| .. SPDX-License-Identifier: GPL-2.0 |
| |
| =============== |
| Detailed Usages |
| =============== |
| |
| DAMON provides below interfaces for different users. |
| |
| - *DAMON user space tool.* |
| `This <https://github.com/awslabs/damo>`_ is for privileged people such as |
| system administrators who want a just-working human-friendly interface. |
| Using this, users can use the DAMON’s major features in a human-friendly way. |
| It may not be highly tuned for special cases, though. It supports both |
| virtual and physical address spaces monitoring. For more detail, please |
| refer to its `usage document |
| <https://github.com/awslabs/damo/blob/next/USAGE.md>`_. |
| - *sysfs interface.* |
| :ref:`This <sysfs_interface>` is for privileged user space programmers who |
| want more optimized use of DAMON. Using this, users can use DAMON’s major |
| features by reading from and writing to special sysfs files. Therefore, |
| you can write and use your personalized DAMON sysfs wrapper programs that |
| reads/writes the sysfs files instead of you. The `DAMON user space tool |
| <https://github.com/awslabs/damo>`_ is one example of such programs. It |
| supports both virtual and physical address spaces monitoring. Note that this |
| interface provides only simple :ref:`statistics <damos_stats>` for the |
| monitoring results. For detailed monitoring results, DAMON provides a |
| :ref:`tracepoint <tracepoint>`. |
| - *debugfs interface.* |
| :ref:`This <debugfs_interface>` is almost identical to :ref:`sysfs interface |
| <sysfs_interface>`. This will be removed after next LTS kernel is released, |
| so users should move to the :ref:`sysfs interface <sysfs_interface>`. |
| - *Kernel Space Programming Interface.* |
| :doc:`This </mm/damon/api>` is for kernel space programmers. Using this, |
| users can utilize every feature of DAMON most flexibly and efficiently by |
| writing kernel space DAMON application programs for you. You can even extend |
| DAMON for various address spaces. For detail, please refer to the interface |
| :doc:`document </mm/damon/api>`. |
| |
| .. _sysfs_interface: |
| |
| sysfs Interface |
| =============== |
| |
| DAMON sysfs interface is built when ``CONFIG_DAMON_SYSFS`` is defined. It |
| creates multiple directories and files under its sysfs directory, |
| ``<sysfs>/kernel/mm/damon/``. You can control DAMON by writing to and reading |
| from the files under the directory. |
| |
| For a short example, users can monitor the virtual address space of a given |
| workload as below. :: |
| |
| # cd /sys/kernel/mm/damon/admin/ |
| # echo 1 > kdamonds/nr_kdamonds && echo 1 > kdamonds/0/contexts/nr_contexts |
| # echo vaddr > kdamonds/0/contexts/0/operations |
| # echo 1 > kdamonds/0/contexts/0/targets/nr_targets |
| # echo $(pidof <workload>) > kdamonds/0/contexts/0/targets/0/pid_target |
| # echo on > kdamonds/0/state |
| |
| Files Hierarchy |
| --------------- |
| |
| The files hierarchy of DAMON sysfs interface is shown below. In the below |
| figure, parents-children relations are represented with indentations, each |
| directory is having ``/`` suffix, and files in each directory are separated by |
| comma (","). :: |
| |
| /sys/kernel/mm/damon/admin |
| │ kdamonds/nr_kdamonds |
| │ │ 0/state,pid |
| │ │ │ contexts/nr_contexts |
| │ │ │ │ 0/avail_operations,operations |
| │ │ │ │ │ monitoring_attrs/ |
| │ │ │ │ │ │ intervals/sample_us,aggr_us,update_us |
| │ │ │ │ │ │ nr_regions/min,max |
| │ │ │ │ │ targets/nr_targets |
| │ │ │ │ │ │ 0/pid_target |
| │ │ │ │ │ │ │ regions/nr_regions |
| │ │ │ │ │ │ │ │ 0/start,end |
| │ │ │ │ │ │ │ │ ... |
| │ │ │ │ │ │ ... |
| │ │ │ │ │ schemes/nr_schemes |
| │ │ │ │ │ │ 0/action |
| │ │ │ │ │ │ │ access_pattern/ |
| │ │ │ │ │ │ │ │ sz/min,max |
| │ │ │ │ │ │ │ │ nr_accesses/min,max |
| │ │ │ │ │ │ │ │ age/min,max |
