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1822 1823 1824 1825 1826 1827 1828 1829 1830 1831 1832 1833 1834 1835 1836 1837 1838 1839 1840 1841 1842 1843 1844 1845 1846 1847 1848 1849 1850 1851 1852 1853 1854 1855 1856 1857 1858 | // SPDX-License-Identifier: GPL-2.0-only /* * Stress userfaultfd syscall. * * Copyright (C) 2015 Red Hat, Inc. * * This test allocates two virtual areas and bounces the physical * memory across the two virtual areas (from area_src to area_dst) * using userfaultfd. * * There are three threads running per CPU: * * 1) one per-CPU thread takes a per-page pthread_mutex in a random * page of the area_dst (while the physical page may still be in * area_src), and increments a per-page counter in the same page, * and checks its value against a verification region. * * 2) another per-CPU thread handles the userfaults generated by * thread 1 above. userfaultfd blocking reads or poll() modes are * exercised interleaved. * * 3) one last per-CPU thread transfers the memory in the background * at maximum bandwidth (if not already transferred by thread * 2). Each cpu thread takes cares of transferring a portion of the * area. * * When all threads of type 3 completed the transfer, one bounce is * complete. area_src and area_dst are then swapped. All threads are * respawned and so the bounce is immediately restarted in the * opposite direction. * * per-CPU threads 1 by triggering userfaults inside * pthread_mutex_lock will also verify the atomicity of the memory * transfer (UFFDIO_COPY). */ #define _GNU_SOURCE #include <stdio.h> #include <errno.h> #include <unistd.h> #include <stdlib.h> #include <sys/types.h> #include <sys/stat.h> #include <fcntl.h> #include <time.h> #include <signal.h> #include <poll.h> #include <string.h> #include <linux/mman.h> #include <sys/mman.h> #include <sys/syscall.h> #include <sys/ioctl.h> #include <sys/wait.h> #include <pthread.h> #include <linux/userfaultfd.h> #include <setjmp.h> #include <stdbool.h> #include <assert.h> #include <inttypes.h> #include <stdint.h> #include <sys/random.h> #include "../kselftest.h" #include "vm_util.h" #ifdef __NR_userfaultfd static unsigned long nr_cpus, nr_pages, nr_pages_per_cpu, page_size, hpage_size; #define BOUNCE_RANDOM (1<<0) #define BOUNCE_RACINGFAULTS (1<<1) #define BOUNCE_VERIFY (1<<2) #define BOUNCE_POLL (1<<3) static int bounces; #define TEST_ANON 1 #define TEST_HUGETLB 2 #define TEST_SHMEM 3 static int test_type; #define UFFD_FLAGS (O_CLOEXEC | O_NONBLOCK | UFFD_USER_MODE_ONLY) #define BASE_PMD_ADDR ((void *)(1UL << 30)) /* test using /dev/userfaultfd, instead of userfaultfd(2) */ static bool test_dev_userfaultfd; /* exercise the test_uffdio_*_eexist every ALARM_INTERVAL_SECS */ #define ALARM_INTERVAL_SECS 10 static volatile bool test_uffdio_copy_eexist = true; static volatile bool test_uffdio_zeropage_eexist = true; /* Whether to test uffd write-protection */ static bool test_uffdio_wp = true; /* Whether to test uffd minor faults */ static bool test_uffdio_minor = false; static bool map_shared; static int mem_fd; static unsigned long long *count_verify; static int uffd = -1; static int uffd_flags, finished, *pipefd; static char *area_src, *area_src_alias, *area_dst, *area_dst_alias, *area_remap; static char *zeropage; pthread_attr_t attr; static bool test_collapse; /* Userfaultfd test statistics */ struct uffd_stats { int cpu; unsigned long missing_faults; unsigned long wp_faults; unsigned long minor_faults; }; /* pthread_mutex_t starts at page offset 0 */ #define area_mutex(___area, ___nr) \ ((pthread_mutex_t *) ((___area) + (___nr)*page_size)) /* * count is placed in the page after pthread_mutex_t naturally aligned * to avoid non alignment faults on non-x86 archs. */ #define area_count(___area, ___nr) \ ((volatile unsigned long long *) ((unsigned long) \ ((___area) + (___nr)*page_size + \ sizeof(pthread_mutex_t) + \ sizeof(unsigned long long) - 1) & \ ~(unsigned long)(sizeof(unsigned long long) \ - 1))) #define swap(a, b) \ do { typeof(a) __tmp = (a); (a) = (b); (b) = __tmp; } while (0) #define factor_of_2(x) ((x) ^ ((x) & ((x) - 1))) const char *examples = "# Run anonymous memory test on 100MiB region with 99999 bounces:\n" "./userfaultfd anon 100 99999\n\n" "# Run the same anonymous memory test, but using /dev/userfaultfd:\n" "./userfaultfd anon:dev 100 99999\n\n" "# Run share memory test on 1GiB region with 99 bounces:\n" "./userfaultfd shmem 1000 99\n\n" "# Run hugetlb memory test on 256MiB region with 50 bounces:\n" "./userfaultfd hugetlb 256 50\n\n" "# Run the same hugetlb test but using shared file:\n" "./userfaultfd hugetlb_shared 256 50\n\n" "# 10MiB-~6GiB 999 bounces anonymous test, " "continue forever unless an error triggers\n" "while ./userfaultfd anon $[RANDOM % 6000 + 10] 999; do true; done\n\n"; static void usage(void) { fprintf(stderr, "\nUsage: ./userfaultfd <test type> <MiB> <bounces> " "[hugetlbfs_file]\n\n"); fprintf(stderr, "Supported <test type>: anon, hugetlb, " "hugetlb_shared, shmem\n\n"); fprintf(stderr, "'Test mods' can be joined to the test type string with a ':'. " "Supported mods:\n"); fprintf(stderr, "\tsyscall - Use userfaultfd(2) (default)\n"); fprintf(stderr, "\tdev - Use /dev/userfaultfd instead of