On Mon, Jun 27, 2022 at 11:14 PM Yonghong Song <yhs@xxxxxx> wrote: > > > > On 6/10/22 12:44 PM, Yosry Ahmed wrote: > > Add a selftest that tests the whole workflow for collecting, > > aggregating (flushing), and displaying cgroup hierarchical stats. > > > > TL;DR: > > - Whenever reclaim happens, vmscan_start and vmscan_end update > > per-cgroup percpu readings, and tell rstat which (cgroup, cpu) pairs > > have updates. > > - When userspace tries to read the stats, vmscan_dump calls rstat to flush > > the stats, and outputs the stats in text format to userspace (similar > > to cgroupfs stats). > > - rstat calls vmscan_flush once for every (cgroup, cpu) pair that has > > updates, vmscan_flush aggregates cpu readings and propagates updates > > to parents. > > > > Detailed explanation: > > - The test loads tracing bpf programs, vmscan_start and vmscan_end, to > > measure the latency of cgroup reclaim. Per-cgroup ratings are stored in > > percpu maps for efficiency. When a cgroup reading is updated on a cpu, > > cgroup_rstat_updated(cgroup, cpu) is called to add the cgroup to the > > rstat updated tree on that cpu. > > > > - A cgroup_iter program, vmscan_dump, is loaded and pinned to a file, for > > each cgroup. Reading this file invokes the program, which calls > > cgroup_rstat_flush(cgroup) to ask rstat to propagate the updates for all > > cpus and cgroups that have updates in this cgroup's subtree. Afterwards, > > the stats are exposed to the user. vmscan_dump returns 1 to terminate > > iteration early, so that we only expose stats for one cgroup per read. > > > > - An ftrace program, vmscan_flush, is also loaded and attached to > > bpf_rstat_flush. When rstat flushing is ongoing, vmscan_flush is invoked > > once for each (cgroup, cpu) pair that has updates. cgroups are popped > > from the rstat tree in a bottom-up fashion, so calls will always be > > made for cgroups that have updates before their parents. The program > > aggregates percpu readings to a total per-cgroup reading, and also > > propagates them to the parent cgroup. After rstat flushing is over, all > > cgroups will have correct updated hierarchical readings (including all > > cpus and all their descendants). > > > > Signed-off-by: Yosry Ahmed <yosryahmed@xxxxxxxxxx> > > There are a selftest failure with test: > > get_cgroup_vmscan_delay:PASS:output format 0 nsec > get_cgroup_vmscan_delay:PASS:cgroup_id 0 nsec > get_cgroup_vmscan_delay:PASS:vmscan_reading 0 nsec > get_cgroup_vmscan_delay:PASS:read cgroup_iter 0 nsec > get_cgroup_vmscan_delay:PASS:output format 0 nsec > get_cgroup_vmscan_delay:PASS:cgroup_id 0 nsec > get_cgroup_vmscan_delay:FAIL:vmscan_reading unexpected vmscan_reading: > actual 0 <= expected 0 > check_vmscan_stats:FAIL:child1_vmscan unexpected child1_vmscan: actual > 781874 != expected 382092 > check_vmscan_stats:FAIL:child2_vmscan unexpected child2_vmscan: actual > -1 != expected -2 > check_vmscan_stats:FAIL:test_vmscan unexpected test_vmscan: actual > 781874 != expected 781873 > check_vmscan_stats:FAIL:root_vmscan unexpected root_vmscan: actual 0 < > expected 781874 > destroy_progs:PASS:remove cgroup_iter pin 0 nsec > destroy_progs:PASS:remove cgroup_iter pin 0 nsec > destroy_progs:PASS:remove cgroup_iter pin 0 nsec > destroy_progs:PASS:remove cgroup_iter pin 0 nsec > destroy_progs:PASS:remove cgroup_iter pin 0 nsec > destroy_progs:PASS:remove cgroup_iter pin 