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Patch series "Introduce DAMON sysfs interface", v3. Introduction ============ DAMON's debugfs-based user interface (DAMON_DBGFS) served very well, so far. However, it unnecessarily depends on debugfs, while DAMON is not aimed to be used for only debugging. Also, the interface receives multiple values via one file. For example, schemes file receives 18 values. As a result, it is inefficient, hard to be used, and difficult to be extended. Especially, keeping backward compatibility of user space tools is getting only challenging. It would be better to implement another reliable and flexible interface and deprecate DAMON_DBGFS in long term. For the reason, this patchset introduces a sysfs-based new user interface of DAMON. The idea of the new interface is, using directory hierarchies and having one dedicated file for each value. For a short example, users can do the virtual address monitoring via the interface 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 A brief representation of the files hierarchy of DAMON sysfs interface is as below. Childs are represented with indentation, directories are 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/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 │ │ │ │ │ │ ... │ │ │ │ ... │ │ ... Detailed usage of the files will be described in the final Documentation patch of this patchset. Main Difference Between DAMON_DBGFS and DAMON_SYSFS --------------------------------------------------- At the moment, DAMON_DBGFS and DAMON_SYSFS provides same features. One important difference between them is their exclusiveness. DAMON_DBGFS works in an exclusive manner, so that no DAMON worker thread (kdamond) in the system can run concurrently and interfere somehow. For the reason, DAMON_DBGFS asks users to construct all monitoring contexts and start them at once. It's not a big problem but makes the operation a little bit complex and unflexible. For more flexible usage, DAMON_SYSFS moves the responsibility of preventing any possible interference to the admins and work in a non-exclusive manner. That is, users can configure and start contexts one by one. Note that DAMON respects both exclusive groups and non-exclusive groups of contexts, in a manner similar to that of reader-writer locks. That is, if any exclusive monitoring contexts (e.g., contexts that started via DAMON_DBGFS) are running, DAMON_SYSFS does not start new contexts, and vice versa. Future Plan of DAMON_DBGFS Deprecation ====================================== Once this patchset is merged, DAMON_DBGFS development will be frozen. That is, we will maintain it to work as is now so that no users will be break. But, it will not be extended to provide any new feature of DAMON. The support will be continued only until next LTS release. After that, we will drop DAMON_DBGFS. User-space Tooling Compatibility -------------------------------- As DAMON_SYSFS provides all features of DAMON_DBGFS, all user space tooling can move to DAMON_SYSFS. As we will continue supporting DAMON_DBGFS until next LTS kernel release, user space tools would have enough time to move to DAMON_SYSFS. The official user space tool, damo[1], is already supporting both DAMON_SYSFS and DAMON_DBGFS. Both correctness tests[2] and performance tests[3] of DAMON using DAMON_SYSFS also passed. [1] https://github.com/awslabs/damo [2] https://github.com/awslabs/damon-tests/tree/master/corr [3] https://github.com/awslabs/damon-tests/tree/master/perf Sequence of Patches =================== First two patches (patches 1-2) make core changes for DAMON_SYSFS. The first one (patch 1) allows non-exclusive DAMON contexts so that DAMON_SYSFS can work in non-exclusive mode, while the second one (patch 2) adds size of DAMON enum types so that DAMON API users can safely iterate the enums. Third patch (patch 3) implements basic sysfs stub for virtual address spaces monitoring. Note that this implements only sysfs files and DAMON is not linked. Fourth patch (patch 4) links the DAMON_SYSFS to DAMON so that users can control DAMON using the sysfs files. Following six patches (patches 5-10) implements other DAMON features that DAMON_DBGFS supports one by one (physical address space monitoring, DAMON-based operation schemes, schemes quotas, schemes prioritization weights, schemes watermarks, and schemes stats). Following patch (patch 11) adds a simple selftest for DAMON_SYSFS, and the final one (patch 12) documents DAMON_SYSFS. This patch (of 13): To avoid interference between DAMON contexts monitoring overlapping memory regions, damon_start() works in an exclusive manner. That is, damon_start() does nothing bug fails if any context that started by another instance of the function is still running. This makes its usage a little bit restrictive. However, admins could aware each DAMON usage and address such interferences on their own in some cases. This commit hence implements non-exclusive mode of the function and allows the callers to select the mode. Note that the exclusive groups and non-exclusive groups of contexts will respect each other in a manner similar to that of reader-writer locks. Therefore, this commit will not cause any behavioral change to the exclusive groups. Link: https://lkml.kernel.org/r/20220228081314.5770-1-sj@kernel.org Link: https://lkml.kernel.org/r/20220228081314.5770-2-sj@kernel.org Signed-off-by: SeongJae Park <sj@kernel.org> Cc: Jonathan Corbet <corbet@lwn.net> Cc: Shuah Khan <skhan@linuxfoundation.org> Cc: David Rientjes <rientjes@google.com> Cc: Xin Hao <xhao@linux.alibaba.com> Cc: Greg Kroah-Hartman <gregkh@linuxfoundation.org> Signed-off-by: Andrew Morton <akpm@linux-foundation.org> Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>
404 lines
12 KiB
C
404 lines
12 KiB
C
// SPDX-License-Identifier: GPL-2.0
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/*
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* DAMON-based page reclamation
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*
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* Author: SeongJae Park <sj@kernel.org>
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*/
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#define pr_fmt(fmt) "damon-reclaim: " fmt
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#include <linux/damon.h>
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#include <linux/ioport.h>
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#include <linux/module.h>
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#include <linux/sched.h>
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#include <linux/workqueue.h>
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#ifdef MODULE_PARAM_PREFIX
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#undef MODULE_PARAM_PREFIX
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#endif
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#define MODULE_PARAM_PREFIX "damon_reclaim."
