test_cpu.c includes testcases that validate the cgroup cpu controller. This patch adds a new testcase called test_cpucg_weight_underprovisioned() that verifies that processes with different cpu.weight that are all running on an underprovisioned system, still get roughly the same amount of cpu time. Because test_cpucg_weight_underprovisioned() is very similar to test_cpucg_weight_overprovisioned(), this patch also pulls the common logic into a separate helper function that is invoked from both testcases, and which uses function pointers to invoke the unique portions of the testcases. Signed-off-by: David Vernet <void@xxxxxxxxxxxxx> --- tools/testing/selftests/cgroup/test_cpu.c | 155 ++++++++++++++++------ 1 file changed, 117 insertions(+), 38 deletions(-) diff --git a/tools/testing/selftests/cgroup/test_cpu.c b/tools/testing/selftests/cgroup/test_cpu.c index 8d901c06c79d..64f9ce91c992 100644 --- a/tools/testing/selftests/cgroup/test_cpu.c +++ b/tools/testing/selftests/cgroup/test_cpu.c @@ -19,6 +19,12 @@ enum hog_clock_type { CPU_HOG_CLOCK_WALL, }; +struct cpu_hogger { + char *cgroup; + pid_t pid; + long usage; +}; + struct cpu_hog_func_param { int nprocs; struct timespec ts; @@ -223,31 +229,15 @@ static int test_cpucg_stats(const char *root) return ret; } -/* - * First, this test creates the following hierarchy: - * A - * A/B cpu.weight = 50 - * A/C cpu.weight = 100 - * A/D cpu.weight = 150 - * - * A separate process is then created for each child cgroup which spawns as - * many threads as there are cores, and hogs each CPU as much as possible - * for some time interval. - * - * Once all of the children have exited, we verify that each child cgroup - * was given proportional runtime as informed by their cpu.weight. - */ -static int test_cpucg_weight_overprovisioned(const char *root) +static int +run_cpucg_weight_test( + const char *root, + pid_t (*spawn_child)(const struct cpu_hogger *child), + int (*validate)(const struct cpu_hogger *children, int num_children)) { - struct child { - char *cgroup; - pid_t pid; - long usage; - }; int ret = KSFT_FAIL, i; char *parent = NULL; - struct child children[3] = {NULL}; - long usage_seconds = 10; + struct cpu_hogger children[3] = {NULL}; parent = cg_name(root, "cpucg_test_0"); if (!parent) @@ -273,16 +263,7 @@ static int test_cpucg_weight_overprovisioned(const char *root) } for (i = 0; i < ARRAY_SIZE(children); i++) { - struct cpu_hog_func_param param = { - .nprocs = get_nprocs(), - .ts = { - .tv_sec = usage_seconds, - .tv_nsec = 0, - }, - .clock_type = CPU_HOG_CLOCK_WALL, - }; - pid_t pid = cg_run_nowait(children[i].cgroup, hog_cpus_timed, - (void *)¶m); + pid_t pid = spawn_child(&children[i]); if (pid <= 0) goto cleanup; children[i].pid = pid; @@ -302,7 +283,46 @@ static int test_cpucg_weight_overprovisioned(const char *root) children[i].usage = cg_read_key_long(children[i].cgroup, "cpu.stat", "usage_usec"); - for (i = 0; i < ARRAY_SIZE(children) - 1; i++) { + if (validate(children, ARRAY_SIZE(children))) + goto cleanup; + + ret = KSFT_PASS; +cleanup: + for (i = 0; i < ARRAY_SIZE(children); i++) { + cg_destroy(children[i].cgroup); + free(children[i].cgroup); + } + cg_destroy(parent); + free(parent); + + return ret; +} + +static pid_t weight_hog_ncpus(const struct cpu_hogger *child, int ncpus) +{ + long usage_seconds = 10; + struct cpu_hog_func_param param = { + .nprocs = ncpus, + .ts = { + .tv_sec = usage_seconds, + .tv_nsec = 0, + }, + .clock_type = CPU_HOG_CLOCK_WALL, + }; + return cg_run_nowait(child->cgroup, hog_cpus_timed, (void *)¶m); +} + +static pid_t weight_hog_all_cpus(const struct cpu_hogger *child) +{ + return weight_hog_ncpus(child, get_nprocs()); +} + +static int +overprovision_validate(const struct cpu_hogger *children, int num_children) +{ + int ret = KSFT_FAIL, i; + + for (i = 0; i < num_children - 1; i++) { long delta; if (children[i + 1].usage <= children[i].usage) @@ -315,16 +335,74 @@ static int test_cpucg_weight_overprovisioned(const char *root) ret = KSFT_PASS; cleanup: - for (i = 0; i < ARRAY_SIZE(children); i++) { - cg_destroy(children[i].cgroup); - free(children[i].cgroup); + return ret; +} + +/* + * First, this test creates the following hierarchy: + * A + * A/B cpu.weight = 50 + * A/C cpu.weight = 100 + * A/D cpu.weight = 150 + * + * A separate process is then created for each child cgroup which spawns as + * many threads as there are cores, and hogs each CPU as much as possible + * for some time interval. + * + * Once all of the children have exited, we verify that each child cgroup + * was given proportional runtime as informed by their cpu.weight. + */ +static int test_cpucg_weight_overprovisioned(const char *root) +{ + return run_cpucg_weight_test(root, weight_hog_all_cpus, + overprovision_validate); +} + +static pid_t weight_hog_one_cpu(const struct cpu_hogger *child) +{ + return weight_hog_ncpus(child, 1); +} + +static int +underprovision_validate(const struct cpu_hogger *children, int num_children) +{ + int ret = KSFT_FAIL, i; + + for (i = 0; i < num_children - 1; i++) { + if (!values_close(children[i + 1].usage, children[0].usage, 15)) + goto cleanup; } - cg_destroy(parent); - free(parent); + ret = KSFT_PASS; +cleanup: return ret; } +/* + * First, this test creates the following hierarchy: + * A + * A/B cpu.weight = 50 + * A/C cpu.weight = 100 + * A/D cpu.weight = 150 + * + * A separate process is then created for each child cgroup which spawns a + * single thread that hogs a CPU. The testcase is only run on systems that + * have at least one core per-thread in the child processes. + * + * Once all of the children have exited, we verify that each child cgroup + * had roughly the same runtime despite having different cpu.weight. + */ +static int test_cpucg_weight_underprovisioned(const char *root) +{ + // Only run the test if there are enough cores to avoid overprovisioning + // the system. + if (get_nprocs() < 4) + return KSFT_SKIP; + + return run_cpucg_weight_test(root, weight_hog_one_cpu, + underprovision_validate); +} + #define T(x) { x, #x } struct cpucg_test { int (*fn)(const char *root); @@ -333,6 +411,7 @@ struct cpucg_test { T(test_cpucg_subtree_control), T(test_cpucg_stats), T(test_cpucg_weight_overprovisioned), + T(test_cpucg_weight_underprovisioned), }; #undef T -- 2.30.2