userfaultfd(2)\n"); fprintf(stderr, "\tcollapse - Test MADV_COLLAPSE of UFFDIO_REGISTER_MODE_MINOR\n" "memory\n"); fprintf(stderr, "\nExample test mod usage:\n"); fprintf(stderr, "# Run anonymous memory test with /dev/userfaultfd:\n"); fprintf(stderr, "./userfaultfd anon:dev 100 99999\n\n"); fprintf(stderr, "Examples:\n\n"); fprintf(stderr, "%s", examples); exit(1); } #define _err(fmt, ...) \ do { \ int ret = errno; \ fprintf(stderr, "ERROR: " fmt, ##__VA_ARGS__); \ fprintf(stderr, " (errno=%d, line=%d)\n", \ ret, __LINE__); \ } while (0) #define errexit(exitcode, fmt, ...) \ do { \ _err(fmt, ##__VA_ARGS__); \ exit(exitcode); \ } while (0) #define err(fmt, ...) errexit(1, fmt, ##__VA_ARGS__) static void uffd_stats_reset(struct uffd_stats *uffd_stats, unsigned long n_cpus) { int i; for (i = 0; i < n_cpus; i++) { uffd_stats[i].cpu = i; uffd_stats[i].missing_faults = 0; uffd_stats[i].wp_faults = 0; uffd_stats[i].minor_faults = 0; } } static void uffd_stats_report(struct uffd_stats *stats, int n_cpus) { int i; unsigned long long miss_total = 0, wp_total = 0, minor_total = 0; for (i = 0; i < n_cpus; i++) { miss_total += stats[i].missing_faults; wp_total += stats[i].wp_faults; minor_total += stats[i].minor_faults; } printf("userfaults: "); if (miss_total) { printf("%llu missing (", miss_total); for (i = 0; i < n_cpus; i++) printf("%lu+", stats[i].missing_faults); printf("\b) "); } if (wp_total) { printf("%llu wp (", wp_total); for (i = 0; i < n_cpus; i++) printf("%lu+", stats[i].wp_faults); printf("\b) "); } if (minor_total) { printf("%llu minor (", minor_total); for (i = 0; i < n_cpus; i++) printf("%lu+", stats[i].minor_faults); printf("\b)"); } printf("\n"); } static void anon_release_pages(char *rel_area) { if (madvise(rel_area, nr_pages * page_size, MADV_DONTNEED)) err("madvise(MADV_DONTNEED) failed"); } static void anon_allocate_area(void **alloc_area, bool is_src) { *alloc_area = mmap(NULL, nr_pages * page_size, PROT_READ | PROT_WRITE, MAP_ANONYMOUS | MAP_PRIVATE, -1, 0); } static void noop_alias_mapping(__u64 *start, size_t len, unsigned long offset) { } static void hugetlb_release_pages(char *rel_area) { if (!map_shared) { if (madvise(rel_area, nr_pages * page_size, MADV_DONTNEED)) err("madvise(MADV_DONTNEED) failed"); } else { if (madvise(rel_area, nr_pages * page_size, MADV_REMOVE)) err("madvise(MADV_REMOVE) failed"); } } static void hugetlb_allocate_area(void **alloc_area, bool is_src) { off_t size = nr_pages * page_size; off_t offset = is_src ? 0 : size; void *area_alias = NULL; char **alloc_area_alias; *alloc_area = mmap(NULL, size, PROT_READ | PROT_WRITE, (map_shared ? MAP_SHARED : MAP_PRIVATE) | (is_src ? 0 : MAP_NORESERVE), mem_fd, offset); if (*alloc_area == MAP_FAILED) err("mmap of hugetlbfs file failed"); if (map_shared) { area_alias = mmap(NULL, size, PROT_READ | PROT_WRITE, MAP_SHARED, mem_fd, offset); if (area_alias == MAP_FAILED) err("mmap of hugetlb file alias failed"); } if (is_src) { alloc_area_alias = &area_src_alias; } else { alloc_area_alias = &area_dst_alias; } if (area_alias) *alloc_area_alias = area_alias; } static void hugetlb_alias_mapping(__u64 *start, size_t len, unsigned long offset) { if (!map_shared) return; *start = (unsigned long) area_dst_alias + offset; } static void shmem_release_pages(char *rel_area) { if (madvise(rel_area, nr_pages * page_size, MADV_REMOVE)) err("madvise(MADV_REMOVE) failed"); } static void shmem_allocate_area(void **alloc_area, bool is_src) { void *area_alias = NULL; size_t bytes = nr_pages * page_size; unsigned long offset = is_src ? 0 : bytes; char *p = NULL, *p_alias = NULL; if (test_collapse) { p = BASE_PMD_ADDR; if (!is_src) /* src map + alias + interleaved hpages */ p += 2 * (bytes + hpage_size); p_alias = p; p_alias += bytes; p_alias += hpage_size; /* Prevent src/dst VMA merge */ } *alloc_area = mmap(p, bytes, PROT_READ | PROT_WRITE, MAP_SHARED, mem_fd, offset); if (*alloc_area == MAP_FAILED) err("mmap of memfd failed"); if (test_collapse && *alloc_area != p) err("mmap of memfd failed at %p", p); area_alias = mmap(p_alias, bytes, PROT_READ | PROT_WRITE, MAP_SHARED, mem_fd, offset); if (area_alias == MAP_FAILED) err("mmap of memfd alias failed"); if (test_collapse && area_alias != p_alias) err("mmap of anonymous memory failed at %p", p_alias); if (is_src) area_src_alias = area_alias; else area_dst_alias = area_alias; } static void shmem_alias_mapping(__u64 *start, size_t len, unsigned long offset) { *start = (unsigned long)area_dst_alias + offset; } static void shmem_check_pmd_mapping(void *p, int expect_nr_hpages) { if (!check_huge_shmem(area_dst_alias, expect_nr_hpages, hpage_size)) err("Did not find expected %d number of hugepages", expect_nr_hpages); } struct uffd_test_ops { void (*allocate_area)(void **alloc_area, bool is_src); void (*release_pages)(char *rel_area); void (*alias_mapping)(__u64 *start, size_t len, unsigned long offset); void (*check_pmd_mapping)(void *p, int expect_nr_hpages); }; static struct uffd_test_ops anon_uffd_test_ops = { .allocate_area = anon_allocate_area, .release_pages = anon_release_pages, .alias_mapping = noop_alias_mapping, .check_pmd_mapping = NULL, }; static struct uffd_test_ops shmem_uffd_test_ops = { .allocate_area = shmem_allocate_area, .release_pages = shmem_release_pages, .alias_mapping = shmem_alias_mapping, .check_pmd_mapping = shmem_check_pmd_mapping, }; static struct uffd_test_ops hugetlb_uffd_test_ops = { .allocate_area = hugetlb_allocate_area, .release_pages = hugetlb_release_pages, .alias_mapping = hugetlb_alias_mapping, .check_pmd_mapping = NULL, }; static struct uffd_test_ops *uffd_test_ops; static inline uint64_t uffd_minor_feature(void) { if (test_type == TEST_HUGETLB && map_shared) return UFFD_FEATURE_MINOR_HUGETLBFS; else if (test_type == TEST_SHMEM) return UFFD_FEATURE_MINOR_SHMEM; else return 0; } static uint64_t get_expected_ioctls(uint64_t mode) { uint64_t ioctls = UFFD_API_RANGE_IOCTLS; if (test_type == TEST_HUGETLB) ioctls &= ~(1 << _UFFDIO_ZEROPAGE); if (!