1.. SPDX-License-Identifier: GPL-2.0 2 3=============== 4Detailed Usages 5=============== 6 7DAMON provides below interfaces for different users. 8 9- *DAMON user space tool.* 10 `This <https://github.com/awslabs/damo>`_ is for privileged people such as 11 system administrators who want a just-working human-friendly interface. 12 Using this, users can use the DAMON’s major features in a human-friendly way. 13 It may not be highly tuned for special cases, though. For more detail, 14 please refer to its `usage document 15 <https://github.com/awslabs/damo/blob/next/USAGE.md>`_. 16- *sysfs interface.* 17 :ref:`This <sysfs_interface>` is for privileged user space programmers who 18 want more optimized use of DAMON. Using this, users can use DAMON’s major 19 features by reading from and writing to special sysfs files. Therefore, 20 you can write and use your personalized DAMON sysfs wrapper programs that 21 reads/writes the sysfs files instead of you. The `DAMON user space tool 22 <https://github.com/awslabs/damo>`_ is one example of such programs. 23- *debugfs interface. (DEPRECATED!)* 24 :ref:`This <debugfs_interface>` is almost identical to :ref:`sysfs interface 25 <sysfs_interface>`. This is deprecated, so users should move to the 26 :ref:`sysfs interface <sysfs_interface>`. If you depend on this and cannot 27 move, please report your usecase to damon@lists.linux.dev and 28 linux-mm@kvack.org. 29- *Kernel Space Programming Interface.* 30 :doc:`This </mm/damon/api>` is for kernel space programmers. Using this, 31 users can utilize every feature of DAMON most flexibly and efficiently by 32 writing kernel space DAMON application programs for you. You can even extend 33 DAMON for various address spaces. For detail, please refer to the interface 34 :doc:`document </mm/damon/api>`. 35 36.. _sysfs_interface: 37 38sysfs Interface 39=============== 40 41DAMON sysfs interface is built when ``CONFIG_DAMON_SYSFS`` is defined. It 42creates multiple directories and files under its sysfs directory, 43``<sysfs>/kernel/mm/damon/``. You can control DAMON by writing to and reading 44from the files under the directory. 45 46For a short example, users can monitor the virtual address space of a given 47workload as below. :: 48 49 # cd /sys/kernel/mm/damon/admin/ 50 # echo 1 > kdamonds/nr_kdamonds && echo 1 > kdamonds/0/contexts/nr_contexts 51 # echo vaddr > kdamonds/0/contexts/0/operations 52 # echo 1 > kdamonds/0/contexts/0/targets/nr_targets 53 # echo $(pidof <workload>) > kdamonds/0/contexts/0/targets/0/pid_target 54 # echo on > kdamonds/0/state 55 56Files Hierarchy 57--------------- 58 59The files hierarchy of DAMON sysfs interface is shown below. In the below 60figure, parents-children relations are represented with indentations, each 61directory is having ``/`` suffix, and files in each directory are separated by 62comma (","). :: 63 64 /sys/kernel/mm/damon/admin 65 │ kdamonds/nr_kdamonds 66 │ │ 0/state,pid 67 │ │ │ contexts/nr_contexts 68 │ │ │ │ 0/avail_operations,operations 69 │ │ │ │ │ monitoring_attrs/ 70 │ │ │ │ │ │ intervals/sample_us,aggr_us,update_us 71 │ │ │ │ │ │ nr_regions/min,max 72 │ │ │ │ │ targets/nr_targets 73 │ │ │ │ │ │ 0/pid_target 74 │ │ │ │ │ │ │ regions/nr_regions 75 │ │ │ │ │ │ │ │ 0/start,end 76 │ │ │ │ │ │ │ │ ... 77 │ │ │ │ │ │ ... 78 │ │ │ │ │ schemes/nr_schemes 79 │ │ │ │ │ │ 0/action 80 │ │ │ │ │ │ │ access_pattern/ 81 │ │ │ │ │ │ │ │ sz/min,max 82 │ │ │ │ │ │ │ │ nr_accesses/min,max 83 │ │ │ │ │ │ │ │ age/min,max 84 │ │ │ │ │ │ │ quotas/ms,bytes,reset_interval_ms 85 │ │ │ │ │ │ │ │ weights/sz_permil,nr_accesses_permil,age_permil 86 │ │ │ │ │ │ │ watermarks/metric,interval_us,high,mid,low 87 │ │ │ │ │ │ │ filters/nr_filters 88 │ │ │ │ │ │ │ │ 0/type,matching,memcg_id 89 │ │ │ │ │ │ │ stats/nr_tried,sz_tried,nr_applied,sz_applied,qt_exceeds 90 │ │ │ │ │ │ │ tried_regions/total_bytes 91 │ │ │ │ │ │ │ │ 0/start,end,nr_accesses,age 92 │ │ │ │ │ │ │ │ ... 93 │ │ │ │ │ │ ... 94 │ │ │ │ ... 95 │ │ ... 96 97Root 98---- 99 100The root of the DAMON sysfs interface is ``<sysfs>/kernel/mm/damon/``, and it 101has one directory named ``admin``. The directory contains the files for 102privileged user space programs' control of DAMON. User space tools or daemons 103having the root permission could use this directory. 