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-rw-r--r-- | Documentation/x86/intel_rdt_ui.txt | 214 |
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diff --git a/Documentation/x86/intel_rdt_ui.txt b/Documentation/x86/intel_rdt_ui.txt new file mode 100644 index 000000000000..d918d268cd72 --- /dev/null +++ b/Documentation/x86/intel_rdt_ui.txt @@ -0,0 +1,214 @@ +User Interface for Resource Allocation in Intel Resource Director Technology + +Copyright (C) 2016 Intel Corporation + +Fenghua Yu <fenghua.yu@intel.com> +Tony Luck <tony.luck@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". + +To use the feature mount the file system: + + # mount -t resctrl resctrl [-o cdp] /sys/fs/resctrl + +mount options are: + +"cdp": Enable code/data prioritization in L3 cache allocations. + + +Info directory +-------------- + +The 'info' directory contains information about the enabled +resources. Each resource has its own subdirectory. The subdirectory +names reflect the resource names. Each subdirectory contains the +following files: + +"num_closids": The number of CLOSIDs which are valid for this + resource. The kernel uses the smallest number of + CLOSIDs of all enabled resources as limit. + +"cbm_mask": The bitmask which is valid for this resource. This + mask is equivalent to 100%. + +"min_cbm_bits": The minimum number of consecutive bits which must be + set when writing a mask. + + +Resource 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)". + +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). + +"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. + +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. + +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. + +3) Otherwise the schemata for the default group is used. + + +Schemata files - general concepts +--------------------------------- +Each line in the file describes one resource. The line starts with +the name of the resource, followed by specific values to be applied +in each of the instances of that resource on the system. + +Cache IDs +--------- +On current generation systems there is one L3 cache per socket and L2 +caches are generally just shared by the hyperthreads on a core, but this +isn't an architectural requirement. We could have multiple separate L3 +caches on a socket, multiple cores could share an L2 cache. So instead +of using "socket" or "core" to define the set of logical cpus sharing +a resource we use a "Cache ID". At a given cache level this will be a +unique number across the whole system (but it isn't guaranteed to be a +contiguous sequence, there may be gaps). To find the ID for each logical +CPU look in /sys/devices/system/cpu/cpu*/cache/index*/id + +Cache Bit Masks (CBM) +--------------------- +For cache resources we describe the portion of the cache that is available +for allocation using a bitmask. The maximum value of the mask is defined +by each cpu model (and may be different for different cache levels). It +is found using CPUID, but is also provided in the "info" directory of +the resctrl file system in "info/{resource}/cbm_mask". X86 hardware +requires that these masks have all the '1' bits in a contiguous block. So +0x3, 0x6 and 0xC are legal 4-bit masks with two bits set, but 0x5, 0x9 +and 0xA are not. On a system with a 20-bit mask each bit represents 5% +of the capacity of the cache. You could partition the cache into four +equal parts with masks: 0x1f, 0x3e0, 0x7c00, 0xf8000. + + +L3 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) +---------------------------------------------------- +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 cache does not support code and data prioritization, so the +schemata format is always: + + L2:<cache_id0>=<cbm>;<cache_id1>=<cbm>;... + +Example 1 +--------- +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 + +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. + +Example 2 +--------- +Again two sockets, but this time with a more realistic 20-bit mask. + +Two real time tasks pid=1234 running on processor 0 and pid=5678 running on +processor 1 on socket 0 on a 2-socket and dual core machine. To avoid noisy +neighbors, each of the two real-time tasks exclusively occupies one quarter +of L3 cache on socket 0. + +# mount -t resctrl resctrl /sys/fs/resctrl +# cd /sys/fs/resctrl + +First we reset the schemata for the default group so that the "upper" +50% of the L3 cache on socket 0 cannot be used by ordinary tasks: + +# echo "L3:0=3ff;1=fffff" > schemata + +Next we make a resource group for our first real time task and give +it access to the "top" 25% of the cache on socket 0. + +# mkdir p0 +# echo "L3:0=f8000;1=fffff" > p0/schemata + +Finally we move our first real time task into this resource group. We +also use taskset(1) to ensure the task always runs on a dedicated CPU +on socket 0. Most uses of resource groups will also constrain which +processors tasks run on. + +# echo 1234 > p0/tasks +# taskset -cp 1 1234 + +Ditto for the second real time task (with the remaining 25% of cache): + +# mkdir p1 +# echo "L3:0=7c00;1=fffff" > p1/schemata +# echo 5678 > p1/tasks +# taskset -cp 2 5678 + +Example 3 +--------- + +A single socket system which has real-time tasks running on core 4-7 and +non real-time workload assigned to core 0-3. The real-time tasks share text +and data, so a per task association is not required and due to interaction +with the kernel it's desired that the kernel on these cores shares L3 with +the tasks. + +# mount -t resctrl resctrl /sys/fs/resctrl +# cd /sys/fs/resctrl + +First we reset the schemata for the default group so that the "upper" +50% of the L3 cache on socket 0 cannot be used by ordinary tasks: + +# echo "L3:0=3ff" > schemata + +Next we make a resource group for our real time cores and give +it access to the "top" 50% of the cache on socket 0. + +# mkdir p0 +# echo "L3:0=ffc00;" > p0/schemata + +Finally we move core 4-7 over to the new group and make sure that the +kernel and the tasks running there get 50% of the cache. + +# echo C0 > p0/cpus |