) dms->interval_ns;
else
*qusz = 0.0;
return 1;
}
static int _average_wait_time(const struct dm_stats *dms, double *await,
uint64_t region_id, uint64_t area_id)
{
uint64_t io_ticks, nr_ios;
io_ticks = dm_stats_get_counter(dms, DM_STATS_READ_NSECS,
region_id, area_id);
io_ticks += dm_stats_get_counter(dms, DM_STATS_WRITE_NSECS,
region_id, area_id);
nr_ios = dm_stats_get_counter(dms, DM_STATS_READS_COUNT,
region_id, area_id);
nr_ios += dm_stats_get_counter(dms, DM_STATS_WRITES_COUNT,
region_id, area_id);
if (nr_ios > 0)
*await = (double) io_ticks / (double) nr_ios;
else
*await = 0.0;
return 1;
}
static int _average_rd_wait_time(const struct dm_stats *dms, double *await,
uint64_t region_id, uint64_t area_id)
{
uint64_t rd_io_ticks, nr_rd_ios;
rd_io_ticks = dm_stats_get_counter(dms, DM_STATS_READ_NSECS,
region_id, area_id);
nr_rd_ios = dm_stats_get_counter(dms, DM_STATS_READS_COUNT,
region_id, area_id);
/*
* If rd_io_ticks is > 0 this should imply that nr_rd_ios is
* also > 0 (unless a kernel bug exists). Test for both here
* before using the IO count as a divisor (Coverity).
*/
if (rd_io_ticks > 0 && nr_rd_ios > 0)
*await = (double) rd_io_ticks / (double) nr_rd_ios;
else
*await = 0.0;
return 1;
}
static int _average_wr_wait_time(const struct dm_stats *dms, double *await,
uint64_t region_id, uint64_t area_id)
{
uint64_t wr_io_ticks, nr_wr_ios;
wr_io_ticks = dm_stats_get_counter(dms, DM_STATS_WRITE_NSECS,
region_id, area_id);
nr_wr_ios = dm_stats_get_counter(dms, DM_STATS_WRITES_COUNT,
region_id, area_id);
/*
* If wr_io_ticks is > 0 this should imply that nr_wr_ios is
* also > 0 (unless a kernel bug exists). Test for both here
* before using the IO count as a divisor (Coverity).
*/
if (wr_io_ticks > 0 && nr_wr_ios > 0)
*await = (double) wr_io_ticks / (double) nr_wr_ios;
else
*await = 0.0;
return 1;
}
static int _throughput(const struct dm_stats *dms, double *tput,
uint64_t region_id, uint64_t area_id)
{
uint64_t nr_ios;
nr_ios = dm_stats_get_counter(dms, DM_STATS_READS_COUNT,
region_id, area_id);
nr_ios += dm_stats_get_counter(dms, DM_STATS_WRITES_COUNT,
region_id, area_id);
*tput = ((double) NSEC_PER_SEC * (double) nr_ios)
/ (double) (dms->interval_ns);
return 1;
}
static int _utilization(const struct dm_stats *dms, double *util,
uint64_t region_id, uint64_t area_id)
{
uint64_t io_nsecs, interval_ns = dms->interval_ns;
/**
* If io_nsec > interval_ns there is something wrong with the clock
* for the last interval; do not allow a value > 100% utilization
* to be passed to a dm_make_percent() call. We expect to see these
* at startup if counters have not been cleared before the first read.
*
* A zero interval_ns is also an error since metrics cannot be
* calculated without a defined interval - return zero and emit a
* backtrace in this case.
*/
io_nsecs = dm_stats_get_counter(dms, DM_STATS_IO_NSECS,
region_id, area_id);
if (!interval_ns) {
*util = 0.0;
return_0;
}
io_nsecs = ((io_nsecs < interval_ns) ? io_nsecs : interval_ns);
*util = (double) io_nsecs / (double) interval_ns;
return 1;
}
static int _service_time(const struct dm_stats *dms, double *svctm,
uint64_t region_id, uint64_t area_id)
{
double tput, util;
if (!_throughput(dms, &tput, region_id, area_id))
return 0;
if (!_utilization(dms, &util, region_id, area_id))
return 0;
util *= 100;
/* avoid NAN with zero counter values */
if ( (uint64_t) tput == 0 || (uint64_t) util == 0) {
*svctm = 0.0;
return 1;
}
*svctm = ((double) NSEC_PER_SEC * dm_percent_to_float(util))
/ (100.0 * tput);
return 1;
}
/*
* Table in enum order:
* DM_STATS_RD_MERGES_PER_SEC,
* DM_STATS_WR_MERGES_PER_SEC,
* DM_STATS_READS_PER_SEC,
* DM_STATS_WRITES_PER_SEC,
* DM_STATS_READ_SECTORS_PER_SEC,
* DM_STATS_WRITE_SECTORS_PER_SEC,
* DM_STATS_AVERAGE_REQUEST_SIZE,
* DM_STATS_AVERAGE_QUEUE_SIZE,
* DM_STATS_AVERAGE_WAIT_TIME,
* DM_STATS_AVERAGE_RD_WAIT_TIME,
* DM_STATS_AVERAGE_WR_WAIT_TIME
* DM_STATS_SERVICE_TIME,
* DM_STATS_THROUGHPUT,
* DM_STATS_UTILIZATION
*
*/
typedef int (*_metric_fn_t)(const struct dm_stats *, double *,
uint64_t, uint64_t);
2024-05-04 12:17:29 +03:00
const _metric_fn_t _metrics[DM_STATS_NR_METRICS] = {
_rd_merges_per_sec,
_wr_merges_per_sec,
_reads_per_sec,
_writes_per_sec,
_read_sectors_per_sec,
_write_sectors_per_sec,
_average_request_size,
_average_queue_size,
_average_wait_time,
_average_rd_wait_time,
_average_wr_wait_time,
_service_time,
_throughput,
_utilization
};
int dm_stats_get_metric(const struct dm_stats *dms, int metric,
uint64_t region_id, uint64_t area_id, double *value)
{
if (!dms->interval_ns)
return_0;
/*
* Decode DM_STATS_{REGION,AREA}_CURRENT here; counters will then
* be returned for the actual current region and area.
*
* DM_STATS_WALK_GROUP is passed through to the counter methods -
* aggregates for the group are returned and used to calculate
* the metric for the group totals.
*/
region_id = (region_id == DM_STATS_REGION_CURRENT)
? dms->cur_region : region_id ;
area_id = (area_id == DM_STATS_REGION_CURRENT)
? dms->cur_area : area_id ;
if (metric < 0 || metric >= DM_STATS_NR_METRICS) {
log_error("Attempt to read invalid metric: %d", metric);
return 0;
}
return _metrics[metric](dms, value, region_id, area_id);
}
/**
* Methods for accessing stats metrics. All methods share the
* following naming scheme and prototype:
*
* uint64_t dm_stats_get_metric(struct dm_stats *,
* int, int,
* uint64_t, uint64_t,
* double *v)
*
* Where the two integer arguments are the region_id and area_id
* respectively.
*
* name is the name of the metric (lower case)
* metric is the part of the enum name following DM_STATS_ (upper case)
*/
#define MK_STATS_GET_METRIC_FN(name, metric, meta) \
int dm_stats_get_ ## name(const struct dm_stats *dms, double *meta, \
uint64_t region_id, uint64_t area_id) \
{ \
return dm_stats_get_metric(dms, DM_STATS_ ## metric, \
region_id, area_id, meta); \
}
MK_STATS_GET_METRIC_FN(rd_merges_per_sec, RD_MERGES_PER_SEC, rrqm)
MK_STATS_GET_METRIC_FN(wr_merges_per_sec, WR_MERGES_PER_SEC, wrqm)
MK_STATS_GET_METRIC_FN(reads_per_sec, READS_PER_SEC, rd_s)
MK_STATS_GET_METRIC_FN(writes_per_sec, WRITES_PER_SEC, wr_s)
MK_STATS_GET_METRIC_FN(read_sectors_per_sec, READ_SECTORS_PER_SEC, rsec_s)
MK_STATS_GET_METRIC_FN(write_sectors_per_sec, WRITE_SECTORS_PER_SEC, wsec_s)
MK_STATS_GET_METRIC_FN(average_request_size, AVERAGE_REQUEST_SIZE, arqsz)
MK_STATS_GET_METRIC_FN(average_queue_size, AVERAGE_QUEUE_SIZE, qusz)
MK_STATS_GET_METRIC_FN(average_wait_time, AVERAGE_WAIT_TIME, await)
MK_STATS_GET_METRIC_FN(average_rd_wait_time, AVERAGE_RD_WAIT_TIME, await)
MK_STATS_GET_METRIC_FN(average_wr_wait_time, AVERAGE_WR_WAIT_TIME, await)
MK_STATS_GET_METRIC_FN(service_time, SERVICE_TIME, svctm)
MK_STATS_GET_METRIC_FN(throughput, THROUGHPUT, tput)
/*
* Utilization is an exception since it used the dm_percent_t type in the
* original named function based interface: preserve this behaviour for
* backwards compatibility with existing users.
*
* The same metric may be accessed as a double via the enum based metric
* interface.
