diff options
author | KAMEZAWA Hiroyuki <kamezawa.hiroyu@jp.fujitsu.com> | 2010-05-26 17:42:40 -0400 |
---|---|---|
committer | Linus Torvalds <torvalds@linux-foundation.org> | 2010-05-27 12:12:43 -0400 |
commit | dc10e281f5fc42e288ab979294d1d5dc9743ae1b (patch) | |
tree | 186ab100831ae92b10cd543eb666372f51917ab8 | |
parent | 87946a72283be3de936adc754b7007df7d3e6aeb (diff) |
memcg: update documentation
Some information are old, and I think current document doesn't work as "a
guide for users". We need summary of all of our controls, at least.
Signed-off-by: KAMEZAWA Hiroyuki <kamezawa.hiroyu@jp.fujitsu.com>
Reviewed-by: Randy Dunlap <randy.dunlap@oracle.com>
Cc: Balbir Singh <balbir@in.ibm.com>
Cc: Daisuke Nishimura <nishimura@mxp.nes.nec.co.jp>
Signed-off-by: Andrew Morton <akpm@linux-foundation.org>
Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>
-rw-r--r-- | Documentation/cgroups/memory.txt | 291 |
1 files changed, 198 insertions, 93 deletions
diff --git a/Documentation/cgroups/memory.txt b/Documentation/cgroups/memory.txt index 5e028870ee8a..7781857dc940 100644 --- a/Documentation/cgroups/memory.txt +++ b/Documentation/cgroups/memory.txt | |||
@@ -1,18 +1,15 @@ | |||
1 | Memory Resource Controller | 1 | Memory Resource Controller |
2 | 2 | ||
3 | NOTE: The Memory Resource Controller has been generically been referred | 3 | NOTE: The Memory Resource Controller has been generically been referred |
4 | to as the memory controller in this document. Do not confuse memory controller | 4 | to as the memory controller in this document. Do not confuse memory |
5 | used here with the memory controller that is used in hardware. | 5 | controller used here with the memory controller that is used in hardware. |
6 | 6 | ||
7 | Salient features | 7 | (For editors) |
8 | 8 | In this document: | |
9 | a. Enable control of Anonymous, Page Cache (mapped and unmapped) and | 9 | When we mention a cgroup (cgroupfs's directory) with memory controller, |
10 | Swap Cache memory pages. | 10 | we call it "memory cgroup". When you see git-log and source code, you'll |
11 | b. The infrastructure allows easy addition of other types of memory to control | 11 | see patch's title and function names tend to use "memcg". |
12 | c. Provides *zero overhead* for non memory controller users | 12 | In this document, we avoid using it. |
13 | d. Provides a double LRU: global memory pressure causes reclaim from the | ||
14 | global LRU; a cgroup on hitting a limit, reclaims from the per | ||
15 | cgroup LRU | ||
16 | 13 | ||
17 | Benefits and Purpose of the memory controller | 14 | Benefits and Purpose of the memory controller |
18 | 15 | ||
@@ -33,6 +30,45 @@ d. A CD/DVD burner could control the amount of memory used by the | |||
33 | e. There are several other use cases, find one or use the controller just | 30 | e. There are several other use cases, find one or use the controller just |
34 | for fun (to learn and hack on the VM subsystem). | 31 | for fun (to learn and hack on the VM subsystem). |
35 | 32 | ||
33 | Current Status: linux-2.6.34-mmotm(development version of 2010/April) | ||
34 | |||
35 | Features: | ||
36 | - accounting anonymous pages, file caches, swap caches usage and limiting them. | ||
37 | - private LRU and reclaim routine. (system's global LRU and private LRU | ||
38 | work independently from each other) | ||
39 | - optionally, memory+swap usage can be accounted and limited. | ||
40 | - hierarchical accounting | ||
41 | - soft limit | ||
42 | - moving(recharging) account at moving a task is selectable. | ||
43 | - usage threshold notifier | ||
44 | - oom-killer disable knob and oom-notifier | ||
45 | - Root cgroup has no limit controls. | ||
46 | |||
47 | Kernel memory and Hugepages are not under control yet. We just manage | ||
48 | pages on LRU. To add more controls, we have to take care of performance. | ||
49 | |||
50 | Brief summary of control files. | ||
51 | |||
52 | tasks # attach a task(thread) and show list of threads | ||
53 | cgroup.procs # show list of processes | ||
54 | cgroup.event_control # an interface for event_fd() | ||
55 | memory.usage_in_bytes # show current memory(RSS+Cache) usage. | ||
56 | memory.memsw.usage_in_bytes # show current memory+Swap usage | ||
57 | memory.limit_in_bytes # set/show limit of memory usage | ||
58 | memory.memsw.limit_in_bytes # set/show limit of memory+Swap usage | ||
59 | memory.failcnt # show the number of memory usage hits limits | ||
60 | memory.memsw.failcnt # show the number of memory+Swap hits limits | ||
61 | memory.max_usage_in_bytes # show max memory usage recorded | ||
62 | memory.memsw.usage_in_bytes # show max memory+Swap usage recorded | ||
63 | memory.soft_limit_in_bytes # set/show soft limit of memory usage | ||
