This test now has two modes of operation: 1. (default) To check how much vCPU performance was affected by access tracking (previously existed, now supports MGLRU aging). 2. (-p) To also benchmark how fast MGLRU can do aging while vCPUs are faulting in memory. Mode (1) also serves as a way to verify that aging is working properly for pages only accessed by KVM. It will fail if one does not have the 0x8 lru_gen feature bit. To support MGLRU, the test creates a memory cgroup, moves itself into it, then uses the lru_gen debugfs output to track memory in that cgroup. The logic to parse the lru_gen debugfs output has been put into selftests/kvm/lib/lru_gen_util.c. Co-developed-by: Axel Rasmussen <axelrasmussen@xxxxxxxxxx> Signed-off-by: Axel Rasmussen <axelrasmussen@xxxxxxxxxx> Signed-off-by: James Houghton <jthoughton@xxxxxxxxxx> --- tools/testing/selftests/kvm/Makefile | 1 + .../selftests/kvm/access_tracking_perf_test.c | 366 ++++++++++++++-- .../selftests/kvm/include/lru_gen_util.h | 55 +++ .../testing/selftests/kvm/lib/lru_gen_util.c | 391 ++++++++++++++++++ 4 files changed, 783 insertions(+), 30 deletions(-) create mode 100644 tools/testing/selftests/kvm/include/lru_gen_util.h create mode 100644 tools/testing/selftests/kvm/lib/lru_gen_util.c diff --git a/tools/testing/selftests/kvm/Makefile b/tools/testing/selftests/kvm/Makefile index f186888f0e00..542548e6e8ba 100644 --- a/tools/testing/selftests/kvm/Makefile +++ b/tools/testing/selftests/kvm/Makefile @@ -22,6 +22,7 @@ LIBKVM += lib/elf.c LIBKVM += lib/guest_modes.c LIBKVM += lib/io.c LIBKVM += lib/kvm_util.c +LIBKVM += lib/lru_gen_util.c LIBKVM += lib/memstress.c LIBKVM += lib/guest_sprintf.c LIBKVM += lib/rbtree.c diff --git a/tools/testing/selftests/kvm/access_tracking_perf_test.c b/tools/testing/selftests/kvm/access_tracking_perf_test.c index 3c7defd34f56..8d6c2ce4b98a 100644 --- a/tools/testing/selftests/kvm/access_tracking_perf_test.c +++ b/tools/testing/selftests/kvm/access_tracking_perf_test.c @@ -38,6 +38,7 @@ #include <inttypes.h> #include <limits.h> #include <pthread.h> +#include <stdio.h> #include <sys/mman.h> #include <sys/types.h> #include <sys/stat.h> @@ -47,6 +48,19 @@ #include "memstress.h" #include "guest_modes.h" #include "processor.h" +#include "lru_gen_util.h" + +static const char *TEST_MEMCG_NAME = "access_tracking_perf_test"; +static const int LRU_GEN_ENABLED = 0x1; +static const int LRU_GEN_MM_WALK = 0x2; +static const char *CGROUP_PROCS = "cgroup.procs"; +/* + * If using MGLRU, this test assumes a cgroup v2 or cgroup v1 memory hierarchy + * is mounted at cgroup_root. + * + * Can be changed with -r. + */ +static const char *cgroup_root = "/sys/fs/cgroup"; /* Global variable used to synchronize all of the vCPU threads. */ static int iteration; @@ -62,6 +76,9 @@ static enum { /* The iteration that was last completed by each vCPU. */ static int vcpu_last_completed_iteration[KVM_MAX_VCPUS]; +/* The time at which the last iteration was completed */ +static struct timespec vcpu_last_completed_time[KVM_MAX_VCPUS]; + /* Whether to overlap the regions of memory vCPUs access. */ static bool overlap_memory_access; @@ -74,6 +91,12 @@ struct test_params { /* The number of vCPUs to create in the VM. */ int nr_vcpus; + + /* Whether to use lru_gen aging instead of idle page tracking. */ + bool lru_gen; + + /* Whether to test the performance of aging itself. */ + bool benchmark_lru_gen; }; static uint64_t pread_uint64(int fd, const char *filename, uint64_t index) @@ -89,6 +112,50 @@ static uint64_t pread_uint64(int fd, const char *filename, uint64_t index) } +static void write_file_long(const char *path, long v) +{ + FILE *f; + + f = fopen(path, "w"); + TEST_ASSERT(f, "fopen(%s) failed", path); + TEST_ASSERT(fprintf(f, "%ld\n", v) > 