*/
int dm_stats_get_utilization(const struct dm_stats *dms, dm_percent_t *util,
uint64_t region_id, uint64_t area_id)
{
double _util;
if (!dm_stats_get_metric(dms, DM_STATS_UTILIZATION,
region_id, area_id, &_util))
return_0;
/* scale up utilization value in the range [0.00..1.00] */
*util = dm_make_percent(DM_PERCENT_1 * _util, DM_PERCENT_1);
return 1;
}
void dm_stats_set_sampling_interval_ms(struct dm_stats *dms, uint64_t interval_ms)
{
/* All times use nsecs internally. */
dms->interval_ns = interval_ms * NSEC_PER_MSEC;
}
void dm_stats_set_sampling_interval_ns(struct dm_stats *dms, uint64_t interval_ns)
{
dms->interval_ns = interval_ns;
}
uint64_t dm_stats_get_sampling_interval_ms(const struct dm_stats *dms)
{
/* All times use nsecs internally. */
return (dms->interval_ns / NSEC_PER_MSEC);
}
uint64_t dm_stats_get_sampling_interval_ns(const struct dm_stats *dms)
{
/* All times use nsecs internally. */
return (dms->interval_ns);
}
int dm_stats_set_program_id(struct dm_stats *dms, int allow_empty,
const char *program_id)
{
if (!allow_empty && (!program_id || !strlen(program_id))) {
log_error("Empty program_id not permitted without "
"allow_empty=1");
return 0;
}
if (!program_id)
program_id = "";
dm_free(dms->program_id);
if (!(dms->program_id = dm_strdup(program_id)))
return_0;
return 1;
}
uint64_t dm_stats_get_current_region(const struct dm_stats *dms)
{
return dms->cur_region;
}
uint64_t dm_stats_get_current_area(const struct dm_stats *dms)
{
return dms->cur_area & ~DM_STATS_WALK_ALL;
}
int dm_stats_get_region_start(const struct dm_stats *dms, uint64_t *start,
uint64_t region_id)
{
if (!dms || !dms->regions)
return_0;
/* start is unchanged when aggregating areas */
if (region_id & DM_STATS_WALK_REGION)
region_id &= ~DM_STATS_WALK_REGION;
/* use start of first region as group start */
if (region_id & DM_STATS_WALK_GROUP) {
if (region_id == DM_STATS_WALK_GROUP)
region_id = dms->cur_group;
else
region_id &= ~DM_STATS_WALK_GROUP;
}
*start = dms->regions[region_id].start;
return 1;
}
int dm_stats_get_region_len(const struct dm_stats *dms, uint64_t *len,
uint64_t region_id)
{
uint64_t i;
if (!dms || !dms->regions)
return_0;
*len = 0;
/* length is unchanged when aggregating areas */
if (region_id & DM_STATS_WALK_REGION)
region_id &= ~DM_STATS_WALK_REGION;
if (region_id & DM_STATS_WALK_GROUP) {
/* decode region / group ID */
if (region_id == DM_STATS_WALK_GROUP)
region_id = dms->cur_group;
else
region_id &= ~DM_STATS_WALK_GROUP;
/* use sum of region sizes as group size */
if (_stats_region_is_grouped(dms, region_id))
_foreach_group_region(dms, dms->cur_group, i)
*len += dms->regions[i].len;
else {
log_error("Group ID " FMTu64 " does not exist",
region_id);
return 0;
}
} else
*len = dms->regions[region_id].len;
return 1;
}
int dm_stats_get_region_area_len(const struct dm_stats *dms, uint64_t *len,
uint64_t region_id)
{
if (!dms || !dms->regions)
return_0;
/* groups are not subdivided - area size equals group size */
if (region_id & (DM_STATS_WALK_GROUP | DM_STATS_WALK_REGION))
/* get_region_len will decode region_id */
return dm_stats_get_region_len(dms, len, region_id);
*len = dms->regions[region_id].step;
return 1;
}
int dm_stats_get_current_region_start(const struct dm_stats *dms,
uint64_t *start)
{
return dm_stats_get_region_start(dms, start, dms->cur_region);
}
int dm_stats_get_current_region_len(const struct dm_stats *dms,
uint64_t *len)
{
return dm_stats_get_region_len(dms, len, dms->cur_region);
}
int dm_stats_get_current_region_area_len(const struct dm_stats *dms,
uint64_t *step)
{
return dm_stats_get_region_area_len(dms, step, dms->cur_region);
}
int dm_stats_get_area_start(const struct dm_stats *dms, uint64_t *start,
uint64_t region_id, uint64_t area_id)
{
struct dm_stats_region *region;
if (!dms || !dms->regions)
return_0;
/* group or region area start equals region start */
if (region_id & (DM_STATS_WALK_GROUP | DM_STATS_WALK_REGION))
return dm_stats_get_region_start(dms, start, region_id);
region = &dms->regions[region_id];
*start = region->start + region->step * area_id;
return 1;
}
int dm_stats_get_area_offset(const struct dm_stats *dms, uint64_t *offset,
uint64_t region_id, uint64_t area_id)
{
if (!dms || !dms->regions)
return_0;
/* no areas for groups or aggregate regions */
if (region_id & (DM_STATS_WALK_GROUP | DM_STATS_WALK_REGION))
*offset = 0;
else
*offset = dms->regions[region_id].step * area_id;
return 1;
}
int dm_stats_get_current_area_start(const struct dm_stats *dms,
uint64_t *start)
{
return dm_stats_get_area_start(dms, start,
dms->cur_region, dms->cur_area);
}
int dm_stats_get_current_area_offset(const struct dm_stats *dms,
uint64_t *offset)
{
return dm_stats_get_area_offset(dms, offset,
dms->cur_region, dms->cur_area);
}
int dm_stats_get_current_area_len(const struct dm_stats *dms,
uint64_t *len)
{
return dm_stats_get_region_area_len(dms, len, dms->cur_region);
}
const char *dm_stats_get_region_program_id(const struct dm_stats *dms,
uint64_t region_id)
{
const char *program_id = NULL;
if (region_id & DM_STATS_WALK_GROUP)
return dms->program_id;
if (region_id & DM_STATS_WALK_REGION)
region_id &= ~DM_STATS_WALK_REGION;
program_id = dms->regions[region_id].program_id;
return (program_id) ? program_id : "";
}
const char *dm_stats_get_region_aux_data(const struct dm_stats *dms,
uint64_t region_id)
{
const char *aux_data = NULL;
if (region_id & DM_STATS_WALK_GROUP)
return "";
if (region_id & DM_STATS_WALK_REGION)
region_id &= ~DM_STATS_WALK_REGION;
aux_data = dms->regions[region_id].aux_data;
return (aux_data) ? aux_data : "" ;
}
int dm_stats_set_alias(struct dm_stats *dms, uint64_t group_id, const char *alias)
{
struct dm_stats_group *group = NULL;
const char *old_alias = NULL;
if (!dms->regions || !dms->groups || !alias)
return_0;
if (!_stats_region_is_grouped(dms, group_id)) {
log_error("Cannot set alias for ungrouped region ID "
FMTu64, group_id);
return 0;
}
if (group_id & DM_STATS_WALK_GROUP) {
if (group_id == DM_STATS_WALK_GROUP)
group_id = dms->cur_group;
else
group_id &= ~DM_STATS_WALK_GROUP;
}
if (group_id != dms->regions[group_id].group_id) {
/* dm_stats_set_alias() must be called on the group ID. */
log_error("Cannot set alias for group member " FMTu64 ".",
group_id);
return 0;
}
group = &dms->groups[group_id];
old_alias = group->alias;
group->alias = dm_strdup(alias);
if (!group->alias) {
log_error("Could not allocate memory for alias.");
goto bad;
}
if (!_stats_set_aux(dms, group_id, dms->regions[group_id].aux_data)) {
log_error("Could not set new aux_data");
goto bad;
}
dm_free((char *) old_alias);
return 1;
bad:
dm_free((char *) group->alias);
group->alias = old_alias;
return 0;
}
const char *dm_stats_get_alias(const struct dm_stats *dms, uint64_t id)
{
const struct dm_stats_region *region;
id = (id == DM_STATS_REGION_CURRENT) ? dms->cur_region : id;
if (id & DM_STATS_WALK_GROUP) {
if (id == DM_STATS_WALK_GROUP)
id = dms->cur_group;
else
id &= ~DM_STATS_WALK_GROUP;
}
region = &dms->regions[id];
if (!_stats_region_is_grouped(dms, id)
|| !dms->groups[region->group_id].alias)
return dms->name;
return dms->groups[region->group_id].alias;
}
const char *dm_stats_get_current_region_program_id(const struct dm_stats *dms)
{
return dm_stats_get_region_program_id(dms, dms->cur_region);
}
const char *dm_stats_get_current_region_aux_data(const struct dm_stats *dms)
{
return dm_stats_get_region_aux_data(dms, dms->cur_region);
}
int dm_stats_get_region_precise_timestamps(const struct dm_stats *dms,
uint64_t region_id)
{
struct dm_stats_region *region;
if (region_id == DM_STATS_REGION_CURRENT)
region_id = dms->cur_region;
if (region_id == DM_STATS_WALK_GROUP)
region_id = dms->cur_group;
else if (region_id & DM_STATS_WALK_GROUP)
region_id &= ~DM_STATS_WALK_GROUP;
region = &dms->regions[region_id];
return region->timescale == 1;
}
int dm_stats_get_current_region_precise_timestamps(const struct dm_stats *dms)
{
return dm_stats_get_region_precise_timestamps(dms,
DM_STATS_REGION_CURRENT);
}
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
/*
* Histogram access methods.
*/
static void _sum_histogram_bins(const struct dm_stats *dms,
struct dm_histogram *dmh_aggr,
uint64_t region_id, uint64_t area_id)
{
struct dm_stats_region *region;
struct dm_histogram_bin *bins;
struct dm_histogram *dmh_cur;
int bin;
region = &dms->regions[region_id];
dmh_cur = region->counters[area_id].histogram;
bins = dmh_aggr->bins;
for (bin = 0; bin < dmh_aggr->nr_bins; bin++)
bins[bin].count += dmh_cur->bins[bin].count;
}
/*
* Create an aggregate histogram for a sub-divided region or a group.
