diff options
author | Vikas Shivappa <vikas.shivappa@linux.intel.com> | 2017-07-25 14:14:21 -0700 |
---|---|---|
committer | Thomas Gleixner <tglx@linutronix.de> | 2017-08-01 22:41:19 +0200 |
commit | 1640ae9471ae41eb18d2b214f1f40af3c4ed3828 (patch) | |
tree | 6458db1fa7bf827809a654d764ae5a5e16672d98 /Documentation/x86 | |
parent | c39a0e2c8850f08249383f2425dbd8dbe4baad69 (diff) |
x86/intel_rdt/cqm: Documentation for resctrl based RDT Monitoring
Add a description of resctrl based RDT(resource director technology)
monitoring extension and its usage.
[Tony: Added descriptions for how monitoring and allocation are measured
and some cleanups]
Signed-off-by: Vikas Shivappa <vikas.shivappa@linux.intel.com>
Signed-off-by: Tony Luck <tony.luck@intel.com>
Signed-off-by: Thomas Gleixner <tglx@linutronix.de>
Cc: ravi.v.shankar@intel.com
Cc: fenghua.yu@intel.com
Cc: peterz@infradead.org
Cc: eranian@google.com
Cc: vikas.shivappa@intel.com
Cc: ak@linux.intel.com
Cc: davidcc@google.com
Cc: reinette.chatre@intel.com
Link: http://lkml.kernel.org/r/1501017287-28083-3-git-send-email-vikas.shivappa@linux.intel.com
Diffstat (limited to 'Documentation/x86')
-rw-r--r-- | Documentation/x86/intel_rdt_ui.txt | 316 |
1 files changed, 278 insertions, 38 deletions
diff --git a/Documentation/x86/intel_rdt_ui.txt b/Documentation/x86/intel_rdt_ui.txt index c491a1b82de2..76f21e2ac176 100644 --- a/Documentation/x86/intel_rdt_ui.txt +++ b/Documentation/x86/intel_rdt_ui.txt @@ -6,8 +6,8 @@ Fenghua Yu <fenghua.yu@intel.com> Tony Luck <tony.luck@intel.com> Vikas Shivappa <vikas.shivappa@intel.com> -This feature is enabled by the CONFIG_INTEL_RDT_A Kconfig and the -X86 /proc/cpuinfo flag bits "rdt", "cat_l3" and "cdp_l3". +This feature is enabled by the CONFIG_INTEL_RDT Kconfig and the +X86 /proc/cpuinfo flag bits "rdt", "cqm", "cat_l3" and "cdp_l3". To use the feature mount the file system: @@ -17,6 +17,13 @@ mount options are: "cdp": Enable code/data prioritization in L3 cache allocations. +RDT features are orthogonal. A particular system may support only +monitoring, only control, or both monitoring and control. + +The mount succeeds if either of allocation or monitoring is present, but +only those files and directories supported by the system will be created. +For more details on the behavior of the interface during monitoring +and allocation, see the "Resource alloc and monitor groups" section. Info directory -------------- @@ -24,7 +31,12 @@ Info directory The 'info' directory contains information about the enabled resources. Each resource has its own subdirectory. The subdirectory names reflect the resource names. -Cache resource(L3/L2) subdirectory contains the following files: + +Each subdirectory contains the following files with respect to +allocation: + +Cache resource(L3/L2) subdirectory contains the following files +related to allocation: "num_closids": The number of CLOSIDs which are valid for this resource. The kernel uses the smallest number of @@ -36,7 +48,8 @@ Cache resource(L3/L2) subdirectory contains the following files: "min_cbm_bits": The minimum number of consecutive bits which must be set when writing a mask. -Memory bandwitdh(MB) subdirectory contains the following files: +Memory bandwitdh(MB) subdirectory contains the following files +with respect to allocation: "min_bandwidth": The minimum memory bandwidth percentage which user can request. @@ -52,48 +65,152 @@ Memory bandwitdh(MB) subdirectory contains the following files: non-linear. This field is purely informational only. -Resource groups ---------------- +If RDT monitoring is available there will be an "L3_MON" directory +with the following files: + +"num_rmids": The number of RMIDs available. This is the + upper bound for how many "CTRL_MON" + "MON" + groups can be created. + +"mon_features": Lists the monitoring events if + monitoring is enabled for the resource. + +"max_threshold_occupancy": + Read/write file provides the largest value (in + bytes) at which a previously used LLC_occupancy + counter can be considered for re-use. + + +Resource alloc and monitor groups +--------------------------------- + Resource