104 105kdamonds/ 106--------- 107 108The monitoring-related information including request specifications and results 109are called DAMON context. DAMON executes each context with a kernel thread 110called kdamond, and multiple kdamonds could run in parallel. 111 112Under the ``admin`` directory, one directory, ``kdamonds``, which has files for 113controlling the kdamonds exist. In the beginning, this directory has only one 114file, ``nr_kdamonds``. Writing a number (``N``) to the file creates the number 115of child directories named ``0`` to ``N-1``. Each directory represents each 116kdamond. 117 118kdamonds/<N>/ 119------------- 120 121In each kdamond directory, two files (``state`` and ``pid``) and one directory 122(``contexts``) exist. 123 124Reading ``state`` returns ``on`` if the kdamond is currently running, or 125``off`` if it is not running. Writing ``on`` or ``off`` makes the kdamond be 126in the state. Writing ``commit`` to the ``state`` file makes kdamond reads the 127user inputs in the sysfs files except ``state`` file again. Writing 128``update_schemes_stats`` to ``state`` file updates the contents of stats files 129for each DAMON-based operation scheme of the kdamond. For details of the 130stats, please refer to :ref:`stats section <sysfs_schemes_stats>`. 131 132Writing ``update_schemes_tried_regions`` to ``state`` file updates the 133DAMON-based operation scheme action tried regions directory for each 134DAMON-based operation scheme of the kdamond. Writing 135``update_schemes_tried_bytes`` to ``state`` file updates only 136``.../tried_regions/total_bytes`` files. Writing 137``clear_schemes_tried_regions`` to ``state`` file clears the DAMON-based 138operating scheme action tried regions directory for each DAMON-based operation 139scheme of the kdamond. For details of the DAMON-based operation scheme action 140tried regions directory, please refer to :ref:`tried_regions section 141<sysfs_schemes_tried_regions>`. 142 143If the state is ``on``, reading ``pid`` shows the pid of the kdamond thread. 144 145``contexts`` directory contains files for controlling the monitoring contexts 146that this kdamond will execute. 147 148kdamonds/<N>/contexts/ 149---------------------- 150 151In the beginning, this directory has only one file, ``nr_contexts``. Writing a 152number (``N``) to the file creates the number of child directories named as 153``0`` to ``N-1``. Each directory represents each monitoring context. At the 154moment, only one context per kdamond is supported, so only ``0`` or ``1`` can 155be written to the file. 156 157.. _sysfs_contexts: 158 159contexts/<N>/ 160------------- 161 162In each context directory, two files (``avail_operations`` and ``operations``) 163and three directories (``monitoring_attrs``, ``targets``, and ``schemes``) 164exist. 165 166DAMON supports multiple types of monitoring operations, including those for 167virtual address space and the physical address space. You can get the list of 168available monitoring operations set on the currently running kernel by reading 169``avail_operations`` file. Based on the kernel configuration, the file will 170list some or all of below keywords. 171 172 - vaddr: Monitor virtual address spaces of specific processes 173 - fvaddr: Monitor fixed virtual address ranges 174 - paddr: Monitor the physical address space of the system 175 176Please refer to :ref:`regions sysfs directory <sysfs_regions>` for detailed 177differences between the operations sets in terms of the monitoring target 178regions. 179 180You can set and get what type of monitoring operations DAMON will use for the 181context by writing one of the keywords listed in ``avail_operations`` file and 182reading from the ``operations`` file. 183 184.. _sysfs_monitoring_attrs: 185 186contexts/<N>/monitoring_attrs/ 187------------------------------ 188 189Files for specifying attributes of the monitoring including required quality 190and efficiency of the monitoring are in ``monitoring_attrs`` directory. 191Specifically, two directories, ``intervals`` and ``nr_regions`` exist in this 192directory. 193 194Under ``intervals`` directory, three files for DAMON's sampling interval 195(``sample_us``), aggregation interval (``aggr_us``), and update interval 196(``update_us``) exist. You can set and get the values in micro-seconds by 197writing to and reading from the files. 198 199Under ``nr_regions`` directory, two files for the lower-bound and upper-bound 200of DAMON's monitoring regions (``min`` and ``max``, respectively), which 201controls the monitoring overhead, exist. You can set and get the values by 202writing to and rading from the files. 