| │ │ │ │ │ │ │ quotas/ms,bytes,reset_interval_ms |
| │ │ │ │ │ │ │ │ weights/sz_permil,nr_accesses_permil,age_permil |
| │ │ │ │ │ │ │ watermarks/metric,interval_us,high,mid,low |
| │ │ │ │ │ │ │ stats/nr_tried,sz_tried,nr_applied,sz_applied,qt_exceeds |
| │ │ │ │ │ │ ... |
| │ │ │ │ ... |
| │ │ ... |
| |
| Root |
| ---- |
| |
| The root of the DAMON sysfs interface is ``<sysfs>/kernel/mm/damon/``, and it |
| has one directory named ``admin``. The directory contains the files for |
| privileged user space programs' control of DAMON. User space tools or deamons |
| having the root permission could use this directory. |
| |
| kdamonds/ |
| --------- |
| |
| The monitoring-related information including request specifications and results |
| are called DAMON context. DAMON executes each context with a kernel thread |
| called kdamond, and multiple kdamonds could run in parallel. |
| |
| Under the ``admin`` directory, one directory, ``kdamonds``, which has files for |
| controlling the kdamonds exist. In the beginning, this directory has only one |
| file, ``nr_kdamonds``. Writing a number (``N``) to the file creates the number |
| of child directories named ``0`` to ``N-1``. Each directory represents each |
| kdamond. |
| |
| kdamonds/<N>/ |
| ------------- |
| |
| In each kdamond directory, two files (``state`` and ``pid``) and one directory |
| (``contexts``) exist. |
| |
| Reading ``state`` returns ``on`` if the kdamond is currently running, or |
| ``off`` if it is not running. Writing ``on`` or ``off`` makes the kdamond be |
| in the state. Writing ``commit`` to the ``state`` file makes kdamond reads the |
| user inputs in the sysfs files except ``state`` file again. Writing |
| ``update_schemes_stats`` to ``state`` file updates the contents of stats files |
| for each DAMON-based operation scheme of the kdamond. For details of the |
| stats, please refer to :ref:`stats section <sysfs_schemes_stats>`. |
| |
| If the state is ``on``, reading ``pid`` shows the pid of the kdamond thread. |
| |
| ``contexts`` directory contains files for controlling the monitoring contexts |
| that this kdamond will execute. |
| |
| kdamonds/<N>/contexts/ |
| ---------------------- |
| |
| In the beginning, this directory has only one file, ``nr_contexts``. Writing a |
| number (``N``) to the file creates the number of child directories named as |
| ``0`` to ``N-1``. Each directory represents each monitoring context. At the |
| moment, only one context per kdamond is supported, so only ``0`` or ``1`` can |
| be written to the file. |
| |
| contexts/<N>/ |
| ------------- |
| |
| In each context directory, two files (``avail_operations`` and ``operations``) |
| and three directories (``monitoring_attrs``, ``targets``, and ``schemes``) |
| exist. |
| |
| DAMON supports multiple types of monitoring operations, including those for |
| virtual address space and the physical address space. You can get the list of |
| available monitoring operations set on the currently running kernel by reading |
| ``avail_operations`` file. Based on the kernel configuration, the file will |
| list some or all of below keywords. |
| |
| - vaddr: Monitor virtual address spaces of specific processes |
| - fvaddr: Monitor fixed virtual address ranges |
| - paddr: Monitor the physical address space of the system |
| |
| Please refer to :ref:`regions sysfs directory <sysfs_regions>` for detailed |
| differences between the operations sets in terms of the monitoring target |
| regions. |
| |
| You can set and get what type of monitoring operations DAMON will use for the |
| context by writing one of the keywords listed in ``avail_operations`` file and |
| reading from the ``operations`` file. |
| |
| contexts/<N>/monitoring_attrs/ |
| ------------------------------ |
| |
| Files for specifying attributes of the monitoring including required quality |