0, + "fprintf to %s failed", path); + TEST_ASSERT(!fclose(f), "fclose(%s) failed", path); +} + +static char *path_join(const char *parent, const char *child) +{ + char *out = NULL; + + return asprintf(&out, "%s/%s", parent, child) >= 0 ? out : NULL; +} + +static char *memcg_path(const char *memcg) +{ + return path_join(cgroup_root, memcg); +} + +static char *memcg_file_path(const char *memcg, const char *file) +{ + char *mp = memcg_path(memcg); + char *fp; + + if (!mp) + return NULL; + fp = path_join(mp, file); + free(mp); + return fp; +} + +static void move_to_memcg(const char *memcg, pid_t pid) +{ + char *procs = memcg_file_path(memcg, CGROUP_PROCS); + + TEST_ASSERT(procs, "Failed to construct cgroup.procs path"); + write_file_long(procs, pid); + free(procs); +} + #define PAGEMAP_PRESENT (1ULL << 63) #define PAGEMAP_PFN_MASK ((1ULL << 55) - 1) @@ -242,6 +309,8 @@ static void vcpu_thread_main(struct memstress_vcpu_args *vcpu_args) }; vcpu_last_completed_iteration[vcpu_idx] = current_iteration; + clock_gettime(CLOCK_MONOTONIC, + &vcpu_last_completed_time[vcpu_idx]); } } @@ -253,38 +322,68 @@ static void spin_wait_for_vcpu(int vcpu_idx, int target_iteration) } } +static bool all_vcpus_done(int target_iteration, int nr_vcpus) +{ + for (int i = 0; i < nr_vcpus; ++i) + if (READ_ONCE(vcpu_last_completed_iteration[i]) != + target_iteration) + return false; + + return true; +} + /* The type of memory accesses to perform in the VM. */ enum access_type { ACCESS_READ, ACCESS_WRITE, }; -static void run_iteration(struct kvm_vm *vm, int nr_vcpus, const char *description) +static void run_iteration(struct kvm_vm *vm, int nr_vcpus, const char *description, + bool wait) { - struct timespec ts_start; - struct timespec ts_elapsed; int next_iteration, i; /* Kick off the vCPUs by incrementing iteration. */ next_iteration = ++iteration; - clock_gettime(CLOCK_MONOTONIC, &ts_start); - /* Wait for all vCPUs to finish the iteration. */ - for (i = 0; i < nr_vcpus; i++) - spin_wait_for_vcpu(i, next_iteration); + if (wait) { + struct timespec ts_start; + struct timespec ts_elapsed; + + clock_gettime(CLOCK_MONOTONIC, &ts_start); - ts_elapsed = timespec_elapsed(ts_start); - pr_info("%-30s: %ld.%09lds\n", - description, ts_elapsed.tv_sec, ts_elapsed.tv_nsec); + for (i = 0; i < nr_vcpus; i++) + spin_wait_for_vcpu(i, next_iteration); + + ts_elapsed = timespec_elapsed(ts_start); + + pr_info("%-30s: %ld.%09lds\n", + description, ts_elapsed.tv_sec, ts_elapsed.tv_nsec); + } else + pr_info("%-30s\n", description); } -static void access_memory(struct kvm_vm *vm, int nr_vcpus, - enum access_type access, const char *description) +static void _access_memory(struct kvm_vm *vm, int nr_vcpus, + enum access_type access, const char *description, + bool wait) { memstress_set_write_percent(vm, (access == ACCESS_READ) ? 0 : 100); iteration_work = ITERATION_ACCESS_MEMORY; - run_iteration(vm, nr_vcpus, description); + run_iteration(vm, nr_vcpus, description, wait); +} + +static void access_memory(struct kvm_vm *vm, int nr_vcpus, + enum access_type access, const char *description) +{ + return _access_memory(vm, nr_vcpus, access, description, true); +} + +static void access_memory_async(struct kvm_vm *vm, int nr_vcpus, + enum access_type access, + const char *description) +{ + return _access_memory(vm, nr_vcpus, access, description, false); } static void mark_memory_idle(struct kvm_vm *vm, int nr_vcpus) @@ -297,19 +396,115 @@ static void mark_memory_idle(struct kvm_vm *vm, int nr_vcpus) */ pr_debug("Marking VM memory idle (slow)...