203 204For more details about the intervals and monitoring regions range, please refer 205to the Design document (:doc:`/mm/damon/design`). 206 207contexts/<N>/targets/ 208--------------------- 209 210In the beginning, this directory has only one file, ``nr_targets``. Writing a 211number (``N``) to the file creates the number of child directories named ``0`` 212to ``N-1``. Each directory represents each monitoring target. 213 214targets/<N>/ 215------------ 216 217In each target directory, one file (``pid_target``) and one directory 218(``regions``) exist. 219 220If you wrote ``vaddr`` to the ``contexts/<N>/operations``, each target should 221be a process. You can specify the process to DAMON by writing the pid of the 222process to the ``pid_target`` file. 223 224.. _sysfs_regions: 225 226targets/<N>/regions 227------------------- 228 229When ``vaddr`` monitoring operations set is being used (``vaddr`` is written to 230the ``contexts/<N>/operations`` file), DAMON automatically sets and updates the 231monitoring target regions so that entire memory mappings of target processes 232can be covered. However, users could want to set the initial monitoring region 233to specific address ranges. 234 235In contrast, DAMON do not automatically sets and updates the monitoring target 236regions when ``fvaddr`` or ``paddr`` monitoring operations sets are being used 237(``fvaddr`` or ``paddr`` have written to the ``contexts/<N>/operations``). 238Therefore, users should set the monitoring target regions by themselves in the 239cases. 240 241For such cases, users can explicitly set the initial monitoring target regions 242as they want, by writing proper values to the files under this directory. 243 244In the beginning, this directory has only one file, ``nr_regions``. Writing a 245number (``N``) to the file creates the number of child directories named ``0`` 246to ``N-1``. Each directory represents each initial monitoring target region. 247 248regions/<N>/ 249------------ 250 251In each region directory, you will find two files (``start`` and ``end``). You 252can set and get the start and end addresses of the initial monitoring target 253region by writing to and reading from the files, respectively. 254 255Each region should not overlap with others. ``end`` of directory ``N`` should 256be equal or smaller than ``start`` of directory ``N+1``. 257 258contexts/<N>/schemes/ 259--------------------- 260 261The directory for DAMON-based Operation Schemes (:ref:`DAMOS 262<damon_design_damos>`). Users can get and set the schemes by reading from and 263writing to files under this directory. 264 265In the beginning, this directory has only one file, ``nr_schemes``. Writing a 266number (``N``) to the file creates the number of child directories named ``0`` 267to ``N-1``. Each directory represents each DAMON-based operation scheme. 268 269schemes/<N>/ 270------------ 271 272In each scheme directory, five directories (``access_pattern``, ``quotas``, 273``watermarks``, ``filters``, ``stats``, and ``tried_regions``) and one file 274(``action``) exist. 275 276The ``action`` file is for setting and getting the scheme's :ref:`action 277<damon_design_damos_action>`. The keywords that can be written to and read 278from the file and their meaning are as below. 279 280Note that support of each action depends on the running DAMON operations set 281:ref:`implementation <sysfs_contexts>`. 282 283 - ``willneed``: Call ``madvise()`` for the region with ``MADV_WILLNEED``. 284 Supported by ``vaddr`` and ``fvaddr`` operations set. 285 - ``cold``: Call ``madvise()`` for the region with ``MADV_COLD``. 286 Supported by ``vaddr`` and ``fvaddr`` operations set. 287 - ``pageout``: Call ``madvise()`` for the region with ``MADV_PAGEOUT``. 288 Supported by ``vaddr``, ``fvaddr`` and ``paddr`` operations set. 289 - ``hugepage``: Call ``madvise()`` for the region with ``MADV_HUGEPAGE``. 290 Supported by ``vaddr`` and ``fvaddr`` operations set. 291 - ``nohugepage``: Call ``madvise()`` for the region with ``MADV_NOHUGEPAGE``. 292 Supported by ``vaddr`` and ``fvaddr`` operations set. 293 - ``lru_prio``: Prioritize the region on its LRU lists. 294 Supported by ``paddr`` operations set. 295 - ``lru_deprio``: Deprioritize the region on its LRU lists. 