| and efficiency of the monitoring are in ``monitoring_attrs`` directory. |
| Specifically, two directories, ``intervals`` and ``nr_regions`` exist in this |
| directory. |
| |
| Under ``intervals`` directory, three files for DAMON's sampling interval |
| (``sample_us``), aggregation interval (``aggr_us``), and update interval |
| (``update_us``) exist. You can set and get the values in micro-seconds by |
| writing to and reading from the files. |
| |
| Under ``nr_regions`` directory, two files for the lower-bound and upper-bound |
| of DAMON's monitoring regions (``min`` and ``max``, respectively), which |
| controls the monitoring overhead, exist. You can set and get the values by |
| writing to and rading from the files. |
| |
| For more details about the intervals and monitoring regions range, please refer |
| to the Design document (:doc:`/mm/damon/design`). |
| |
| contexts/<N>/targets/ |
| --------------------- |
| |
| In the beginning, this directory has only one file, ``nr_targets``. Writing a |
| number (``N``) to the file creates the number of child directories named ``0`` |
| to ``N-1``. Each directory represents each monitoring target. |
| |
| targets/<N>/ |
| ------------ |
| |
| In each target directory, one file (``pid_target``) and one directory |
| (``regions``) exist. |
| |
| If you wrote ``vaddr`` to the ``contexts/<N>/operations``, each target should |
| be a process. You can specify the process to DAMON by writing the pid of the |
| process to the ``pid_target`` file. |
| |
| .. _sysfs_regions: |
| |
| targets/<N>/regions |
| ------------------- |
| |
| When ``vaddr`` monitoring operations set is being used (``vaddr`` is written to |
| the ``contexts/<N>/operations`` file), DAMON automatically sets and updates the |
| monitoring target regions so that entire memory mappings of target processes |
| can be covered. However, users could want to set the initial monitoring region |
| to specific address ranges. |
| |
| In contrast, DAMON do not automatically sets and updates the monitoring target |
| regions when ``fvaddr`` or ``paddr`` monitoring operations sets are being used |
| (``fvaddr`` or ``paddr`` have written to the ``contexts/<N>/operations``). |
| Therefore, users should set the monitoring target regions by themselves in the |
| cases. |
| |
| For such cases, users can explicitly set the initial monitoring target regions |
| as they want, by writing proper values to the files under this directory. |
| |
| In the beginning, this directory has only one file, ``nr_regions``. Writing a |
| number (``N``) to the file creates the number of child directories named ``0`` |
| to ``N-1``. Each directory represents each initial monitoring target region. |
| |
| regions/<N>/ |
| ------------ |
| |
| In each region directory, you will find two files (``start`` and ``end``). You |
| can set and get the start and end addresses of the initial monitoring target |
| region by writing to and reading from the files, respectively. |
| |
| contexts/<N>/schemes/ |
| --------------------- |
| |
| For usual DAMON-based data access aware memory management optimizations, users |
| would normally want the system to apply a memory management action to a memory |
| region of a specific access pattern. DAMON receives such formalized operation |
| schemes from the user and applies those to the target memory regions. Users |
| can get and set the schemes by reading from and writing to files under this |
| directory. |
| |
| In the beginning, this directory has only one file, ``nr_schemes``. Writing a |
| number (``N``) to the file creates the number of child directories named ``0`` |
| to ``N-1``. Each directory represents each DAMON-based operation scheme. |
| |
| schemes/<N>/ |
| ------------ |
| |
| In each scheme directory, four directories (``access_pattern``, ``quotas``, |
