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[73.93.239.127]) by smtp.gmail.com with ESMTPSA id y16sm6722921pfb.83.2021.01.21.15.06.33 (version=TLS1_3 cipher=TLS_AES_256_GCM_SHA384 bits=256/256); Thu, 21 Jan 2021 15:06:34 -0800 (PST) From: Yang Shi To: guro@fb.com, ktkhai@virtuozzo.com, shakeelb@google.com, david@fromorbit.com, hannes@cmpxchg.org, mhocko@suse.com, akpm@linux-foundation.org Cc: shy828301@gmail.com, linux-mm@kvack.org, linux-fsdevel@vger.kernel.org, linux-kernel@vger.kernel.org Subject: [v4 PATCH 0/11] Make shrinker's nr_deferred memcg aware Date: Thu, 21 Jan 2021 15:06:10 -0800 Message-Id: <20210121230621.654304-1-shy828301@gmail.com> X-Mailer: git-send-email 2.26.2 MIME-Version: 1.0 Content-Transfer-Encoding: 8bit Precedence: bulk List-ID: X-Mailing-List: linux-kernel@vger.kernel.org Changelog v3 --> v4: * Removed "memcg_" prefix for shrinker_maps related functions per Roman. * Use write lock instead of read lock per Kirill. Also removed Johannes's ack since write lock is used. * Incorporated the comments from Kirill. * Removed RFC. * Rebased to v5.11-rc4. v2 --> v3: * Moved shrinker_maps related code to vmscan.c per Dave. * Removed memcg_shrinker_map_size. Calcuated the size of map via shrinker_nr_max per Johannes. * Consolidated shrinker_deferred with shrinker_maps into one struct per Dave. * Simplified the nr_deferred related code. * Dropped the memory barrier from v2. * Moved nr_deferred reparent code to vmscan.c per Dave. * Added test coverage information in patch #11. Dave is concerned about the potential regression. I didn't notice regression with my tests, but suggestions about more test coverage is definitely welcome. And it may help spot regression with this patch in -mm tree then linux-next tree so I keep it in this version. * The code cleanup and consolidation resulted in the series grow to 11 patches. * Rebased onto 5.11-rc2. v1 --> v2: * Use shrinker->flags to store the new SHRINKER_REGISTERED flag per Roman. * Folded patch #1 into patch #6 per Roman. * Added memory barrier to prevent shrink_slab_memcg from seeing NULL shrinker_maps/ shrinker_deferred per Kirill. * Removed memcg_shrinker_map_mutex. Protcted shrinker_map/shrinker_deferred allocations from expand with shrinker_rwsem per Johannes. Recently huge amount one-off slab drop was seen on some vfs metadata heavy workloads, it turned out there were huge amount accumulated nr_deferred objects seen by the shrinker. On our production machine, I saw absurd number of nr_deferred shown as the below tracing result: <...>-48776 [032] .... 27970562.458916: mm_shrink_slab_start: super_cache_scan+0x0/0x1a0 ffff9a83046f3458: nid: 0 objects to shrink 2531805877005 gfp_flags GFP_HIGHUSER_MOVABLE pgs_scanned 32 lru_pgs 9300 cache items 1667 delta 11 total_scan 833 There are 2.5 trillion deferred objects on one node, assuming all of them are dentry (192 bytes per object), so the total size of deferred on one node is ~480TB. It is definitely ridiculous. I managed to reproduce this problem with kernel build workload plus negative dentry generator. First step, run the below kernel build test script: NR_CPUS=`cat /proc/cpuinfo | grep -e processor | wc -l` cd /root/Buildarea/linux-stable for i in `seq 1500`; do cgcreate -g memory:kern_build echo 4G > /sys/fs/cgroup/memory/kern_build/memory.limit_in_bytes echo 3 > /proc/sys/vm/drop_caches cgexec -g memory:kern_build make clean > /dev/null 2>&1 cgexec -g memory:kern_build make -j$NR_CPUS > /dev/null 2>&1 cgdelete -g memory:kern_build done Then run the below negative dentry generator script: NR_CPUS=`cat /proc/cpuinfo | grep -e processor | wc -l` mkdir /sys/fs/cgroup/memory/test echo $$ > /sys/fs/cgroup/memory/test/tasks for i in `seq $NR_CPUS`; do while true; do FILE=`head /dev/urandom | tr -dc A-Za-z0-9 | head -c 64` cat $FILE 2>/dev/null done & done Then kswapd will shrink half of dentry cache in just one loop as the below tracing result showed: kswapd0-475 [028] .... 305968.252561: mm_shrink_slab_start: super_cache_scan+0x0/0x190 0000000024acf00c: nid: 0 objects to shrink 4994376020 gfp_flags GFP_KERNEL cache items 93689873 delta 45746 total_scan 46844936 priority 12 kswapd0-475 [021] .... 