296 Supported by ``paddr`` operations set. 297 - ``stat``: Do nothing but count the statistics. 298 Supported by all operations sets. 299 300schemes/<N>/access_pattern/ 301--------------------------- 302 303The directory for the target access :ref:`pattern 304<damon_design_damos_access_pattern>` of the given DAMON-based operation scheme. 305 306Under the ``access_pattern`` directory, three directories (``sz``, 307``nr_accesses``, and ``age``) each having two files (``min`` and ``max``) 308exist. You can set and get the access pattern for the given scheme by writing 309to and reading from the ``min`` and ``max`` files under ``sz``, 310``nr_accesses``, and ``age`` directories, respectively. Note that the ``min`` 311and the ``max`` form a closed interval. 312 313schemes/<N>/quotas/ 314------------------- 315 316The directory for the :ref:`quotas <damon_design_damos_quotas>` of the given 317DAMON-based operation scheme. 318 319Under ``quotas`` directory, three files (``ms``, ``bytes``, 320``reset_interval_ms``) and one directory (``weights``) having three files 321(``sz_permil``, ``nr_accesses_permil``, and ``age_permil``) in it exist. 322 323You can set the ``time quota`` in milliseconds, ``size quota`` in bytes, and 324``reset interval`` in milliseconds by writing the values to the three files, 325respectively. Then, DAMON tries to use only up to ``time quota`` milliseconds 326for applying the ``action`` to memory regions of the ``access_pattern``, and to 327apply the action to only up to ``bytes`` bytes of memory regions within the 328``reset_interval_ms``. Setting both ``ms`` and ``bytes`` zero disables the 329quota limits. 330 331You can also set the :ref:`prioritization weights 332<damon_design_damos_quotas_prioritization>` for size, access frequency, and age 333in per-thousand unit by writing the values to the three files under the 334``weights`` directory. 335 336schemes/<N>/watermarks/ 337----------------------- 338 339The directory for the :ref:`watermarks <damon_design_damos_watermarks>` of the 340given DAMON-based operation scheme. 341 342Under the watermarks directory, five files (``metric``, ``interval_us``, 343``high``, ``mid``, and ``low``) for setting the metric, the time interval 344between check of the metric, and the three watermarks exist. You can set and 345get the five values by writing to the files, respectively. 346 347Keywords and meanings of those that can be written to the ``metric`` file are 348as below. 349 350 - none: Ignore the watermarks 351 - free_mem_rate: System's free memory rate (per thousand) 352 353The ``interval`` should written in microseconds unit. 354 355schemes/<N>/filters/ 356-------------------- 357 358The directory for the :ref:`filters <damon_design_damos_filters>` of the given 359DAMON-based operation scheme. 360 361In the beginning, this directory has only one file, ``nr_filters``. Writing a 362number (``N``) to the file creates the number of child directories named ``0`` 363to ``N-1``. Each directory represents each filter. The filters are evaluated 364in the numeric order. 365 366Each filter directory contains six files, namely ``type``, ``matcing``, 367``memcg_path``, ``addr_start``, ``addr_end``, and ``target_idx``. To ``type`` 368file, you can write one of four special keywords: ``anon`` for anonymous pages, 369``memcg`` for specific memory cgroup, ``addr`` for specific address range (an 370open-ended interval), or ``target`` for specific DAMON monitoring target 371filtering. In case of the memory cgroup filtering, you can specify the memory 372cgroup of the interest by writing the path of the memory cgroup from the 373cgroups mount point to ``memcg_path`` file. In case of the address range 374filtering, you can specify the start and end address of the range to 375``addr_start`` and ``addr_end`` files, respectively. For the DAMON monitoring 376target filtering, you can specify the index of the target between the list of 377the DAMON context's monitoring targets list to ``target_idx`` file. You can 378write ``Y`` or ``N`` to ``matching`` file to filter out pages that does or does 379not match to the type, respectively. Then, the scheme's action will not be 380applied to the pages that specified to be filtered out. 381 382For example, below restricts a DAMOS action to be applied to only non-anonymous 383pages of all memory cgroups except ``/having_care_already``.:: 384 385 # echo 2 > nr_filters 386 # # filter out anonymous