\n"); iteration_work = ITERATION_MARK_IDLE; - run_iteration(vm, nr_vcpus, "Mark memory idle"); + run_iteration(vm, nr_vcpus, "Mark memory idle", true); } -static void run_test(enum vm_guest_mode mode, void *arg) +static void create_memcg(const char *memcg) +{ + const char *full_memcg_path = memcg_path(memcg); + int ret; + + TEST_ASSERT(full_memcg_path, "Failed to construct full memcg path"); +retry: + ret = mkdir(full_memcg_path, 0755); + if (ret && errno == EEXIST) { + TEST_ASSERT(!rmdir(full_memcg_path), + "Found existing memcg at %s, but rmdir failed", + full_memcg_path); + goto retry; + } + TEST_ASSERT(!ret, "Creating the memcg failed: mkdir(%s) failed", + full_memcg_path); + + pr_info("Created memcg at %s\n", full_memcg_path); +} + +/* + * Test lru_gen aging speed while vCPUs are faulting memory in. + * + * This test will run lru_gen aging until the vCPUs have finished all of + * the faulting work, reporting: + * - vcpu wall time (wall time for slowest vCPU) + * - average aging pass duration + * - total number of aging passes + * - total time spent aging + * + * This test produces the most useful results when the vcpu wall time and the + * total time spent aging are similar (i.e., we want to avoid timing aging + * while the vCPUs aren't doing any work). + */ +static void run_benchmark(enum vm_guest_mode mode, struct kvm_vm *vm, + struct test_params *params) { - struct test_params *params = arg; - struct kvm_vm *vm; int nr_vcpus = params->nr_vcpus; + struct memcg_stats stats; + struct timespec ts_start, ts_max, ts_vcpus_elapsed, + ts_aging_elapsed, ts_aging_elapsed_avg; + int num_passes = 0; - vm = memstress_create_vm(mode, nr_vcpus, params->vcpu_memory_bytes, 1, - params->backing_src, !overlap_memory_access); + printf("Running lru_gen benchmark...\n"); - memstress_start_vcpu_threads(nr_vcpus, vcpu_thread_main); + clock_gettime(CLOCK_MONOTONIC, &ts_start); + access_memory_async(vm, nr_vcpus, ACCESS_WRITE, + "Populating memory (async)"); + while (!all_vcpus_done(iteration, nr_vcpus)) { + lru_gen_do_aging_quiet(&stats, TEST_MEMCG_NAME); + ++num_passes; + } + + ts_aging_elapsed = timespec_elapsed(ts_start); + ts_aging_elapsed_avg = timespec_div(ts_aging_elapsed, num_passes); + + /* Find out when the slowest vCPU finished. */ + ts_max = ts_start; + for (int i = 0; i < nr_vcpus; ++i) { + struct timespec *vcpu_ts = &vcpu_last_completed_time[i]; + + if (ts_max.tv_sec < vcpu_ts->tv_sec || + (ts_max.tv_sec == vcpu_ts->tv_sec && + ts_max.tv_nsec < vcpu_ts->tv_nsec)) + ts_max = *vcpu_ts; + } + + ts_vcpus_elapsed = timespec_sub(ts_max, ts_start); + + pr_info("%-30s: %ld.%09lds\n", "vcpu wall time", + ts_vcpus_elapsed.tv_sec, ts_vcpus_elapsed.tv_nsec); + + pr_info("%-30s: %ld.%09lds, (passes:%d, total:%ld.%09lds)\n", + "lru_gen avg pass duration", + ts_aging_elapsed_avg.tv_sec, + ts_aging_elapsed_avg.tv_nsec, + num_passes, + ts_aging_elapsed.tv_sec, + ts_aging_elapsed.tv_nsec); +} + +/* + * Test how much access tracking affects vCPU performance. + * + * Supports two modes of access tracking: + * - idle page tracking + * - lru_gen aging + * + * When using lru_gen, this test additionally verifies that the pages are in + * fact getting younger and older, otherwise the performance data would be + * invalid. + * + * The forced lru_gen aging can race with aging that occurs naturally. + */ +static void run_test(enum vm_guest_mode mode, struct kvm_vm *vm, + struct test_params *params) +{ + int nr_vcpus = params->nr_vcpus; + bool lru_gen = params->lru_gen; + struct memcg_stats stats; + // If guest_page_size is larger than the host's page size, the + // guest (memstress) will only fault in a subset of the host's pages. + long total_pages = nr_vcpus * params->vcpu_memory_bytes / + max(memstress_args.guest_page_size, + (uint64_t)getpagesize()); + int found_gens[5]; pr_info("\n"); access_memory(vm, nr_vcpus, ACCESS_WRITE, "Populating memory"); @@ -319,11 +514,78 @@ static void run_test(enum vm_guest_mode mode, void *arg) access_memory(vm, nr_vcpus, ACCESS_READ, "Reading from populated memory"); /* Repeat on memory that has been marked as idle. */ - mark_memory_idle(vm, nr_vcpus); + if (lru_gen) { + /* Do an initial page table scan */ + lru_gen_do_aging(&stats, TEST_MEMCG_NAME); + TEST_ASSERT(sum_memcg_stats(&stats) >= total_pages, + "Not all pages tracked in lru_gen stats.