306013.099399: mm_shrink_slab_end: super_cache_scan+0x0/0x190 0000000024acf00c: nid: 0 unused scan count 4994376020 new scan count 4947576838 total_scan 8 last shrinker return val 46844928 There were huge number of deferred objects before the shrinker was called, the behavior does match the code but it might be not desirable from the user's stand of point. The excessive amount of nr_deferred might be accumulated due to various reasons, for example: * GFP_NOFS allocation * Significant times of small amount scan (< scan_batch, 1024 for vfs metadata) However the LRUs of slabs are per memcg (memcg-aware shrinkers) but the deferred objects is per shrinker, this may have some bad effects: * Poor isolation among memcgs. Some memcgs which happen to have frequent limit reclaim may get nr_deferred accumulated to a huge number, then other innocent memcgs may take the fall. In our case the main workload was hit. * Unbounded deferred objects. There is no cap for deferred objects, it can outgrow ridiculously as the tracing result showed. * Easy to get out of control. Although shrinkers take into account deferred objects, but it can go out of control easily. One misconfigured memcg could incur absurd amount of deferred objects in a period of time. * Sort of reclaim problems, i.e. over reclaim, long reclaim latency, etc. There may be hundred GB slab caches for vfe metadata heavy workload, shrink half of them may take minutes. We observed latency spike due to the prolonged reclaim. These issues also have been discussed in https://lore.kernel.org/linux-mm/20200916185823.5347-1-shy828301@gmail.com/. The patchset is the outcome of that discussion. So this patchset makes nr_deferred per-memcg to tackle the problem. It does: * Have memcg_shrinker_deferred per memcg per node, just like what shrinker_map does. Instead it is an atomic_long_t array, each element represent one shrinker even though the shrinker is not memcg aware, this simplifies the implementation. For memcg aware shrinkers, the deferred objects are just accumulated to its own memcg. The shrinkers just see nr_deferred from its own memcg. Non memcg aware shrinkers still use global nr_deferred from struct shrinker. * Once the memcg is offlined, its nr_deferred will be reparented to its parent along with LRUs. * The root memcg has memcg_shrinker_deferred array too. It simplifies the handling of reparenting to root memcg. * Cap nr_deferred to 2x of the length of lru. The idea is borrowed from Dave Chinner's series (https://lore.kernel.org/linux-xfs/20191031234618.15403-1-david@fromorbit.com/) The downside is each memcg has to allocate extra memory to store the nr_deferred array. On our production environment, there are typically around 40 shrinkers, so each memcg needs ~320 bytes. 10K memcgs would need ~3.2MB memory. It seems fine. We have been running the patched kernel on some hosts of our fleet (test and production) for months, it works very well. The monitor data shows the working set is sustained as expected. Yang Shi (11): mm: vmscan: use nid from shrink_control for tracepoint mm: vmscan: consolidate shrinker_maps handling code mm: vmscan: use shrinker_rwsem to protect shrinker_maps allocation mm: vmscan: remove memcg_shrinker_map_size mm: memcontrol: rename shrinker_map to shrinker_info mm: vmscan: use a new flag to indicate shrinker is registered mm: vmscan: add per memcg shrinker nr_deferred mm: vmscan: use per memcg nr_deferred of shrinker mm: vmscan: don't need allocate shrinker->nr_deferred for memcg aware shrinkers mm: memcontrol: reparent nr_deferred when memcg offline mm: vmscan: shrink deferred objects proportional to priority include/linux/memcontrol.h | 24 +++--- include/linux/shrinker.h | 7 +- mm/huge_memory.c | 4 +- mm/list_lru.c | 6 +- mm/memcontrol.c | 131 +-------------------------------- mm/vmscan.c | 371 +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++----------------------- 6 files changed, 305 insertions(+), 238 deletions(-)