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selftests: memcg: factor out common parts of memory.{low,min} tests
The memory protection test setup and runtime is almost equal for memory.low and memory.min cases. It makes modification of the common parts prone to mistakes, since the protections are similar not only in setup but also in principle, factor the common part out. Past exceptions between the tests: - missing memory.min is fine (kept), - test_memcg_low protected orphaned pagecache (adapted like test_memcg_min and we keep the processes of protected memory running). The evaluation in two tests is different (OOM of allocator vs low events of protégés), this is kept different. Link: https://lkml.kernel.org/r/20220518161859.21565-6-mkoutny@suse.com Signed-off-by: Michal Koutný <mkoutny@suse.com> Acked-by: Roman Gushchin <roman.gushchin@linux.dev> CC: Johannes Weiner <hannes@cmpxchg.org> Cc: Michal Hocko <mhocko@kernel.org> Cc: Shakeel Butt <shakeelb@google.com> Cc: Richard Palethorpe <rpalethorpe@suse.de> Cc: David Vernet <void@manifault.com> Signed-off-by: Andrew Morton <akpm@linux-foundation.org>
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@ -190,13 +190,6 @@ cleanup:
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return ret;
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}
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static int alloc_pagecache_50M(const char *cgroup, void *arg)
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{
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int fd = (long)arg;
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return alloc_pagecache(fd, MB(50));
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}
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static int alloc_pagecache_50M_noexit(const char *cgroup, void *arg)
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{
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int fd = (long)arg;
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@ -254,7 +247,9 @@ static int cg_test_proc_killed(const char *cgroup)
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* A/B/E memory.min = 0, memory.current = 50M
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* A/B/F memory.min = 500M, memory.current = 0
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*
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* Usages are pagecache, but the test keeps a running
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* (or memory.low if we test soft protection)
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*
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* Usages are pagecache and the test keeps a running
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* process in every leaf cgroup.
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* Then it creates A/G and creates a significant
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* memory pressure in A.
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@ -268,15 +263,16 @@ static int cg_test_proc_killed(const char *cgroup)
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* (for origin of the numbers, see model in memcg_protection.m.)
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*
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* After that it tries to allocate more than there is
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* unprotected memory in A available, and checks
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* checks that memory.min protects pagecache even
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* in this case.
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* unprotected memory in A available, and checks that:
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* a) memory.min protects pagecache even in this case,
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* b) memory.low allows reclaiming page cache with low events.
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*/
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static int test_memcg_min(const char *root)
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static int test_memcg_protection(const char *root, bool min)
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{
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int ret = KSFT_FAIL;
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int ret = KSFT_FAIL, rc;
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char *parent[3] = {NULL};
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char *children[4] = {NULL};
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const char *attribute = min ? "memory.min" : "memory.low";
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long c[4];
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int i, attempts;
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int fd;
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@ -300,8 +296,10 @@ static int test_memcg_min(const char *root)
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if (cg_create(parent[0]))
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goto cleanup;
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if (cg_read_long(parent[0], "memory.min")) {
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ret = KSFT_SKIP;
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if (cg_read_long(parent[0], attribute)) {
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/* No memory.min on older kernels is fine */
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if (min)
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ret = KSFT_SKIP;
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goto cleanup;
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}
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@ -338,15 +336,15 @@ static int test_memcg_min(const char *root)
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(void *)(long)fd);
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}
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if (cg_write(parent[1], "memory.min", "50M"))
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if (cg_write(parent[1], attribute, "50M"))
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goto cleanup;
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if (cg_write(children[0], "memory.min", "75M"))
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if (cg_write(children[0], attribute, "75M"))
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goto cleanup;
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if (cg_write(children[1], "memory.min", "25M"))
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if (cg_write(children[1], attribute, "25M"))
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goto cleanup;
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if (cg_write(children[2], "memory.min", "0"))
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if (cg_write(children[2], attribute, "0"))
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goto cleanup;
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if (cg_write(children[3], "memory.min", "500M"))
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if (cg_write(children[3], attribute, "500M"))
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goto cleanup;
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attempts = 0;
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@ -375,161 +373,26 @@ static int test_memcg_min(const char *root)
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if (c[3] != 0)
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goto cleanup;
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if (!cg_run(parent[2], alloc_anon, (void *)MB(170)))
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rc = cg_run(parent[2], alloc_anon, (void *)MB(170));
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if (min && !rc)
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goto cleanup;
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if (!values_close(cg_read_long(parent[1], "memory.current"), MB(50), 3))
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goto cleanup;
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ret = KSFT_PASS;
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cleanup:
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for (i = ARRAY_SIZE(children) - 1; i >= 0; i--) {
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if (!children[i])
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continue;
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cg_destroy(children[i]);
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free(children[i]);
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}
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for (i = ARRAY_SIZE(parent) - 1; i >= 0; i--) {
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if (!parent[i])
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continue;
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cg_destroy(parent[i]);
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free(parent[i]);
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}
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close(fd);
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return ret;
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}
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/*
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* First, this test creates the following hierarchy:
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* A memory.low = 0, memory.max = 200M
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* A/B memory.low = 50M
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* A/B/C memory.low = 75M, memory.current = 50M
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* A/B/D memory.low = 25M, memory.current = 50M
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* A/B/E memory.low = 0, memory.current = 50M
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* A/B/F memory.low = 500M, memory.current = 0
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*
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* Usages are pagecache.