\n" + "Is lru_gen enabled? Did the memcg get created properly?"); + + /* Find the generation we're currently in (probably youngest) */ + found_gens[0] = lru_gen_find_generation(&stats, total_pages); + + /* Do an aging pass now */ + lru_gen_do_aging(&stats, TEST_MEMCG_NAME); + + /* Same generation, but a newer generation has been made */ + found_gens[1] = lru_gen_find_generation(&stats, total_pages); + TEST_ASSERT(found_gens[1] == found_gens[0], + "unexpected gen change: %d vs. %d", + found_gens[1], found_gens[0]); + } else + mark_memory_idle(vm, nr_vcpus); + access_memory(vm, nr_vcpus, ACCESS_WRITE, "Writing to idle memory"); - mark_memory_idle(vm, nr_vcpus); + + if (lru_gen) { + /* Scan the page tables again */ + lru_gen_do_aging(&stats, TEST_MEMCG_NAME); + + /* The pages should now be young again, so in a newer generation */ + found_gens[2] = lru_gen_find_generation(&stats, total_pages); + TEST_ASSERT(found_gens[2] > found_gens[1], + "pages did not get younger"); + + /* Do another aging pass */ + lru_gen_do_aging(&stats, TEST_MEMCG_NAME); + + /* Same generation; new generation has been made */ + found_gens[3] = lru_gen_find_generation(&stats, total_pages); + TEST_ASSERT(found_gens[3] == found_gens[2], + "unexpected gen change: %d vs. %d", + found_gens[3], found_gens[2]); + } else + mark_memory_idle(vm, nr_vcpus); + access_memory(vm, nr_vcpus, ACCESS_READ, "Reading from idle memory"); + if (lru_gen) { + /* Scan the pages tables again */ + lru_gen_do_aging(&stats, TEST_MEMCG_NAME); + + /* The pages should now be young again, so in a newer generation */ + found_gens[4] = lru_gen_find_generation(&stats, total_pages); + TEST_ASSERT(found_gens[4] > found_gens[3], + "pages did not get younger"); + } +} + +static void setup_vm_and_run(enum vm_guest_mode mode, void *arg) +{ + struct test_params *params = arg; + int nr_vcpus = params->nr_vcpus; + struct kvm_vm *vm; + + vm = memstress_create_vm(mode, nr_vcpus, params->vcpu_memory_bytes, 1, + params->backing_src, !overlap_memory_access); + + memstress_start_vcpu_threads(nr_vcpus, vcpu_thread_main); + + if (params->benchmark_lru_gen) + run_benchmark(mode, vm, params); + else + run_test(mode, vm, params); + memstress_join_vcpu_threads(nr_vcpus); memstress_destroy_vm(vm); } @@ -331,8 +593,8 @@ static void run_test(enum vm_guest_mode mode, void *arg) static void help(char *name) { puts(""); - printf("usage: %s [-h] [-m mode] [-b vcpu_bytes] [-v vcpus] [-o] [-s mem_type]\n", - name); + printf("usage: %s [-h] [-m mode] [-b vcpu_bytes] [-v vcpus] [-o]" + " [-s mem_type] [-l] [-r memcg_root]\n", name); puts(""); printf(" -h: Display this help message."); guest_modes_help(); @@ -342,6 +604,9 @@ static void help(char *name) printf(" -v: specify the number of vCPUs to run.\n"); printf(" -o: Overlap guest memory accesses instead of partitioning\n" " them into a separate region of memory for each vCPU.