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/*
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* Enable or disable DAMON_RECLAIM.
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*
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* You can enable DAMON_RCLAIM by setting the value of this parameter as ``Y``.
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* Setting it as ``N`` disables DAMON_RECLAIM. Note that DAMON_RECLAIM could
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* do no real monitoring and reclamation due to the watermarks-based activation
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* condition. Refer to below descriptions for the watermarks parameter for
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* this.
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*/
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static bool enabled __read_mostly;
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module_param(enabled, bool, 0600);
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/*
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* Time threshold for cold memory regions identification in microseconds.
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*
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* If a memory region is not accessed for this or longer time, DAMON_RECLAIM
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* identifies the region as cold, and reclaims. 120 seconds by default.
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*/
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static unsigned long min_age __read_mostly = 120000000;
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module_param(min_age, ulong, 0600);
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/*
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* Limit of time for trying the reclamation in milliseconds.
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*
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* DAMON_RECLAIM tries to use only up to this time within a time window
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* (quota_reset_interval_ms) for trying reclamation of cold pages. This can be
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* used for limiting CPU consumption of DAMON_RECLAIM. If the value is zero,
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* the limit is disabled.
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*
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* 10 ms by default.
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*/
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static unsigned long quota_ms __read_mostly = 10;
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module_param(quota_ms, ulong, 0600);
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/*
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* Limit of size of memory for the reclamation in bytes.
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*
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* DAMON_RECLAIM charges amount of memory which it tried to reclaim within a
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* time window (quota_reset_interval_ms) and makes no more than this limit is
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* tried. This can be used for limiting consumption of CPU and IO. If this
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* value is zero, the limit is disabled.
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*
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* 128 MiB by default.
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*/
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static unsigned long quota_sz __read_mostly = 128 * 1024 * 1024;
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module_param(quota_sz, ulong, 0600);
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/*
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* The time/size quota charge reset interval in milliseconds.
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*
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* The charge reset interval for the quota of time (quota_ms) and size
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* (quota_sz). That is, DAMON_RECLAIM does not try reclamation for more than
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* quota_ms milliseconds or quota_sz bytes within quota_reset_interval_ms
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* milliseconds.
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*
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* 1 second by default.
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*/
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static unsigned long quota_reset_interval_ms __read_mostly = 1000;
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module_param(quota_reset_interval_ms, ulong, 0600);
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/*
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* The watermarks check time interval in microseconds.
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*
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* Minimal time to wait before checking the watermarks, when DAMON_RECLAIM is
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* enabled but inactive due to its watermarks rule. 5 seconds by default.
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*/
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static unsigned long wmarks_interval __read_mostly = 5000000;
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module_param(wmarks_interval, ulong, 0600);
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/*
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* Free memory rate (per thousand) for the high watermark.
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*
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* If free memory of the system in bytes per thousand bytes is higher than
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* this, DAMON_RECLAIM becomes inactive, so it does nothing but periodically
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* checks the watermarks. 500 (50%) by default.
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*/
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static unsigned long wmarks_high __read_mostly = 500;
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module_param(wmarks_high, ulong, 0600);
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/*
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* Free memory rate (per thousand) for the middle watermark.
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*
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* If free memory of the system in bytes per thousand bytes is between this and
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* the low watermark, DAMON_RECLAIM becomes active, so starts the monitoring
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* and the reclaiming. 400 (40%) by default.
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*/
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static unsigned long wmarks_mid __read_mostly = 400;
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module_param(wmarks_mid, ulong, 0600);
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/*
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* Free memory rate (per thousand) for the low watermark.