pages 387 echo anon > 0/type 388 echo Y > 0/matching 389 # # further filter out all cgroups except one at '/having_care_already' 390 echo memcg > 1/type 391 echo /having_care_already > 1/memcg_path 392 echo N > 1/matching 393 394Note that ``anon`` and ``memcg`` filters are currently supported only when 395``paddr`` `implementation <sysfs_contexts>` is being used. 396 397Also, memory regions that are filtered out by ``addr`` or ``target`` filters 398are not counted as the scheme has tried to those, while regions that filtered 399out by other type filters are counted as the scheme has tried to. The 400difference is applied to :ref:`stats <damos_stats>` and 401:ref:`tried regions <sysfs_schemes_tried_regions>`. 402 403.. _sysfs_schemes_stats: 404 405schemes/<N>/stats/ 406------------------ 407 408DAMON counts the total number and bytes of regions that each scheme is tried to 409be applied, the two numbers for the regions that each scheme is successfully 410applied, and the total number of the quota limit exceeds. This statistics can 411be used for online analysis or tuning of the schemes. 412 413The statistics can be retrieved by reading the files under ``stats`` directory 414(``nr_tried``, ``sz_tried``, ``nr_applied``, ``sz_applied``, and 415``qt_exceeds``), respectively. The files are not updated in real time, so you 416should ask DAMON sysfs interface to update the content of the files for the 417stats by writing a special keyword, ``update_schemes_stats`` to the relevant 418``kdamonds/<N>/state`` file. 419 420.. _sysfs_schemes_tried_regions: 421 422schemes/<N>/tried_regions/ 423-------------------------- 424 425This directory initially has one file, ``total_bytes``. 426 427When a special keyword, ``update_schemes_tried_regions``, is written to the 428relevant ``kdamonds/<N>/state`` file, DAMON updates the ``total_bytes`` file so 429that reading it returns the total size of the scheme tried regions, and creates 430directories named integer starting from ``0`` under this directory. Each 431directory contains files exposing detailed information about each of the memory 432region that the corresponding scheme's ``action`` has tried to be applied under 433this directory, during next :ref:`aggregation interval 434<sysfs_monitoring_attrs>`. The information includes address range, 435``nr_accesses``, and ``age`` of the region. 436 437Writing ``update_schemes_tried_bytes`` to the relevant ``kdamonds/<N>/state`` 438file will only update the ``total_bytes`` file, and will not create the 439subdirectories. 440 441The directories will be removed when another special keyword, 442``clear_schemes_tried_regions``, is written to the relevant 443``kdamonds/<N>/state`` file. 444 445The expected usage of this directory is investigations of schemes' behaviors, 446and query-like efficient data access monitoring results retrievals. For the 447latter use case, in particular, users can set the ``action`` as ``stat`` and 448set the ``access pattern`` as their interested pattern that they want to query. 449 450tried_regions/<N>/ 451------------------ 452 453In each region directory, you will find four files (``start``, ``end``, 454``nr_accesses``, and ``age``). Reading the files will show the start and end 455addresses, ``nr_accesses``, and ``age`` of the region that corresponding 456DAMON-based operation scheme ``action`` has tried to be applied. 457 458Example 459~~~~~~~ 460 461Below commands applies a scheme saying "If a memory region of size in [4KiB, 4628KiB] is showing accesses per aggregate interval in [0, 5] for aggregate 463interval in [10, 20], page out the region. For the paging out, use only up to 46410ms per second, and also don't page out more than 1GiB per second. Under the 465limitation, page out memory regions having longer age first. Also, check the 466free memory rate of the system every 5 seconds, start the monitoring and paging 467out when the free memory rate becomes lower than 50%, but stop it if the free 468memory rate becomes larger than 60%, or lower than 30%". :: 469 470 # cd <sysfs>/kernel/mm/damon/admin 471 # # populate directories 472 # echo 1 > kdamonds/nr_kdamonds; echo 1 > kdamonds/0/contexts/nr_contexts; 473 # echo 1 > kdamonds/0/contexts/0/schemes/nr_schemes 474 # cd kdamonds/0/contexts/0/schemes/0 475 # # set the basic access pattern and the action 476 # echo 4096 > access_pattern/sz/min 477 # echo 8192 > access_pattern/sz/max 