64 | memory.stat # show various statistics | ||
65 | memory.use_hierarchy # set/show hierarchical account enabled | ||
66 | memory.force_empty # trigger forced move charge to parent | ||
67 | memory.swappiness # set/show swappiness parameter of vmscan | ||
68 | (See sysctl's vm.swappiness) | ||
69 | memory.move_charge_at_immigrate # set/show controls of moving charges | ||
70 | memory.oom_control # set/show oom controls. | ||
71 | |||
36 | 1. History | 72 | 1. History |
37 | 73 | ||
38 | The memory controller has a long history. A request for comments for the memory | 74 | The memory controller has a long history. A request for comments for the memory |
@@ -106,14 +142,14 @@ the necessary data structures and check if the cgroup that is being charged | |||
106 | is over its limit. If it is then reclaim is invoked on the cgroup. | 142 | is over its limit. If it is then reclaim is invoked on the cgroup. |
107 | More details can be found in the reclaim section of this document. | 143 | More details can be found in the reclaim section of this document. |
108 | If everything goes well, a page meta-data-structure called page_cgroup is | 144 | If everything goes well, a page meta-data-structure called page_cgroup is |
109 | allocated and associated with the page. This routine also adds the page to | 145 | updated. page_cgroup has its own LRU on cgroup. |
110 | the per cgroup LRU. | 146 | (*) page_cgroup structure is allocated at boot/memory-hotplug time. |
111 | 147 | ||
112 | 2.2.1 Accounting details | 148 | 2.2.1 Accounting details |
113 | 149 | ||
114 | All mapped anon pages (RSS) and cache pages (Page Cache) are accounted. | 150 | All mapped anon pages (RSS) and cache pages (Page Cache) are accounted. |
115 | (some pages which never be reclaimable and will not be on global LRU | 151 | Some pages which are never reclaimable and will not be on the global LRU |
116 | are not accounted. we just accounts pages under usual vm management.) | 152 | are not accounted. We just account pages under usual VM management. |
117 | 153 | ||
118 | RSS pages are accounted at page_fault unless they've already been accounted | 154 | RSS pages are accounted at page_fault unless they've already been accounted |
119 | for earlier. A file page will be accounted for as Page Cache when it's | 155 | for earlier. A file page will be accounted for as Page Cache when it's |
@@ -121,12 +157,19 @@ inserted into inode (radix-tree). While it's mapped into the page tables of | |||
121 | processes, duplicate accounting is carefully avoided. | 157 | processes, duplicate accounting is carefully avoided. |
122 | 158 | ||
123 | A RSS page is unaccounted when it's fully unmapped. A PageCache page is | 159 | A RSS page is unaccounted when it's fully unmapped. A PageCache page is |
124 | unaccounted when it's removed from radix-tree. | 160 | unaccounted when it's removed from radix-tree. Even if RSS pages are fully |
161 | unmapped (by kswapd), they may exist as SwapCache in the system until they | ||
162 | are really freed. Such SwapCaches also also accounted. | ||
163 | A swapped-in page is not accounted until it's mapped. | ||
164 | |||
165 | Note: The kernel does swapin-readahead and read multiple swaps at once. | ||
166 | This means swapped-in pages may contain pages for other tasks than a task | ||
167 | causing page fault. So, we avoid accounting at swap-in I/O. | ||
125 | 168 | ||
126 | At page migration, accounting information is kept. | 169 | At page migration, accounting information is kept. |
127 | 170 | ||
128 | Note: we just account pages-on-lru because our purpose is to control amount | 171 | Note: we just account pages-on-LRU because our purpose is to control amount |
129 | of used pages. not-on-lru pages are tend to be out-of-control from vm view. | 172 | of used pages; not-on-LRU pages tend to be out-of-control from VM view. |
130 | 173 | ||
131 | 2.3 Shared Page Accounting | 174 | 2.3 Shared Page Accounting |
132 | 175 | ||
@@ -143,6 +186,7 @@ caller of swapoff rather than the users of shmem. | |||
143 | 186 | ||
144 | 187 | ||
145 | 2.4 Swap Extension (CONFIG_CGROUP_MEM_RES_CTLR_SWAP) | 188 | 2.4 Swap Extension (CONFIG_CGROUP_MEM_RES_CTLR_SWAP) |
189 | |||
146 | Swap Extension allows you to record charge for swap. A swapped-in page is | 190 | Swap Extension allows you to record charge for swap. A swapped-in page is |
147 | charged back to original page allocator if possible. | 191 | charged back to original page allocator if possible. |
148 | 192 | ||
@@ -150,13 +194,20 @@ When swap is accounted, following files are added. | |||
150 | - memory.memsw.usage_in_bytes. | 194 | - memory.memsw.usage_in_bytes. |