0 nsec > destroy_progs:PASS:remove cgroup_iter pin 0 nsec > destroy_progs:PASS:remove cgroup_iter root pin 0 nsec > cleanup_bpffs:PASS:rmdir /sys/fs/bpf/vmscan/ 0 nsec > #33 cgroup_hierarchical_stats:FAIL > The test is passing on my setup. I am trying to figure out if there is something outside the setup done by the test that can cause the test to fail. > > Also an existing test also failed. > > btf_dump_data:PASS:find type id 0 nsec > > > btf_dump_data:PASS:failed/unexpected type_sz 0 nsec > > > btf_dump_data:FAIL:ensure expected/actual match unexpected ensure > expected/actual match: actual '(union bpf_iter_link_info){.map = > (struct){.map_fd = (__u32)1,},.cgroup ' > test_btf_dump_struct_data:PASS:find struct sk_buff 0 nsec > Yeah I see what happened there. bpf_iter_link_info was changed by the patch that introduced cgroup_iter, and this specific union is used by the test to test the "union with nested struct" btf dumping. I will add a patch in the next version that updates the btf_dump_data test accordingly. Thanks. > > test_btf_dump_struct_data:PASS:unexpected return value dumping sk_buff 0 > nsec > > btf_dump_data:PASS:verify prefix match 0 nsec > > > btf_dump_data:PASS:find type id 0 nsec > > > btf_dump_data:PASS:failed to return -E2BIG 0 nsec > > > btf_dump_data:PASS:ensure expected/actual match 0 nsec > > > btf_dump_data:PASS:verify prefix match 0 nsec > > > btf_dump_data:PASS:find type id 0 nsec > > > btf_dump_data:PASS:failed to return -E2BIG 0 nsec > > > btf_dump_data:PASS:ensure expected/actual match 0 nsec > > > #21/14 btf_dump/btf_dump: struct_data:FAIL > > please take a look. > > > --- > > .../prog_tests/cgroup_hierarchical_stats.c | 351 ++++++++++++++++++ > > .../bpf/progs/cgroup_hierarchical_stats.c | 234 ++++++++++++ > > 2 files changed, 585 insertions(+) > > create mode 100644 tools/testing/selftests/bpf/prog_tests/cgroup_hierarchical_stats.c > > create mode 100644 tools/testing/selftests/bpf/progs/cgroup_hierarchical_stats.c > > > > diff --git a/tools/testing/selftests/bpf/prog_tests/cgroup_hierarchical_stats.c b/tools/testing/selftests/bpf/prog_tests/cgroup_hierarchical_stats.c > > new file mode 100644 > > index 0000000000000..b78a4043da49a > > --- /dev/null > > +++ b/tools/testing/selftests/bpf/prog_tests/cgroup_hierarchical_stats.c > > @@ -0,0 +1,351 @@ > > +// SPDX-License-Identifier: GPL-2.0-only > > +/* > > + * Functions to manage eBPF programs attached to cgroup subsystems > > + * > > + * Copyright 2022 Google LLC. > > + */ > > +#include <errno.h> > > +#include <sys/types.h> > > +#include <sys/mount.h> > > +#include <sys/stat.h> > > +#include <unistd.h> > > + > > +#include <test_progs.h> > > +#include <bpf/libbpf.h> > > +#include <bpf/bpf.h> > > + > > +#include "cgroup_helpers.h" > > +#include "cgroup_hierarchical_stats.skel.h" > > + > > +#define PAGE_SIZE 4096 > > +#define MB(x) (x << 20) > > + > > +#define BPFFS_ROOT "/sys/fs/bpf/" > > +#define BPFFS_VMSCAN BPFFS_ROOT"vmscan/" > > + > > +#define CG_ROOT_NAME "root" > > +#define CG_ROOT_ID 1 > > + > > +#define CGROUP_PATH(p, n) {.path = #p"/"#n, .name = #n} > > + > > +static struct { > > + const char *path, *name; > > + unsigned long long id; > > + int fd; > > +} cgroups[] = { > > + CGROUP_PATH(/, test), > > + CGROUP_PATH(/test, child1), > > + CGROUP_PATH(/test, child2), > > + CGROUP_PATH(/test/child1, child1_1), > > + CGROUP_PATH(/test/child1, child1_2), > > + CGROUP_PATH(/test/child2, child2_1), > > + CGROUP_PATH(/test/child2, child2_2), > > +}; > > + > > +#define