\n"); + printf(" -l: Use MGLRU aging instead of idle page tracking\n"); + printf(" -p: Benchmark MGLRU aging while faulting memory in\n"); + printf(" -r: The memory cgroup hierarchy root to use (when -l is given)\n"); backing_src_help("-s"); puts(""); exit(0); @@ -353,13 +618,15 @@ int main(int argc, char *argv[]) .backing_src = DEFAULT_VM_MEM_SRC, .vcpu_memory_bytes = DEFAULT_PER_VCPU_MEM_SIZE, .nr_vcpus = 1, + .lru_gen = false, + .benchmark_lru_gen = false, }; int page_idle_fd; int opt; guest_modes_append_default(); - while ((opt = getopt(argc, argv, "hm:b:v:os:")) != -1) { + while ((opt = getopt(argc, argv, "hm:b:v:os:lr:p")) != -1) { switch (opt) { case 'm': guest_modes_cmdline(optarg); @@ -376,6 +643,15 @@ int main(int argc, char *argv[]) case 's': params.backing_src = parse_backing_src_type(optarg); break; + case 'l': + params.lru_gen = true; + break; + case 'p': + params.benchmark_lru_gen = true; + break; + case 'r': + cgroup_root = strdup(optarg); + break; case 'h': default: help(argv[0]); @@ -383,12 +659,42 @@ int main(int argc, char *argv[]) } } - page_idle_fd = open("/sys/kernel/mm/page_idle/bitmap", O_RDWR); - __TEST_REQUIRE(page_idle_fd >= 0, - "CONFIG_IDLE_PAGE_TRACKING is not enabled"); - close(page_idle_fd); + if (!params.lru_gen) { + page_idle_fd = open("/sys/kernel/mm/page_idle/bitmap", O_RDWR); + __TEST_REQUIRE(page_idle_fd >= 0, + "CONFIG_IDLE_PAGE_TRACKING is not enabled"); + close(page_idle_fd); + } else { + int lru_gen_fd, lru_gen_debug_fd; + long mglru_features; + char mglru_feature_str[8] = {}; + + lru_gen_fd = open("/sys/kernel/mm/lru_gen/enabled", O_RDONLY); + __TEST_REQUIRE(lru_gen_fd >= 0, + "CONFIG_LRU_GEN is not enabled"); + TEST_ASSERT(read(lru_gen_fd, &mglru_feature_str, 7) > 0, + "couldn't read lru_gen features"); + mglru_features = strtol(mglru_feature_str, NULL, 16); + __TEST_REQUIRE(mglru_features & LRU_GEN_ENABLED, + "lru_gen is not enabled"); + __TEST_REQUIRE(mglru_features & LRU_GEN_MM_WALK, + "lru_gen does not support MM_WALK"); + + lru_gen_debug_fd = open(DEBUGFS_LRU_GEN, O_RDWR); + __TEST_REQUIRE(lru_gen_debug_fd >= 0, + "Cannot access %s", DEBUGFS_LRU_GEN); + close(lru_gen_debug_fd); + } + + TEST_ASSERT(!params.benchmark_lru_gen || params.lru_gen, + "-p specified without -l"); + + if (params.lru_gen) { + create_memcg(TEST_MEMCG_NAME); + move_to_memcg(TEST_MEMCG_NAME, getpid()); + } - for_each_guest_mode(run_test, ¶ms); + for_each_guest_mode(setup_vm_and_run, ¶ms); return 0; } diff --git a/tools/testing/selftests/kvm/include/lru_gen_util.h b/tools/testing/selftests/kvm/include/lru_gen_util.h new file mode 100644 index 000000000000..4eef8085a3cb --- /dev/null +++ b/tools/testing/selftests/kvm/include/lru_gen_util.h @@ -0,0 +1,55 @@ +/* SPDX-License-Identifier: GPL-2.0-only */ +/* + * Tools for integrating with lru_gen, like parsing the lru_gen debugfs output. + * + * Copyright (C) 2024, Google LLC. + */ +#ifndef SELFTEST_KVM_LRU_GEN_UTIL_H +#define SELFTEST_KVM_LRU_GEN_UTIL_H + +#include <inttypes.h> +#include <limits.h> +#include <stdlib.h> + +#include "test_util.h" + +#define MAX_NR_GENS 16 /* MAX_NR_GENS in include/linux/mmzone.h */ +#define MAX_NR_NODES 4 /* Maximum number of nodes we support */ + +static const char *DEBUGFS_LRU_GEN = "/sys/kernel/debug/lru_gen"; + +struct generation_stats { + int gen; + long age_ms; + long nr_anon; + long nr_file; +}; + +struct node_stats { + int node; + int nr_gens; /* Number of populated gens entries. */ + struct generation_stats gens[MAX_NR_GENS]; +}; + +struct memcg_stats { + unsigned long memcg_id; + int nr_nodes; /* Number of populated nodes entries. */ + struct node_stats nodes[MAX_NR_NODES]; +}; + +void print_memcg_stats(const struct memcg_stats *stats, const char *name); + +void read_memcg_stats(struct memcg_stats *stats, const char *memcg); + +void read_print_memcg_stats(struct memcg_stats *stats, const char *memcg); + +long sum_memcg_stats(const struct memcg_stats *stats); + +void lru_gen_do_aging(struct memcg_stats *stats, const char *memcg); + +void lru_gen_do_aging_quiet(struct memcg_stats *stats, const