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=====================
I/O statistics fields
=====================
Since 2.4.20 (and some versions before, with patches), and 2.5.45,
more extensive disk statistics have been introduced to help measure disk
activity. Tools such as ``sar`` and ``iostat`` typically interpret these and do
the work for you, but in case you are interested in creating your own
tools, the fields are explained here.
In 2.4 now, the information is found as additional fields in
``/proc/partitions``. In 2.6 and upper, the same information is found in two
places: one is in the file ``/proc/diskstats``, and the other is within
the sysfs file system, which must be mounted in order to obtain
the information. Throughout this document we'll assume that sysfs
is mounted on ``/sys``, although of course it may be mounted anywhere.
Both ``/proc/diskstats`` and sysfs use the same source for the information
and so should not differ.
Here are examples of these different formats::
2.4:
3 0 39082680 hda 446216 784926 9550688 4382310 424847 312726 5922052 19310380 0 3376340 23705160
3 1 9221278 hda1 35486 0 35496 38030 0 0 0 0 0 38030 38030
2.6+ sysfs:
446216 784926 9550688 4382310 424847 312726 5922052 19310380 0 3376340 23705160
35486 38030 38030 38030
2.6+ diskstats:
3 0 hda 446216 784926 9550688 4382310 424847 312726 5922052 19310380 0 3376340 23705160
3 1 hda1 35486 38030 38030 38030
4.18+ diskstats:
3 0 hda 446216 784926 9550688 4382310 424847 312726 5922052 19310380 0 3376340 23705160 0 0 0 0
On 2.4 you might execute ``grep 'hda ' /proc/partitions``. On 2.6+, you have
a choice of ``cat /sys/block/hda/stat`` or ``grep 'hda ' /proc/diskstats``.
The advantage of one over the other is that the sysfs choice works well
if you are watching a known, small set of disks. ``/proc/diskstats`` may
be a better choice if you are watching a large number of disks because
you'll avoid the overhead of 50, 100, or 500 or more opens/closes with
each snapshot of your disk statistics.
In 2.4, the statistics fields are those after the device name. In
the above example, the first field of statistics would be 446216.
By contrast, in 2.6+ if you look at ``/sys/block/hda/stat``, you'll
find just the 15 fields, beginning with 446216. If you look at
``/proc/diskstats``, the 15 fields will be preceded by the major and
minor device numbers, and device name. Each of these formats provides
15 fields of statistics, each meaning exactly the same things.
All fields except field 9 are cumulative since boot. Field 9 should
go to zero as I/Os complete; all others only increase (unless they
overflow and wrap). Wrapping might eventually occur on a very busy
or long-lived system; so applications should be prepared to deal with
it. Regarding wrapping, the types of the fields are either unsigned
int (32 bit) or unsigned long (32-bit or 64-bit, depending on your
machine) as noted per-field below. Unless your observations are very
spread in time, these fields should not wrap twice before you notice it.
Each set of stats only applies to the indicated device; if you want
system-wide stats you'll have to find all the devices and sum them all up.
Field 1 -- # of reads completed (unsigned long)
This is the total number of reads completed successfully.
Field 2 -- # of reads merged, field 6 -- # of writes merged (unsigned long)
Reads and writes which are adjacent to each other may be merged for
efficiency. Thus two 4K reads may become one 8K read before it is
ultimately handed to the disk, and so it will be counted (and queued)
as only one I/O. This field lets you know how often this was done.
Field 3 -- # of sectors read (unsigned long)
This is the total number of sectors read successfully.
Field 4 -- # of milliseconds spent reading (unsigned int)
This is the total number of milliseconds spent by all reads (as
measured from blk_mq_alloc_request() to __blk_mq_end_request()).
Field 5 -- # of writes completed (unsigned long)
This is the total number of writes completed successfully.
Field 6 -- # of writes merged (unsigned long)
See the description of field 2.
Field 7 -- # of sectors written (unsigned long)
This is the total number of sectors written successfully.
Field 8 -- # of milliseconds spent writing (unsigned int)
This is the total number of milliseconds spent by all writes (as
measured from blk_mq_alloc_request() to __blk_mq_end_request()).
Field 9 -- # of I/Os currently in progress (unsigned int)
The only field that should go to zero. Incremented as requests are
given to appropriate struct request_queue and decremented as they finish.