*/
static struct dm_histogram *_aggregate_histogram(const struct dm_stats *dms,
uint64_t region_id,
uint64_t area_id)
{
struct dm_histogram *dmh_aggr, *dmh_cur, **dmh_cachep;
uint64_t group_id = DM_STATS_GROUP_NOT_PRESENT;
int bin, nr_bins, group = 1;
size_t hist_size;
if (area_id == DM_STATS_WALK_REGION) {
/* region aggregation */
group = 0;
if (!_stats_region_present(&dms->regions[region_id]))
return_NULL;
if (!dms->regions[region_id].bounds)
return_NULL;
if (!dms->regions[region_id].counters)
return dms->regions[region_id].bounds;
if (dms->regions[region_id].histogram)
return dms->regions[region_id].histogram;
dmh_cur = dms->regions[region_id].counters[0].histogram;
dmh_cachep = &dms->regions[region_id].histogram;
nr_bins = dms->regions[region_id].bounds->nr_bins;
} else {
/* group aggregation */
group_id = region_id;
area_id = DM_STATS_WALK_GROUP;
if (!_stats_group_id_present(dms, group_id))
return_NULL;
if (!dms->regions[group_id].bounds)
return_NULL;
if (!dms->regions[group_id].counters)
return dms->regions[group_id].bounds;
if (dms->groups[group_id].histogram)
return dms->groups[group_id].histogram;
dmh_cur = dms->regions[group_id].counters[0].histogram;
dmh_cachep = &dms->groups[group_id].histogram;
nr_bins = dms->regions[group_id].bounds->nr_bins;
}
hist_size = sizeof(*dmh_aggr)
+ nr_bins * sizeof(struct dm_histogram_bin);
if (!(dmh_aggr = dm_pool_zalloc(dms->hist_mem, hist_size))) {
log_error("Could not allocate group histogram");
return 0;
}
dmh_aggr->nr_bins = dmh_cur->nr_bins;
dmh_aggr->dms = dms;
if (!group)
_foreach_region_area(dms, region_id, area_id) {
_sum_histogram_bins(dms, dmh_aggr, region_id, area_id);
}
else {
_foreach_group_area(dms, group_id, region_id, area_id) {
_sum_histogram_bins(dms, dmh_aggr, region_id, area_id);
}
}
for (bin = 0; bin < nr_bins; bin++) {
dmh_aggr->sum += dmh_aggr->bins[bin].count;
dmh_aggr->bins[bin].upper = dmh_cur->bins[bin].upper;
}
/* cache aggregate histogram for subsequent access */
*dmh_cachep = dmh_aggr;
return dmh_aggr;
}
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
struct dm_histogram *dm_stats_get_histogram(const struct dm_stats *dms,
uint64_t region_id,
uint64_t area_id)
{
int aggr = 0;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
if (region_id == DM_STATS_REGION_CURRENT) {
region_id = dms->cur_region;
if (region_id & DM_STATS_WALK_GROUP) {
region_id = dms->cur_group;
aggr = 1;
}
} else if (region_id & DM_STATS_WALK_GROUP) {
region_id &= ~DM_STATS_WALK_GROUP;
aggr = 1;
}
area_id = (area_id == DM_STATS_AREA_CURRENT)
? dms->cur_area : area_id ;
if (area_id == DM_STATS_WALK_REGION)
aggr = 1;
if (aggr)
return _aggregate_histogram(dms, region_id, area_id);
if (region_id & DM_STATS_WALK_REGION)
region_id &= ~DM_STATS_WALK_REGION;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
if (!dms->regions[region_id].counters)
return dms->regions[region_id].bounds;
return dms->regions[region_id].counters[area_id].histogram;
}
int dm_histogram_get_nr_bins(const struct dm_histogram *dmh)
{
return dmh->nr_bins;
}
uint64_t dm_histogram_get_bin_lower(const struct dm_histogram *dmh, int bin)
{
return (!bin) ? 0 : dmh->bins[bin - 1].upper;
}
uint64_t dm_histogram_get_bin_upper(const struct dm_histogram *dmh, int bin)
{
return dmh->bins[bin].upper;
}
uint64_t dm_histogram_get_bin_width(const struct dm_histogram *dmh, int bin)
{
uint64_t upper, lower;
upper = dm_histogram_get_bin_upper(dmh, bin);
lower = dm_histogram_get_bin_lower(dmh, bin);
return (upper - lower);
}
uint64_t dm_histogram_get_bin_count(const struct dm_histogram *dmh, int bin)
{
return dmh->bins[bin].count;
}
uint64_t dm_histogram_get_sum(const struct dm_histogram *dmh)
{
return dmh->sum;
}
dm_percent_t dm_histogram_get_bin_percent(const struct dm_histogram *dmh,
int bin)
{
uint64_t value = dm_histogram_get_bin_count(dmh, bin);
uint64_t width = dm_histogram_get_bin_width(dmh, bin);
uint64_t total = dm_histogram_get_sum(dmh);
double val = (double) value;
if (!total || !value || !width)
return DM_PERCENT_0;
return dm_make_percent((uint64_t) val, total);
}
/*
* Histogram string helper functions: used to construct histogram and
* bin boundary strings from numeric data.
*/
/*
* Allocate an unbound histogram object with nr_bins bins. Only used
* for histograms used to hold bounds values as arguments for calls to
* dm_stats_create_region().
*/
static struct dm_histogram *_alloc_dm_histogram(int nr_bins)
{
/* Allocate space for dm_histogram + nr_entries. */
size_t size = sizeof(struct dm_histogram) +
(unsigned) nr_bins * sizeof(struct dm_histogram_bin);
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
return dm_zalloc(size);
}
/*
* Parse a histogram bounds string supplied by the user. The string
* consists of a list of numbers, "n1,n2,n3,..." with optional 'ns',
* 'us', 'ms', or 's' unit suffixes.
*
* The scale parameter indicates the timescale used for this region: one
* for nanoscale resolution and NSEC_PER_MSEC for miliseconds.
*
* On return bounds contains a pointer to an array of uint64_t
* histogram bounds values expressed in units of nanoseconds.
*/
struct dm_histogram *dm_histogram_bounds_from_string(const char *bounds_str)
{
const char valid_chars[] = "0123456789,muns";
uint64_t this_val = 0, mult = 1;
const char *c, *v, *val_start;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
struct dm_histogram_bin *cur;
struct dm_histogram *dmh;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
int nr_entries = 1;
char *endptr;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
c = bounds_str;
/* Count number of bounds entries. */
while(*c)
if (*(c++) == ',')
nr_entries++;
c = bounds_str;
if (!(dmh = _alloc_dm_histogram(nr_entries)))
2015-09-06 01:56:30 +03:00
return_0;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
dmh->nr_bins = nr_entries;
cur = dmh->bins;
do {
for (v = valid_chars; *v; v++)
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
if (*c == *v)
break;
2015-09-06 01:56:30 +03:00
if (!*v) {
stack;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
goto badchar;
2015-09-06 01:56:30 +03:00
}
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
if (*c == ',') {
log_error("Empty histogram bin not allowed: %s",
bounds_str);
2015-09-06 01:56:30 +03:00
goto bad;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
} else {
val_start = c;
endptr = NULL;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
this_val = strtoull(val_start, &endptr, 10);
if (!endptr) {
log_error("Could not parse histogram bound.");
2015-09-06 01:56:30 +03:00
goto bad;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
}
c = endptr; /* Advance to units, comma, or end. */
if (*c == 's') {
mult = NSEC_PER_SEC;
c++; /* Advance over 's'. */
} else if (*(c + 1) == 's') {
if (*c == 'm')
mult = NSEC_PER_MSEC;
else if (*c == 'u')
mult = NSEC_PER_USEC;
else if (*c == 'n')
mult = 1;
2015-09-06 01:56:30 +03:00
else {
stack;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
goto badchar;
2015-09-06 01:56:30 +03:00
}
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
c += 2; /* Advance over 'ms', 'us', or 'ns'. */
} else if (*c == ',')
c++;
2015-09-06 01:56:30 +03:00
else if (*c) { /* Expected ',' or NULL. */
stack;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
goto badchar;
2015-09-06 01:56:30 +03:00
}
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
if (*c == ',')
c++;
this_val *= mult;
(cur++)->upper = this_val;
}
} while (*c);
/* Bounds histograms have no owner. */
dmh->dms = NULL;
dmh->region = NULL;
return dmh;
badchar:
log_error("Invalid character in histogram: %c", *c);
2015-09-06 01:56:30 +03:00
bad:
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
dm_free(dmh);
return NULL;
}
struct dm_histogram *dm_histogram_bounds_from_uint64(const uint64_t *bounds)
{
const uint64_t *entry = bounds;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
struct dm_histogram_bin *cur;
struct dm_histogram *dmh;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
int nr_entries = 1;
if (!bounds || !bounds[0]) {
log_error("Could not parse empty histogram bounds array");
return 0;
}
/* Count number of bounds entries. */
while(*entry)
if (*(++entry))
nr_entries++;
entry = bounds;
if (!(dmh = _alloc_dm_histogram(nr_entries)))
return_0;
dmh->nr_bins = nr_entries;
cur = dmh->bins;
while (*entry)
(cur++)->upper = *(entry++);
/* Bounds histograms have no owner. */
dmh->dms = NULL;
dmh->region = NULL;
return dmh;
}
void dm_histogram_bounds_destroy(struct dm_histogram *bounds)
{
if (!bounds)
return;
/* Bounds histograms are not bound to any handle or region. */
if (bounds->dms || bounds->region) {
log_error("Freeing invalid histogram bounds pointer %p.",
(void *) bounds);
stack;
}
/* dm_free() expects a (void *). */
dm_free((void *) bounds);
}
/*
* Scale a bounds value down from nanoseconds to the largest possible
* whole unit suffix.
*/
static void _scale_bound_value_to_suffix(uint64_t *bound, const char **suffix)
{
*suffix = "ns";
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
if (!(*bound % NSEC_PER_SEC)) {
*bound /= NSEC_PER_SEC;
*suffix = "s";
} else if (!(*bound % NSEC_PER_MSEC)) {
*bound /= NSEC_PER_MSEC;
*suffix = "ms";
} else if (!(*bound % NSEC_PER_USEC)) {
*bound /= NSEC_PER_USEC;
*suffix = "us";
}
}
#define DM_HISTOGRAM_BOUNDS_MASK 0x30
#define BOUNDS_LEN 64
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
static int _make_bounds_string(char *buf, size_t size, uint64_t lower,
uint64_t upper, int flags, int width)
{
char bound_buf[BOUNDS_LEN];
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
const char *l_suff = NULL;
const char *u_suff = NULL;
const char *sep = "";
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
int bounds = flags & DM_HISTOGRAM_BOUNDS_MASK;
if (!bounds)
2015-09-06 01:56:30 +03:00
return_0;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
*buf = '\0';
if (flags & DM_HISTOGRAM_SUFFIX) {
_scale_bound_value_to_suffix(&lower, &l_suff);
_scale_bound_value_to_suffix(&upper, &u_suff);
} else
l_suff = u_suff = "";
if (flags & DM_HISTOGRAM_VALUES)
sep = ":";
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
if (bounds > DM_HISTOGRAM_BOUNDS_LOWER) {
/* Handle infinite uppermost bound. */
if (upper == UINT64_MAX) {
if (dm_snprintf(bound_buf, sizeof(bound_buf),
">" FMTu64 "%s", lower, l_suff) < 0)
goto_out;
/* Only display an 'upper' string for final bin. */
bounds = DM_HISTOGRAM_BOUNDS_UPPER;
} else {
if (dm_snprintf(bound_buf, sizeof(bound_buf),
FMTu64 "%s", upper, u_suff) < 0)
goto_out;
}
} else if (bounds == DM_HISTOGRAM_BOUNDS_LOWER) {
if ((dm_snprintf(bound_buf, sizeof(bound_buf), FMTu64 "%s",
lower, l_suff)) < 0)
goto_out;
}
switch (bounds) {
case DM_HISTOGRAM_BOUNDS_LOWER:
case DM_HISTOGRAM_BOUNDS_UPPER:
return dm_snprintf(buf, size, "%*s%s", width, bound_buf, sep);
case DM_HISTOGRAM_BOUNDS_RANGE:
return dm_snprintf(buf, size, FMTu64 "%s-%s%s",
lower, l_suff, bound_buf, sep);
}
out:
return 0;
}
#define BOUND_WIDTH_NOSUFFIX 10 /* 999999999 nsecs */
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
#define BOUND_WIDTH 6 /* bounds string up to 9999xs */
#define COUNT_WIDTH 6 /* count string: up to 9999 */
#define PERCENT_WIDTH 6 /* percent string : 0.00-100.00% */
#define DM_HISTOGRAM_VALUES_MASK 0x06
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
const char *dm_histogram_to_string(const struct dm_histogram *dmh, int bin,
int width, int flags)
{
char buf[BOUNDS_LEN], bounds_buf[BOUNDS_LEN];
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
int minwidth, bounds, values, start, last;
uint64_t lower, upper, val_u64; /* bounds of the current bin. */
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
/* Use the histogram pool for string building. */
struct dm_pool *mem = dmh->dms->hist_mem;
const char *sep = "";
int bounds_width;
ssize_t len = 0;
float val_flt;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
bounds = flags & DM_HISTOGRAM_BOUNDS_MASK;
values = flags & DM_HISTOGRAM_VALUES;
if (bin < 0) {
start = 0;
last = dmh->nr_bins - 1;
} else
start = last = bin;
minwidth = width;
if (width < 0 || !values)
width = minwidth = 0; /* no padding */
else if (flags & DM_HISTOGRAM_PERCENT)
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
width = minwidth = (width) ? : PERCENT_WIDTH;
else if (flags & DM_HISTOGRAM_VALUES)
width = minwidth = (width) ? : COUNT_WIDTH;
if (values && !width)
sep = ":";
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
/* Set bounds string to the empty string. */
bounds_buf[0] = '\0';
if (!dm_pool_begin_object(mem, 64))
return_0;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
for (bin = start; bin <= last; bin++) {
if (bounds) {
/* Default bounds width depends on time suffixes. */
bounds_width = (!(flags & DM_HISTOGRAM_SUFFIX))
? BOUND_WIDTH_NOSUFFIX
: BOUND_WIDTH ;
bounds_width = (!width) ? width : bounds_width;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
lower = dm_histogram_get_bin_lower(dmh, bin);
upper = dm_histogram_get_bin_upper(dmh, bin);
len = sizeof(bounds_buf);
len = _make_bounds_string(bounds_buf, len,
lower, upper, flags,
bounds_width);
/*
* Comma separates "bounds: value" pairs unless
* --noheadings is used.