151 | - memory.memsw.limit_in_bytes. | 195 | - memory.memsw.limit_in_bytes. |
152 | 196 | ||
153 | usage of mem+swap is limited by memsw.limit_in_bytes. | 197 | memsw means memory+swap. Usage of memory+swap is limited by |
198 | memsw.limit_in_bytes. | ||
199 | |||
200 | Example: Assume a system with 4G of swap. A task which allocates 6G of memory | ||
201 | (by mistake) under 2G memory limitation will use all swap. | ||
202 | In this case, setting memsw.limit_in_bytes=3G will prevent bad use of swap. | ||
203 | By using memsw limit, you can avoid system OOM which can be caused by swap | ||
204 | shortage. | ||
154 | 205 | ||
155 | * why 'mem+swap' rather than swap. | 206 | * why 'memory+swap' rather than swap. |
156 | The global LRU(kswapd) can swap out arbitrary pages. Swap-out means | 207 | The global LRU(kswapd) can swap out arbitrary pages. Swap-out means |
157 | to move account from memory to swap...there is no change in usage of | 208 | to move account from memory to swap...there is no change in usage of |
158 | mem+swap. In other words, when we want to limit the usage of swap without | 209 | memory+swap. In other words, when we want to limit the usage of swap without |
159 | affecting global LRU, mem+swap limit is better than just limiting swap from | 210 | affecting global LRU, memory+swap limit is better than just limiting swap from |
160 | OS point of view. | 211 | OS point of view. |
161 | 212 | ||
162 | * What happens when a cgroup hits memory.memsw.limit_in_bytes | 213 | * What happens when a cgroup hits memory.memsw.limit_in_bytes |
@@ -168,12 +219,12 @@ it by cgroup. | |||
168 | 219 | ||
169 | 2.5 Reclaim | 220 | 2.5 Reclaim |
170 | 221 | ||
171 | Each cgroup maintains a per cgroup LRU that consists of an active | 222 | Each cgroup maintains a per cgroup LRU which has the same structure as |
172 | and inactive list. When a cgroup goes over its limit, we first try | 223 | global VM. When a cgroup goes over its limit, we first try |
173 | to reclaim memory from the cgroup so as to make space for the new | 224 | to reclaim memory from the cgroup so as to make space for the new |
174 | pages that the cgroup has touched. If the reclaim is unsuccessful, | 225 | pages that the cgroup has touched. If the reclaim is unsuccessful, |
175 | an OOM routine is invoked to select and kill the bulkiest task in the | 226 | an OOM routine is invoked to select and kill the bulkiest task in the |
176 | cgroup. | 227 | cgroup. (See 10. OOM Control below.) |
177 | 228 | ||
178 | The reclaim algorithm has not been modified for cgroups, except that | 229 | The reclaim algorithm has not been modified for cgroups, except that |
179 | pages that are selected for reclaiming come from the per cgroup LRU | 230 | pages that are selected for reclaiming come from the per cgroup LRU |
@@ -187,13 +238,19 @@ Note2: When panic_on_oom is set to "2", the whole system will panic. | |||
187 | When oom event notifier is registered, event will be delivered. | 238 | When oom event notifier is registered, event will be delivered. |
188 | (See oom_control section) | 239 | (See oom_control section) |
189 | 240 | ||
190 | 2. Locking | 241 | 2.6 Locking |
191 | 242 | ||
192 | The memory controller uses the following hierarchy | 243 | lock_page_cgroup()/unlock_page_cgroup() should not be called under |
244 | mapping->tree_lock. | ||
193 | 245 | ||
194 | 1. zone->lru_lock is used for selecting pages to be isolated | 246 | Other lock order is following: |
195 | 2. mem->per_zone->lru_lock protects the per cgroup LRU (per zone) | 247 | PG_locked. |
196 | 3. lock_page_cgroup() is used to protect page->page_cgroup | 248 | mm->page_table_lock |
249 | zone->lru_lock | ||
250 | lock_page_cgroup. | ||
251 | In many cases, just lock_page_cgroup() is called. | ||
252 | per-zone-per-cgroup LRU (cgroup's private LRU) is just guarded by | ||
253 | zone->lru_lock, it has no lock of its own. | ||
197 | 254 | ||
198 | 3. User Interface | 255 | 3. User Interface |
199 | 256 | ||
@@ -202,6 +259,7 @@ The memory controller uses the following hierarchy | |||
202 | a. Enable CONFIG_CGROUPS | 259 | a. Enable CONFIG_CGROUPS |
203 | b. Enable CONFIG_RESOURCE_COUNTERS | 260 | b. Enable CONFIG_RESOURCE_COUNTERS |
204 | c. Enable CONFIG_CGROUP_MEM_RES_CTLR | 261 | c. Enable CONFIG_CGROUP_MEM_RES_CTLR |
262 | d. Enable CONFIG_CGROUP_MEM_RES_CTLR_SWAP (to use swap extension) | ||
205 | 263 | ||
206 | 1. Prepare the cgroups | 264 | 1. Prepare the cgroups |
207 | # mkdir -p /cgroups | 265 | # mkdir -p /cgroups |
@@ -209,31 +267,28 @@ c. Enable CONFIG_CGROUP_MEM_RES_CTLR | |||
209 | 267 | ||
210 | 2. Make the new group and move bash into it | 268 | 2. Make the new group and move bash into it |
211 | # mkdir /cgroups/0 | 269 | # mkdir /cgroups/0 |
