diff mbox

[13/15] Documentation: add a doc for blk-iolatency

Message ID 20180625151243.2132-14-josef@toxicpanda.com (mailing list archive)
State New, archived
Headers show

Commit Message

Josef Bacik June 25, 2018, 3:12 p.m. UTC
From: Josef Bacik <jbacik@fb.com>

A basic documentation to describe the interface, statistics, and
behavior of io.latency.

Signed-off-by: Josef Bacik <jbacik@fb.com>
---
 Documentation/cgroup-v2.txt | 79 +++++++++++++++++++++++++++++++++++++++++++++
 1 file changed, 79 insertions(+)

Comments

Randy Dunlap June 25, 2018, 10:36 p.m. UTC | #1
On 06/25/2018 08:12 AM, Josef Bacik wrote:
> From: Josef Bacik <jbacik@fb.com>
> 
> A basic documentation to describe the interface, statistics, and
> behavior of io.latency.
> 
> Signed-off-by: Josef Bacik <jbacik@fb.com>

Hi,
Just a few comments...

> ---
>  Documentation/cgroup-v2.txt | 79 +++++++++++++++++++++++++++++++++++++++++++++
>  1 file changed, 79 insertions(+)
> 
> diff --git a/Documentation/cgroup-v2.txt b/Documentation/cgroup-v2.txt
> index 74cdeaed9f7a..f6684ec99720 100644
> --- a/Documentation/cgroup-v2.txt
> +++ b/Documentation/cgroup-v2.txt
> @@ -51,6 +51,9 @@ v1 is available under Documentation/cgroup-v1/.
>       5-3. IO
>         5-3-1. IO Interface Files
>         5-3-2. Writeback
> +       5-3-3. IO Latency
> +         5-3-3-1. How IO Latency Throttling Works
> +         5-3-3-2. IO Latency Interface Files
>       5-4. PID
>         5-4-1. PID Interface Files
>       5-5. Device
> @@ -1395,6 +1398,82 @@ writeback as follows.
>  	vm.dirty[_background]_ratio.
>  
>  
> +IO Latency
> +~~~~~~~~~~
> +
> +This is a cgroup v2 controller for IO workload protection.  You provide a group
> +with a latency target, and if the average latency exceeds that target the
> +controller will throttle any peers that have a lower latency target than the
> +protected workload.
> +
> +The limits are only applied at the peer level in the hierarchy.  This means that
> +in the diagram below, only groups A, B, and C will influence each other, and
> +groups D and F will influence each other.  Group G will influence nobody.
> +
> +			[root]
> +		/	   |		\
> +		A	   B		C
> +	       /  \        |
> +	      D    F	   G
> +
> +
> +So the ideal way to configure this is to set io.latency in groups A, B, and C.
> +Generally you do not want to set a value lower than the latency your device
> +supports.  Experiment to find the value that works best for your workload, start

                                                           for your workload. Start

> +at higher than the expected latency for your device and watch the total_lat_avg
> +value in io.stat for your workload group to get an idea of the latency you see
> +during normal operation.  Use this value as a basis for your real setting,
> +setting at 10-15% higher than the value in io.stat.  Experimentation is key here
> +because total_lat_avg is a running total, so is the "statistics" portion of
> +"lies, damned lies, and statistics."
> +
> +How IO Latency Throttling Works
> +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
> +
> +io.latency is work conserving, so as long as everybody is meeting their latency

                      conserving;

> +target the controller doesn't do anything.  Once a group starts missing it's

                                                                           its

> +target it begins throttling any peer group that has a higher target than itself.
> +This throttling takes 2 forms:
> +
> +- Queue depth throttling.  This is the number of outstanding IO's a group is
> +  allowed to have.  We will clamp down relatively quickly, starting at no limit
> +  and going all the way down to 1 IO at a time.
> +
> +- Artificial delay induction.  There are certain types of IO that cannot be
> +  throttled without possibly adversely affecting higher priority groups.  This
> +  includes swapping and metadata IO.  These types of IO are allowed to occur
> +  normally, however they are "charged" to the originating group.  If the
> +  originating group is being throttled you will see the use_delay and delay
> +  fields in io.stat increase.  The delay value is how many microseconds that are
> +  being added to any process that runs in this group.  Because this number can
> +  grow quite large if there is a lot of swapping or metadata IO occurring we
> +  limit the individual delay events to 1 second at a time.
> +
> +Once the victimized group starts meeting it's latency target again it will start