N_CGROUPS ARRAY_SIZE(cgroups) > > +#define N_NON_LEAF_CGROUPS 3 > > + > > +int root_cgroup_fd; > > +bool mounted_bpffs; > > + > > +static int read_from_file(const char *path, char *buf, size_t size) > > +{ > > + int fd, len; > > + > > + fd = open(path, O_RDONLY); > > + if (fd < 0) { > > + log_err("Open %s", path); > > + return -errno; > > + } > > + len = read(fd, buf, size); > > + if (len < 0) > > + log_err("Read %s", path); > > + else > > + buf[len] = 0; > > + close(fd); > > + return len < 0 ? -errno : 0; > > +} > > + > > +static int setup_bpffs(void) > > +{ > > + int err; > > + > > + /* Mount bpffs */ > > + err = mount("bpf", BPFFS_ROOT, "bpf", 0, NULL); > > + mounted_bpffs = !err; > > + if (!ASSERT_OK(err && errno != EBUSY, "mount bpffs")) > > + return err; > > + > > + /* Create a directory to contain stat files in bpffs */ > > + err = mkdir(BPFFS_VMSCAN, 0755); > > + ASSERT_OK(err, "mkdir bpffs"); > > + return err; > > +} > > + > > +static void cleanup_bpffs(void) > > +{ > > + /* Remove created directory in bpffs */ > > + ASSERT_OK(rmdir(BPFFS_VMSCAN), "rmdir "BPFFS_VMSCAN); > > + > > + /* Unmount bpffs, if it wasn't already mounted when we started */ > > + if (mounted_bpffs) > > + return; > > + ASSERT_OK(umount(BPFFS_ROOT), "unmount bpffs"); > > +} > > + > > +static int setup_cgroups(void) > > +{ > > + int i, fd, err; > > + > > + err = setup_cgroup_environment(); > > + if (!ASSERT_OK(err, "setup_cgroup_environment")) > > + return err; > > + > > + root_cgroup_fd = get_root_cgroup(); > > + if (!ASSERT_GE(root_cgroup_fd, 0, "get_root_cgroup")) > > + return root_cgroup_fd; > > + > > + for (i = 0; i < N_CGROUPS; i++) { > > + fd = create_and_get_cgroup(cgroups[i].path); > > + if (!ASSERT_GE(fd, 0, "create_and_get_cgroup")) > > + return fd; > > + > > + cgroups[i].fd = fd; > > + cgroups[i].id = get_cgroup_id(cgroups[i].path); > > + > > + /* > > + * Enable memcg controller for the entire hierarchy. > > + * Note that stats are collected for all cgroups in a hierarchy > > + * with memcg enabled anyway, but are only exposed for cgroups > > + * that have memcg enabled. > > + */ > > + if (i < N_NON_LEAF_CGROUPS) { > > + err = enable_controllers(cgroups[i].path, "memory"); > > + if (!ASSERT_OK(err, "enable_controllers")) > > + return err; > > + } > > + } > > + return 0; > > +} > > + > > +static void cleanup_cgroups(void) > > +{ > > + close(root_cgroup_fd); > > + for (int i = 0; i < N_CGROUPS; i++) > > + close(cgroups[i].fd); > > + cleanup_cgroup_environment(); > > +} > > + > > + > > +static int setup_hierarchy(void) > > +{ > > + return setup_bpffs() || setup_cgroups(); > > +} > > + > > +static void destroy_hierarchy(void) > > +{ > > + cleanup_cgroups(); > > + cleanup_bpffs(); > > +} > > + > > +static void alloc_anon(size_t size) > > +{ > > + char *buf, *ptr; > > + > > + buf = malloc(size); > > + for (ptr = buf; ptr < buf + size; ptr += PAGE_SIZE) > > + *ptr = 0; > > + free(buf); > > +} > > + > > +static int induce_vmscan(void) > > +{ > > + char size[128]; > > + int i, err; > > + > > + /* > > + * Set memory.high for test parent cgroup to 1 MB to throttle > > + * allocations and invoke reclaim in children. > > + */ > > + snprintf(size, 128, "%d", MB(1)); > > + err = write_cgroup_file(cgroups[0].path, "memory.high", size); > > + if (!ASSERT_OK(err, "write