212 | # echo $$ > /cgroups/0/tasks | 270 | # echo $$ > /cgroups/0/tasks |
213 | 271 | ||
214 | Since now we're in the 0 cgroup, | 272 | Since now we're in the 0 cgroup, we can alter the memory limit: |
215 | We can alter the memory limit: | ||
216 | # echo 4M > /cgroups/0/memory.limit_in_bytes | 273 | # echo 4M > /cgroups/0/memory.limit_in_bytes |
217 | 274 | ||
218 | NOTE: We can use a suffix (k, K, m, M, g or G) to indicate values in kilo, | 275 | NOTE: We can use a suffix (k, K, m, M, g or G) to indicate values in kilo, |
219 | mega or gigabytes. | 276 | mega or gigabytes. (Here, Kilo, Mega, Giga are Kibibytes, Mebibytes, Gibibytes.) |
277 | |||
220 | NOTE: We can write "-1" to reset the *.limit_in_bytes(unlimited). | 278 | NOTE: We can write "-1" to reset the *.limit_in_bytes(unlimited). |
221 | NOTE: We cannot set limits on the root cgroup any more. | 279 | NOTE: We cannot set limits on the root cgroup any more. |
222 | 280 | ||
223 | # cat /cgroups/0/memory.limit_in_bytes | 281 | # cat /cgroups/0/memory.limit_in_bytes |
224 | 4194304 | 282 | 4194304 |
225 | 283 | ||
226 | NOTE: The interface has now changed to display the usage in bytes | ||
227 | instead of pages | ||
228 | |||
229 | We can check the usage: | 284 | We can check the usage: |
230 | # cat /cgroups/0/memory.usage_in_bytes | 285 | # cat /cgroups/0/memory.usage_in_bytes |
231 | 1216512 | 286 | 1216512 |
232 | 287 | ||
233 | A successful write to this file does not guarantee a successful set of | 288 | A successful write to this file does not guarantee a successful set of |
234 | this limit to the value written into the file. This can be due to a | 289 | this limit to the value written into the file. This can be due to a |
235 | number of factors, such as rounding up to page boundaries or the total | 290 | number of factors, such as rounding up to page boundaries or the total |
236 | availability of memory on the system. The user is required to re-read | 291 | availability of memory on the system. The user is required to re-read |
237 | this file after a write to guarantee the value committed by the kernel. | 292 | this file after a write to guarantee the value committed by the kernel. |
238 | 293 | ||
239 | # echo 1 > memory.limit_in_bytes | 294 | # echo 1 > memory.limit_in_bytes |
@@ -248,15 +303,23 @@ caches, RSS and Active pages/Inactive pages are shown. | |||
248 | 303 | ||
249 | 4. Testing | 304 | 4. Testing |
250 | 305 | ||
251 | Balbir posted lmbench, AIM9, LTP and vmmstress results [10] and [11]. | 306 | For testing features and implementation, see memcg_test.txt. |
252 | Apart from that v6 has been tested with several applications and regular | 307 | |
253 | daily use. The controller has also been tested on the PPC64, x86_64 and | 308 | Performance test is also important. To see pure memory controller's overhead, |
254 | UML platforms. | 309 | testing on tmpfs will give you good numbers of small overheads. |
310 | Example: do kernel make on tmpfs. | ||
311 | |||
312 | Page-fault scalability is also important. At measuring parallel | ||
313 | page fault test, multi-process test may be better than multi-thread | ||
314 | test because it has noise of shared objects/status. | ||
315 | |||
316 | But the above two are testing extreme situations. | ||
317 | Trying usual test under memory controller is always helpful. | ||
255 | 318 | ||
256 | 4.1 Troubleshooting | 319 | 4.1 Troubleshooting |
257 | 320 | ||
258 | Sometimes a user might find that the application under a cgroup is | 321 | Sometimes a user might find that the application under a cgroup is |
259 | terminated. There are several causes for this: | 322 | terminated by OOM killer. There are several causes for this: |
260 | 323 | ||
261 | 1. The cgroup limit is too low (just too low to do anything useful) | 324 | 1. The cgroup limit is too low (just too low to do anything useful) |
262 | 2. The user is using anonymous memory and swap is turned off or too low | 325 | 2. The user is using anonymous memory and swap is turned off or too low |
@@ -264,6 +327,9 @@ terminated. There are several causes for this: | |||
264 | A sync followed by echo 1 > /proc/sys/vm/drop_caches will help get rid of | 327 | A sync followed by echo 1 > /proc/sys/vm/drop_caches will help get rid of |
265 | some of the pages cached in the cgroup (page cache pages). | 328 | some of the pages cached in the cgroup (page cache pages). |
266 | 329 | ||
330 | To know what happens, disable OOM_Kill by 10. OOM Control(see below) and | ||
331 | seeing what happens will be helpful. | ||
332 | |||
267 | 4.2 Task migration | 333 | 4.2 Task migration |
268 | 334 | ||