*/
sep = (width || !values) ? "," : ":";
/* Adjust width by real bounds length if set. */
width -= (width) ? (len - (bounds_width + 1)) : 0;
/* -ve width indicates specified width was overrun. */
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
width = (width > 0) ? width : 0;
}
if (bin == last)
sep = "";
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
if (flags & DM_HISTOGRAM_PERCENT) {
dm_percent_t pr;
pr = dm_histogram_get_bin_percent(dmh, bin);
val_flt = dm_percent_to_float(pr);
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
len = dm_snprintf(buf, sizeof(buf), "%s%*.2f%%%s",
bounds_buf, width, val_flt, sep);
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
} else if (values) {
val_u64 = dmh->bins[bin].count;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
len = dm_snprintf(buf, sizeof(buf), "%s%*"PRIu64"%s",
bounds_buf, width, val_u64, sep);
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
} else if (bounds)
len = dm_snprintf(buf, sizeof(buf), "%s%s", bounds_buf,
sep);
else {
*buf = '\0';
len = 0;
}
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
if (len < 0)
2015-09-06 01:56:30 +03:00
goto_bad;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
width = minwidth; /* re-set histogram column width. */
if (!dm_pool_grow_object(mem, buf, (size_t) len))
goto_bad;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
}
if (!dm_pool_grow_object(mem, "\0", 1))
goto_bad;
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
return (const char *) dm_pool_end_object(mem);
2015-09-06 01:56:30 +03:00
bad:
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
dm_pool_abandon_object(mem);
return NULL;
}
/*
* A lightweight representation of an extent (region, area, file
* system block or extent etc.). A table of extents can be used
* to sort and to efficiently find holes or overlaps among a set
* of tuples of the form (id, start, len).
*/
struct _extent {
struct dm_list list;
uint64_t id;
uint64_t start;
uint64_t len;
};
/* last address in an extent */
#define _extent_end(a) ((a)->start + (a)->len - 1)
/* a and b must be sorted by increasing start sector */
#define _extents_overlap(a, b) (_extent_end(a) > (b)->start)
/*
* Comparison function to sort extents in ascending start order.
*/
static int _extent_start_compare(const void *p1, const void *p2)
{
2017-02-12 20:18:32 +03:00
const struct _extent *r1, *r2;
r1 = (const struct _extent *) p1;
r2 = (const struct _extent *) p2;
if (r1->start < r2->start)
return -1;
else if (r1->start == r2->start)
return 0;
return 1;
}
static int _stats_create_group(struct dm_stats *dms, dm_bitset_t regions,
const char *alias, uint64_t *group_id)
{
struct dm_stats_group *group;
*group_id = dm_bit_get_first(regions);
/* group has no regions? */
if (*group_id == DM_STATS_GROUP_NOT_PRESENT)
return_0;
group = &dms->groups[*group_id];
if (group->regions) {
log_error(INTERNAL_ERROR "Unexpected group state while"
"creating group ID bitmap" FMTu64, *group_id);
return 0;
}
group->group_id = *group_id;
group->regions = regions;
if (alias)
group->alias = dm_strdup(alias);
else
group->alias = NULL;
/* force an update of the group tag stored in aux_data */
if (!_stats_set_aux(dms, *group_id, dms->regions[*group_id].aux_data))
goto bad;
return 1;
bad:
group->group_id = DM_STATS_GROUP_NOT_PRESENT;
group->regions = NULL;
dm_free((char *) group->alias);
return 0;
}
static int _stats_group_check_overlap(const struct dm_stats *dms,
dm_bitset_t regions, int count)
{
struct dm_list ext_list = DM_LIST_HEAD_INIT(ext_list);
struct _extent *ext, *tmp, *next, *map = NULL;
size_t map_size = (dms->max_region + 1) * sizeof(*map);
int i = 0, id, overlap, merged;
map = dm_pool_alloc(dms->mem, map_size);
if (!map) {
log_error("Could not allocate memory for region map");
return 0;
}
/* build a table of extents in order of region_id */
for (id = dm_bit_get_first(regions); id >= 0;
id = dm_bit_get_next(regions, id)) {
dm_list_init(&map[i].list);
map[i].id = id;
map[i].start = dms->regions[id].start;
map[i].len = dms->regions[id].len;
i++;
}
2016-12-13 01:49:31 +03:00
/* A single region cannot overlap itself. */
if (i == 1) {
dm_pool_free(dms->mem, map);
return 1;
}
/* sort by extent.start */
qsort(map, count, sizeof(*map), _extent_start_compare);
for (i = 0; i < count; i++)
dm_list_add(&ext_list, &map[i].list);
overlap = 0;
merge:
merged = 0;
dm_list_iterate_items_safe(ext, tmp, &ext_list) {
next = dm_list_item(dm_list_next(&ext_list, &ext->list),
struct _extent);
if (!next)
continue;
if (_extents_overlap(ext, next)) {
log_warn("WARNING: region IDs " FMTu64 " and "
FMTu64 " overlap. Some events will be "
"counted twice.", ext->id, next->id);
/* merge larger extent into smaller */
if (_extent_end(ext) > _extent_end(next)) {
next->id = ext->id;
next->len = ext->len;
}
if (ext->start < next->start)
next->start = ext->start;
dm_list_del(&ext->list);
overlap = merged = 1;
}
}
/* continue until no merge candidates remain */
if (merged)
goto merge;
dm_pool_free(dms->mem, map);
2016-12-13 01:49:31 +03:00
return (overlap == 0);
}
static void _stats_copy_histogram_bounds(struct dm_histogram *to,
struct dm_histogram *from)
{
int i;
to->nr_bins = from->nr_bins;
for (i = 0; i < to->nr_bins; i++)
to->bins[i].upper = from->bins[i].upper;
}
/*
* Compare histogram bounds h1 and h2, and return 1 if they match (i.e.
* have the same number of bins and identical bin boundary values), or 0
* otherwise.
*/
static int _stats_check_histogram_bounds(struct dm_histogram *h1,
struct dm_histogram *h2)
{
int i;
if (!h1 || !h2)
return 0;
if (h1->nr_bins != h2->nr_bins)
return 0;
for (i = 0; i < h1->nr_bins; i++)
if (h1->bins[i].upper != h2->bins[i].upper)
return 0;
return 1;
}
/*
* Create a new group in stats handle dms from the group description
* passed in group.
*/
int dm_stats_create_group(struct dm_stats *dms, const char *members,
const char *alias, uint64_t *group_id)
{
struct dm_histogram *check = NULL, *bounds;
int i, count = 0, precise = 0;
dm_bitset_t regions;
if (!dms->regions || !dms->groups) {
log_error("Could not create group: no regions found.");
return 0;
};
if (!(regions = dm_bitset_parse_list(members, NULL, 0))) {
log_error("Could not parse list: '%s'", members);
return 0;
}
if (!(check = dm_pool_zalloc(dms->hist_mem, sizeof(*check)))) {
log_error("Could not allocate memory for bounds check");
goto bad;
}
/* too many bits? */
if ((*regions - 1) > dms->max_region) {
log_error("Invalid region ID: %d", *regions - 1);
goto bad;
}
/*
* Check that each region_id in the bitmap meets the group
* constraints: present, not already grouped, and if any
* histogram is present that they all have the same bounds.
*/
for (i = dm_bit_get_first(regions); i >= 0;
i = dm_bit_get_next(regions, i)) {
if (!dm_stats_region_present(dms, i)) {
log_error("Region ID %d does not exist", i);
goto bad;
}
if (_stats_region_is_grouped(dms, i)) {
log_error("Region ID %d already a member of group ID "
FMTu64, i, dms->regions[i].group_id);
goto bad;
}
if (dms->regions[i].timescale == 1)
precise++;
/* check for matching histogram bounds */
bounds = dms->regions[i].bounds;
if (bounds && !check->nr_bins)
_stats_copy_histogram_bounds(check, bounds);
else if (bounds) {
if (!_stats_check_histogram_bounds(check, bounds)) {
log_error("All region histogram bounds "
"must match exactly");
goto bad;
}
}
count++;
}
if (precise && (precise != count))
log_warn("WARNING: Grouping regions with different clock resolution: "
"precision may be lost.");
if (!_stats_group_check_overlap(dms, regions, count))
log_very_verbose("Creating group with overlapping regions.");
if (!_stats_create_group(dms, regions, alias, group_id))
goto bad;
dm_pool_free(dms->hist_mem, check);
return 1;
bad:
dm_pool_free(dms->hist_mem, check);
dm_bitset_destroy(regions);
return 0;
}
/*
* Remove the specified group_id.