((mode & UFFDIO_REGISTER_MODE_WP) && test_uffdio_wp)) ioctls &= ~(1 << _UFFDIO_WRITEPROTECT); if (!((mode & UFFDIO_REGISTER_MODE_MINOR) && test_uffdio_minor)) ioctls &= ~(1 << _UFFDIO_CONTINUE); return ioctls; } static void assert_expected_ioctls_present(uint64_t mode, uint64_t ioctls) { uint64_t expected = get_expected_ioctls(mode); uint64_t actual = ioctls & expected; if (actual != expected) { err("missing ioctl(s): expected %"PRIx64" actual: %"PRIx64, expected, actual); } } static int __userfaultfd_open_dev(void) { int fd, _uffd; fd = open("/dev/userfaultfd", O_RDWR | O_CLOEXEC); if (fd < 0) errexit(KSFT_SKIP, "opening /dev/userfaultfd failed"); _uffd = ioctl(fd, USERFAULTFD_IOC_NEW, UFFD_FLAGS); if (_uffd < 0) errexit(errno == ENOTTY ? KSFT_SKIP : 1, "creating userfaultfd failed"); close(fd); return _uffd; } static void userfaultfd_open(uint64_t *features) { struct uffdio_api uffdio_api; if (test_dev_userfaultfd) uffd = __userfaultfd_open_dev(); else { uffd = syscall(__NR_userfaultfd, UFFD_FLAGS); if (uffd < 0) errexit(errno == ENOSYS ? KSFT_SKIP : 1, "creating userfaultfd failed"); } uffd_flags = fcntl(uffd, F_GETFD, NULL); uffdio_api.api = UFFD_API; uffdio_api.features = *features; if (ioctl(uffd, UFFDIO_API, &uffdio_api)) err("UFFDIO_API failed.\nPlease make sure to " "run with either root or ptrace capability."); if (uffdio_api.api != UFFD_API) err("UFFDIO_API error: %" PRIu64, (uint64_t)uffdio_api.api); *features = uffdio_api.features; } static inline void munmap_area(void **area) { if (*area) if (munmap(*area, nr_pages * page_size)) err("munmap"); *area = NULL; } static void uffd_test_ctx_clear(void) { size_t i; if (pipefd) { for (i = 0; i < nr_cpus * 2; ++i) { if (close(pipefd[i])) err("close pipefd"); } free(pipefd); pipefd = NULL; } if (count_verify) { free(count_verify); count_verify = NULL; } if (uffd != -1) { if (close(uffd)) err("close uffd"); uffd = -1; } munmap_area((void **)&area_src); munmap_area((void **)&area_src_alias); munmap_area((void **)&area_dst); munmap_area((void **)&area_dst_alias); munmap_area((void **)&area_remap); } static void uffd_test_ctx_init(uint64_t features) { unsigned long nr, cpu; uffd_test_ctx_clear(); uffd_test_ops->allocate_area((void **)&area_src, true); uffd_test_ops->allocate_area((void **)&area_dst, false); userfaultfd_open(&features); count_verify = malloc(nr_pages * sizeof(unsigned long long)); if (!count_verify) err("count_verify"); for (nr = 0; nr < nr_pages; nr++) { *area_mutex(area_src, nr) = (pthread_mutex_t)PTHREAD_MUTEX_INITIALIZER; count_verify[nr] = *area_count(area_src, nr) = 1; /* * In the transition between 255 to 256, powerpc will * read out of order in my_bcmp and see both bytes as * zero, so leave a placeholder below always non-zero * after the count, to avoid my_bcmp to trigger false * positives. */ *(area_count(area_src, nr) + 1) = 1; } /* * After initialization of area_src, we must explicitly release pages * for area_dst to make sure it's fully empty. Otherwise we could have * some area_dst pages be errornously initialized with zero pages, * hence we could hit memory corruption later in the test. * * One example is when THP is globally enabled, above allocate_area() * calls could have the two areas merged into a single VMA (as they * will have the same VMA flags so they're mergeable). When we * initialize the area_src above, it's possible that some part of * area_dst could have been faulted in via one huge THP that will be * shared between area_src and area_dst. It could cause some of the * area_dst won't be trapped by missing userfaults. * * This release_pages() will guarantee even if that happened, we'll * proactively split the thp and drop any accidentally initialized * pages within area_dst. */ uffd_test_ops->release_pages(area_dst); pipefd = malloc(sizeof(int) * nr_cpus * 2); if (!pipefd) err("pipefd"); for (cpu = 0; cpu < nr_cpus; cpu++) if (pipe2(&pipefd[cpu * 2], O_CLOEXEC | O_NONBLOCK)) err("pipe"); } static int my_bcmp(char *str1, char *str2, size_t n) { unsigned long i; for (i = 0; i < n; i++) if (str1[i] != str2[i]) return 1; return 0; } static void wp_range(int ufd, __u64 start, __u64 len, bool wp) { struct uffdio_writeprotect prms; /* Write protection page faults */ prms.range.start = start; prms.range.len = len; /* Undo write-protect, do wakeup after that */ prms.mode = wp ? UFFDIO_WRITEPROTECT_MODE_WP : 0; if (ioctl(ufd, UFFDIO_WRITEPROTECT, &prms)) err("clear WP failed: address=0x%"PRIx64, (uint64_t)start); } static