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*
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* If free memory of the system in bytes per thousand bytes is lower than this,
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* DAMON_RECLAIM becomes inactive, so it does nothing but periodically checks
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* the watermarks. In the case, the system falls back to the LRU-based page
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* granularity reclamation logic. 200 (20%) by default.
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*/
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static unsigned long wmarks_low __read_mostly = 200;
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module_param(wmarks_low, ulong, 0600);
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/*
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* Sampling interval for the monitoring in microseconds.
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*
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* The sampling interval of DAMON for the cold memory monitoring. Please refer
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* to the DAMON documentation for more detail. 5 ms by default.
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*/
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static unsigned long sample_interval __read_mostly = 5000;
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module_param(sample_interval, ulong, 0600);
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/*
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* Aggregation interval for the monitoring in microseconds.
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*
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* The aggregation interval of DAMON for the cold memory monitoring. Please
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* refer to the DAMON documentation for more detail. 100 ms by default.
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*/
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static unsigned long aggr_interval __read_mostly = 100000;
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module_param(aggr_interval, ulong, 0600);
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/*
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* Minimum number of monitoring regions.
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*
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* The minimal number of monitoring regions of DAMON for the cold memory
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* monitoring. This can be used to set lower-bound of the monitoring quality.
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* But, setting this too high could result in increased monitoring overhead.
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* Please refer to the DAMON documentation for more detail. 10 by default.
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*/
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static unsigned long min_nr_regions __read_mostly = 10;
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module_param(min_nr_regions, ulong, 0600);
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/*
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* Maximum number of monitoring regions.
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*
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* The maximum number of monitoring regions of DAMON for the cold memory
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* monitoring. This can be used to set upper-bound of the monitoring overhead.
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* However, setting this too low could result in bad monitoring quality.
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* Please refer to the DAMON documentation for more detail. 1000 by default.
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*/
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static unsigned long max_nr_regions __read_mostly = 1000;
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module_param(max_nr_regions, ulong, 0600);
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/*
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* Start of the target memory region in physical address.
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*
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* The start physical address of memory region that DAMON_RECLAIM will do work
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* against. By default, biggest System RAM is used as the region.
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*/
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static unsigned long monitor_region_start __read_mostly;
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module_param(monitor_region_start, ulong, 0600);
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/*
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* End of the target memory region in physical address.
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*
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* The end physical address of memory region that DAMON_RECLAIM will do work
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* against. By default, biggest System RAM is used as the region.
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*/
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static unsigned long monitor_region_end __read_mostly;
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module_param(monitor_region_end, ulong, 0600);
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/*
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* PID of the DAMON thread
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*
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* If DAMON_RECLAIM is enabled, this becomes the PID of the worker thread.
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* Else, -1.
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*/
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static int kdamond_pid __read_mostly = -1;
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module_param(kdamond_pid, int, 0400);
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/*
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* Number of memory regions that tried to be reclaimed.
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*/
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static unsigned long nr_reclaim_tried_regions __read_mostly;
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module_param(nr_reclaim_tried_regions, ulong, 0400);
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/*
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* Total bytes of memory regions that tried to be reclaimed.
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*/
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static unsigned long bytes_reclaim_tried_regions __read_mostly;
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module_param(bytes_reclaim_tried_regions, ulong, 0400);
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/*
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* Number of memory regions that successfully be reclaimed.
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*/
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static unsigned long nr_reclaimed_regions __read_mostly;
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module_param(nr_reclaimed_regions, ulong, 0400);
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/*
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* Total bytes of memory regions that successfully be reclaimed.
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*/
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static unsigned long bytes_reclaimed_regions __read_mostly;
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module_param(bytes_reclaimed_regions, ulong, 0400);
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/*
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* Number of times that the time/space quota limits have exceeded
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*/
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static unsigned long nr_quota_exceeds __read_mostly;
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module_param(nr_quota_exceeds, ulong, 0400);
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static struct damon_ctx *ctx;
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static struct damon_target *target;
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struct damon_reclaim_ram_walk_arg {
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unsigned long start;
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unsigned long end;
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};
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static int walk_system_ram(struct resource *res, void *arg)
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{
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struct damon_reclaim_ram_walk_arg *a = arg;
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if (a->end - a->start < res->end - res->start) {
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a->start = res->start;
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a->end = res->end;
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}
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return 0;
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}
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/*
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* Find biggest 'System RAM' resource and store its start and end address in
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* @start and @end, respectively. If no System RAM is found, returns false.