*/
int dm_stats_delete_group(struct dm_stats *dms, uint64_t group_id,
int remove_regions)
{
struct dm_stats_region *leader;
dm_bitset_t regions;
uint64_t i;
if (group_id > dms->max_region) {
log_error("Invalid group ID: " FMTu64, group_id);
return 0;
}
if (!_stats_group_id_present(dms, group_id)) {
log_error("Group ID " FMTu64 " does not exist", group_id);
return 0;
}
regions = dms->groups[group_id].regions;
leader = &dms->regions[group_id];
/* delete all but the group leader */
for (i = (*regions - 1); i > leader->region_id; i--) {
if (dm_bit(regions, i)) {
dm_bit_clear(regions, i);
if (remove_regions && !dm_stats_delete_region(dms, i))
log_warn("WARNING: Failed to delete region "
FMTu64 " on %s.", i, dms->name);
}
}
/* clear group and mark as not present */
_stats_clear_group_regions(dms, group_id);
_stats_group_destroy(&dms->groups[group_id]);
/* delete leader or clear aux_data */
if (remove_regions)
return dm_stats_delete_region(dms, group_id);
else if (!_stats_set_aux(dms, group_id, leader->aux_data))
return 0;
return 1;
}
uint64_t dm_stats_get_group_id(const struct dm_stats *dms, uint64_t region_id)
{
region_id = (region_id == DM_STATS_REGION_CURRENT)
? dms->cur_region : region_id;
if (region_id & DM_STATS_WALK_GROUP) {
if (region_id == DM_STATS_WALK_GROUP)
return dms->cur_group;
else
return region_id & ~DM_STATS_WALK_GROUP;
}
if (region_id & DM_STATS_WALK_REGION)
region_id &= ~DM_STATS_WALK_REGION;
return dms->regions[region_id].group_id;
}
int dm_stats_get_group_descriptor(const struct dm_stats *dms,
uint64_t group_id, char **buf)
{
dm_bitset_t regions = dms->groups[group_id].regions;
size_t buflen;
buflen = _stats_group_tag_len(dms, regions);
*buf = dm_pool_alloc(dms->mem, buflen);
if (!*buf) {
log_error("Could not allocate memory for regions string");
return 0;
}
if (!_stats_group_tag_fill(dms, regions, *buf, buflen))
return 0;
return 1;
}
#ifdef HAVE_LINUX_FIEMAP_H
/*
* Resize the group bitmap corresponding to group_id so that it can
* contain at least num_regions members.
*/
static int _stats_resize_group(struct dm_stats_group *group,
uint64_t num_regions)
{
uint64_t last_bit = dm_bit_get_last(group->regions);
dm_bitset_t new, old;
if (last_bit >= num_regions) {
log_error("Cannot resize group bitmap to " FMTu64
" with bit " FMTu64 " set.", num_regions, last_bit);
return 0;
}
log_very_verbose("Resizing group bitmap from " FMTu32 " to " FMTu64
" (last_bit: " FMTu64 ").", group->regions[0],
num_regions, last_bit);
new = dm_bitset_create(NULL, (unsigned) num_regions);
if (!new) {
log_error("Could not allocate memory for new group bitmap.");
return 0;
}
old = group->regions;
dm_bit_copy(new, old);
group->regions = new;
dm_bitset_destroy(old);
return 1;
}
/*
* Group a table of region_ids corresponding to the extents of a file.
*/
static int _stats_group_file_regions(struct dm_stats *dms, uint64_t *region_ids,
uint64_t count, const char *alias)
{
dm_bitset_t regions = dm_bitset_create(NULL, dms->nr_regions);
uint64_t i, group_id = DM_STATS_GROUP_NOT_PRESENT;
char *members = NULL;
size_t buflen;
if (!regions) {
log_error("Cannot map file: failed to allocate group bitmap.");
return 0;
}
for (i = 0; i < count; i++)
dm_bit_set(regions, region_ids[i]);
buflen = _stats_group_tag_len(dms, regions);
members = dm_malloc(buflen);
if (!members) {
log_error("Cannot map file: failed to allocate group "
"descriptor.");
dm_bitset_destroy(regions);
return 0;
}
if (!_stats_group_tag_fill(dms, regions, members, buflen))
goto bad;
/*
* overlaps should not be possible: overlapping file extents
* returned by FIEMAP imply a kernel bug or a corrupt fs.
*/
if (!_stats_group_check_overlap(dms, regions, count))
log_very_verbose("Creating group with overlapping regions.");
if (!_stats_create_group(dms, regions, alias, &group_id))
goto bad;
dm_free(members);
return 1;
bad:
dm_bitset_destroy(regions);
dm_free(members);
return 0;
}
static int _stats_add_file_extent(int fd, struct dm_pool *mem, uint64_t id,
struct fiemap_extent *fm_ext)
{
struct _extent extent;
/* final address of list is unknown */
memset(&extent.list, 0, sizeof(extent.list));
/* convert bytes to dm (512b) sectors */
extent.start = fm_ext->fe_physical >> SECTOR_SHIFT;
extent.len = fm_ext->fe_length >> SECTOR_SHIFT;
extent.id = id;
log_very_verbose("Extent " FMTu64 " on fd %d at " FMTu64 "+"
FMTu64, extent.id, fd, extent.start, extent.len);
if (!dm_pool_grow_object(mem, &extent,
sizeof(extent))) {
log_error("Cannot map file: failed to grow extent map.");
return 0;
}
return 1;
}
/* test for the boundary of an extent */
#define ext_boundary(ext, exp) \
((ext).fe_logical != 0) && \
((ext).fe_physical != (exp))
/*
* Copy fields from fiemap_extent 'from' to the fiemap_extent
* pointed to by 'to'.
*/
#define ext_copy(to, from) \
do { \
*(to) = *(from); \
} while (0)
static uint64_t _stats_map_extents(int fd, struct dm_pool *mem,
struct fiemap *fiemap,
struct fiemap_extent *fm_ext,
struct fiemap_extent *fm_last,
struct fiemap_extent *fm_pending,
uint64_t next_extent,
int *eof)
{
uint64_t expected = 0, nr_extents = next_extent;
unsigned int i;
/*
* Loop over the returned extents adding the fm_pending extent
* to the table of extents each time a discontinuity (or eof)
* is detected.
*
* We use a pointer to fm_pending in the caller since it is
* possible that logical extents comprising a single physical
* extent are returned by successive FIEMAP calls.
*/
for (i = 0; i < fiemap->fm_mapped_extents; i++) {
expected = fm_last->fe_physical + fm_last->fe_length;
if (fm_ext[i].fe_flags & FIEMAP_EXTENT_LAST)
*eof = 1;
/* cannot map extents that are not yet allocated. */
if (fm_ext[i].fe_flags
& (FIEMAP_EXTENT_UNKNOWN | FIEMAP_EXTENT_DELALLOC))
continue;
/*
* Begin a new extent if the current physical address differs
* from the expected address yielded by fm_last.fe_physical +
* fm_last.fe_length.
*
* A logical discontinuity is seen at the start of the file if
* unwritten space exists before the first extent: do not add
* any extent record until we have accumulated a non-zero length
* in fm_pending.
*/
if (fm_pending->fe_length &&
ext_boundary(fm_ext[i], expected)) {
if (!_stats_add_file_extent(fd, mem, nr_extents,
fm_pending))
goto_bad;
nr_extents++;
/* Begin a new pending extent. */
ext_copy(fm_pending, fm_ext + i);
} else {
expected = 0;
/* Begin a new pending extent for extent 0. If there is
* a hole at the start of the file, the first allocated
* extent will have a non-zero fe_logical. Detect this
* case by testing fm_pending->fe_length: if no length
* has been accumulated we are handling the first
* physical extent of the file.
*/
if (!fm_pending->fe_length || fm_ext[i].fe_logical == 0)
ext_copy(fm_pending, fm_ext + i);
else
/* accumulate this logical extent's length */
fm_pending->fe_length += fm_ext[i].fe_length;
}
*fm_last = fm_ext[i];
}
/*
* If the file only has a single extent, no boundary is ever
* detected to trigger addition of the first extent.
*/
if (*eof || (fm_ext[i - 1].fe_logical == 0)) {
_stats_add_file_extent(fd, mem, nr_extents, fm_pending);
nr_extents++;
}
fiemap->fm_start = (fm_ext[i - 1].fe_logical +
fm_ext[i - 1].fe_length);
/* return the number of extents found in this call. */
return nr_extents - next_extent;
bad:
/* signal mapping error to caller */
*eof = -1;
return 0;
}
/*
* Read the extents of an open file descriptor into a table of struct _extent.
*
* Based on e2fsprogs/misc/filefrag.c::filefrag_fiemap().
*
* Copyright 2003 by Theodore Ts'o.
*
*/
static struct _extent *_stats_get_extents_for_file(struct dm_pool *mem, int fd,
uint64_t *count)
{
struct fiemap_extent fm_last = {0}, fm_pending = {0}, *fm_ext = NULL;
struct fiemap *fiemap = NULL;
int eof = 0, nr_extents = 0;
struct _extent *extents;
unsigned long flags = 0;
uint64_t *buf;
/* grow temporary extent table in the pool */
if (!dm_pool_begin_object(mem, sizeof(*extents)))
return NULL;
buf = dm_zalloc(STATS_FIE_BUF_LEN);
if (!buf) {
log_error("Could not allocate memory for FIEMAP buffer.");
goto bad;
}
/* initialise pointers into the ioctl buffer. */
fiemap = (struct fiemap *) buf;
fm_ext = &fiemap->fm_extents[0];
/* space available per ioctl */
*count = (STATS_FIE_BUF_LEN - sizeof(*fiemap))
/ sizeof(struct fiemap_extent);
flags = FIEMAP_FLAG_SYNC;
do {
/* start of ioctl loop - zero size and set count to bufsize */
fiemap->fm_length = ~0ULL;
fiemap->fm_flags = flags;
fiemap->fm_extent_count = *count;
/* get count-sized chunk of extents */
if (ioctl(fd, FS_IOC_FIEMAP, (unsigned long) fiemap) < 0) {
if (errno == EBADR)
log_err_once("FIEMAP failed with unknown "
"flags %x.", fiemap->fm_flags);
goto bad;
}
/* If 0 extents are returned, more ioctls are not needed */
if (fiemap->fm_mapped_extents == 0)
break;
nr_extents += _stats_map_extents(fd, mem, fiemap, fm_ext,
&fm_last, &fm_pending,
nr_extents, &eof);
/* check for extent mapping error */
if (eof < 0)
goto bad;
} while (eof == 0);
if (!nr_extents) {
log_error("Cannot map file: no allocated extents.");
goto bad;
}
/* return total number of extents */
*count = nr_extents;
extents = dm_pool_end_object(mem);
/* free FIEMAP buffer. */
dm_free(buf);
return extents;
bad:
*count = 0;
dm_pool_abandon_object(mem);
dm_free(buf);
return NULL;
}
#define MATCH_EXTENT(e, s, l) \
(((e).start == (s)) && ((e).len == (l)))
static struct _extent *_find_extent(uint64_t nr_extents, struct _extent *extents,
uint64_t start, uint64_t len)
{
size_t i;
for (i = 0; i < nr_extents; i++)
if (MATCH_EXTENT(extents[i], start, len))
return extents + i;
return NULL;
}
/*
* Clean up a table of region_id values that were created during a
* failed dm_stats_create_regions_from_fd, or dm_stats_update_regions_from_fd
* operation.