void continue_range(int ufd, __u64 start, __u64 len) { struct uffdio_continue req; int ret; req.range.start = start; req.range.len = len; req.mode = 0; if (ioctl(ufd, UFFDIO_CONTINUE, &req)) err("UFFDIO_CONTINUE failed for address 0x%" PRIx64, (uint64_t)start); /* * Error handling within the kernel for continue is subtly different * from copy or zeropage, so it may be a source of bugs. Trigger an * error (-EEXIST) on purpose, to verify doing so doesn't cause a BUG. */ req.mapped = 0; ret = ioctl(ufd, UFFDIO_CONTINUE, &req); if (ret >= 0 || req.mapped != -EEXIST) err("failed to exercise UFFDIO_CONTINUE error handling, ret=%d, mapped=%" PRId64, ret, (int64_t) req.mapped); } static void *locking_thread(void *arg) { unsigned long cpu = (unsigned long) arg; unsigned long page_nr; unsigned long long count; if (!(bounces & BOUNCE_RANDOM)) { page_nr = -bounces; if (!(bounces & BOUNCE_RACINGFAULTS)) page_nr += cpu * nr_pages_per_cpu; } while (!finished) { if (bounces & BOUNCE_RANDOM) { if (getrandom(&page_nr, sizeof(page_nr), 0) != sizeof(page_nr)) err("getrandom failed"); } else page_nr += 1; page_nr %= nr_pages; pthread_mutex_lock(area_mutex(area_dst, page_nr)); count = *area_count(area_dst, page_nr); if (count != count_verify[page_nr]) err("page_nr %lu memory corruption %llu %llu", page_nr, count, count_verify[page_nr]); count++; *area_count(area_dst, page_nr) = count_verify[page_nr] = count; pthread_mutex_unlock(area_mutex(area_dst, page_nr)); } return NULL; } static void retry_copy_page(int ufd, struct uffdio_copy *uffdio_copy, unsigned long offset) { uffd_test_ops->alias_mapping(&uffdio_copy->dst, uffdio_copy->len, offset); if (ioctl(ufd, UFFDIO_COPY, uffdio_copy)) { /* real retval in ufdio_copy.copy */ if (uffdio_copy->copy != -EEXIST) err("UFFDIO_COPY retry error: %"PRId64, (int64_t)uffdio_copy->copy); } else { err("UFFDIO_COPY retry unexpected: %"PRId64, (int64_t)uffdio_copy->copy); } } static void wake_range(int ufd, unsigned long addr, unsigned long len) { struct uffdio_range uffdio_wake; uffdio_wake.start = addr; uffdio_wake.len = len; if (ioctl(ufd, UFFDIO_WAKE, &uffdio_wake)) fprintf(stderr, "error waking %lu\n", addr), exit(1); } static int __copy_page(int ufd, unsigned long offset, bool retry) { struct uffdio_copy uffdio_copy; if (offset >= nr_pages * page_size) err("unexpected offset %lu\n", offset); uffdio_copy.dst = (unsigned long) area_dst + offset; uffdio_copy.src = (unsigned long) area_src + offset; uffdio_copy.len = page_size; if (test_uffdio_wp) uffdio_copy.mode = UFFDIO_COPY_MODE_WP; else uffdio_copy.mode = 0; uffdio_copy.copy = 0; if (ioctl(ufd, UFFDIO_COPY, &uffdio_copy)) { /* real retval in ufdio_copy.copy */ if (uffdio_copy.copy != -EEXIST) err("UFFDIO_COPY error: %"PRId64, (int64_t)uffdio_copy.copy); wake_range(ufd, uffdio_copy.dst, page_size); } else if (uffdio_copy.copy != page_size) { err("UFFDIO_COPY error: %"PRId64, (int64_t)uffdio_copy.copy); } else { if (test_uffdio_copy_eexist && retry) { test_uffdio_copy_eexist = false; retry_copy_page(ufd, &uffdio_copy, offset); } return 1; } return 0; } static int copy_page_retry(int ufd, unsigned long offset) { return __copy_page(ufd, offset, true); } static int copy_page(int ufd, unsigned long offset) { return __copy_page(ufd, offset, false); } static int uffd_read_msg(int ufd, struct uffd_msg *msg) { int ret = read(uffd, msg, sizeof(*msg)); if (ret != sizeof(*msg)) { if (ret < 0) { if (errno == EAGAIN || errno == EINTR) return 1; err("blocking read error"); } else { err("short read"); } } return 0; } static void uffd_handle_page_fault(struct uffd_msg *msg, struct uffd_stats *stats) { unsigned long offset; if (msg->event != UFFD_EVENT_PAGEFAULT) err("unexpected msg event %u", msg->event); if (msg->arg.pagefault.flags & UFFD_PAGEFAULT_FLAG_WP) { /* Write protect page faults */ wp_range(uffd, msg->arg.pagefault.address, page_size, false); stats->wp_faults++; } else if (msg->arg.pagefault.flags & UFFD_PAGEFAULT_FLAG_MINOR) { uint8_t *area; int b; /* * Minor page faults * * To prove we can modify the original range for testing * purposes, we're going to bit flip this range before * continuing. * * Note that this requires all minor page fault tests operate on * area_dst (non-UFFD-registered) and area_dst_alias * (UFFD-registered). */ area = (uint8_t *)(area_dst + ((char *)msg->arg.pagefault.address - area_dst_alias)); for (b = 0; b < page_size; ++b) area[b] = ~area[b]; continue_range(uffd, msg->arg.pagefault.address, page_size); stats->minor_faults++; } else { /* * Missing page faults. * * Here we force a write check for each of the missing mode * faults. It's guaranteed because the only threads that * will trigger uffd faults are the locking threads, and * their first instruction to touch the missing page will * always be pthread_mutex_lock(). * * Note that here we relied on an NPTL glibc impl detail to * always read the lock type at the entry of the lock op * (pthread_mutex_t.__data.