groups are represented as directories in the resctrl file -system. The default group is the root directory. Other groups may be -created as desired by the system administrator using the "mkdir(1)" -command, and removed using "rmdir(1)". +system. The default group is the root directory which, immediately +after mounting, owns all the tasks and cpus in the system and can make +full use of all resources. + +On a system with RDT control features additional directories can be +created in the root directory that specify different amounts of each +resource (see "schemata" below). The root and these additional top level +directories are referred to as "CTRL_MON" groups below. + +On a system with RDT monitoring the root directory and other top level +directories contain a directory named "mon_groups" in which additional +directories can be created to monitor subsets of tasks in the CTRL_MON +group that is their ancestor. These are called "MON" groups in the rest +of this document. + +Removing a directory will move all tasks and cpus owned by the group it +represents to the parent. Removing one of the created CTRL_MON groups +will automatically remove all MON groups below it. + +All groups contain the following files: + +"tasks": + Reading this file shows the list of all tasks that belong to + this group. Writing a task id to the file will add a task to the + group. If the group is a CTRL_MON group the task is removed from + whichever previous CTRL_MON group owned the task and also from + any MON group that owned the task. If the group is a MON group, + then the task must already belong to the CTRL_MON parent of this + group. The task is removed from any previous MON group. + + +"cpus": + Reading this file shows a bitmask of the logical CPUs owned by + this group. Writing a mask to this file will add and remove + CPUs to/from this group. As with the tasks file a hierarchy is + maintained where MON groups may only include CPUs owned by the + parent CTRL_MON group. + + +"cpus_list": + Just like "cpus", only using ranges of CPUs instead of bitmasks. -There are three files associated with each group: -"tasks": A list of tasks that belongs to this group. Tasks can be - added to a group by writing the task ID to the "tasks" file - (which will automatically remove them from the previous - group to which they belonged). New tasks created by fork(2) - and clone(2) are added to the same group as their parent. - If a pid is not in any sub partition, it is in root partition - (i.e. default partition). +When control is enabled all CTRL_MON groups will also contain: -"cpus": A bitmask of logical CPUs assigned to this group. Writing - a new mask can add/remove CPUs from this group. Added CPUs - are removed from their previous group. Removed ones are - given to the default (root) group. You cannot remove CPUs - from the default group. +"schemata": + A list of all the resources available to this group. + Each resource has its own line and format - see below for details. -"cpus_list": One or more CPU ranges of logical CPUs assigned to this - group. Same rules apply like for the "cpus" file. +When monitoring is enabled all MON groups will also contain: -"schemata": A list of all the resources available to this group. - Each resource has its own line and format - see below for - details. +"mon_data": + This contains a set of files organized by L3 domain and by + RDT event. E.g. on a system with two L3 domains there will + be subdirectories "mon_L3_00" and "mon_L3_01". Each of these + directories have one file per event (e.g. "llc_occupancy", + "mbm_total_bytes", and "mbm_local_bytes"). In a MON group these + files provide a read out of the current value of the event for + all tasks in the group. In CTRL_MON groups these files provide + the sum for all tasks in the CTRL_MON group and all tasks in + MON groups. Please see example section for more details on usage. -When a task is running the following rules define which resources -are available to it: +Resource allocation rules +------------------------- +When a task is running the following rules define which resources