*/
static void _stats_cleanup_region_ids(struct dm_stats *dms, uint64_t *regions,
uint64_t nr_regions)
{
uint64_t i;
for (i = 0; i < nr_regions; i++)
if (!_stats_delete_region(dms, regions[i]))
log_error("Could not delete region " FMTu64 ".", i);
}
/*
* First update pass: prune no-longer-allocated extents from the group
* and build a table of the remaining extents so that their creation
* can be skipped in the second pass.
*/
static int _stats_unmap_regions(struct dm_stats *dms, uint64_t group_id,
struct dm_pool *mem, struct _extent *extents,
struct _extent **old_extents, uint64_t *count,
int *regroup)
{
struct dm_stats_region *region = NULL;
struct dm_stats_group *group = NULL;
uint64_t nr_kept, nr_old;
struct _extent ext = { .id = 0 };
int64_t i;
group = &dms->groups[group_id];
log_very_verbose("Checking for changed file extents in group ID "
FMTu64, group_id);
if (!dm_pool_begin_object(mem, sizeof(**old_extents))) {
log_error("Could not allocate extent table.");
return 0;
}
nr_kept = nr_old = 0; /* counts of old and retained extents */
/*
* First pass: delete de-allocated extents and set regroup=1 if
* deleting the current group leader.
*/
i = dm_bit_get_last(group->regions);
for (; i >= 0; i = dm_bit_get_prev(group->regions, i)) {
region = &dms->regions[i];
nr_old++;
if (extents && _find_extent(*count, extents,
region->start, region->len)) {
ext.start = region->start;
ext.len = region->len;
ext.id = i;
nr_kept++;
if (!dm_pool_grow_object(mem, &ext, sizeof(ext)))
goto out;
log_very_verbose("Kept region " FMTu64, i);
} else {
2024-03-27 02:36:33 +03:00
if (i == (int64_t)group_id)
*regroup = 1;
if (!_stats_delete_region(dms, i)) {
log_error("Could not remove region ID " FMTu64,
i);
goto out;
}
log_very_verbose("Deleted region " FMTu64, i);
}
}
*old_extents = dm_pool_end_object(mem);
if (!*old_extents) {
log_error("Could not finalize region extent table.");
goto out;
}
log_very_verbose("Kept " FMTd64 " of " FMTd64 " old extents",
nr_kept, nr_old);
log_very_verbose("Found " FMTu64 " new extents",
*count - nr_kept);
return (int) nr_kept;
out:
dm_pool_abandon_object(mem);
return -1;
}
/*
* Create or update a set of regions representing the extents of a file
* and return a table of uint64_t region_id values. The number of regions
* created is returned in the memory pointed to by count (which must be
* non-NULL).
*
* If group_id is not equal to DM_STATS_GROUP_NOT_PRESENT, it is assumed
* that group_id corresponds to a group containing existing regions that
* were mapped to this file at an earlier time: regions will be added or
* removed to reflect the current status of the file.
*/
static uint64_t *_stats_map_file_regions(struct dm_stats *dms, int fd,
struct dm_histogram *bounds,
int precise, uint64_t group_id,
uint64_t *count, int *regroup)
{
struct _extent *extents = NULL, *old_extents = NULL;
uint64_t *regions = NULL, fail_region, i, num_bits;
struct dm_stats_group *group = NULL;
struct dm_pool *extent_mem = NULL;
struct _extent *old_ext;
char *hist_arg = NULL;
2021-09-10 23:32:44 +03:00
struct statfs fsbuf = { 0 };
int64_t nr_kept = 0;
struct stat buf;
int update;
*count = 0;
update = _stats_group_id_present(dms, group_id);
#ifdef BTRFS_SUPER_MAGIC
if (fstatfs(fd, &fsbuf)) {
log_error("fstatfs failed for fd %d", fd);
return 0;
}
if (fsbuf.f_type == BTRFS_SUPER_MAGIC) {
log_error("Cannot map file: btrfs does not provide "
"physical FIEMAP extent data.");
return 0;
}
#endif
if (fstat(fd, &buf)) {
log_error("fstat failed for fd %d", fd);
return 0;
}
if (!(buf.st_mode & S_IFREG)) {
log_error("Not a regular file");
return 0;
}
if (!dm_is_dm_major(major(buf.st_dev))) {
log_error("Cannot map file: not a device-mapper device.");
return 0;
}
/*
* If regroup is set here, we are creating a new filemap: otherwise
* we are updating a group with a valid group identifier in group_id.
*/
if (update)
log_very_verbose("Updating extents from fd %d with group ID "
FMTu64 " on (%d:%d)", fd, group_id,
major(buf.st_dev), minor(buf.st_dev));
else
log_very_verbose("Mapping extents from fd %d on (%d:%d)",
fd, major(buf.st_dev), minor(buf.st_dev));
/* Use a temporary, private pool for the extent table. This avoids
* hijacking the dms->mem (region table) pool which would lead to
* interleaving temporary allocations with dm_stats_list() data,
* causing complications in the error path.
*/
if (!(extent_mem = dm_pool_create("extents", sizeof(*extents))))
return_NULL;
if (!(extents = _stats_get_extents_for_file(extent_mem, fd, count))) {
log_very_verbose("No extents found in fd %d", fd);
if (!update)
goto out;
}
if (update) {
group = &dms->groups[group_id];
if ((nr_kept = _stats_unmap_regions(dms, group_id, extent_mem,
extents, &old_extents,
count, regroup)) < 0)
goto_out;
}
if (bounds)
if (!(hist_arg = _build_histogram_arg(bounds, &precise)))
goto_out;
/* make space for end-of-table marker */
if (!(regions = dm_malloc((1 + *count) * sizeof(*regions)))) {
log_error("Could not allocate memory for region IDs.");
2018-12-23 01:44:42 +03:00
goto out;
}
/*
* Second pass (first for non-update case): create regions for
* all extents not retained from the prior mapping, and insert
* retained regions into the table of region_id values.
*
* If a regroup is not scheduled, set group bits for newly
* created regions in the group leader bitmap.
*/
for (i = 0; i < *count; i++) {
if (update) {
if ((old_ext = _find_extent((uint64_t) nr_kept,
old_extents,
extents[i].start,
extents[i].len))) {
regions[i] = old_ext->id;
continue;
}
}
if (!_stats_create_region(dms, regions + i, extents[i].start,
extents[i].len, -1, precise, hist_arg,
dms->program_id, "")) {
log_error("Failed to create region " FMTu64 " of "
FMTu64 " at " FMTu64 ".", i, *count,
extents[i].start);
goto out_remove;
}
log_very_verbose("Created new region mapping " FMTu64 "+" FMTu64
" with region ID " FMTu64, extents[i].start,
extents[i].len, regions[i]);
if (!*regroup && update) {
/* expand group bitmap */
if (regions[i] > (group->regions[0] - 1)) {
num_bits = regions[i] + *count;
if (!_stats_resize_group(group, num_bits)) {
log_error("Failed to resize group "
"bitmap.");
goto out_remove;
}
}
dm_bit_set(group->regions, regions[i]);
}
}
regions[*count] = DM_STATS_REGION_NOT_PRESENT;
/* Update group leader aux_data for new group members. */
if (!*regroup && update)
if (!_stats_set_aux(dms, group_id,
dms->regions[group_id].aux_data))
log_error("Failed to update group aux_data.");
if (bounds)
dm_free(hist_arg);
/* the extent table will be empty if the file has been truncated. */
if (extents)
dm_pool_free(extent_mem, extents);
dm_pool_destroy(extent_mem);
return regions;
out_remove:
/* New region creation may begin to fail part-way through creating
* a set of file mapped regions: in this case we need to roll back
* the regions that were already created and return the handle to
* a consistent state. A listed handle is required for this: use a
* single list operation and call _stats_delete_region() directly
* to avoid a @stats_list ioctl and list parsing for each region.
*/
if (!dm_stats_list(dms, NULL))
goto out;
fail_region = i;
_stats_cleanup_region_ids(dms, regions, fail_region);
*count = 0;
out:
dm_pool_destroy(extent_mem);
dm_free(hist_arg);
dm_free(regions);
return NULL;
}
uint64_t *dm_stats_create_regions_from_fd(struct dm_stats *dms, int fd,
int group, int precise,
struct dm_histogram *bounds,
const char *alias)
{
uint64_t *regions, count;
int regroup = 1;
if (alias && !group) {
log_error("Cannot set alias without grouping regions.");
return NULL;
}
if (!(regions = _stats_map_file_regions(dms, fd, bounds, precise,
DM_STATS_GROUP_NOT_PRESENT,
&count, &regroup)))
return NULL;
if (!group)
return regions;
/* refresh handle */
if (!dm_stats_list(dms, NULL))
goto_out;
if (!_stats_group_file_regions(dms, regions, count, alias))
goto_out;
return regions;
out:
_stats_cleanup_region_ids(dms, regions, count);
dm_free(regions);
return NULL;
}
uint64_t *dm_stats_update_regions_from_fd(struct dm_stats *dms, int fd,
uint64_t group_id)
{
struct dm_histogram *bounds = NULL;
int nr_bins, precise, regroup;
uint64_t *regions = NULL, count = 0;
const char *alias = NULL;
if (!dms->regions || !dm_stats_group_present(dms, group_id)) {
if (!dm_stats_list(dms, dms->program_id)) {
log_error("Could not obtain region list while "
"updating group " FMTu64 ".", group_id);
return NULL;
}
}
if (!dm_stats_group_present(dms, group_id)) {
log_error("Group ID " FMTu64 " does not exist.", group_id);
return NULL;
}
/*
* If the extent corresponding to the group leader's region has been
* deallocated, _stats_map_file_regions() will remove the region and
* the group. In this case, regroup will be set by the call and the
* group will be re-created using saved values.
*/
regroup = 0;
/*
* A copy of the alias is needed to re-create the group when regroup=1.
*/
if (dms->groups[group_id].alias) {
alias = dm_strdup(dms->groups[group_id].alias);
if (!alias) {
log_error("Failed to allocate group alias string.");
return NULL;
}
}
if (dms->regions[group_id].bounds) {
/*
* A copy of the histogram bounds must be passed to
* _stats_map_file_regions() to be used when creating new
* regions: it is not safe to use the copy in the current group
* leader since it may be destroyed during the first group
* update pass.