| ``watermarks``, and ``stats``) and one file (``action``) exist. |
| |
| The ``action`` file is for setting and getting what action you want to apply to |
| memory regions having specific access pattern of the interest. The keywords |
| that can be written to and read from the file and their meaning are as below. |
| |
| - ``willneed``: Call ``madvise()`` for the region with ``MADV_WILLNEED`` |
| - ``cold``: Call ``madvise()`` for the region with ``MADV_COLD`` |
| - ``pageout``: Call ``madvise()`` for the region with ``MADV_PAGEOUT`` |
| - ``hugepage``: Call ``madvise()`` for the region with ``MADV_HUGEPAGE`` |
| - ``nohugepage``: Call ``madvise()`` for the region with ``MADV_NOHUGEPAGE`` |
| - ``lru_prio``: Prioritize the region on its LRU lists. |
| - ``lru_deprio``: Deprioritize the region on its LRU lists. |
| - ``stat``: Do nothing but count the statistics |
| |
| schemes/<N>/access_pattern/ |
| --------------------------- |
| |
| The target access pattern of each DAMON-based operation scheme is constructed |
| with three ranges including the size of the region in bytes, number of |
| monitored accesses per aggregate interval, and number of aggregated intervals |
| for the age of the region. |
| |
| Under the ``access_pattern`` directory, three directories (``sz``, |
| ``nr_accesses``, and ``age``) each having two files (``min`` and ``max``) |
| exist. You can set and get the access pattern for the given scheme by writing |
| to and reading from the ``min`` and ``max`` files under ``sz``, |
| ``nr_accesses``, and ``age`` directories, respectively. |
| |
| schemes/<N>/quotas/ |
| ------------------- |
| |
| Optimal ``target access pattern`` for each ``action`` is workload dependent, so |
| not easy to find. Worse yet, setting a scheme of some action too aggressive |
| can cause severe overhead. To avoid such overhead, users can limit time and |
| size quota for each scheme. In detail, users can ask DAMON to try to use only |
| up to specific time (``time quota``) for applying the action, and to apply the |
| action to only up to specific amount (``size quota``) of memory regions having |
| the target access pattern within a given time interval (``reset interval``). |
| |
| When the quota limit is expected to be exceeded, DAMON prioritizes found memory |
| regions of the ``target access pattern`` based on their size, access frequency, |
| and age. For personalized prioritization, users can set the weights for the |
| three properties. |
| |
| Under ``quotas`` directory, three files (``ms``, ``bytes``, |
| ``reset_interval_ms``) and one directory (``weights``) having three files |
| (``sz_permil``, ``nr_accesses_permil``, and ``age_permil``) in it exist. |
| |
| You can set the ``time quota`` in milliseconds, ``size quota`` in bytes, and |
| ``reset interval`` in milliseconds by writing the values to the three files, |
| respectively. You can also set the prioritization weights for size, access |
| frequency, and age in per-thousand unit by writing the values to the three |
| files under the ``weights`` directory. |
| |
| schemes/<N>/watermarks/ |
| ----------------------- |
| |
| To allow easy activation and deactivation of each scheme based on system |
| status, DAMON provides a feature called watermarks. The feature receives five |
| values called ``metric``, ``interval``, ``high``, ``mid``, and ``low``. The |
| ``metric`` is the system metric such as free memory ratio that can be measured. |
| If the metric value of the system is higher than the value in ``high`` or lower |
| than ``low`` at the memoent, the scheme is deactivated. If the value is lower |
| than ``mid``, the scheme is activated. |
| |
| Under the watermarks directory, five files (``metric``, ``interval_us``, |
| ``high``, ``mid``, and ``low``) for setting each value exist. You can set and |