269 | When a task migrates from one cgroup to another, its charge is not | 335 | When a task migrates from one cgroup to another, its charge is not |
@@ -271,16 +337,19 @@ carried forward by default. The pages allocated from the original cgroup still | |||
271 | remain charged to it, the charge is dropped when the page is freed or | 337 | remain charged to it, the charge is dropped when the page is freed or |
272 | reclaimed. | 338 | reclaimed. |
273 | 339 | ||
274 | Note: You can move charges of a task along with task migration. See 8. | 340 | You can move charges of a task along with task migration. |
341 | See 8. "Move charges at task migration" | ||
275 | 342 | ||
276 | 4.3 Removing a cgroup | 343 | 4.3 Removing a cgroup |
277 | 344 | ||
278 | A cgroup can be removed by rmdir, but as discussed in sections 4.1 and 4.2, a | 345 | A cgroup can be removed by rmdir, but as discussed in sections 4.1 and 4.2, a |
279 | cgroup might have some charge associated with it, even though all | 346 | cgroup might have some charge associated with it, even though all |
280 | tasks have migrated away from it. | 347 | tasks have migrated away from it. (because we charge against pages, not |
281 | Such charges are freed(at default) or moved to its parent. When moved, | 348 | against tasks.) |
282 | both of RSS and CACHES are moved to parent. | 349 | |
283 | If both of them are busy, rmdir() returns -EBUSY. See 5.1 Also. | 350 | Such charges are freed or moved to their parent. At moving, both of RSS |
351 | and CACHES are moved to parent. | ||
352 | rmdir() may return -EBUSY if freeing/moving fails. See 5.1 also. | ||
284 | 353 | ||
285 | Charges recorded in swap information is not updated at removal of cgroup. | 354 | Charges recorded in swap information is not updated at removal of cgroup. |
286 | Recorded information is discarded and a cgroup which uses swap (swapcache) | 355 | Recorded information is discarded and a cgroup which uses swap (swapcache) |
@@ -296,10 +365,10 @@ will be charged as a new owner of it. | |||
296 | 365 | ||
297 | # echo 0 > memory.force_empty | 366 | # echo 0 > memory.force_empty |
298 | 367 | ||
299 | Almost all pages tracked by this memcg will be unmapped and freed. Some of | 368 | Almost all pages tracked by this memory cgroup will be unmapped and freed. |
300 | pages cannot be freed because it's locked or in-use. Such pages are moved | 369 | Some pages cannot be freed because they are locked or in-use. Such pages are |
301 | to parent and this cgroup will be empty. But this may return -EBUSY in | 370 | moved to parent and this cgroup will be empty. This may return -EBUSY if |
302 | some too busy case. | 371 | VM is too busy to free/move all pages immediately. |
303 | 372 | ||
304 | Typical use case of this interface is that calling this before rmdir(). | 373 | Typical use case of this interface is that calling this before rmdir(). |
305 | Because rmdir() moves all pages to parent, some out-of-use page caches can be | 374 | Because rmdir() moves all pages to parent, some out-of-use page caches can be |
@@ -309,19 +378,41 @@ will be charged as a new owner of it. | |||
309 | 378 | ||
310 | memory.stat file includes following statistics | 379 | memory.stat file includes following statistics |
311 | 380 | ||
381 | # per-memory cgroup local status | ||
312 | cache - # of bytes of page cache memory. | 382 | cache - # of bytes of page cache memory. |
313 | rss - # of bytes of anonymous and swap cache memory. | 383 | rss - # of bytes of anonymous and swap cache memory. |
384 | mapped_file - # of bytes of mapped file (includes tmpfs/shmem) | ||
314 | pgpgin - # of pages paged in (equivalent to # of charging events). | 385 | pgpgin - # of pages paged in (equivalent to # of charging events). |
315 | pgpgout - # of pages paged out (equivalent to # of uncharging events). | 386 | pgpgout - # of pages paged out (equivalent to # of uncharging events). |
316 | active_anon - # of bytes of anonymous and swap cache memory on active | 387 | swap - # of bytes of swap usage |
317 | lru list. | ||
318 | inactive_anon - # of bytes of anonymous memory and swap cache memory on | 388 | inactive_anon - # of bytes of anonymous memory and swap cache memory on |
319 | inactive lru list. | 389 | LRU list. |
320 | active_file - # of bytes of file-backed memory on active lru list. | 390 | active_anon - # of bytes of anonymous and swap cache memory on active |
321 | inactive_file - # of bytes of file-backed memory on inactive lru list. | 391 | inactive LRU list. |
392 | inactive_file - # of bytes of file-backed memory on inactive LRU list. | ||
393 | active_file - # of bytes of file-backed memory on active LRU list. | ||
322 | unevictable - # of bytes of memory that cannot be reclaimed (mlocked etc). | 394 | unevictable - # of bytes of memory that cannot be reclaimed (mlocked etc). |