*/
nr_bins = dms->regions[group_id].bounds->nr_bins;
bounds = _alloc_dm_histogram(nr_bins);
if (!bounds) {
log_error("Could not allocate memory for group "
"histogram bounds.");
goto out;
}
_stats_copy_histogram_bounds(bounds,
dms->regions[group_id].bounds);
}
precise = (dms->regions[group_id].timescale == 1);
regions = _stats_map_file_regions(dms, fd, bounds, precise,
group_id, &count, &regroup);
if (!regions)
goto_out;
if (!dm_stats_list(dms, NULL))
goto_bad;
/* regroup if there are regions to group */
if (regroup && (*regions != DM_STATS_REGION_NOT_PRESENT))
if (!_stats_group_file_regions(dms, regions, count, alias))
goto_bad;
dm_free(bounds);
dm_free((char *) alias);
return regions;
bad:
_stats_cleanup_region_ids(dms, regions, count);
out:
dm_free(regions);
dm_free(bounds);
dm_free((char *) alias);
return NULL;
}
#else /* !HAVE_LINUX_FIEMAP */
uint64_t *dm_stats_create_regions_from_fd(struct dm_stats *dms, int fd,
int group, int precise,
struct dm_histogram *bounds,
const char *alias)
{
log_error("File mapping requires FIEMAP ioctl support.");
return 0;
}
uint64_t *dm_stats_update_regions_from_fd(struct dm_stats *dms, int fd,
uint64_t group_id)
{
log_error("File mapping requires FIEMAP ioctl support.");
return 0;
}
#endif /* HAVE_LINUX_FIEMAP */
daemons: add dmfilemapd Add a daemon that can be launched to monitor a group of regions corresponding to the extents of a file, and to update the regions as the file's allocation changes. The daemon is intended to be started from a library interface, but can also be run from the command line: dmfilemapd <fd> <group_id> <path> <mode> [<foreground>[<log_level>]] Where fd is a file descriptor open on the mapped file, group_id is the group identifier of the mapped group and mode is either "inode" or "path". E.g.: # dmfilemapd 3 0 vm.img inode 1 3 3<vm.img ... If foreground is non-zero, the daemon will not fork to run in the background. If verbose is non-zero, libdm and daemon log messages will be printed. It is possible for the group identifier to change when regions are re-mapped: this occurs when the group leader is deleted (regroup=1 in dm_stats_update_regions_from_fd()), and another region is created before the daemon has a chance to recreate the leader region. The operation is inherently racey since there is currently no way to atomically move or resize a dm_stats region while retaining its region_id. Detect this condition and update the group_id value stored in the filemap monitor. A function is also provided in the the stats API to launch the filemap monitoring daemon: int dm_stats_start_filemapd(int fd, uint64_t group_id, const char *path, dm_filemapd_mode_t mode, unsigned foreground, unsigned verbose); This carries out the first fork and execs dmfilemapd with the arguments specified. A dm_filemapd_mode_t value is specified by the mode argument: either DM_FILEMAPD_FOLLOW_INODE, or DM_FILEMAPD_FOLLOW_PATH. A helper function, dm_filemapd_mode_from_string(), is provided to parse a string containing a valid mode name into the appropriate dm_filemapd_mode_t value.
2016-12-15 23:10:27 +03:00
#ifdef DMFILEMAPD
static const char _filemapd_mode_names[][8] = {
daemons: add dmfilemapd Add a daemon that can be launched to monitor a group of regions corresponding to the extents of a file, and to update the regions as the file's allocation changes. The daemon is intended to be started from a library interface, but can also be run from the command line: dmfilemapd <fd> <group_id> <path> <mode> [<foreground>[<log_level>]] Where fd is a file descriptor open on the mapped file, group_id is the group identifier of the mapped group and mode is either "inode" or "path". E.g.: # dmfilemapd 3 0 vm.img inode 1 3 3<vm.img ... If foreground is non-zero, the daemon will not fork to run in the background. If verbose is non-zero, libdm and daemon log messages will be printed. It is possible for the group identifier to change when regions are re-mapped: this occurs when the group leader is deleted (regroup=1 in dm_stats_update_regions_from_fd()), and another region is created before the daemon has a chance to recreate the leader region. The operation is inherently racey since there is currently no way to atomically move or resize a dm_stats region while retaining its region_id. Detect this condition and update the group_id value stored in the filemap monitor. A function is also provided in the the stats API to launch the filemap monitoring daemon: int dm_stats_start_filemapd(int fd, uint64_t group_id, const char *path, dm_filemapd_mode_t mode, unsigned foreground, unsigned verbose); This carries out the first fork and execs dmfilemapd with the arguments specified. A dm_filemapd_mode_t value is specified by the mode argument: either DM_FILEMAPD_FOLLOW_INODE, or DM_FILEMAPD_FOLLOW_PATH. A helper function, dm_filemapd_mode_from_string(), is provided to parse a string containing a valid mode name into the appropriate dm_filemapd_mode_t value.
2016-12-15 23:10:27 +03:00
"inode",
"path",
};
dm_filemapd_mode_t dm_filemapd_mode_from_string(const char *mode_str)
{
const dm_filemapd_mode_t _mode[] = {
DM_FILEMAPD_FOLLOW_INODE,
DM_FILEMAPD_FOLLOW_PATH
};
unsigned i;
daemons: add dmfilemapd Add a daemon that can be launched to monitor a group of regions corresponding to the extents of a file, and to update the regions as the file's allocation changes. The daemon is intended to be started from a library interface, but can also be run from the command line: dmfilemapd <fd> <group_id> <path> <mode> [<foreground>[<log_level>]] Where fd is a file descriptor open on the mapped file, group_id is the group identifier of the mapped group and mode is either "inode" or "path". E.g.: # dmfilemapd 3 0 vm.img inode 1 3 3<vm.img ... If foreground is non-zero, the daemon will not fork to run in the background. If verbose is non-zero, libdm and daemon log messages will be printed. It is possible for the group identifier to change when regions are re-mapped: this occurs when the group leader is deleted (regroup=1 in dm_stats_update_regions_from_fd()), and another region is created before the daemon has a chance to recreate the leader region. The operation is inherently racey since there is currently no way to atomically move or resize a dm_stats region while retaining its region_id. Detect this condition and update the group_id value stored in the filemap monitor. A function is also provided in the the stats API to launch the filemap monitoring daemon: int dm_stats_start_filemapd(int fd, uint64_t group_id, const char *path, dm_filemapd_mode_t mode, unsigned foreground, unsigned verbose); This carries out the first fork and execs dmfilemapd with the arguments specified. A dm_filemapd_mode_t value is specified by the mode argument: either DM_FILEMAPD_FOLLOW_INODE, or DM_FILEMAPD_FOLLOW_PATH. A helper function, dm_filemapd_mode_from_string(), is provided to parse a string containing a valid mode name into the appropriate dm_filemapd_mode_t value.
2016-12-15 23:10:27 +03:00
if (mode_str)
for (i = 0; i < DM_ARRAY_SIZE(_filemapd_mode_names); ++i)
if (!strcmp(_filemapd_mode_names[i], mode_str))
return _mode[i];
log_error("Could not parse dmfilemapd mode: %s",
(mode_str) ? mode_str : "");
return DM_FILEMAPD_FOLLOW_NONE;
daemons: add dmfilemapd Add a daemon that can be launched to monitor a group of regions corresponding to the extents of a file, and to update the regions as the file's allocation changes. The daemon is intended to be started from a library interface, but can also be run from the command line: dmfilemapd <fd> <group_id> <path> <mode> [<foreground>[<log_level>]] Where fd is a file descriptor open on the mapped file, group_id is the group identifier of the mapped group and mode is either "inode" or "path". E.g.: # dmfilemapd 3 0 vm.img inode 1 3 3<vm.img ... If foreground is non-zero, the daemon will not fork to run in the background. If verbose is non-zero, libdm and daemon log messages will be printed. It is possible for the group identifier to change when regions are re-mapped: this occurs when the group leader is deleted (regroup=1 in dm_stats_update_regions_from_fd()), and another region is created before the daemon has a chance to recreate the leader region. The operation is inherently racey since there is currently no way to atomically move or resize a dm_stats region while retaining its region_id. Detect this condition and update the group_id value stored in the filemap monitor. A function is also provided in the the stats API to launch the filemap monitoring daemon: int dm_stats_start_filemapd(int fd, uint64_t group_id, const char *path, dm_filemapd_mode_t mode, unsigned foreground, unsigned verbose); This carries out the first fork and execs dmfilemapd with the arguments specified. A dm_filemapd_mode_t value is specified by the mode argument: either DM_FILEMAPD_FOLLOW_INODE, or DM_FILEMAPD_FOLLOW_PATH. A helper function, dm_filemapd_mode_from_string(), is provided to parse a string containing a valid mode name into the appropriate dm_filemapd_mode_t value.
2016-12-15 23:10:27 +03:00
}
#define DM_FILEMAPD "dmfilemapd"
#define NR_FILEMAPD_ARGS 7 /* includes argv[0] */
daemons: add dmfilemapd Add a daemon that can be launched to monitor a group of regions corresponding to the extents of a file, and to update the regions as the file's allocation changes. The daemon is intended to be started from a library interface, but can also be run from the command line: dmfilemapd <fd> <group_id> <path> <mode> [<foreground>[<log_level>]] Where fd is a file descriptor open on the mapped file, group_id is the group identifier of the mapped group and mode is either "inode" or "path". E.g.: # dmfilemapd 3 0 vm.img inode 1 3 3<vm.img ... If foreground is non-zero, the daemon will not fork to run in the background. If verbose is non-zero, libdm and daemon log messages will be printed. It is possible for the group identifier to change when regions are re-mapped: this occurs when the group leader is deleted (regroup=1 in dm_stats_update_regions_from_fd()), and another region is created before the daemon has a chance to recreate the leader region. The operation is inherently racey since there is currently no way to atomically move or resize a dm_stats region while retaining its region_id. Detect this condition and update the group_id value stored in the filemap monitor. A function is also provided in the the stats API to launch the filemap monitoring daemon: int dm_stats_start_filemapd(int fd, uint64_t group_id, const char *path, dm_filemapd_mode_t mode, unsigned foreground, unsigned verbose); This carries out the first fork and execs dmfilemapd with the arguments specified. A dm_filemapd_mode_t value is specified by the mode argument: either DM_FILEMAPD_FOLLOW_INODE, or DM_FILEMAPD_FOLLOW_PATH. A helper function, dm_filemapd_mode_from_string(), is provided to parse a string containing a valid mode name into the appropriate dm_filemapd_mode_t value.
2016-12-15 23:10:27 +03:00
/*
* Start dmfilemapd to monitor the specified file descriptor, and to
* update the group given by 'group_id' when the file's allocation
* changes.