memory.high")) > > + return err; > > + /* > > + * In every leaf cgroup, run a memory hog for a few seconds to induce > > + * reclaim then kill it. > > + */ > > + for (i = N_NON_LEAF_CGROUPS; i < N_CGROUPS; i++) { > > + pid_t pid = fork(); > > + > > + if (pid == 0) { > > + /* Join cgroup in the parent process workdir */ > > + join_parent_cgroup(cgroups[i].path); > > + > > + /* Allocate more memory than memory.high */ > > + alloc_anon(MB(2)); > > + exit(0); > > + } else { > > + /* Wait for child to cause reclaim then kill it */ > > + if (!ASSERT_GT(pid, 0, "fork")) > > + return pid; > > + sleep(2); > > + kill(pid, SIGKILL); > > + waitpid(pid, NULL, 0); > > + } > > + } > > + return 0; > > +} > > + > > +static unsigned long long get_cgroup_vmscan_delay(unsigned long long cgroup_id, > > + const char *file_name) > > +{ > > + char buf[128], path[128]; > > + unsigned long long vmscan = 0, id = 0; > > + int err; > > + > > + /* For every cgroup, read the file generated by cgroup_iter */ > > + snprintf(path, 128, "%s%s", BPFFS_VMSCAN, file_name); > > + err = read_from_file(path, buf, 128); > > + if (!ASSERT_OK(err, "read cgroup_iter")) > > + return 0; > > + > > + /* Check the output file formatting */ > > + ASSERT_EQ(sscanf(buf, "cg_id: %llu, total_vmscan_delay: %llu\n", > > + &id, &vmscan), 2, "output format"); > > + > > + /* Check that the cgroup_id is displayed correctly */ > > + ASSERT_EQ(id, cgroup_id, "cgroup_id"); > > + /* Check that the vmscan reading is non-zero */ > > + ASSERT_GT(vmscan, 0, "vmscan_reading"); > > + return vmscan; > > +} > > + > > +static void check_vmscan_stats(void) > > +{ > > + int i; > > + unsigned long long vmscan_readings[N_CGROUPS], vmscan_root; > > + > > + for (i = 0; i < N_CGROUPS; i++) > > + vmscan_readings[i] = get_cgroup_vmscan_delay(cgroups[i].id, > > + cgroups[i].name); > > + > > + /* Read stats for root too */ > > + vmscan_root = get_cgroup_vmscan_delay(CG_ROOT_ID, CG_ROOT_NAME); > > + > > + /* Check that child1 == child1_1 + child1_2 */ > > + ASSERT_EQ(vmscan_readings[1], vmscan_readings[3] + vmscan_readings[4], > > + "child1_vmscan"); > > + /* Check that child2 == child2_1 + child2_2 */ > > + ASSERT_EQ(vmscan_readings[2], vmscan_readings[5] + vmscan_readings[6], > > + "child2_vmscan"); > > + /* Check that test == child1 + child2 */ > > + ASSERT_EQ(vmscan_readings[0], vmscan_readings[1] + vmscan_readings[2], > > + "test_vmscan"); > > + /* Check that root >= test */ > > + ASSERT_GE(vmscan_root, vmscan_readings[1], "root_vmscan"); > > +} > > + > > +static int setup_cgroup_iter(struct cgroup_hierarchical_stats *obj, int cgroup_fd, > > + const char *file_name) > > +{ > > + DECLARE_LIBBPF_OPTS(bpf_iter_attach_opts, opts); > > + union bpf_iter_link_info linfo = {}; > > + struct bpf_link *link; > > + char path[128]; > > + int err; > > + > > + /* > > + * Create an iter link, parameterized by cgroup_fd. > > + * We only want to traverse one cgroup, so set the traversal order to > > + * "pre", and return 1 from dump_vmscan to stop iteration after the > > + * first cgroup. > > + */ > > + linfo.cgroup.cgroup_fd = cgroup_fd; > > + linfo.cgroup.traversal_order = BPF_ITER_CGROUP_PRE; > > + opts.link_info = &linfo; > > + opts.link_info_len = sizeof(linfo); > > + link = bpf_program__attach_iter(obj->progs.dump_vmscan, &opts); > > + if (!ASSERT_OK_PTR(link, "attach iter")) > > + return libbpf_get_error(link); > > + > > + /* Pin