| get the five values by writing to the files, respectively. |
| |
| Keywords and meanings of those that can be written to the ``metric`` file are |
| as below. |
| |
| - none: Ignore the watermarks |
| - free_mem_rate: System's free memory rate (per thousand) |
| |
| The ``interval`` should written in microseconds unit. |
| |
| .. _sysfs_schemes_stats: |
| |
| schemes/<N>/stats/ |
| ------------------ |
| |
| DAMON counts the total number and bytes of regions that each scheme is tried to |
| be applied, the two numbers for the regions that each scheme is successfully |
| applied, and the total number of the quota limit exceeds. This statistics can |
| be used for online analysis or tuning of the schemes. |
| |
| The statistics can be retrieved by reading the files under ``stats`` directory |
| (``nr_tried``, ``sz_tried``, ``nr_applied``, ``sz_applied``, and |
| ``qt_exceeds``), respectively. The files are not updated in real time, so you |
| should ask DAMON sysfs interface to updte the content of the files for the |
| stats by writing a special keyword, ``update_schemes_stats`` to the relevant |
| ``kdamonds/<N>/state`` file. |
| |
| Example |
| ~~~~~~~ |
| |
| Below commands applies a scheme saying "If a memory region of size in [4KiB, |
| 8KiB] is showing accesses per aggregate interval in [0, 5] for aggregate |
| interval in [10, 20], page out the region. For the paging out, use only up to |
| 10ms per second, and also don't page out more than 1GiB per second. Under the |
| limitation, page out memory regions having longer age first. Also, check the |
| free memory rate of the system every 5 seconds, start the monitoring and paging |
| out when the free memory rate becomes lower than 50%, but stop it if the free |
| memory rate becomes larger than 60%, or lower than 30%". :: |
| |
| # cd <sysfs>/kernel/mm/damon/admin |
| # # populate directories |
| # echo 1 > kdamonds/nr_kdamonds; echo 1 > kdamonds/0/contexts/nr_contexts; |
| # echo 1 > kdamonds/0/contexts/0/schemes/nr_schemes |
| # cd kdamonds/0/contexts/0/schemes/0 |
| # # set the basic access pattern and the action |
| # echo 4096 > access_pattern/sz/min |
| # echo 8192 > access_pattern/sz/max |
| # echo 0 > access_pattern/nr_accesses/min |
| # echo 5 > access_pattern/nr_accesses/max |
| # echo 10 > access_pattern/age/min |
| # echo 20 > access_pattern/age/max |
| # echo pageout > action |
| # # set quotas |
| # echo 10 > quotas/ms |
| # echo $((1024*1024*1024)) > quotas/bytes |
| # echo 1000 > quotas/reset_interval_ms |
| # # set watermark |
| # echo free_mem_rate > watermarks/metric |
| # echo 5000000 > watermarks/interval_us |
| # echo 600 > watermarks/high |
| # echo 500 > watermarks/mid |
| # echo 300 > watermarks/low |
| |
| Please note that it's highly recommended to use user space tools like `damo |
| <https://github.com/awslabs/damo>`_ rather than manually reading and writing |
| the files as above. Above is only for an example. |
| |
| .. _debugfs_interface: |
| |
| debugfs Interface |
| ================= |
| |
| DAMON exports eight files, ``attrs``, ``target_ids``, ``init_regions``, |
| ``schemes``, ``monitor_on``, ``kdamond_pid``, ``mk_contexts`` and |
| ``rm_contexts`` under its debugfs directory, ``<debugfs>/damon/``. |
| |
| |
| Attributes |
| ---------- |
| |
| Users can get and set the ``sampling interval``, ``aggregation interval``, |
| ``update interval``, and min/max number of monitoring target regions by |
| reading from and writing to the ``attrs`` file. To know about the monitoring |
| attributes in detail, please refer to the :doc:`/mm/damon/design`. For |
| example, below commands set those values to 5 ms, 100 ms, 1,000 ms, 10 and |
| 1000, and then check it again:: |
| |
| # cd <debugfs>/damon |
| # echo 5000 100000 1000000 10 1000 > attrs |
| # cat attrs |
| 5000 100000 1000000 10 1000 |
| |
| |
| Target IDs |
| ---------- |