478 # echo 0 > access_pattern/nr_accesses/min 479 # echo 5 > access_pattern/nr_accesses/max 480 # echo 10 > access_pattern/age/min 481 # echo 20 > access_pattern/age/max 482 # echo pageout > action 483 # # set quotas 484 # echo 10 > quotas/ms 485 # echo $((1024*1024*1024)) > quotas/bytes 486 # echo 1000 > quotas/reset_interval_ms 487 # # set watermark 488 # echo free_mem_rate > watermarks/metric 489 # echo 5000000 > watermarks/interval_us 490 # echo 600 > watermarks/high 491 # echo 500 > watermarks/mid 492 # echo 300 > watermarks/low 493 494Please note that it's highly recommended to use user space tools like `damo 495<https://github.com/awslabs/damo>`_ rather than manually reading and writing 496the files as above. Above is only for an example. 497 498.. _debugfs_interface: 499 500debugfs Interface (DEPRECATED!) 501=============================== 502 503.. note:: 504 505 THIS IS DEPRECATED! 506 507 DAMON debugfs interface is deprecated, so users should move to the 508 :ref:`sysfs interface <sysfs_interface>`. If you depend on this and cannot 509 move, please report your usecase to damon@lists.linux.dev and 510 linux-mm@kvack.org. 511 512DAMON exports eight files, ``attrs``, ``target_ids``, ``init_regions``, 513``schemes``, ``monitor_on``, ``kdamond_pid``, ``mk_contexts`` and 514``rm_contexts`` under its debugfs directory, ``<debugfs>/damon/``. 515 516 517Attributes 518---------- 519 520Users can get and set the ``sampling interval``, ``aggregation interval``, 521``update interval``, and min/max number of monitoring target regions by 522reading from and writing to the ``attrs`` file. To know about the monitoring 523attributes in detail, please refer to the :doc:`/mm/damon/design`. For 524example, below commands set those values to 5 ms, 100 ms, 1,000 ms, 10 and 5251000, and then check it again:: 526 527 # cd <debugfs>/damon 528 # echo 5000 100000 1000000 10 1000 > attrs 529 # cat attrs 530 5000 100000 1000000 10 1000 531 532 533Target IDs 534---------- 535 536Some types of address spaces supports multiple monitoring target. For example, 537the virtual memory address spaces monitoring can have multiple processes as the 538monitoring targets. Users can set the targets by writing relevant id values of 539the targets to, and get the ids of the current targets by reading from the 540``target_ids`` file. In case of the virtual address spaces monitoring, the 541values should be pids of the monitoring target processes. For example, below 542commands set processes having pids 42 and 4242 as the monitoring targets and 543check it again:: 544 545 # cd <debugfs>/damon 546 # echo 42 4242 > target_ids 547 # cat target_ids 548 42 4242 549 550Users can also monitor the physical memory address space of the system by 551writing a special keyword, "``paddr\n``" to the file. Because physical address 552space monitoring doesn't support multiple targets, reading the file will show a 553fake value, ``42``, as below:: 554 555 # cd <debugfs>/damon 556 # echo paddr > target_ids 557 # cat target_ids 558 42 559 560Note that setting the target ids doesn't start the monitoring. 561 562 563Initial Monitoring Target Regions 564--------------------------------- 565 566In case of the virtual address space monitoring, DAMON automatically sets and 567updates the monitoring target regions so that entire memory mappings of target 568processes can be covered. However, users can want to limit the monitoring 569region to specific address ranges, such as the heap, the stack, or specific 570file-mapped area. Or, some users can know the initial access pattern of their 571workloads and therefore want to set optimal initial regions for the 'adaptive 572regions adjustment'. 573 574In contrast, DAMON do not automatically sets and updates the monitoring target 575regions in case of physical memory monitoring. Therefore, users should set the 576monitoring target regions by themselves. 