Field 10 -- # of milliseconds spent doing I/Os (unsigned int)
This field increases so long as field 9 is nonzero.
Since 5.0 this field counts jiffies when at least one request was
started or completed. If request runs more than 2 jiffies then some
I/O time might be not accounted in case of concurrent requests.
Field 11 -- weighted # of milliseconds spent doing I/Os (unsigned int)
This field is incremented at each I/O start, I/O completion, I/O
merge, or read of these stats by the number of I/Os in progress
(field 9) times the number of milliseconds spent doing I/O since the
last update of this field. This can provide an easy measure of both
I/O completion time and the backlog that may be accumulating.
Field 12 -- # of discards completed (unsigned long)
This is the total number of discards completed successfully.
Field 13 -- # of discards merged (unsigned long)
See the description of field 2
Field 14 -- # of sectors discarded (unsigned long)
This is the total number of sectors discarded successfully.
Field 15 -- # of milliseconds spent discarding (unsigned int)
This is the total number of milliseconds spent by all discards (as
measured from blk_mq_alloc_request() to __blk_mq_end_request()).
Field 16 -- # of flush requests completed
This is the total number of flush requests completed successfully.
Block layer combines flush requests and executes at most one at a time.
This counts flush requests executed by disk. Not tracked for partitions.
Field 17 -- # of milliseconds spent flushing
This is the total number of milliseconds spent by all flush requests.
To avoid introducing performance bottlenecks, no locks are held while
modifying these counters. This implies that minor inaccuracies may be
introduced when changes collide, so (for instance) adding up all the
read I/Os issued per partition should equal those made to the disks ...
but due to the lack of locking it may only be very close.
In 2.6+, there are counters for each CPU, which make the lack of locking
almost a non-issue. When the statistics are read, the per-CPU counters
are summed (possibly overflowing the unsigned long variable they are
summed to) and the result given to the user. There is no convenient
user interface for accessing the per-CPU counters themselves.
Since 4.19 request times are measured with nanoseconds precision and
truncated to milliseconds before showing in this interface.
Disks vs Partitions
-------------------
There were significant changes between 2.4 and 2.6+ in the I/O subsystem.
As a result, some statistic information disappeared. The translation from
a disk address relative to a partition to the disk address relative to
the host disk happens much earlier. All merges and timings now happen
at the disk level rather than at both the disk and partition level as
in 2.4. Consequently, you'll see a different statistics output on 2.6+ for
partitions from that for disks. There are only *four* fields available
for partitions on 2.6+ machines. This is reflected in the examples above.
Field 1 -- # of reads issued
This is the total number of reads issued to this partition.
Field 2 -- # of sectors read
This is the total number of sectors requested to be read from this
partition.
Field 3 -- # of writes issued
This is the total number of writes issued to this partition.
Field 4 -- # of sectors written
This is the total number of sectors requested to be written to
this partition.
Note that since the address is translated to a disk-relative one, and no
record of the partition-relative address is kept, the subsequent success
or failure of the read cannot be attributed to the partition. In other
words, the number of reads for partitions is counted slightly before time
of queuing for partitions, and at completion for whole disks. This is
a subtle distinction that is probably uninteresting for most cases.
More significant is the error induced by counting the numbers of
reads/writes before merges for partitions and after for disks. Since a
typical workload usually contains a lot of successive and adjacent requests,
the number of reads/writes issued can be several times higher than the
number of reads/writes completed.
In 2.6.25, the full statistic set is again available for partitions and
disk and partition statistics are consistent again. Since we still don't
keep record of the partition-relative address, an operation is attributed to
the partition which contains the first sector of the request after the
eventual merges. As requests can be merged across partition, this could lead
to some (probably insignificant) inaccuracy.
Additional notes
----------------
In 2.6+, sysfs is not mounted by default. If your distribution of
Linux hasn't added it already, here's the line you'll want to add to
your ``/etc/fstab``::
none /sys sysfs defaults 0 0
In 2.6+, all disk statistics were removed from ``/proc/stat``. In 2.4, they
appear in both ``/proc/partitions`` and ``/proc/stat``, although the ones in
``/proc/stat`` take a very different format from those in ``/proc/partitions``
(see proc(5), if your system has it.)
-- ricklind@us.ibm.com
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