the link to a bpffs file */ > > + snprintf(path, 128, "%s%s", BPFFS_VMSCAN, file_name); > > + err = bpf_link__pin(link, path); > > + ASSERT_OK(err, "pin cgroup_iter"); > > + return err; > > +} > > + > > +static int setup_progs(struct cgroup_hierarchical_stats **skel) > > +{ > > + int i, err; > > + struct bpf_link *link; > > + struct cgroup_hierarchical_stats *obj; > > + > > + obj = cgroup_hierarchical_stats__open_and_load(); > > + if (!ASSERT_OK_PTR(obj, "open_and_load")) > > + return libbpf_get_error(obj); > > + > > + /* Attach cgroup_iter program that will dump the stats to cgroups */ > > + for (i = 0; i < N_CGROUPS; i++) { > > + err = setup_cgroup_iter(obj, cgroups[i].fd, cgroups[i].name); > > + if (!ASSERT_OK(err, "setup_cgroup_iter")) > > + return err; > > + } > > + /* Also dump stats for root */ > > + err = setup_cgroup_iter(obj, root_cgroup_fd, CG_ROOT_NAME); > > + if (!ASSERT_OK(err, "setup_cgroup_iter")) > > + return err; > > + > > + /* Attach rstat flusher */ > > + link = bpf_program__attach(obj->progs.vmscan_flush); > > + if (!ASSERT_OK_PTR(link, "attach rstat")) > > + return libbpf_get_error(link); > > + > > + /* Attach tracing programs that will calculate vmscan delays */ > > + link = bpf_program__attach(obj->progs.vmscan_start); > > + if (!ASSERT_OK_PTR(obj, "attach raw_tracepoint")) > > + return libbpf_get_error(obj); > > + > > + link = bpf_program__attach(obj->progs.vmscan_end); > > + if (!ASSERT_OK_PTR(obj, "attach raw_tracepoint")) > > + return libbpf_get_error(obj); > > + > > + *skel = obj; > > + return 0; > > +} > > + > > +void destroy_progs(struct cgroup_hierarchical_stats *skel) > > +{ > > + char path[128]; > > + int i; > > + > > + for (i = 0; i < N_CGROUPS; i++) { > > + /* Delete files in bpffs that cgroup_iters are pinned in */ > > + snprintf(path, 128, "%s%s", BPFFS_VMSCAN, > > + cgroups[i].name); > > + ASSERT_OK(remove(path), "remove cgroup_iter pin"); > > + } > > + > > + /* Delete root file in bpffs */ > > + snprintf(path, 128, "%s%s", BPFFS_VMSCAN, CG_ROOT_NAME); > > + ASSERT_OK(remove(path), "remove cgroup_iter root pin"); > > + cgroup_hierarchical_stats__destroy(skel); > > +} > > + > > +void test_cgroup_hierarchical_stats(void) > > +{ > > + struct cgroup_hierarchical_stats *skel = NULL; > > + > > + if (setup_hierarchy()) > > + goto hierarchy_cleanup; > > + if (setup_progs(&skel)) > > + goto cleanup; > > + if (induce_vmscan()) > > + goto cleanup; > > + check_vmscan_stats(); > > +cleanup: > > + destroy_progs(skel); > > +hierarchy_cleanup: > > + destroy_hierarchy(); > > +} > > diff --git a/tools/testing/selftests/bpf/progs/cgroup_hierarchical_stats.c b/tools/testing/selftests/bpf/progs/cgroup_hierarchical_stats.c > > new file mode 100644 > > index 0000000000000..fd2028f1ed70b > > --- /dev/null > > +++ b/tools/testing/selftests/bpf/progs/cgroup_hierarchical_stats.c > > @@ -0,0 +1,234 @@ > > +// SPDX-License-Identifier: GPL-2.0-only > > +/* > > + * Functions to manage eBPF programs attached to cgroup subsystems > > + * > > + * Copyright 2022 Google LLC. > > + */ > > +#include "vmlinux.h" > > +#include <bpf/bpf_helpers.h> > > +#include <bpf/bpf_tracing.h> > > + > > +char _license[] SEC("license") = "GPL"; > > + > > +/* > > + * Start times are stored per-task, not per-cgroup, as multiple tasks in one > > + * cgroup can perform reclain concurrently. > > + */ > > +struct { > > + __uint(type, BPF_MAP_TYPE_TASK_STORAGE); > > + __uint(map_flags, BPF_F_NO_PREALLOC); > > + __type(key, int); > > + __type(value, __u64); > > +} vmscan_start_time SEC(".maps"); > > + > > +struct vmscan_percpu { > > + /* Previous percpu state, to figure out if we have new updates */ > > + __u64 prev; > > + /* Current percpu state */ > > + __u64 state; > > +}; > > + > > +struct vmscan { > > + /* State propagated through children, pending aggregation */ > > + __u64 pending; > > + /* Total state, including all cpus and all children */ > > + __u64 state; > > +}; > > + > > +struct { > > + __uint(type, BPF_MAP_TYPE_PERCPU_HASH); > > + __uint(max_entries, 10); > > + __type(key, __u64); > > + __type(value, struct vmscan_percpu); > > +} pcpu_cgroup_vmscan_elapsed SEC(".maps"); > > + > > +struct { > > + __uint(type, BPF_MAP_TYPE_HASH); > > + __uint(max_entries, 10); > > + __type(key, __u64); > > + __type(value, struct vmscan); > > +} cgroup_vmscan_elapsed SEC(".maps"); > > + > > +extern void cgroup_rstat_updated(struct cgroup *cgrp, int cpu) __ksym; > > +extern void cgroup_rstat_flush(struct cgroup *cgrp) __ksym; > > + > > +static inline struct cgroup *task_memcg(struct task_struct *task) > > +{ > > + return task->cgroups->subsys[memory_cgrp_id]->cgroup; > > +} > > + > > +static inline uint64_t cgroup_id(struct cgroup *cgrp) > > +{ > > + return cgrp->kn->id; > > +} > > + > > +static inline int create_vmscan_percpu_elem(__u64 cg_id, __u64 state) > > +{ > > + struct vmscan_percpu pcpu_init = {.state = state, .prev = 0}; > > + > > + if (bpf_map_update_elem(&pcpu_cgroup_vmscan_elapsed, &cg_id, > > + &pcpu_init, BPF_NOEXIST)) { > > + bpf_printk("failed to create pcpu entry for cgroup %llu\n" > > + , cg_id); > > + return 1; > > + } > > + return 0; > > +} > > + > > +static inline int create_vmscan_elem(__u64 cg_id, __u64 state, __u64 pending) > > +{ > > + struct vmscan init = {.state = state, .pending = pending}; > > + > > + if (bpf_map_update_elem(&cgroup_vmscan_elapsed, &cg_id, > > + &init, BPF_NOEXIST)) { > > + bpf_printk("failed to create entry for cgroup %llu\n" > > + , cg_id); > > + return 1; > > + } > > + return 0; > > +} > > + > > +SEC("tp_btf/mm_vmscan_memcg_reclaim_begin") > > +int BPF_PROG(vmscan_start, struct lruvec *lruvec, struct scan_control *sc) > > +{ > > + struct task_struct *task = bpf_get_current_task_btf(); > > + __u64 *start_time_ptr; > > + > > + start_time_ptr = bpf_task_storage_get(&vmscan_start_time, task, 0, > > + BPF_LOCAL_STORAGE_GET_F_CREATE); > > + if (!start_time_ptr) { > > + bpf_printk("error retrieving storage\n"); > > + return 0; > > + } > > + > > + *start_time_ptr = bpf_ktime_get_ns(); > > + return 0; > > +} > > + > > +SEC("tp_btf/mm_vmscan_memcg_reclaim_end") > > +int BPF_PROG(vmscan_end, struct lruvec *lruvec, struct scan_control *sc) > > +{ > > + struct vmscan_percpu *pcpu_stat; > > + struct task_struct *current = bpf_get_current_task_btf(); > > + struct cgroup *cgrp; > > + __u64 *start_time_ptr; > > + __u64 current_elapsed, cg_id; > > + __u64 end_time = bpf_ktime_get_ns(); > > + > > + /* > > + * cgrp is the first parent cgroup of current that has memcg enabled in > > + * its subtree_control, or NULL if memcg is disabled in the entire tree. > > + * In a cgroup hierarchy like this: > > + * a > > + * / \ > > + * b c > > + * If "a" has memcg enabled, while "b" doesn't, then processes in "b" > > + * will accumulate their stats directly to "a". This makes