__type, offset 0x10) before * doing any locking operations to guarantee that. It's * actually not good to rely on this impl detail because * logically a pthread-compatible lib can implement the * locks without types and we can fail when linking with * them. However since we used to find bugs with this * strict check we still keep it around. Hopefully this * could be a good hint when it fails again. If one day * it'll break on some other impl of glibc we'll revisit. */ if (msg->arg.pagefault.flags & UFFD_PAGEFAULT_FLAG_WRITE) err("unexpected write fault"); offset = (char *)(unsigned long)msg->arg.pagefault.address - area_dst; offset &= ~(page_size-1); if (copy_page(uffd, offset)) stats->missing_faults++; } } static void *uffd_poll_thread(void *arg) { struct uffd_stats *stats = (struct uffd_stats *)arg; unsigned long cpu = stats->cpu; struct pollfd pollfd[2]; struct uffd_msg msg; struct uffdio_register uffd_reg; int ret; char tmp_chr; pollfd[0].fd = uffd; pollfd[0].events = POLLIN; pollfd[1].fd = pipefd[cpu*2]; pollfd[1].events = POLLIN; for (;;) { ret = poll(pollfd, 2, -1); if (ret <= 0) { if (errno == EINTR || errno == EAGAIN) continue; err("poll error: %d", ret); } if (pollfd[1].revents & POLLIN) { if (read(pollfd[1].fd, &tmp_chr, 1) != 1) err("read pipefd error"); break; } if (!(pollfd[0].revents & POLLIN)) err("pollfd[0].revents %d", pollfd[0].revents); if (uffd_read_msg(uffd, &msg)) continue; switch (msg.event) { default: err("unexpected msg event %u\n", msg.event); break; case UFFD_EVENT_PAGEFAULT: uffd_handle_page_fault(&msg, stats); break; case UFFD_EVENT_FORK: close(uffd); uffd = msg.arg.fork.ufd; pollfd[0].fd = uffd; break; case UFFD_EVENT_REMOVE: uffd_reg.range.start = msg.arg.remove.start; uffd_reg.range.len = msg.arg.remove.end - msg.arg.remove.start; if (ioctl(uffd, UFFDIO_UNREGISTER, &uffd_reg.range)) err("remove failure"); break; case UFFD_EVENT_REMAP: area_remap = area_dst; /* save for later unmap */ area_dst = (char *)(unsigned long)msg.arg.remap.to; break; } } return NULL; } pthread_mutex_t uffd_read_mutex = PTHREAD_MUTEX_INITIALIZER; static void *uffd_read_thread(void *arg) { struct uffd_stats *stats = (struct uffd_stats *)arg; struct uffd_msg msg; pthread_mutex_unlock(&uffd_read_mutex); /* from here cancellation is ok */ for (;;) { if (uffd_read_msg(uffd, &msg)) continue; uffd_handle_page_fault(&msg, stats); } return NULL; } static void *background_thread(void *arg) { unsigned long cpu = (unsigned long) arg; unsigned long page_nr, start_nr, mid_nr, end_nr; start_nr = cpu * nr_pages_per_cpu; end_nr = (cpu+1) * nr_pages_per_cpu; mid_nr = (start_nr + end_nr) / 2; /* Copy the first half of the pages */ for (page_nr = start_nr; page_nr < mid_nr; page_nr++) copy_page_retry(uffd, page_nr * page_size); /* * If we need to test uffd-wp, set it up now. Then we'll have * at least the first half of the pages mapped already which * can be write-protected for testing */ if (test_uffdio_wp) wp_range(uffd, (unsigned long)area_dst + start_nr * page_size, nr_pages_per_cpu * page_size, true); /* * Continue the 2nd half of the page copying, handling write * protection faults if any */ for (page_nr = mid_nr; page_nr < end_nr; page_nr++) copy_page_retry(uffd, page_nr * page_size); return NULL; } static int stress(struct uffd_stats *uffd_stats) { unsigned long cpu; pthread_t locking_threads[nr_cpus]; pthread_t uffd_threads[nr_cpus]; pthread_t background_threads[nr_cpus]; finished = 0; for (cpu = 0; cpu < nr_cpus; cpu++) { if (pthread_create(&locking_threads[cpu], &attr, locking_thread, (void *)cpu)) return 1; if (bounces & BOUNCE_POLL) { if (pthread_create(&uffd_threads[cpu], &attr, uffd_poll_thread, (void *)&uffd_stats[cpu])) return 1; } else { if (pthread_create(&uffd_threads[cpu], &attr, uffd_read_thread, (void *)&uffd_stats[cpu])) return 1; pthread_mutex_lock(&uffd_read_mutex); } if (pthread_create(&background_threads[cpu], &attr, background_thread, (void *)cpu)) return 1; } for (cpu = 0; cpu < nr_cpus; cpu++) if (pthread_join(background_threads[cpu], NULL)) return 1; /* * Be strict and immediately zap area_src, the whole area has * been transferred already by the background treads. The * area_src could then be faulted in a racy way by still * running uffdio_threads reading zeropages after we zapped * area_src (but they're guaranteed to get -EEXIST from * UFFDIO_COPY without writing zero pages into area_dst * because the background threads already completed). */ uffd_test_ops->release_pages(area_src); finished = 1; for (cpu = 0; cpu < nr_cpus; cpu++) if (pthread_join(locking_threads[cpu], NULL)) return 1; for (cpu = 0; cpu < nr_cpus; cpu++) { char c; if (bounces & BOUNCE_POLL) { if (write(pipefd[cpu*2+1], &c, 1) != 1) err("pipefd write error"); if (pthread_join(uffd_threads[cpu], (void *)&uffd_stats[cpu])) return 1; } else { if (pthread_cancel(uffd_threads[cpu])) return 1; if (pthread_join(uffd_threads[cpu], NULL)) return 1; } } return 0; } sigjmp_buf jbuf, *sigbuf; static void sighndl(int sig, siginfo_t *siginfo, void *ptr) { if (sig == SIGBUS) { if (sigbuf) siglongjmp(*sigbuf, 1); abort(); } } /* * For non-cooperative userfaultfd test we fork() a process that will * generate pagefaults, will mremap the area monitored by the * userfaultfd and at last this process will release the monitored * area. * For the anonymous and shared memory the area is divided into two * parts, the first part is accessed before mremap, and the second * part is accessed after mremap. Since hugetlbfs does not support * mremap, the entire monitored area is accessed in a single pass for * HUGETLB_TEST. * The release of the pages currently generates event for shmem and * anonymous memory (UFFD_EVENT_REMOVE), hence it is not checked * for hugetlb. * For signal test(UFFD_FEATURE_SIGBUS), signal_test = 1, we register * monitored area, generate pagefaults and test that signal is delivered. * Use UFFDIO_COPY to allocate missing page and retry. For signal_test = 2 * test robustness use case - we release monitored area, fork a process * that will generate pagefaults and verify signal is generated. * This also tests UFFD_FEATURE_EVENT_FORK event along with the signal * feature. Using monitor thread, verify no userfault events are generated. */ static int faulting_process(int signal_test) { unsigned long nr; unsigned long long count; unsigned long split_nr_pages; unsigned long lastnr; struct sigaction act; volatile unsigned long signalled = 0; split_nr_pages = (nr_pages + 1) / 2; if (signal_test) { sigbuf = &jbuf; memset(&act, 0, sizeof(act)); act.sa_sigaction = sighndl; act.sa_flags = SA_SIGINFO; if (sigaction(SIGBUS, &act, 0)) err("sigaction"); lastnr = (unsigned long)-1; } for (nr = 0; nr < split_nr_pages; nr++) { volatile int steps = 1; unsigned long offset = nr * page_size; if (signal_test) { if (sigsetjmp(*sigbuf, 1) != 0) { if (steps == 1 && nr == lastnr) err("Signal repeated"); lastnr = nr; if (signal_test == 1) { if (steps == 1) { /* This is a MISSING request */ steps++; if (copy_page(uffd, offset)) signalled++; } else { /* This is a WP request */ assert(steps == 2); wp_range(uffd, (__u64)area_dst + offset, page_size, false); } } else { signalled++; continue; } } } count = *area_count(area_dst, nr); if (count != count_verify[nr]) err("nr %lu memory corruption %llu %llu\n", nr, count, count_verify[nr]); /* * Trigger write protection if there is by writing * the same value back. */ *area_count(area_dst, nr) = count; } if (signal_test) return signalled != split_nr_pages; area_dst = mremap(area_dst, nr_pages * page_size, nr_pages * page_size, MREMAP_MAYMOVE | MREMAP_FIXED, area_src); if (area_dst == MAP_FAILED) err("mremap"); /* Reset area_src since we just clobbered it */ area_src = NULL; for (; nr < nr_pages; nr++) { count = *area_count(area_dst, nr); if (count != count_verify[nr]) { err("nr %lu memory corruption %llu %llu\n", nr, count, count_verify[nr]); } /* * Trigger write protection if there is by writing * the same value back. */ *area_count(area_dst, nr) = count; } uffd_test_ops->release_pages(area_dst); for (nr = 0; nr < nr_pages; nr++) if (my_bcmp(area_dst + nr * page_size, zeropage, page_size)) err("nr %lu is not zero", nr); return 0; } static void retry_uffdio_zeropage(int ufd, struct uffdio_zeropage *uffdio_zeropage, unsigned long offset) { uffd_test_ops->alias_mapping(&uffdio_zeropage->range.start, uffdio_zeropage->range.len, offset); if (ioctl(ufd, UFFDIO_ZEROPAGE, uffdio_zeropage)) { if (uffdio_zeropage->zeropage != -EEXIST) err("UFFDIO_ZEROPAGE error: %"PRId64, (int64_t)uffdio_zeropage->zeropage); } else { err("UFFDIO_ZEROPAGE error: %"PRId64, (int64_t)uffdio_zeropage->zeropage); } } static int __uffdio_zeropage(int ufd, unsigned long offset, bool retry) { struct uffdio_zeropage uffdio_zeropage; int ret; bool has_zeropage = get_expected_ioctls(0) & (1 << _UFFDIO_ZEROPAGE); __s64 res; if (offset >= nr_pages * page_size) err("unexpected offset %lu", offset); uffdio_zeropage.range.start = (unsigned long) area_dst + offset; uffdio_zeropage.range.len = page_size; uffdio_zeropage.mode = 0; ret = ioctl(ufd, UFFDIO_ZEROPAGE, &uffdio_zeropage); res = uffdio_zeropage.zeropage; if (ret) { /* real retval in ufdio_zeropage.zeropage */ if (has_zeropage) err("UFFDIO_ZEROPAGE error: %"PRId64, (int64_t)res); else if (res != -EINVAL) err("UFFDIO_ZEROPAGE not -EINVAL"); } else if (has_zeropage) { if (res != page_size) { err("UFFDIO_ZEROPAGE unexpected size"); } else { if (test_uffdio_zeropage_eexist && retry) { test_uffdio_zeropage_eexist = false; retry_uffdio_zeropage(ufd, &uffdio_zeropage, offset); } return 1; } } else err("UFFDIO_ZEROPAGE succeeded"); return 0; } static int uffdio_zeropage(int ufd, unsigned long offset) { return __uffdio_zeropage(ufd, offset, false); } /* exercise UFFDIO_ZEROPAGE */ static int userfaultfd_zeropage_test(void) { struct uffdio_register uffdio_register; printf("testing UFFDIO_ZEROPAGE: "); fflush(stdout); uffd_test_ctx_init(0); uffdio_register.range.start = (unsigned long) area_dst; uffdio_register.range.len = nr_pages * page_size; uffdio_register.mode = UFFDIO_REGISTER_MODE_MISSING; if (test_uffdio_wp) uffdio_register.mode |= UFFDIO_REGISTER_MODE_WP; if (ioctl(uffd, UFFDIO_REGISTER, &uffdio_register)) err("register failure"); assert_expected_ioctls_present( uffdio_register.mode, uffdio_register.ioctls); if (uffdio_zeropage(uffd, 0)) if (my_bcmp(area_dst, zeropage, page_size)) err("zeropage is not zero"); printf("done.