are +available to it: 1) If the task is a member of a non-default group, then the schemata -for that group is used. + for that group is used. 2) Else if the task belongs to the default group, but is running on a -CPU that is assigned to some specific group, then the schemata for -the CPU's group is used. + CPU that is assigned to some specific group, then the schemata for the + CPU's group is used. 3) Otherwise the schemata for the default group is used. +Resource monitoring rules +------------------------- +1) If a task is a member of a MON group, or non-default CTRL_MON group + then RDT events for the task will be reported in that group. + +2) If a task is a member of the default CTRL_MON group, but is running + on a CPU that is assigned to some specific group, then the RDT events + for the task will be reported in that group. + +3) Otherwise RDT events for the task will be reported in the root level + "mon_data" group. + + +Notes on cache occupancy monitoring and control +----------------------------------------------- +When moving a task from one group to another you should remember that +this only affects *new* cache allocations by the task. E.g. you may have +a task in a monitor group showing 3 MB of cache occupancy. If you move +to a new group and immediately check the occupancy of the old and new +groups you will likely see that the old group is still showing 3 MB and +the new group zero. When the task accesses locations still in cache from +before the move, the h/w does not update any counters. On a busy system +you will likely see the occupancy in the old group go down as cache lines +are evicted and re-used while the occupancy in the new group rises as +the task accesses memory and loads into the cache are counted based on +membership in the new group. + +The same applies to cache allocation control. Moving a task to a group +with a smaller cache partition will not evict any cache lines. The +process may continue to use them from the old partition. + +Hardware uses CLOSid(Class of service ID) and an RMID(Resource monitoring ID) +to identify a control group and a monitoring group respectively. Each of +the resource groups are mapped to these IDs based on the kind of group. The +number of CLOSid and RMID are limited by the hardware and hence the creation of +a "CTRL_MON" directory may fail if we run out of either CLOSID or RMID +and creation of "MON" group may fail if we run out of RMIDs. + +max_threshold_occupancy - generic concepts +------------------------------------------ + +Note that an RMID once freed may not be immediately available for use as +the RMID is still tagged the cache lines of the previous user of RMID. +Hence such RMIDs are placed on limbo list and checked back if the cache +occupancy has gone down. If there is a time when system has a lot of +limbo RMIDs but which are not ready to be used, user may see an -EBUSY +during mkdir. + +max_threshold_occupancy is a user configurable value to determine the +occupancy at which an RMID can be freed. Schemata files - general concepts --------------------------------- @@ -143,22 +260,22 @@ SKUs. Using a high bandwidth and a low bandwidth setting on two threads sharing a core will result in both threads being throttled to use the low bandwidth. -L3 details (code and data prioritization disabled) --------------------------------------------------- +L3 schemata file details (code and data prioritization disabled) +---------------------------------------------------------------- With CDP disabled the L3 schemata format is: L3:<cache_id0>=<cbm>;<cache_id1>=<cbm>;... -L3 details (CDP enabled via mount option to resctrl) ----------------------------------------------------- +L3 schemata file details (CDP enabled via mount option to resctrl) +------------------------------------------------------------------ When CDP is enabled L3 control is split into two separate resources so you can specify independent masks for code and data like this: L3data:<cache_id0>=<cbm>;<cache_id1>=<cbm>;... L3code:<cache_id0>=<cbm>;<cache_id1>=<cbm>;... -L2 details ----------- +L2 schemata file details +------------------------ L2 cache does not support code and data prioritization, so the schemata format is always: @@ -185,6 +302,8 @@ L3CODE:0=fffff;1=fffff;2=fffff;3=fffff L3DATA:0=fffff;1=fffff;2=3c0;3=fffff L3CODE:0=fffff;1=fffff;2=fffff;3=fffff +Examples for RDT allocation usage: + Example 1 --------- On a two socket machine (one L3 cache per socket) with just four bits @@ -410,3 +529,124 @@ void main(void) /* code to read and write directory contents */ resctrl_release_lock(fd); } + +Examples for RDT Monitoring along with allocation usage: + +Reading monitored data +---------------------- +Reading an event file (for ex: mon_data/mon_L3_00/llc_occupancy) would +show the current snapshot of LLC occupancy of the corresponding MON +group or CTRL_MON group. + + +Example 1 (Monitor CTRL_MON group and subset of tasks in CTRL_MON group) +--------- +On a two socket machine (one L3 cache per socket) with just four bits +for cache bit masks + +# mount -t resctrl resctrl /sys/fs/resctrl +# cd /sys/fs/resctrl +# mkdir p0 p1 +# echo "L3:0=3;1=c" > /sys/fs/resctrl/p0/schemata +# echo "L3:0=3;1=3" > /sys/fs/resctrl/p1/schemata +# echo 5678 > p1/tasks +# echo 5679 > p1/tasks + +The default resource group is unmodified, so we have access to all parts +of all caches (its schemata file reads "L3:0=f;1=f"). + +Tasks that are under the control of group "p0" may only allocate from the +"lower" 50% on cache ID 0, and the "upper" 50% of cache ID 1. +Tasks in group "p1" use the "lower" 50% of cache on both sockets. + +Create monitor groups and assign a subset of tasks to each monitor group. + +# cd /sys/fs/resctrl/p1/mon_groups +# mkdir m11 m12 +# echo 5678 > m11/tasks +# echo 5679 > m12/tasks + +fetch data (data shown in bytes) + +# cat m11/mon_data/mon_L3_00/llc_occupancy +16234000 +# cat m11/mon_data/mon_L3_01/llc_occupancy +14789000 +# cat m12/mon_data/mon_L3_00/llc_occupancy +16789000 + +The parent ctrl_mon group shows the aggregated data. + +# cat /sys/fs/resctrl/p1/mon_data/mon_l3_00/llc_occupancy +31234000 + +Example 2 (Monitor a task from its creation) +--------- +On a two socket machine (one L3 cache per socket) + +# mount -t resctrl resctrl /sys/fs/resctrl +# cd /sys/fs/resctrl +# mkdir p0 p1 + +An RMID is allocated to the group once its created and hence the <cmd> +below is monitored from its creation. + +# echo $$ > /sys/fs/resctrl/p1/tasks +# <cmd> + +Fetch the data + +# cat /sys/fs/resctrl/p1/mon_data/mon_l3_00/llc_occupancy +31789000 + +Example 3 (Monitor without CAT support or before creating CAT groups) +--------- + +Assume a system like HSW has only CQM and no CAT support. In this case +the resctrl will still mount but cannot create CTRL_MON directories. +But user can create different MON groups within the root group thereby +able to monitor all tasks including kernel threads. + +This can also be used to profile jobs cache size footprint before being +able to allocate them to different allocation groups. + +# mount -t resctrl resctrl /sys/fs/resctrl +# cd /sys/fs/resctrl +# mkdir mon_groups/m01 +# mkdir mon_groups/m02 + +# echo 3478 > /sys/fs/resctrl/mon_groups/m01/tasks +# echo 2467 > /sys/fs/resctrl/mon_groups/m02/tasks + +Monitor the groups separately and also get per domain data. From the +below its apparent that the tasks are mostly doing work on +domain(socket) 0. + +# cat /sys/fs/resctrl/mon_groups/m01/mon_L3_00/llc_occupancy +31234000 +# cat /sys/fs/resctrl/mon_groups/m01/mon_L3_01/llc_occupancy +34555 +# cat /sys/fs/resctrl/mon_groups/m02/mon_L3_00/llc_occupancy +31234000 +# cat /sys/fs/resctrl/mon_groups/m02/mon_L3_01/llc_occupancy +32789 + + +Example 4 (Monitor real time tasks) +----------------------------------- + +A single socket system which has real time tasks running on cores 4-7 +and non real time tasks on other cpus. We want to monitor the cache +occupancy of the real time threads on these cores. + +# mount -t resctrl resctrl /sys/fs/resctrl +# cd /sys/fs/resctrl +# mkdir p1 + +Move the cpus 4-7 over to p1 +# echo f0 > p0/cpus + +View the llc occupancy snapshot + +# cat /sys/fs/resctrl/p1/mon_data/mon_L3_00/llc_occupancy +11234000 |