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*/
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static bool get_monitoring_region(unsigned long *start, unsigned long *end)
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{
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struct damon_reclaim_ram_walk_arg arg = {};
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walk_system_ram_res(0, ULONG_MAX, &arg, walk_system_ram);
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if (arg.end <= arg.start)
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return false;
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*start = arg.start;
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*end = arg.end;
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return true;
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}
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static struct damos *damon_reclaim_new_scheme(void)
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{
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struct damos_watermarks wmarks = {
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.metric = DAMOS_WMARK_FREE_MEM_RATE,
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.interval = wmarks_interval,
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.high = wmarks_high,
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.mid = wmarks_mid,
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.low = wmarks_low,
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};
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struct damos_quota quota = {
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/*
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* Do not try reclamation for more than quota_ms milliseconds
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* or quota_sz bytes within quota_reset_interval_ms.
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*/
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.ms = quota_ms,
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.sz = quota_sz,
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.reset_interval = quota_reset_interval_ms,
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/* Within the quota, page out older regions first. */
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.weight_sz = 0,
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.weight_nr_accesses = 0,
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.weight_age = 1
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};
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struct damos *scheme = damon_new_scheme(
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/* Find regions having PAGE_SIZE or larger size */
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PAGE_SIZE, ULONG_MAX,
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/* and not accessed at all */
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0, 0,
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/* for min_age or more micro-seconds, and */
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min_age / aggr_interval, UINT_MAX,
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/* page out those, as soon as found */
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DAMOS_PAGEOUT,
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/* under the quota. */
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"a,
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/* (De)activate this according to the watermarks. */
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&wmarks);
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return scheme;
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}
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static int damon_reclaim_turn(bool on)
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{
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struct damon_region *region;
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struct damos *scheme;
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int err;
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if (!on) {
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err = damon_stop(&ctx, 1);
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if (!err)
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kdamond_pid = -1;
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return err;
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}
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err = damon_set_attrs(ctx, sample_interval, aggr_interval, 0,
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min_nr_regions, max_nr_regions);
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if (err)
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return err;
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if (monitor_region_start > monitor_region_end)
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return -EINVAL;
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if (!monitor_region_start && !monitor_region_end &&
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!get_monitoring_region(&monitor_region_start,
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&monitor_region_end))
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return -EINVAL;
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/* DAMON will free this on its own when finish monitoring */
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region = damon_new_region(monitor_region_start, monitor_region_end);
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if (!region)
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return -ENOMEM;
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damon_add_region(region, target);
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/* Will be freed by 'damon_set_schemes()' below */
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scheme = damon_reclaim_new_scheme();
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if (!scheme) {
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err = -ENOMEM;
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goto free_region_out;
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}
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err = damon_set_schemes(ctx, &scheme, 1);
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if (err)
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goto free_scheme_out;
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err = damon_start(&ctx, 1, true);
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if (!err) {
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kdamond_pid = ctx->kdamond->pid;
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return 0;
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}
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free_scheme_out:
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damon_destroy_scheme(scheme);
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free_region_out:
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damon_destroy_region(region, target);
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return err;
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}
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#define ENABLE_CHECK_INTERVAL_MS 1000
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static struct delayed_work damon_reclaim_timer;
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static void damon_reclaim_timer_fn(struct work_struct *work)
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{
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static bool last_enabled;
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bool now_enabled;
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now_enabled = enabled;
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if (last_enabled != now_enabled) {
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if (!damon_reclaim_turn(now_enabled))
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last_enabled = now_enabled;
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else
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enabled = last_enabled;
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}
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schedule_delayed_work(&damon_reclaim_timer,
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msecs_to_jiffies(ENABLE_CHECK_INTERVAL_MS));
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}
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static DECLARE_DELAYED_WORK(damon_reclaim_timer, damon_reclaim_timer_fn);
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static int damon_reclaim_after_aggregation(struct damon_ctx *c)
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{
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struct damos *s;
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/* update the stats parameter */
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damon_for_each_scheme(s, c) {
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nr_reclaim_tried_regions = s->stat.nr_tried;
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bytes_reclaim_tried_regions = s->stat.sz_tried;
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nr_reclaimed_regions = s->stat.nr_applied;
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bytes_reclaimed_regions = s->stat.sz_applied;
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nr_quota_exceeds = s->stat.qt_exceeds;
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}
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return 0;
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}
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static int __init damon_reclaim_init(void)
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{
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ctx = damon_new_ctx();
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if (!ctx)
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return -ENOMEM;
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if (damon_select_ops(ctx, DAMON_OPS_PADDR))
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return -EINVAL;
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ctx->callback.after_aggregation = damon_reclaim_after_aggregation;
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target = damon_new_target();
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if (!target) {
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damon_destroy_ctx(ctx);
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return -ENOMEM;
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}
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damon_add_target(ctx, target);
|
|
|
|
schedule_delayed_work(&damon_reclaim_timer, 0);
|
|
return 0;
|
|
}
|
|
|
|
module_init(damon_reclaim_init);
|