*
* usage: dmfilemapd <fd> <group_id> <mode> [<foreground>[<log_level>]]
*/
int dm_stats_start_filemapd(int fd, uint64_t group_id, const char *path,
dm_filemapd_mode_t mode, unsigned foreground,
unsigned verbose)
{
char fd_str[8], group_str[8], fg_str[2], verb_str[2];
const char *mode_str = _filemapd_mode_names[mode];
char *args[NR_FILEMAPD_ARGS + 1];
pid_t pid = 0;
int argc = 0;
if (fd < 0) {
log_error("dmfilemapd file descriptor must be "
"non-negative: %d", fd);
return 0;
}
if (path[0] != '/') {
log_error("Path argument must specify an absolute path.");
return 0;
}
if (mode > DM_FILEMAPD_FOLLOW_PATH) {
daemons: add dmfilemapd Add a daemon that can be launched to monitor a group of regions corresponding to the extents of a file, and to update the regions as the file's allocation changes. The daemon is intended to be started from a library interface, but can also be run from the command line: dmfilemapd <fd> <group_id> <path> <mode> [<foreground>[<log_level>]] Where fd is a file descriptor open on the mapped file, group_id is the group identifier of the mapped group and mode is either "inode" or "path". E.g.: # dmfilemapd 3 0 vm.img inode 1 3 3<vm.img ... If foreground is non-zero, the daemon will not fork to run in the background. If verbose is non-zero, libdm and daemon log messages will be printed. It is possible for the group identifier to change when regions are re-mapped: this occurs when the group leader is deleted (regroup=1 in dm_stats_update_regions_from_fd()), and another region is created before the daemon has a chance to recreate the leader region. The operation is inherently racey since there is currently no way to atomically move or resize a dm_stats region while retaining its region_id. Detect this condition and update the group_id value stored in the filemap monitor. A function is also provided in the the stats API to launch the filemap monitoring daemon: int dm_stats_start_filemapd(int fd, uint64_t group_id, const char *path, dm_filemapd_mode_t mode, unsigned foreground, unsigned verbose); This carries out the first fork and execs dmfilemapd with the arguments specified. A dm_filemapd_mode_t value is specified by the mode argument: either DM_FILEMAPD_FOLLOW_INODE, or DM_FILEMAPD_FOLLOW_PATH. A helper function, dm_filemapd_mode_from_string(), is provided to parse a string containing a valid mode name into the appropriate dm_filemapd_mode_t value.
2016-12-15 23:10:27 +03:00
log_error("Invalid dmfilemapd mode argument: "
"Must be DM_FILEMAPD_FOLLOW_INODE or "
"DM_FILEMAPD_FOLLOW_PATH");
return 0;
}
if (foreground > 1) {
log_error("Invalid dmfilemapd foreground argument. "
"Must be 0 or 1: %d.", foreground);
return 0;
}
if (verbose > 3) {
log_error("Invalid dmfilemapd verbose argument. "
"Must be 0..3: %d.", verbose);
return 0;
}
/* set argv[0] */
args[argc++] = (char *) DM_FILEMAPD;
/* set <fd> */
if ((dm_snprintf(fd_str, sizeof(fd_str), "%d", fd)) < 0) {
log_error("Could not format fd argument.");
return 0;
}
args[argc++] = fd_str;
/* set <group_id> */
if ((dm_snprintf(group_str, sizeof(group_str), FMTu64, group_id)) < 0) {
log_error("Could not format group_id argument.");
return 0;
}
args[argc++] = group_str;
/* set <path> */
args[argc++] = (char *) path;
/* set <mode> */
args[argc++] = (char *) mode_str;
/* set <foreground> */
if ((dm_snprintf(fg_str, sizeof(fg_str), "%u", foreground)) < 0) {
log_error("Could not format foreground argument.");
return 0;
}
args[argc++] = fg_str;
/* set <verbose> */
if ((dm_snprintf(verb_str, sizeof(verb_str), "%u", verbose)) < 0) {
log_error("Could not format verbose argument.");
return 0;
}
args[argc++] = verb_str;
/* terminate args[argc] */
args[argc] = NULL;
log_very_verbose("Spawning daemon as '%s %d " FMTu64 " \"%s\" %s %u %u'",
daemons: add dmfilemapd Add a daemon that can be launched to monitor a group of regions corresponding to the extents of a file, and to update the regions as the file's allocation changes. The daemon is intended to be started from a library interface, but can also be run from the command line: dmfilemapd <fd> <group_id> <path> <mode> [<foreground>[<log_level>]] Where fd is a file descriptor open on the mapped file, group_id is the group identifier of the mapped group and mode is either "inode" or "path". E.g.: # dmfilemapd 3 0 vm.img inode 1 3 3<vm.img ... If foreground is non-zero, the daemon will not fork to run in the background. If verbose is non-zero, libdm and daemon log messages will be printed. It is possible for the group identifier to change when regions are re-mapped: this occurs when the group leader is deleted (regroup=1 in dm_stats_update_regions_from_fd()), and another region is created before the daemon has a chance to recreate the leader region. The operation is inherently racey since there is currently no way to atomically move or resize a dm_stats region while retaining its region_id. Detect this condition and update the group_id value stored in the filemap monitor. A function is also provided in the the stats API to launch the filemap monitoring daemon: int dm_stats_start_filemapd(int fd, uint64_t group_id, const char *path, dm_filemapd_mode_t mode, unsigned foreground, unsigned verbose); This carries out the first fork and execs dmfilemapd with the arguments specified. A dm_filemapd_mode_t value is specified by the mode argument: either DM_FILEMAPD_FOLLOW_INODE, or DM_FILEMAPD_FOLLOW_PATH. A helper function, dm_filemapd_mode_from_string(), is provided to parse a string containing a valid mode name into the appropriate dm_filemapd_mode_t value.
2016-12-15 23:10:27 +03:00
*args, fd, group_id, path, mode_str,
foreground, verbose);
if (!foreground && ((pid = fork()) < 0)) {
log_error("Failed to fork dmfilemapd process.");
return 0;
}
if (pid > 0) {
log_very_verbose("Forked dmfilemapd process as pid %d", pid);
return 1;
}
execvp(args[0], args);
log_sys_error("execvp", args[0]);
daemons: add dmfilemapd Add a daemon that can be launched to monitor a group of regions corresponding to the extents of a file, and to update the regions as the file's allocation changes. The daemon is intended to be started from a library interface, but can also be run from the command line: dmfilemapd <fd> <group_id> <path> <mode> [<foreground>[<log_level>]] Where fd is a file descriptor open on the mapped file, group_id is the group identifier of the mapped group and mode is either "inode" or "path". E.g.: # dmfilemapd 3 0 vm.img inode 1 3 3<vm.img ... If foreground is non-zero, the daemon will not fork to run in the background. If verbose is non-zero, libdm and daemon log messages will be printed. It is possible for the group identifier to change when regions are re-mapped: this occurs when the group leader is deleted (regroup=1 in dm_stats_update_regions_from_fd()), and another region is created before the daemon has a chance to recreate the leader region. The operation is inherently racey since there is currently no way to atomically move or resize a dm_stats region while retaining its region_id. Detect this condition and update the group_id value stored in the filemap monitor. A function is also provided in the the stats API to launch the filemap monitoring daemon: int dm_stats_start_filemapd(int fd, uint64_t group_id, const char *path, dm_filemapd_mode_t mode, unsigned foreground, unsigned verbose); This carries out the first fork and execs dmfilemapd with the arguments specified. A dm_filemapd_mode_t value is specified by the mode argument: either DM_FILEMAPD_FOLLOW_INODE, or DM_FILEMAPD_FOLLOW_PATH. A helper function, dm_filemapd_mode_from_string(), is provided to parse a string containing a valid mode name into the appropriate dm_filemapd_mode_t value.
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if (!foreground)
_exit(127);
return 0;
}
# else /* !DMFILEMAPD */
dm_filemapd_mode_t dm_filemapd_mode_from_string(const char *mode_str)
{
return 0;
};
int dm_stats_start_filemapd(int fd, uint64_t group_id, const char *path,
dm_filemapd_mode_t mode, unsigned foreground,
unsigned verbose)
{
log_error("dmfilemapd support disabled.");
return 0;
}
#endif /* DMFILEMAPD */
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
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/*
* Backward compatible dm_stats_create_region() implementations.
*
* Keep these at the end of the file to avoid adding clutter around the
* current dm_stats_create_region() version.
*/
#if defined(GNU_SYMVER)
DM_EXPORT_SYMBOL(dm_stats_create_region, 1_02_106)
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
int dm_stats_create_region_v1_02_106(struct dm_stats *dms, uint64_t *region_id,
uint64_t start, uint64_t len, int64_t step,
int precise, const char *program_id,
const char *aux_data);
int dm_stats_create_region_v1_02_106(struct dm_stats *dms, uint64_t *region_id,
uint64_t start, uint64_t len, int64_t step,
int precise, const char *program_id,
const char *aux_data)
{
/* 1.02.106 lacks histogram argument. */
return _stats_create_region(dms, region_id, start, len, step, precise,
NULL, program_id, aux_data);
}
DM_EXPORT_SYMBOL(dm_stats_create_region, 1_02_104)
libdm: add latency histogram support Add support for creating, parsing, and reporting dm-stats latency histograms on kernels that support precise_timestamps. Histograms are specified as a series of time values that give the boundaries of the bins into which I/O counts accumulate (with implicit lower and upper bounds on the first and last bins). A new type, struct dm_histogram, is introduced to represent histogram values and bin boundaries. The boundary values may be given as either a string of values (with optional unit suffixes) or as a zero terminated array of uint64_t values expressing boundary times in nanoseconds. A new bounds argument is added to dm_stats_create_region() which accepts a pointer to a struct dm_histogram initialised with bounds values. Histogram data associated with a region is parsed during a call to dm_stats_populate() and used to build a table of histogram values that are pointed to from the containing area's counter set. The histogram for a specified area may then be obtained and interogated for values and properties. This relies on kernel support to provide the boundary values in a @stats_list response: this will be present in 4.3 and 4.2-stable. A check for a minimum driver version of 4.33.0 is implemented to ensure that this is present (4.32.0 has the necessary precise_timestamps and histogram features but is unable to report these via @stats_list). Access methods are provided to retrieve histogram values and bounds as well as simple string representations of the counts and bin boundaries. Methods are also available to return the total count for a histogram and the relative value (as a dm_percent_t) of a specified bin.
2015-08-19 22:39:10 +03:00
int dm_stats_create_region_v1_02_104(struct dm_stats *dms, uint64_t *region_id,
uint64_t start, uint64_t len, int64_t step,
const char *program_id, const char *aux_data);
int dm_stats_create_region_v1_02_104(struct dm_stats *dms, uint64_t *region_id,
uint64_t start, uint64_t len, int64_t step,
const char *program_id, const char *aux_data)
{
/* 1.02.104 lacks histogram and precise arguments. */
return _stats_create_region(dms, region_id, start, len, step, 0, NULL,
program_id, aux_data);
}
#endif