char *memcg); + +int lru_gen_find_generation(const struct memcg_stats *stats, + unsigned long total_pages); + +#endif /* SELFTEST_KVM_LRU_GEN_UTIL_H */ diff --git a/tools/testing/selftests/kvm/lib/lru_gen_util.c b/tools/testing/selftests/kvm/lib/lru_gen_util.c new file mode 100644 index 000000000000..3c02a635a9f7 --- /dev/null +++ b/tools/testing/selftests/kvm/lib/lru_gen_util.c @@ -0,0 +1,391 @@ +// SPDX-License-Identifier: GPL-2.0-only +/* + * Copyright (C) 2024, Google LLC. + */ + +#include <time.h> + +#include "lru_gen_util.h" + +/* + * Tracks state while we parse memcg lru_gen stats. The file we're parsing is + * structured like this (some extra whitespace elided): + * + * memcg (id) (path) + * node (id) + * (gen_nr) (age_in_ms) (nr_anon_pages) (nr_file_pages) + */ +struct memcg_stats_parse_context { + bool consumed; /* Whether or not this line was consumed */ + /* Next parse handler to invoke */ + void (*next_handler)(struct memcg_stats *, + struct memcg_stats_parse_context *, char *); + int current_node_idx; /* Current index in nodes array */ + const char *name; /* The name of the memcg we're looking for */ +}; + +static void memcg_stats_handle_searching(struct memcg_stats *stats, + struct memcg_stats_parse_context *ctx, + char *line); +static void memcg_stats_handle_in_memcg(struct memcg_stats *stats, + struct memcg_stats_parse_context *ctx, + char *line); +static void memcg_stats_handle_in_node(struct memcg_stats *stats, + struct memcg_stats_parse_context *ctx, + char *line); + +struct split_iterator { + char *str; + char *save; +}; + +static char *split_next(struct split_iterator *it) +{ + char *ret = strtok_r(it->str, " \t\n\r", &it->save); + + it->str = NULL; + return ret; +} + +static void memcg_stats_handle_searching(struct memcg_stats *stats, + struct memcg_stats_parse_context *ctx, + char *line) +{ + struct split_iterator it = { .str = line }; + char *prefix = split_next(&it); + char *memcg_id = split_next(&it); + char *memcg_name = split_next(&it); + char *end; + + ctx->consumed = true; + + if (!prefix || strcmp("memcg", prefix)) + return; /* Not a memcg line (maybe empty), skip */ + + TEST_ASSERT(memcg_id && memcg_name, + "malformed memcg line; no memcg id or memcg_name"); + + if (strcmp(memcg_name + 1, ctx->name)) + return; /* Wrong memcg, skip */ + + /* Found it! */ + + stats->memcg_id = strtoul(memcg_id, &end, 10); + TEST_ASSERT(*end == '\0', "malformed memcg id '%s'", memcg_id); + if (!stats->memcg_id) + return; /* Removed memcg? */ + + ctx->next_handler = memcg_stats_handle_in_memcg; +} + +static void memcg_stats_handle_in_memcg(struct memcg_stats *stats, + struct memcg_stats_parse_context *ctx, + char *line) +{ + struct split_iterator it = { .str = line }; + char *prefix = split_next(&it); + char *id = split_next(&it); + long found_node_id; + char *end; + + ctx->consumed = true; + ctx->current_node_idx = -1; + + if (!prefix) + return; /* Skip empty lines */ + + if (!strcmp("memcg", prefix)) { + /* Memcg done, found next one; stop. */ + ctx->next_handler = NULL; + return; + } else if (strcmp("node", prefix)) + TEST_ASSERT(false, "found malformed line after 'memcg ...'," + "token: '%s'", prefix); + + /* At this point we know we have a node line. Parse the ID. */ + + TEST_ASSERT(id, "malformed node line; no node id"); + + found_node_id = strtol(id, &end, 10); + TEST_ASSERT(*end == '\0', "malformed node id '%s'", id); + + ctx->current_node_idx = stats->nr_nodes++; + TEST_ASSERT(ctx->current_node_idx < MAX_NR_NODES, + "memcg has stats for too many nodes, max is %d", + MAX_NR_NODES); + stats->nodes[ctx->current_node_idx].node = found_node_id; + + ctx->next_handler = memcg_stats_handle_in_node; +} + +static void memcg_stats_handle_in_node(struct