323 | 395 | ||
324 | The following additional stats are dependent on CONFIG_DEBUG_VM. | 396 | # status considering hierarchy (see memory.use_hierarchy settings) |
397 | |||
398 | hierarchical_memory_limit - # of bytes of memory limit with regard to hierarchy | ||
399 | under which the memory cgroup is | ||
400 | hierarchical_memsw_limit - # of bytes of memory+swap limit with regard to | ||
401 | hierarchy under which memory cgroup is. | ||
402 | |||
403 | total_cache - sum of all children's "cache" | ||
404 | total_rss - sum of all children's "rss" | ||
405 | total_mapped_file - sum of all children's "cache" | ||
406 | total_pgpgin - sum of all children's "pgpgin" | ||
407 | total_pgpgout - sum of all children's "pgpgout" | ||
408 | total_swap - sum of all children's "swap" | ||
409 | total_inactive_anon - sum of all children's "inactive_anon" | ||
410 | total_active_anon - sum of all children's "active_anon" | ||
411 | total_inactive_file - sum of all children's "inactive_file" | ||
412 | total_active_file - sum of all children's "active_file" | ||
413 | total_unevictable - sum of all children's "unevictable" | ||
414 | |||
415 | # The following additional stats are dependent on CONFIG_DEBUG_VM. | ||
325 | 416 | ||
326 | inactive_ratio - VM internal parameter. (see mm/page_alloc.c) | 417 | inactive_ratio - VM internal parameter. (see mm/page_alloc.c) |
327 | recent_rotated_anon - VM internal parameter. (see mm/vmscan.c) | 418 | recent_rotated_anon - VM internal parameter. (see mm/vmscan.c) |
@@ -330,24 +421,37 @@ recent_scanned_anon - VM internal parameter. (see mm/vmscan.c) | |||
330 | recent_scanned_file - VM internal parameter. (see mm/vmscan.c) | 421 | recent_scanned_file - VM internal parameter. (see mm/vmscan.c) |
331 | 422 | ||
332 | Memo: | 423 | Memo: |
333 | recent_rotated means recent frequency of lru rotation. | 424 | recent_rotated means recent frequency of LRU rotation. |
334 | recent_scanned means recent # of scans to lru. | 425 | recent_scanned means recent # of scans to LRU. |
335 | showing for better debug please see the code for meanings. | 426 | showing for better debug please see the code for meanings. |
336 | 427 | ||
337 | Note: | 428 | Note: |
338 | Only anonymous and swap cache memory is listed as part of 'rss' stat. | 429 | Only anonymous and swap cache memory is listed as part of 'rss' stat. |
339 | This should not be confused with the true 'resident set size' or the | 430 | This should not be confused with the true 'resident set size' or the |
340 | amount of physical memory used by the cgroup. Per-cgroup rss | 431 | amount of physical memory used by the cgroup. |
341 | accounting is not done yet. | 432 | 'rss + file_mapped" will give you resident set size of cgroup. |
433 | (Note: file and shmem may be shared among other cgroups. In that case, | ||
434 | file_mapped is accounted only when the memory cgroup is owner of page | ||
435 | cache.) | ||
342 | 436 | ||
343 | 5.3 swappiness | 437 | 5.3 swappiness |
344 | Similar to /proc/sys/vm/swappiness, but affecting a hierarchy of groups only. | ||
345 | 438 | ||
346 | Following cgroups' swappiness can't be changed. | 439 | Similar to /proc/sys/vm/swappiness, but affecting a hierarchy of groups only. |
347 | - root cgroup (uses /proc/sys/vm/swappiness). | ||
348 | - a cgroup which uses hierarchy and it has child cgroup. | ||
349 | - a cgroup which uses hierarchy and not the root of hierarchy. | ||
350 | 440 | ||
441 | Following cgroups' swappiness can't be changed. | ||
442 | - root cgroup (uses /proc/sys/vm/swappiness). | ||
443 | - a cgroup which uses hierarchy and it has other cgroup(s) below it. | ||
444 | - a cgroup which uses hierarchy and not the root of hierarchy. | ||
445 | |||
446 | 5.4 failcnt | ||
447 | |||
448 | A memory cgroup provides memory.failcnt and memory.memsw.failcnt files. | ||
449 | This failcnt(== failure count) shows the number of times that a usage counter | ||
450 | hit its limit. When a memory cgroup hits a limit, failcnt increases and | ||
451 | memory under it will be reclaimed. | ||
452 | |||
453 | You can reset failcnt by writing 0 to failcnt file. | ||
454 | # echo 0 > .../memory.failcnt | ||
351 | 455 | ||
352 | 6. Hierarchy support | 456 | 6. Hierarchy support |
353 | 457 | ||
@@ -366,13 +470,13 @@ hierarchy | |||
366 | 470 | ||
367 | In the diagram above, with hierarchical accounting enabled, all memory | 471 | In the diagram above, with hierarchical accounting enabled, all memory |
368 | usage of e, is accounted to its ancestors up until the root (i.e, c and root), | 472 | usage of e, is accounted to its ancestors up until the root (i.e, c and root), |