577 578In such cases, users can explicitly set the initial monitoring target regions 579as they want, by writing proper values to the ``init_regions`` file. The input 580should be a sequence of three integers separated by white spaces that represent 581one region in below form.:: 582 583 <target idx> <start address> <end address> 584 585The ``target idx`` should be the index of the target in ``target_ids`` file, 586starting from ``0``, and the regions should be passed in address order. For 587example, below commands will set a couple of address ranges, ``1-100`` and 588``100-200`` as the initial monitoring target region of pid 42, which is the 589first one (index ``0``) in ``target_ids``, and another couple of address 590ranges, ``20-40`` and ``50-100`` as that of pid 4242, which is the second one 591(index ``1``) in ``target_ids``.:: 592 593 # cd <debugfs>/damon 594 # cat target_ids 595 42 4242 596 # echo "0 1 100 \ 597 0 100 200 \ 598 1 20 40 \ 599 1 50 100" > init_regions 600 601Note that this sets the initial monitoring target regions only. In case of 602virtual memory monitoring, DAMON will automatically updates the boundary of the 603regions after one ``update interval``. Therefore, users should set the 604``update interval`` large enough in this case, if they don't want the 605update. 606 607 608Schemes 609------- 610 611Users can get and set the DAMON-based operation :ref:`schemes 612<damon_design_damos>` by reading from and writing to ``schemes`` debugfs file. 613Reading the file also shows the statistics of each scheme. To the file, each 614of the schemes should be represented in each line in below form:: 615 616 <target access pattern> <action> <quota> <watermarks> 617 618You can disable schemes by simply writing an empty string to the file. 619 620Target Access Pattern 621~~~~~~~~~~~~~~~~~~~~~ 622 623The target access :ref:`pattern <damon_design_damos_access_pattern>` of the 624scheme. The ``<target access pattern>`` is constructed with three ranges in 625below form:: 626 627 min-size max-size min-acc max-acc min-age max-age 628 629Specifically, bytes for the size of regions (``min-size`` and ``max-size``), 630number of monitored accesses per aggregate interval for access frequency 631(``min-acc`` and ``max-acc``), number of aggregate intervals for the age of 632regions (``min-age`` and ``max-age``) are specified. Note that the ranges are 633closed interval. 634 635Action 636~~~~~~ 637 638The ``<action>`` is a predefined integer for memory management :ref:`actions 639<damon_design_damos_action>`. The supported numbers and their meanings are as 640below. 641 642 - 0: Call ``madvise()`` for the region with ``MADV_WILLNEED``. Ignored if 643 ``target`` is ``paddr``. 644 - 1: Call ``madvise()`` for the region with ``MADV_COLD``. Ignored if 645 ``target`` is ``paddr``. 646 - 2: Call ``madvise()`` for the region with ``MADV_PAGEOUT``. 647 - 3: Call ``madvise()`` for the region with ``MADV_HUGEPAGE``. Ignored if 648 ``target`` is ``paddr``. 649 - 4: Call ``madvise()`` for the region with ``MADV_NOHUGEPAGE``. Ignored if 650 ``target`` is ``paddr``. 651 - 5: Do nothing but count the statistics 652 653Quota 654~~~~~ 655 656Users can set the :ref:`quotas <damon_design_damos_quotas>` of the given scheme 657via the ``<quota>`` in below form:: 658 659 <ms> <sz> <reset interval> <priority weights> 660 661This makes DAMON to try to use only up to ``<ms>`` milliseconds for applying 662the action to memory regions of the ``target access pattern`` within the 663``<reset interval>`` milliseconds, and to apply the action to only up to 664``<sz>`` bytes of memory regions within the ``<reset interval>``. Setting both 665``<ms>`` and ``<sz>`` zero disables the quota limits. 666 667For the :ref:`prioritization <damon_design_damos_quotas_prioritization>`, users 668can set the weights for the three properties in ``<priority weights>`` in below 669form:: 670 671 <size weight> <access frequency weight> <age weight> 672 673Watermarks 674~~~~~~~~~~ 675 676Users can specify :ref:`watermarks <damon_design_damos_watermarks>` of the 677given scheme via ``<watermarks>`` in below form:: 678 679 <metric> <check interval> <high mark> <middle mark> <low mark> 680 681``<metric>`` is a predefined integer for the metric to be checked. The 682supported numbers and their meanings are as below. 683 684 - 0: Ignore the watermarks 685 - 1: System's free memory rate (per thousand) 686 687The value of the metric is checked every ``<check interval>`` microseconds. 688 689If the value is higher than ``<high mark>`` or lower than ``<low mark>``, the 690scheme is deactivated. If the value is lower than ``<mid mark>``, the scheme 691is activated. 692 693.. _damos_stats: 694 695Statistics 696~~~~~~~~~~ 697 698It also counts the total number and bytes of regions that each scheme is tried 699to be applied, the two numbers for the regions that each scheme is successfully 700applied, and the total number of the quota limit exceeds. This statistics can 701be used for online analysis or tuning of the schemes. 