\n"); return 0; } static int userfaultfd_events_test(void) { struct uffdio_register uffdio_register; pthread_t uffd_mon; int err, features; pid_t pid; char c; struct uffd_stats stats = { 0 }; printf("testing events (fork, remap, remove): "); fflush(stdout); features = UFFD_FEATURE_EVENT_FORK | UFFD_FEATURE_EVENT_REMAP | UFFD_FEATURE_EVENT_REMOVE; uffd_test_ctx_init(features); fcntl(uffd, F_SETFL, uffd_flags | O_NONBLOCK); uffdio_register.range.start = (unsigned long) area_dst; uffdio_register.range.len = nr_pages * page_size; uffdio_register.mode = UFFDIO_REGISTER_MODE_MISSING; if (test_uffdio_wp) uffdio_register.mode |= UFFDIO_REGISTER_MODE_WP; if (ioctl(uffd, UFFDIO_REGISTER, &uffdio_register)) err("register failure"); assert_expected_ioctls_present( uffdio_register.mode, uffdio_register.ioctls); if (pthread_create(&uffd_mon, &attr, uffd_poll_thread, &stats)) err("uffd_poll_thread create"); pid = fork(); if (pid < 0) err("fork"); if (!pid) exit(faulting_process(0)); waitpid(pid, &err, 0); if (err) err("faulting process failed"); if (write(pipefd[1], &c, sizeof(c)) != sizeof(c)) err("pipe write"); if (pthread_join(uffd_mon, NULL)) return 1; uffd_stats_report(&stats, 1); return stats.missing_faults != nr_pages; } static int userfaultfd_sig_test(void) { struct uffdio_register uffdio_register; unsigned long userfaults; pthread_t uffd_mon; int err, features; pid_t pid; char c; struct uffd_stats stats = { 0 }; printf("testing signal delivery: "); fflush(stdout); features = UFFD_FEATURE_EVENT_FORK|UFFD_FEATURE_SIGBUS; uffd_test_ctx_init(features); fcntl(uffd, F_SETFL, uffd_flags | O_NONBLOCK); uffdio_register.range.start = (unsigned long) area_dst; uffdio_register.range.len = nr_pages * page_size; uffdio_register.mode = UFFDIO_REGISTER_MODE_MISSING; if (test_uffdio_wp) uffdio_register.mode |= UFFDIO_REGISTER_MODE_WP; if (ioctl(uffd, UFFDIO_REGISTER, &uffdio_register)) err("register failure"); assert_expected_ioctls_present( uffdio_register.mode, uffdio_register.ioctls); if (faulting_process(1)) err("faulting process failed"); uffd_test_ops->release_pages(area_dst); if (pthread_create(&uffd_mon, &attr, uffd_poll_thread, &stats)) err("uffd_poll_thread create"); pid = fork(); if (pid < 0) err("fork"); if (!pid) exit(faulting_process(2)); waitpid(pid, &err, 0); if (err) err("faulting process failed"); if (write(pipefd[1], &c, sizeof(c)) != sizeof(c)) err("pipe write"); if (pthread_join(uffd_mon, (void **)&userfaults)) return 1; printf("done.\n"); if (userfaults) err("Signal test failed, userfaults: %ld", userfaults); return userfaults != 0; } void check_memory_contents(char *p) { unsigned long i; uint8_t expected_byte; void *expected_page; if (posix_memalign(&expected_page, page_size, page_size)) err("out of memory"); for (i = 0; i < nr_pages; ++i) { expected_byte = ~((uint8_t)(i % ((uint8_t)-1))); memset(expected_page, expected_byte, page_size); if (my_bcmp(expected_page, p + (i * page_size), page_size)) err("unexpected page contents after minor fault"); } free(expected_page); } static int userfaultfd_minor_test(void) { unsigned long p; struct uffdio_register uffdio_register; pthread_t uffd_mon; char c; struct uffd_stats stats = { 0 }; if (!test_uffdio_minor) return 0; printf("testing minor faults: "); fflush(stdout); uffd_test_ctx_init(uffd_minor_feature()); uffdio_register.range.start = (unsigned long)area_dst_alias; uffdio_register.range.len = nr_pages * page_size; uffdio_register.mode = UFFDIO_REGISTER_MODE_MINOR; if (ioctl(uffd, UFFDIO_REGISTER, &uffdio_register)) err("register failure"); assert_expected_ioctls_present( uffdio_register.mode, uffdio_register.ioctls); /* * After registering with UFFD, populate the non-UFFD-registered side of * the shared mapping. This should *not* trigger any UFFD minor faults. */ for (p = 0; p < nr_pages; ++p) { memset(area_dst + (p * page_size), p % ((uint8_t)-1), page_size); } if (pthread_create(&uffd_mon, &attr, uffd_poll_thread, &stats)) err("uffd_poll_thread create"); /* * Read each of the pages back using the UFFD-registered mapping. We * expect that the first time we touch a page, it will result in a minor * fault. uffd_poll_thread will resolve the fault by bit-flipping the * page's contents, and then issuing a CONTINUE ioctl. */ check_memory_contents(area_dst_alias); if (write(pipefd[1], &c, sizeof(c)) != sizeof(c)) err("pipe write"); if (pthread_join(uffd_mon, NULL)) return 1; uffd_stats_report(&stats, 1); if (test_collapse) { printf("testing collapse of uffd memory into PMD-mapped THPs:"); if (madvise(area_dst_alias, nr_pages * page_size, MADV_COLLAPSE)) err("madvise(MADV_COLLAPSE)"); uffd_test_ops->check_pmd_mapping(area_dst, nr_pages * page_size / hpage_size); /* * This won't cause uffd-fault - it purely just makes sure there * was no corruption. */ check_memory_contents(area_dst_alias); printf(" done.\n"); } return stats.missing_faults != 0 || stats.minor_faults != nr_pages; } #define BIT_ULL(nr) (1ULL << (nr)) #define PM_SOFT_DIRTY BIT_ULL(55) #define PM_MMAP_EXCLUSIVE BIT_ULL(56) #define PM_UFFD_WP BIT_ULL(57) #define PM_FILE BIT_ULL(61) #define PM_SWAP BIT_ULL(62) #define PM_PRESENT BIT_ULL(63) static int pagemap_open(void) { int fd = open("/proc/self/pagemap", O_RDONLY); if (fd < 0) err("open pagemap"); return fd; } static uint64_t pagemap_read_vaddr(int fd, void *vaddr) { uint64_t value; int ret; ret = pread(fd, &value, sizeof(uint64_t), ((uint64_t)vaddr >> 12) * sizeof(uint64_t)); if (ret != sizeof(uint64_t)) err("pread() on pagemap failed"); return value; } /* This macro let __LINE__ works in err() */ #define pagemap_check_wp(value, wp) do { \ if (!!