369 | that has memory.use_hierarchy enabled. If one of the ancestors goes over its | 473 | that has memory.use_hierarchy enabled. If one of the ancestors goes over its |
370 | limit, the reclaim algorithm reclaims from the tasks in the ancestor and the | 474 | limit, the reclaim algorithm reclaims from the tasks in the ancestor and the |
371 | children of the ancestor. | 475 | children of the ancestor. |
372 | 476 | ||
373 | 6.1 Enabling hierarchical accounting and reclaim | 477 | 6.1 Enabling hierarchical accounting and reclaim |
374 | 478 | ||
375 | The memory controller by default disables the hierarchy feature. Support | 479 | A memory cgroup by default disables the hierarchy feature. Support |
376 | can be enabled by writing 1 to memory.use_hierarchy file of the root cgroup | 480 | can be enabled by writing 1 to memory.use_hierarchy file of the root cgroup |
377 | 481 | ||
378 | # echo 1 > memory.use_hierarchy | 482 | # echo 1 > memory.use_hierarchy |
@@ -382,10 +486,10 @@ The feature can be disabled by | |||
382 | # echo 0 > memory.use_hierarchy | 486 | # echo 0 > memory.use_hierarchy |
383 | 487 | ||
384 | NOTE1: Enabling/disabling will fail if the cgroup already has other | 488 | NOTE1: Enabling/disabling will fail if the cgroup already has other |
385 | cgroups created below it. | 489 | cgroups created below it. |
386 | 490 | ||
387 | NOTE2: When panic_on_oom is set to "2", the whole system will panic in | 491 | NOTE2: When panic_on_oom is set to "2", the whole system will panic in |
388 | case of an oom event in any cgroup. | 492 | case of an OOM event in any cgroup. |
389 | 493 | ||
390 | 7. Soft limits | 494 | 7. Soft limits |
391 | 495 | ||
@@ -395,7 +499,7 @@ is to allow control groups to use as much of the memory as needed, provided | |||
395 | a. There is no memory contention | 499 | a. There is no memory contention |
396 | b. They do not exceed their hard limit | 500 | b. They do not exceed their hard limit |
397 | 501 | ||
398 | When the system detects memory contention or low memory control groups | 502 | When the system detects memory contention or low memory, control groups |
399 | are pushed back to their soft limits. If the soft limit of each control | 503 | are pushed back to their soft limits. If the soft limit of each control |
400 | group is very high, they are pushed back as much as possible to make | 504 | group is very high, they are pushed back as much as possible to make |
401 | sure that one control group does not starve the others of memory. | 505 | sure that one control group does not starve the others of memory. |
@@ -409,7 +513,7 @@ it gets invoked from balance_pgdat (kswapd). | |||
409 | 7.1 Interface | 513 | 7.1 Interface |
410 | 514 | ||
411 | Soft limits can be setup by using the following commands (in this example we | 515 | Soft limits can be setup by using the following commands (in this example we |
412 | assume a soft limit of 256 megabytes) | 516 | assume a soft limit of 256 MiB) |
413 | 517 | ||
414 | # echo 256M > memory.soft_limit_in_bytes | 518 | # echo 256M > memory.soft_limit_in_bytes |
415 | 519 | ||
@@ -445,7 +549,7 @@ Note: Charges are moved only when you move mm->owner, IOW, a leader of a thread | |||
445 | Note: If we cannot find enough space for the task in the destination cgroup, we | 549 | Note: If we cannot find enough space for the task in the destination cgroup, we |
446 | try to make space by reclaiming memory. Task migration may fail if we | 550 | try to make space by reclaiming memory. Task migration may fail if we |
447 | cannot make enough space. | 551 | cannot make enough space. |
448 | Note: It can take several seconds if you move charges in giga bytes order. | 552 | Note: It can take several seconds if you move charges much. |
449 | 553 | ||
450 | And if you want disable it again: | 554 | And if you want disable it again: |
451 | 555 | ||
@@ -465,7 +569,7 @@ memory cgroup. | |||
465 | | enable Swap Extension(see 2.4) to enable move of swap charges. | 569 | | enable Swap Extension(see 2.4) to enable move of swap charges. |
466 | -----+------------------------------------------------------------------------ | 570 | -----+------------------------------------------------------------------------ |
467 | 1 | A charge of file pages(normal file, tmpfs file(e.g. ipc shared memory) | 571 | 1 | A charge of file pages(normal file, tmpfs file(e.g. ipc shared memory) |
468 | | and swaps of tmpfs file) mmaped by the target task. Unlike the case of | 572 | | and swaps of tmpfs file) mmapped by the target task. Unlike the case of |
469 | | anonymous pages, file pages(and swaps) in the range mmapped by the task | 573 | | anonymous pages, file pages(and swaps) in the range mmapped by the task |