| |
| Some types of address spaces supports multiple monitoring target. For example, |
| the virtual memory address spaces monitoring can have multiple processes as the |
| monitoring targets. Users can set the targets by writing relevant id values of |
| the targets to, and get the ids of the current targets by reading from the |
| ``target_ids`` file. In case of the virtual address spaces monitoring, the |
| values should be pids of the monitoring target processes. For example, below |
| commands set processes having pids 42 and 4242 as the monitoring targets and |
| check it again:: |
| |
| # cd <debugfs>/damon |
| # echo 42 4242 > target_ids |
| # cat target_ids |
| 42 4242 |
| |
| Users can also monitor the physical memory address space of the system by |
| writing a special keyword, "``paddr\n``" to the file. Because physical address |
| space monitoring doesn't support multiple targets, reading the file will show a |
| fake value, ``42``, as below:: |
| |
| # cd <debugfs>/damon |
| # echo paddr > target_ids |
| # cat target_ids |
| 42 |
| |
| Note that setting the target ids doesn't start the monitoring. |
| |
| |
| Initial Monitoring Target Regions |
| --------------------------------- |
| |
| In case of the virtual address space monitoring, DAMON automatically sets and |
| updates the monitoring target regions so that entire memory mappings of target |
| processes can be covered. However, users can want to limit the monitoring |
| region to specific address ranges, such as the heap, the stack, or specific |
| file-mapped area. Or, some users can know the initial access pattern of their |
| workloads and therefore want to set optimal initial regions for the 'adaptive |
| regions adjustment'. |
| |
| In contrast, DAMON do not automatically sets and updates the monitoring target |
| regions in case of physical memory monitoring. Therefore, users should set the |
| monitoring target regions by themselves. |
| |
| In such cases, users can explicitly set the initial monitoring target regions |
| as they want, by writing proper values to the ``init_regions`` file. Each line |
| of the input should represent one region in below form.:: |
| |
| <target idx> <start address> <end address> |
| |
| The ``target idx`` should be the index of the target in ``target_ids`` file, |
| starting from ``0``, and the regions should be passed in address order. For |
| example, below commands will set a couple of address ranges, ``1-100`` and |
| ``100-200`` as the initial monitoring target region of pid 42, which is the |
| first one (index ``0``) in ``target_ids``, and another couple of address |
| ranges, ``20-40`` and ``50-100`` as that of pid 4242, which is the second one |
| (index ``1``) in ``target_ids``.:: |
| |
| # cd <debugfs>/damon |
| # cat target_ids |
| 42 4242 |
| # echo "0 1 100 |
| 0 100 200 |
| 1 20 40 |
| 1 50 100" > init_regions |
| |
| Note that this sets the initial monitoring target regions only. In case of |
| virtual memory monitoring, DAMON will automatically updates the boundary of the |
| regions after one ``update interval``. Therefore, users should set the |
| ``update interval`` large enough in this case, if they don't want the |
| update. |
| |
| |
| Schemes |
| ------- |
| |
| For usual DAMON-based data access aware memory management optimizations, users |
| would simply want the system to apply a memory management action to a memory |
| region of a specific access pattern. DAMON receives such formalized operation |
| schemes from the user and applies those to the target processes. |
| |
| Users can get and set the schemes by reading from and writing to ``schemes`` |
| debugfs file. Reading the file also shows the statistics of each scheme. To |
| the file, each of the schemes should be represented in each line in below |
| form:: |
| |