                                            its

> +unthrottling any peer groups that were throttled previously.  If the victimized
> +group simply stops doing IO the global counter will unthrottle appropriately.
> +
> +IO Latency Interface Files
> +~~~~~~~~~~~~~~~~~~~~~~~~~~
> +
> +  io.latency
> +	This takes a similar format as the other controllers.
> +
> +		"MAJOR:MINOR target=<target time in microseconds"

		                                 in microseconds>"

> +
> +  io.stat
> +	If the controller is enabled you will see extra stats in io.stat in
> +	addition to the normal ones.
> +
> +	  depth
> +		This is the current queue depth for the group.
> +
> +	  avg_lat
> +		The running average IO latency for this group in microseconds.
> +		Running average is generally flawed, but will give an
> +		administrator a general idea of the overall latency they can
> +		expect for their workload on the given disk.
> +
>  PID
>  ---
>  
>
diff mbox

Patch

diff --git a/Documentation/cgroup-v2.txt b/Documentation/cgroup-v2.txt
index 74cdeaed9f7a..f6684ec99720 100644
--- a/Documentation/cgroup-v2.txt
+++ b/Documentation/cgroup-v2.txt
@@ -51,6 +51,9 @@  v1 is available under Documentation/cgroup-v1/.
      5-3. IO
        5-3-1. IO Interface Files
        5-3-2. Writeback
+       5-3-3. IO Latency
+         5-3-3-1. How IO Latency Throttling Works
+         5-3-3-2. IO Latency Interface Files
      5-4. PID
        5-4-1. PID Interface Files
      5-5. Device
@@ -1395,6 +1398,82 @@  writeback as follows.
 	vm.dirty[_background]_ratio.
 
 
+IO Latency
+~~~~~~~~~~
+
+This is a cgroup v2 controller for IO workload protection.  You provide a group
+with a latency target, and if the average latency exceeds that target the
+controller will throttle any peers that have a lower latency target than the
+protected workload.
+
+The limits are only applied at the peer level in the hierarchy.  This means that
+in the diagram below, only groups A, B, and C will influence each other, and
+groups D and F will influence each other.  Group G will influence nobody.
+
+			[root]
+		/	   |		\
+		A	   B		C
+	       /  \        |
+	      D    F	   G
+
+
+So the ideal way to configure this is to set io.latency in groups A, B, and C.
+Generally you do not want to set a value lower than the latency your device
+supports.  Experiment to find the value that works best for your workload, start
+at higher than the expected latency for your device and watch the total_lat_avg
+value in io.stat for your workload group to get an idea of the latency you see
+during normal operation.  Use this value as a basis for your real setting,
+setting at 10-15% higher than the value in io.stat.  Experimentation is key here
+because total_lat_avg is a running total, so is the "statistics" portion of
+"lies, damned lies, and statistics."
+
+How IO Latency Throttling Works
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+io.latency is work conserving, so as long as everybody is meeting their latency
+target the controller doesn't do anything.  Once a group starts missing it's
+target it begins throttling any peer group that has a higher target than itself.
+This throttling takes 2 forms:
+
+- Queue depth throttling.  This is the number of outstanding IO's a group is
+  allowed to have.  We will clamp down relatively quickly, starting at no limit
+  and going all the way down to 1 IO at a time.
+
+- Artificial delay induction.  There are certain types of IO that cannot be
+  throttled without possibly adversely affecting higher priority groups.  This
+  includes swapping and metadata IO.  These types of IO are allowed to occur
+  normally, however they are "charged" to the originating group.  If the
+  originating group is being throttled you will see the use_delay and delay
+  fields in io.stat increase.  The delay value is how many microseconds that are
+  being added to any process that runs in this group.  Because this number can
+  grow quite large if there is a lot of swapping or metadata IO occurring we
+  limit the individual delay events to 1 second at a time.
+
+Once the victimized group starts meeting it's latency target again it will start
+unthrottling any peer groups that were throttled previously.  If the victimized
+group simply stops doing IO the global counter will unthrottle appropriately.
+
+IO Latency Interface Files
+~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+  io.latency
+	This takes a similar format as the other controllers.
+
+		"MAJOR:MINOR target=<target time in microseconds"
+
+  io.stat
+	If the controller is enabled you will see extra stats in io.stat in
+	addition to the normal ones.
+
+	  depth
+		This is the current queue depth for the group.
+
+	  avg_lat
+		The running average IO latency for this group in microseconds.
+		Running average is generally flawed, but will give an
+		administrator a general idea of the overall latency they can
+		expect for their workload on the given disk.
+
 PID
 ---