sure that no > > + * stats are lost from processes in leaf cgroups that don't have memcg > > + * enabled, but only exposes stats for cgroups that have memcg enabled. > > + */ > > + cgrp = task_memcg(current); > > + if (!cgrp) > > + return 0; > > + > > + cg_id = cgroup_id(cgrp); > > + start_time_ptr = bpf_task_storage_get(&vmscan_start_time, current, 0, > > + BPF_LOCAL_STORAGE_GET_F_CREATE); > > + if (!start_time_ptr) { > > + bpf_printk("error retrieving storage local storage\n"); > > + return 0; > > + } > > + > > + current_elapsed = end_time - *start_time_ptr; > > + pcpu_stat = bpf_map_lookup_elem(&pcpu_cgroup_vmscan_elapsed, > > + &cg_id); > > + if (pcpu_stat) > > + __sync_fetch_and_add(&pcpu_stat->state, current_elapsed); > > + else > > + create_vmscan_percpu_elem(cg_id, current_elapsed); > > + > > + cgroup_rstat_updated(cgrp, bpf_get_smp_processor_id()); > > + return 0; > > +} > > + > > +SEC("fentry/bpf_rstat_flush") > > +int BPF_PROG(vmscan_flush, struct cgroup *cgrp, struct cgroup *parent, int cpu) > > +{ > > + struct vmscan_percpu *pcpu_stat; > > + struct vmscan *total_stat, *parent_stat; > > + __u64 cg_id = cgroup_id(cgrp); > > + __u64 parent_cg_id = parent ? cgroup_id(parent) : 0; > > + __u64 *pcpu_vmscan; > > + __u64 state; > > + __u64 delta = 0; > > + > > + /* Add CPU changes on this level since the last flush */ > > + pcpu_stat = bpf_map_lookup_percpu_elem(&pcpu_cgroup_vmscan_elapsed, > > + &cg_id, cpu); > > + if (pcpu_stat) { > > + state = pcpu_stat->state; > > + delta += state - pcpu_stat->prev; > > + pcpu_stat->prev = state; > > + } > > + > > + total_stat = bpf_map_lookup_elem(&cgroup_vmscan_elapsed, &cg_id); > > + if (!total_stat) { > > + create_vmscan_elem(cg_id, delta, 0); > > + goto update_parent; > > + } > > + > > + /* Collect pending stats from subtree */ > > + if (total_stat->pending) { > > + delta += total_stat->pending; > > + total_stat->pending = 0; > > + } > > + > > + /* Propagate changes to this cgroup's total */ > > + total_stat->state += delta; > > + > > +update_parent: > > + /* Skip if there are no changes to propagate, or no parent */ > > + if (!delta || !parent_cg_id) > > + return 0; > > + > > + /* Propagate changes to cgroup's parent */ > > + parent_stat = bpf_map_lookup_elem(&cgroup_vmscan_elapsed, > > + &parent_cg_id); > > + if (parent_stat) > > + parent_stat->pending += delta; > > + else > > + create_vmscan_elem(parent_cg_id, 0, delta); > > + > > + return 0; > > +} > > + > > +SEC("iter.s/cgroup") > > +int BPF_PROG(dump_vmscan, struct bpf_iter_meta *meta, struct cgroup *cgrp) > > +{ > > + struct seq_file *seq = meta->seq; > > + struct vmscan *total_stat; > > + __u64 cg_id = cgroup_id(cgrp); > > + > > + /* Do nothing for the terminal call */ > > + if (!cgrp) > > + return 1; > > + > > + /* Flush the stats to make sure we get the most updated numbers */ > > + cgroup_rstat_flush(cgrp); > > + > > + total_stat = bpf_map_lookup_elem(&cgroup_vmscan_elapsed, &cg_id); > > + if (!total_stat) { > > + bpf_printk("error finding stats for cgroup %llu\n", cg_id); > > + BPF_SEQ_PRINTF(seq, "cg_id: %llu, total_vmscan_delay: -1\n", > > + cg_id); > > + return 1; > > + } > > + BPF_SEQ_PRINTF(seq, "cg_id: %llu, total_vmscan_delay: %llu\n", > > + cg_id, total_stat->state); > > + > > + /* > > + * We only dump stats for one cgroup here, so return 1 to stop > > + * iteration after the first cgroup. > > + */ > > + return 1; > > +}