| <target access pattern> <action> <quota> <watermarks> |
| |
| You can disable schemes by simply writing an empty string to the file. |
| |
| Target Access Pattern |
| ~~~~~~~~~~~~~~~~~~~~~ |
| |
| The ``<target access pattern>`` is constructed with three ranges in below |
| form:: |
| |
| min-size max-size min-acc max-acc min-age max-age |
| |
| Specifically, bytes for the size of regions (``min-size`` and ``max-size``), |
| number of monitored accesses per aggregate interval for access frequency |
| (``min-acc`` and ``max-acc``), number of aggregate intervals for the age of |
| regions (``min-age`` and ``max-age``) are specified. Note that the ranges are |
| closed interval. |
| |
| Action |
| ~~~~~~ |
| |
| The ``<action>`` is a predefined integer for memory management actions, which |
| DAMON will apply to the regions having the target access pattern. The |
| supported numbers and their meanings are as below. |
| |
| - 0: Call ``madvise()`` for the region with ``MADV_WILLNEED`` |
| - 1: Call ``madvise()`` for the region with ``MADV_COLD`` |
| - 2: Call ``madvise()`` for the region with ``MADV_PAGEOUT`` |
| - 3: Call ``madvise()`` for the region with ``MADV_HUGEPAGE`` |
| - 4: Call ``madvise()`` for the region with ``MADV_NOHUGEPAGE`` |
| - 5: Do nothing but count the statistics |
| |
| Quota |
| ~~~~~ |
| |
| Optimal ``target access pattern`` for each ``action`` is workload dependent, so |
| not easy to find. Worse yet, setting a scheme of some action too aggressive |
| can cause severe overhead. To avoid such overhead, users can limit time and |
| size quota for the scheme via the ``<quota>`` in below form:: |
| |
| <ms> <sz> <reset interval> <priority weights> |
| |
| This makes DAMON to try to use only up to ``<ms>`` milliseconds for applying |
| the action to memory regions of the ``target access pattern`` within the |
| ``<reset interval>`` milliseconds, and to apply the action to only up to |
| ``<sz>`` bytes of memory regions within the ``<reset interval>``. Setting both |
| ``<ms>`` and ``<sz>`` zero disables the quota limits. |
| |
| When the quota limit is expected to be exceeded, DAMON prioritizes found memory |
| regions of the ``target access pattern`` based on their size, access frequency, |
| and age. For personalized prioritization, users can set the weights for the |
| three properties in ``<priority weights>`` in below form:: |
| |
| <size weight> <access frequency weight> <age weight> |
| |
| Watermarks |
| ~~~~~~~~~~ |
| |
| Some schemes would need to run based on current value of the system's specific |
| metrics like free memory ratio. For such cases, users can specify watermarks |
| for the condition.:: |
| |
| <metric> <check interval> <high mark> <middle mark> <low mark> |
| |
| ``<metric>`` is a predefined integer for the metric to be checked. The |
| supported numbers and their meanings are as below. |
| |
| - 0: Ignore the watermarks |
| - 1: System's free memory rate (per thousand) |
| |
| The value of the metric is checked every ``<check interval>`` microseconds. |
| |
| If the value is higher than ``<high mark>`` or lower than ``<low mark>``, the |
| scheme is deactivated. If the value is lower than ``<mid mark>``, the scheme |
| is activated. |
| |
| .. _damos_stats: |
| |
| Statistics |
| ~~~~~~~~~~ |
| |
| It also counts the total number and bytes of regions that each scheme is tried |
| to be applied, the two numbers for the regions that each scheme is successfully |
| applied, and the total number of the quota limit exceeds. This statistics can |
| be used for online analysis or tuning of the schemes. |
| |
| The statistics can be shown by reading the ``schemes`` file. Reading the file |
| will show each scheme you entered in each line, and the five numbers for the |
| statistics will be added at the end of each line. |
| |
| Example |
| ~~~~~~~ |
| |