702 703The statistics can be shown by reading the ``schemes`` file. Reading the file 704will show each scheme you entered in each line, and the five numbers for the 705statistics will be added at the end of each line. 706 707Example 708~~~~~~~ 709 710Below commands applies a scheme saying "If a memory region of size in [4KiB, 7118KiB] is showing accesses per aggregate interval in [0, 5] for aggregate 712interval in [10, 20], page out the region. For the paging out, use only up to 71310ms per second, and also don't page out more than 1GiB per second. Under the 714limitation, page out memory regions having longer age first. Also, check the 715free memory rate of the system every 5 seconds, start the monitoring and paging 716out when the free memory rate becomes lower than 50%, but stop it if the free 717memory rate becomes larger than 60%, or lower than 30%".:: 718 719 # cd <debugfs>/damon 720 # scheme="4096 8192 0 5 10 20 2" # target access pattern and action 721 # scheme+=" 10 $((1024*1024*1024)) 1000" # quotas 722 # scheme+=" 0 0 100" # prioritization weights 723 # scheme+=" 1 5000000 600 500 300" # watermarks 724 # echo "$scheme" > schemes 725 726 727Turning On/Off 728-------------- 729 730Setting the files as described above doesn't incur effect unless you explicitly 731start the monitoring. You can start, stop, and check the current status of the 732monitoring by writing to and reading from the ``monitor_on`` file. Writing 733``on`` to the file starts the monitoring of the targets with the attributes. 734Writing ``off`` to the file stops those. DAMON also stops if every target 735process is terminated. Below example commands turn on, off, and check the 736status of DAMON:: 737 738 # cd <debugfs>/damon 739 # echo on > monitor_on 740 # echo off > monitor_on 741 # cat monitor_on 742 off 743 744Please note that you cannot write to the above-mentioned debugfs files while 745the monitoring is turned on. If you write to the files while DAMON is running, 746an error code such as ``-EBUSY`` will be returned. 747 748 749Monitoring Thread PID 750--------------------- 751 752DAMON does requested monitoring with a kernel thread called ``kdamond``. You 753can get the pid of the thread by reading the ``kdamond_pid`` file. When the 754monitoring is turned off, reading the file returns ``none``. :: 755 756 # cd <debugfs>/damon 757 # cat monitor_on 758 off 759 # cat kdamond_pid 760 none 761 # echo on > monitor_on 762 # cat kdamond_pid 763 18594 764 765 766Using Multiple Monitoring Threads 767--------------------------------- 768 769One ``kdamond`` thread is created for each monitoring context. You can create 770and remove monitoring contexts for multiple ``kdamond`` required use case using 771the ``mk_contexts`` and ``rm_contexts`` files. 772 773Writing the name of the new context to the ``mk_contexts`` file creates a 774directory of the name on the DAMON debugfs directory. The directory will have 775DAMON debugfs files for the context. :: 776 777 # cd <debugfs>/damon 778 # ls foo 779 # ls: cannot access 'foo': No such file or directory 780 # echo foo > mk_contexts 781 # ls foo 782 # attrs init_regions kdamond_pid schemes target_ids 783 784If the context is not needed anymore, you can remove it and the corresponding 785directory by putting the name of the context to the ``rm_contexts`` file. :: 786 787 # echo foo > rm_contexts 788 # ls foo 789 # ls: cannot access 'foo': No such file or directory 790 791Note that ``mk_contexts``, ``rm_contexts``, and ``monitor_on`` files are in the 792root directory only. 793 794 795.. _tracepoint: 796 797Tracepoint for Monitoring Results 798================================= 799 800Users can get the monitoring results via the :ref:`tried_regions 801<sysfs_schemes_tried_regions>` or a tracepoint, ``damon:damon_aggregated``. 802While the tried regions directory is useful for getting a snapshot, the 803tracepoint is useful for getting a full record of the results. While the 804monitoring is turned on, you could record the tracepoint events and show 805results using tracepoint supporting tools like ``perf``. For example:: 806 807 # echo on > monitor_on 808 # perf record -e damon:damon_aggregated & 809 # sleep 5 810 # kill 9 $(pidof perf) 811 # echo off > monitor_on 812 # perf script 813