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* Then it creates A/G an creates a significant
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* memory pressure in it.
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*
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* Then it checks actual memory usages and expects that:
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* A/B memory.current ~= 50M
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* A/B/C memory.current ~= 29M
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* A/B/D memory.current ~= 21M
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* A/B/E memory.current ~= 0
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* A/B/F memory.current = 0
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* (for origin of the numbers, see model in memcg_protection.m.)
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*
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* After that it tries to allocate more than there is
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* unprotected memory in A available,
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* and checks low and oom events in memory.events.
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*/
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static int test_memcg_low(const char *root)
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{
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int ret = KSFT_FAIL;
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char *parent[3] = {NULL};
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char *children[4] = {NULL};
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long low, oom;
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long c[4];
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int i;
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int fd;
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fd = get_temp_fd();
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if (fd < 0)
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goto cleanup;
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parent[0] = cg_name(root, "memcg_test_0");
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if (!parent[0])
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goto cleanup;
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parent[1] = cg_name(parent[0], "memcg_test_1");
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if (!parent[1])
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goto cleanup;
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parent[2] = cg_name(parent[0], "memcg_test_2");
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if (!parent[2])
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goto cleanup;
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if (cg_create(parent[0]))
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goto cleanup;
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if (cg_read_long(parent[0], "memory.low"))
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goto cleanup;
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if (cg_write(parent[0], "cgroup.subtree_control", "+memory"))
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goto cleanup;
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if (cg_write(parent[0], "memory.max", "200M"))
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goto cleanup;
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if (cg_write(parent[0], "memory.swap.max", "0"))
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goto cleanup;
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if (cg_create(parent[1]))
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goto cleanup;
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if (cg_write(parent[1], "cgroup.subtree_control", "+memory"))
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goto cleanup;
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if (cg_create(parent[2]))
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goto cleanup;
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for (i = 0; i < ARRAY_SIZE(children); i++) {
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children[i] = cg_name_indexed(parent[1], "child_memcg", i);
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if (!children[i])
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goto cleanup;
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if (cg_create(children[i]))
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goto cleanup;
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if (i > 2)
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continue;
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if (cg_run(children[i], alloc_pagecache_50M, (void *)(long)fd))
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goto cleanup;
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}
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if (cg_write(parent[1], "memory.low", "50M"))
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goto cleanup;
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if (cg_write(children[0], "memory.low", "75M"))
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goto cleanup;
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if (cg_write(children[1], "memory.low", "25M"))
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goto cleanup;
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if (cg_write(children[2], "memory.low", "0"))
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goto cleanup;
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if (cg_write(children[3], "memory.low", "500M"))
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goto cleanup;
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if (cg_run(parent[2], alloc_anon, (void *)MB(148)))
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goto cleanup;
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if (!values_close(cg_read_long(parent[1], "memory.current"), MB(50), 3))
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goto cleanup;
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for (i = 0; i < ARRAY_SIZE(children); i++)
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c[i] = cg_read_long(children[i], "memory.current");
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if (!values_close(c[0], MB(29), 10))
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goto cleanup;
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if (!values_close(c[1], MB(21), 10))
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goto cleanup;
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if (c[3] != 0)
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goto cleanup;
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if (cg_run(parent[2], alloc_anon, (void *)MB(166))) {
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else if (!min && rc) {
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fprintf(stderr,
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"memory.low prevents from allocating anon memory\n");
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goto cleanup;
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}
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if (!values_close(cg_read_long(parent[1], "memory.current"), MB(50), 3))
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goto cleanup;
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if (min) {
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ret = KSFT_PASS;
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goto cleanup;
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}
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for (i = 0; i < ARRAY_SIZE(children); i++) {
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int no_low_events_index = 1;
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long low, oom;
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oom = cg_read_key_long(children[i], "memory.events", "oom ");
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low = cg_read_key_long(children[i], "memory.events", "low ");
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@ -565,6 +428,16 @@ cleanup:
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return ret;
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}
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static int test_memcg_min(const char *root)
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{
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return test_memcg_protection(root, true);
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}
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static int test_memcg_low(const char *root)
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{
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return test_memcg_protection(root, false);
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}
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static int alloc_pagecache_max_30M(const char *cgroup, void *arg)
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{
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size_t size = MB(50);
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