470 | | will be moved even if the task hasn't done page fault, i.e. they might | 574 | | will be moved even if the task hasn't done page fault, i.e. they might |
471 | | not be the task's "RSS", but other task's "RSS" that maps the same file. | 575 | | not be the task's "RSS", but other task's "RSS" that maps the same file. |
@@ -482,15 +586,15 @@ memory cgroup. | |||
482 | 586 | ||
483 | 9. Memory thresholds | 587 | 9. Memory thresholds |
484 | 588 | ||
485 | Memory controler implements memory thresholds using cgroups notification | 589 | Memory cgroup implements memory thresholds using cgroups notification |
486 | API (see cgroups.txt). It allows to register multiple memory and memsw | 590 | API (see cgroups.txt). It allows to register multiple memory and memsw |
487 | thresholds and gets notifications when it crosses. | 591 | thresholds and gets notifications when it crosses. |
488 | 592 | ||
489 | To register a threshold application need: | 593 | To register a threshold application need: |
490 | - create an eventfd using eventfd(2); | 594 | - create an eventfd using eventfd(2); |
491 | - open memory.usage_in_bytes or memory.memsw.usage_in_bytes; | 595 | - open memory.usage_in_bytes or memory.memsw.usage_in_bytes; |
492 | - write string like "<event_fd> <memory.usage_in_bytes> <threshold>" to | 596 | - write string like "<event_fd> <fd of memory.usage_in_bytes> <threshold>" to |
493 | cgroup.event_control. | 597 | cgroup.event_control. |
494 | 598 | ||
495 | Application will be notified through eventfd when memory usage crosses | 599 | Application will be notified through eventfd when memory usage crosses |
496 | threshold in any direction. | 600 | threshold in any direction. |
@@ -501,27 +605,28 @@ It's applicable for root and non-root cgroup. | |||
501 | 605 | ||
502 | memory.oom_control file is for OOM notification and other controls. | 606 | memory.oom_control file is for OOM notification and other controls. |
503 | 607 | ||
504 | Memory controler implements oom notifier using cgroup notification | 608 | Memory cgroup implements OOM notifier using cgroup notification |
505 | API (See cgroups.txt). It allows to register multiple oom notification | 609 | API (See cgroups.txt). It allows to register multiple OOM notification |
506 | delivery and gets notification when oom happens. | 610 | delivery and gets notification when OOM happens. |
507 | 611 | ||
508 | To register a notifier, application need: | 612 | To register a notifier, application need: |
509 | - create an eventfd using eventfd(2) | 613 | - create an eventfd using eventfd(2) |
510 | - open memory.oom_control file | 614 | - open memory.oom_control file |
511 | - write string like "<event_fd> <memory.oom_control>" to cgroup.event_control | 615 | - write string like "<event_fd> <fd of memory.oom_control>" to |
616 | cgroup.event_control | ||
512 | 617 | ||
513 | Application will be notifier through eventfd when oom happens. | 618 | Application will be notified through eventfd when OOM happens. |
514 | OOM notification doesn't work for root cgroup. | 619 | OOM notification doesn't work for root cgroup. |
515 | 620 | ||
516 | You can disable oom-killer by writing "1" to memory.oom_control file. | 621 | You can disable OOM-killer by writing "1" to memory.oom_control file, as: |
517 | As. | 622 | |
518 | #echo 1 > memory.oom_control | 623 | #echo 1 > memory.oom_control |
519 | 624 | ||
520 | This operation is only allowed to the top cgroup of subhierarchy. | 625 | This operation is only allowed to the top cgroup of sub-hierarchy. |
521 | If oom-killer is disabled, tasks under cgroup will hang/sleep | 626 | If OOM-killer is disabled, tasks under cgroup will hang/sleep |
522 | in memcg's oom-waitq when they request accountable memory. | 627 | in memory cgroup's OOM-waitqueue when they request accountable memory. |
523 | 628 | ||
524 | For running them, you have to relax the memcg's oom sitaution by | 629 | For running them, you have to relax the memory cgroup's OOM status by |
525 | * enlarge limit or reduce usage. | 630 | * enlarge limit or reduce usage. |
526 | To reduce usage, | 631 | To reduce usage, |
527 | * kill some tasks. | 632 | * kill some tasks. |
@@ -532,7 +637,7 @@ Then, stopped tasks will work again. | |||
532 | 637 | ||
533 | At reading, current status of OOM is shown. | 638 | At reading, current status of OOM is shown. |
534 | oom_kill_disable 0 or 1 (if 1, oom-killer is disabled) | 639 | oom_kill_disable 0 or 1 (if 1, oom-killer is disabled) |
535 | under_oom 0 or 1 (if 1, the memcg is under OOM,tasks may | 640 | under_oom 0 or 1 (if 1, the memory cgroup is under OOM, tasks may |
536 | be stopped.) | 641 | be stopped.) |
537 | 642 | ||
538 | 11. TODO | 643 | 11. TODO |