memcg_stats *stats, + struct memcg_stats_parse_context *ctx, + char *line) +{ + /* Have to copy since we might not consume */ + char *my_line = strdup(line); + struct split_iterator it = { .str = my_line }; + char *gen, *age, *nr_anon, *nr_file; + struct node_stats *node_stats; + struct generation_stats *gen_stats; + char *end; + + TEST_ASSERT(it.str, "failed to copy input line"); + + gen = split_next(&it); + + /* Skip empty lines */ + if (!gen) + goto out_consume; /* Skip empty lines */ + + if (!strcmp("memcg", gen) || !strcmp("node", gen)) { + /* + * Reached next memcg or node section. Don't consume, let the + * other handler deal with this. + */ + ctx->next_handler = memcg_stats_handle_in_memcg; + goto out; + } + + node_stats = &stats->nodes[ctx->current_node_idx]; + TEST_ASSERT(node_stats->nr_gens < MAX_NR_GENS, + "found too many generation lines; max is %d", + MAX_NR_GENS); + gen_stats = &node_stats->gens[node_stats->nr_gens++]; + + age = split_next(&it); + nr_anon = split_next(&it); + nr_file = split_next(&it); + + TEST_ASSERT(age && nr_anon && nr_file, + "malformed generation line; not enough tokens"); + + gen_stats->gen = (int)strtol(gen, &end, 10); + TEST_ASSERT(*end == '\0', "malformed generation number '%s'", gen); + + gen_stats->age_ms = strtol(age, &end, 10); + TEST_ASSERT(*end == '\0', "malformed generation age '%s'", age); + + gen_stats->nr_anon = strtol(nr_anon, &end, 10); + TEST_ASSERT(*end == '\0', "malformed anonymous page count '%s'", + nr_anon); + + gen_stats->nr_file = strtol(nr_file, &end, 10); + TEST_ASSERT(*end == '\0', "malformed file page count '%s'", nr_file); + +out_consume: + ctx->consumed = true; +out: + free(my_line); +} + +/* Pretty-print lru_gen @stats. */ +void print_memcg_stats(const struct memcg_stats *stats, const char *name) +{ + int node, gen; + + fprintf(stderr, "stats for memcg %s (id %lu):\n", + name, stats->memcg_id); + for (node = 0; node < stats->nr_nodes; ++node) { + fprintf(stderr, "\tnode %d\n", stats->nodes[node].node); + for (gen = 0; gen < stats->nodes[node].nr_gens; ++gen) { + const struct generation_stats *gstats = + &stats->nodes[node].gens[gen]; + + fprintf(stderr, + "\t\tgen %d\tage_ms %ld" + "\tnr_anon %ld\tnr_file %ld\n", + gstats->gen, gstats->age_ms, gstats->nr_anon, + gstats->nr_file); + } + } +} + +/* Re-read lru_gen debugfs information for @memcg into @stats. */ +void read_memcg_stats(struct memcg_stats *stats, const char *memcg) +{ + FILE *f; + ssize_t read = 0; + char *line = NULL; + size_t bufsz; + struct memcg_stats_parse_context ctx = { + .next_handler = memcg_stats_handle_searching, + .name = memcg, + }; + + memset(stats, 0, sizeof(struct memcg_stats)); + + f = fopen(DEBUGFS_LRU_GEN, "r"); + TEST_ASSERT(f, "fopen(%s) failed", DEBUGFS_LRU_GEN); + + while (ctx.next_handler && (read = getline(&line, &bufsz, f)) > 0) { + ctx.consumed = false; + + do { + ctx.next_handler(stats, &ctx, line); + if (!ctx.next_handler) + break; + } while (!ctx.consumed); + } + + if (read < 0 && !feof(f)) + TEST_ASSERT(false, "getline(%s) failed", DEBUGFS_LRU_GEN); + + TEST_ASSERT(stats->memcg_id > 0, "Couldn't find memcg: %s\n" + "Did the memcg get created in the proper mount?", + memcg); + if (line) + free(line); + TEST_ASSERT(!fclose(f), "fclose(%s) failed", DEBUGFS_LRU_GEN); +} + +/* + * Find all pages tracked by lru_gen for this memcg in generation @target_gen. + * + * If @target_gen is negative, look for all generations. + */ +static long sum_memcg_stats_for_gen(int target_gen, + const struct memcg_stats *stats) +{ + int node, gen; + long total_nr = 0; + + for (node = 0; node < stats->nr_nodes; ++node) { + const struct node_stats *node_stats = &stats->nodes[node]; + + for (gen = 0; gen < node_stats->nr_gens; ++gen) { + const struct generation_stats *gen_stats = + &node_stats->gens[gen]; + + if (target_gen >= 0 && gen_stats->gen != target_gen) + continue; + + total_nr += gen_stats->nr_anon + gen_stats->nr_file; + } + } + + return total_nr; +} + +/* Find all pages tracked by lru_gen for this memcg. */ +long sum_memcg_stats(const struct memcg_stats *stats) +{ + return sum_memcg_stats_for_gen(-1, stats); +} + +/* Read the memcg stats and optionally print if this is a debug build. */ +void read_print_memcg_stats(struct memcg_stats *stats, const char *memcg) +{ + read_memcg_stats(stats, memcg); +#ifdef DEBUG + print_memcg_stats(stats, memcg); +#endif +} + +/* + * If lru_gen aging should force page table scanning. + * + * If you want to set this to false, you will need to do eviction + * before doing extra aging passes. + */ +static const bool force_scan = true; + +static void run_aging_impl(unsigned long memcg_id, int node_id, int max_gen) +{ + FILE *f = fopen(DEBUGFS_LRU_GEN, "w"); + char *command; + size_t sz; + + TEST_ASSERT(f, "fopen(%s) failed", DEBUGFS_LRU_GEN); + sz = asprintf(&command, "+ %lu %d %d 1 %d\n", + memcg_id, node_id, max_gen, force_scan); + TEST_ASSERT(sz > 0, "creating aging command failed"); + + pr_debug("Running aging command: %s", command); + if (fwrite(command, sizeof(char), sz, f) < sz) { + TEST_ASSERT(false, "writing aging command %s to %s failed", + command, DEBUGFS_LRU_GEN); + } + + TEST_ASSERT(!fclose(f), "fclose(%s) failed", DEBUGFS_LRU_GEN); +} + +static void _lru_gen_do_aging(struct memcg_stats *stats, const char *memcg, + bool verbose) +{ + int node, gen; + struct timespec ts_start; + struct timespec ts_elapsed; + + pr_debug("lru_gen: invoking aging...\n"); + + /* Must read memcg stats to construct the proper aging command. */ + read_print_memcg_stats(stats, memcg); + + if (verbose) + clock_gettime(CLOCK_MONOTONIC, &ts_start); + + for (node = 0; node < stats->nr_nodes; ++node) { + int max_gen = 0; + + for (gen = 0; gen < stats->nodes[node].nr_gens; ++gen) { + int this_gen = stats->nodes[node].gens[gen].gen; + + max_gen = max_gen > this_gen ? max_gen : this_gen; + } + + run_aging_impl(stats->memcg_id, stats->nodes[node].node, + max_gen); + } + + if (verbose) { + ts_elapsed = timespec_elapsed(ts_start); + pr_info("%-30s: %ld.%09lds\n", "lru_gen: Aging", + ts_elapsed.tv_sec, ts_elapsed.tv_nsec); + } + + /* Re-read so callers get updated information */ + read_print_memcg_stats(stats, memcg); +} + +/* Do aging, and print how long it took. */ +void lru_gen_do_aging(struct memcg_stats *stats, const char *memcg) +{ + return _lru_gen_do_aging(stats, memcg, true); +} + +/* Do aging, don't print anything. */ +void lru_gen_do_aging_quiet(struct memcg_stats *stats, const char *memcg) +{ + return _lru_gen_do_aging(stats, memcg, false); +} + +/* + * Find which generation contains more than half of @total_pages, assuming that + * such a generation exists. + */ +int lru_gen_find_generation(const struct memcg_stats *stats, + unsigned long total_pages) +{ + int node, gen, gen_idx, min_gen = INT_MAX, max_gen = -1; + + for (node = 0; node < stats->nr_nodes; ++node) + for (gen_idx = 0; gen_idx < stats->nodes[node].nr_gens; + ++gen_idx) { + gen = stats->nodes[node].gens[gen_idx].gen; + max_gen = gen > max_gen ? gen : max_gen; + min_gen = gen < min_gen ? gen : min_gen; + } + + for (gen = min_gen; gen < max_gen; ++gen) + /* See if the most pages are in this generation. */ + if (sum_memcg_stats_for_gen(gen, stats) > + total_pages / 2) + return gen; + + TEST_ASSERT(false, "No generation includes majority of %lu pages.", + total_pages); + + /* unreachable, but make the compiler happy */ + return -1; +} -- 2.47.0.199.ga7371fff76-goog