| Below commands applies a scheme saying "If a memory region of size in [4KiB, |
| 8KiB] is showing accesses per aggregate interval in [0, 5] for aggregate |
| interval in [10, 20], page out the region. For the paging out, use only up to |
| 10ms per second, and also don't page out more than 1GiB per second. Under the |
| limitation, page out memory regions having longer age first. Also, check the |
| free memory rate of the system every 5 seconds, start the monitoring and paging |
| out when the free memory rate becomes lower than 50%, but stop it if the free |
| memory rate becomes larger than 60%, or lower than 30%".:: |
| |
| # cd <debugfs>/damon |
| # scheme="4096 8192 0 5 10 20 2" # target access pattern and action |
| # scheme+=" 10 $((1024*1024*1024)) 1000" # quotas |
| # scheme+=" 0 0 100" # prioritization weights |
| # scheme+=" 1 5000000 600 500 300" # watermarks |
| # echo "$scheme" > schemes |
| |
| |
| Turning On/Off |
| -------------- |
| |
| Setting the files as described above doesn't incur effect unless you explicitly |
| start the monitoring. You can start, stop, and check the current status of the |
| monitoring by writing to and reading from the ``monitor_on`` file. Writing |
| ``on`` to the file starts the monitoring of the targets with the attributes. |
| Writing ``off`` to the file stops those. DAMON also stops if every target |
| process is terminated. Below example commands turn on, off, and check the |
| status of DAMON:: |
| |
| # cd <debugfs>/damon |
| # echo on > monitor_on |
| # echo off > monitor_on |
| # cat monitor_on |
| off |
| |
| Please note that you cannot write to the above-mentioned debugfs files while |
| the monitoring is turned on. If you write to the files while DAMON is running, |
| an error code such as ``-EBUSY`` will be returned. |
| |
| |
| Monitoring Thread PID |
| --------------------- |
| |
| DAMON does requested monitoring with a kernel thread called ``kdamond``. You |
| can get the pid of the thread by reading the ``kdamond_pid`` file. When the |
| monitoring is turned off, reading the file returns ``none``. :: |
| |
| # cd <debugfs>/damon |
| # cat monitor_on |
| off |
| # cat kdamond_pid |
| none |
| # echo on > monitor_on |
| # cat kdamond_pid |
| 18594 |
| |
| |
| Using Multiple Monitoring Threads |
| --------------------------------- |
| |
| One ``kdamond`` thread is created for each monitoring context. You can create |
| and remove monitoring contexts for multiple ``kdamond`` required use case using |
| the ``mk_contexts`` and ``rm_contexts`` files. |
| |
| Writing the name of the new context to the ``mk_contexts`` file creates a |
| directory of the name on the DAMON debugfs directory. The directory will have |
| DAMON debugfs files for the context. :: |
| |
| # cd <debugfs>/damon |
| # ls foo |
| # ls: cannot access 'foo': No such file or directory |
| # echo foo > mk_contexts |
| # ls foo |
| # attrs init_regions kdamond_pid schemes target_ids |
| |
| If the context is not needed anymore, you can remove it and the corresponding |
| directory by putting the name of the context to the ``rm_contexts`` file. :: |
| |
| # echo foo > rm_contexts |
| # ls foo |
| # ls: cannot access 'foo': No such file or directory |
| |
| Note that ``mk_contexts``, ``rm_contexts``, and ``monitor_on`` files are in the |
| root directory only. |
| |
| |
| .. _tracepoint: |
| |
| Tracepoint for Monitoring Results |
| ================================= |
| |
| DAMON provides the monitoring results via a tracepoint, |
| ``damon:damon_aggregated``. While the monitoring is turned on, you could |
| record the tracepoint events and show results using tracepoint supporting tools |
| like ``perf``. For example:: |
| |
| # echo on > monitor_on |
| # perf record -e damon:damon_aggregated & |
| # sleep 5 |
| # kill 9 $(pidof perf) |
| # echo off > monitor_on |
| # perf script |