(value & PM_UFFD_WP) != wp) \ err("pagemap uffd-wp bit error: 0x%"PRIx64, value); \ } while (0) static int pagemap_test_fork(bool present) { pid_t child = fork(); uint64_t value; int fd, result; if (!child) { /* Open the pagemap fd of the child itself */ fd = pagemap_open(); value = pagemap_read_vaddr(fd, area_dst); /* * After fork() uffd-wp bit should be gone as long as we're * without UFFD_FEATURE_EVENT_FORK */ pagemap_check_wp(value, false); /* Succeed */ exit(0); } waitpid(child, &result, 0); return result; } static void userfaultfd_pagemap_test(unsigned int test_pgsize) { struct uffdio_register uffdio_register; int pagemap_fd; uint64_t value; /* Pagemap tests uffd-wp only */ if (!test_uffdio_wp) return; /* Not enough memory to test this page size */ if (test_pgsize > nr_pages * page_size) return; printf("testing uffd-wp with pagemap (pgsize=%u): ", test_pgsize); /* Flush so it doesn't flush twice in parent/child later */ fflush(stdout); uffd_test_ctx_init(0); if (test_pgsize > page_size) { /* This is a thp test */ if (madvise(area_dst, nr_pages * page_size, MADV_HUGEPAGE)) err("madvise(MADV_HUGEPAGE) failed"); } else if (test_pgsize == page_size) { /* This is normal page test; force no thp */ if (madvise(area_dst, nr_pages * page_size, MADV_NOHUGEPAGE)) err("madvise(MADV_NOHUGEPAGE) failed"); } uffdio_register.range.start = (unsigned long) area_dst; uffdio_register.range.len = nr_pages * page_size; uffdio_register.mode = UFFDIO_REGISTER_MODE_WP; if (ioctl(uffd, UFFDIO_REGISTER, &uffdio_register)) err("register failed"); pagemap_fd = pagemap_open(); /* Touch the page */ *area_dst = 1; wp_range(uffd, (uint64_t)area_dst, test_pgsize, true); value = pagemap_read_vaddr(pagemap_fd, area_dst); pagemap_check_wp(value, true); /* Make sure uffd-wp bit dropped when fork */ if (pagemap_test_fork(true)) err("Detected stall uffd-wp bit in child"); /* Exclusive required or PAGEOUT won't work */ if (!(value & PM_MMAP_EXCLUSIVE)) err("multiple mapping detected: 0x%"PRIx64, value); if (madvise(area_dst, test_pgsize, MADV_PAGEOUT)) err("madvise(MADV_PAGEOUT) failed"); /* Uffd-wp should persist even swapped out */ value = pagemap_read_vaddr(pagemap_fd, area_dst); pagemap_check_wp(value, true); /* Make sure uffd-wp bit dropped when fork */ if (pagemap_test_fork(false)) err("Detected stall uffd-wp bit in child"); /* Unprotect; this tests swap pte modifications */ wp_range(uffd, (uint64_t)area_dst, page_size, false); value = pagemap_read_vaddr(pagemap_fd, area_dst); pagemap_check_wp(value, false); /* Fault in the page from disk */ *area_dst = 2; value = pagemap_read_vaddr(pagemap_fd, area_dst); pagemap_check_wp(value, false); close(pagemap_fd); printf("done\n"); } static int userfaultfd_stress(void) { void *area; unsigned long nr; struct uffdio_register uffdio_register; struct uffd_stats uffd_stats[nr_cpus]; uffd_test_ctx_init(0); if (posix_memalign(&area, page_size, page_size)) err("out of memory"); zeropage = area; bzero(zeropage, page_size); pthread_mutex_lock(&uffd_read_mutex); pthread_attr_init(&attr); pthread_attr_setstacksize(&attr, 16*1024*1024); while (bounces--) { printf("bounces: %d, mode:", bounces); if (bounces & BOUNCE_RANDOM) printf(" rnd"); if (bounces & BOUNCE_RACINGFAULTS) printf(" racing"); if (bounces & BOUNCE_VERIFY) printf(" ver"); if (bounces & BOUNCE_POLL) printf(" poll"); else printf(" read"); printf(", "); fflush(stdout); if (bounces & BOUNCE_POLL) fcntl(uffd, F_SETFL, uffd_flags | O_NONBLOCK); else fcntl(uffd, F_SETFL, uffd_flags & ~O_NONBLOCK); /* register */ uffdio_register.range.start = (unsigned long) area_dst; uffdio_register.range.len = nr_pages * page_size; uffdio_register.mode = UFFDIO_REGISTER_MODE_MISSING; if (test_uffdio_wp) uffdio_register.mode |= UFFDIO_REGISTER_MODE_WP; if (ioctl(uffd, UFFDIO_REGISTER, &uffdio_register)) err("register failure"); assert_expected_ioctls_present( uffdio_register.mode, uffdio_register.ioctls); if (area_dst_alias) { uffdio_register.range.start = (unsigned long) area_dst_alias; if (ioctl(uffd, UFFDIO_REGISTER, &uffdio_register)) err("register failure alias"); } /* * The madvise done previously isn't enough: some * uffd_thread could have read userfaults (one of * those already resolved by the background thread) * and it may be in the process of calling * UFFDIO_COPY. UFFDIO_COPY will read the zapped * area_src and it would map a zero page in it (of * course such a UFFDIO_COPY is perfectly safe as it'd * return -EEXIST). The problem comes at the next * bounce though: that racing UFFDIO_COPY would * generate zeropages in the area_src, so invalidating * the previous MADV_DONTNEED. Without this additional * MADV_DONTNEED those zeropages leftovers in the * area_src would lead to -EEXIST failure during the * next bounce, effectively leaving a zeropage in the * area_dst. * * Try to comment this out madvise to see the memory * corruption being caught pretty quick. * * khugepaged is also inhibited to collapse THP after * MADV_DONTNEED only after the UFFDIO_REGISTER, so it's * required to MADV_DONTNEED here. */ uffd_test_ops->release_pages(area_dst); uffd_stats_reset(uffd_stats, nr_cpus); /* bounce pass */ if (stress(uffd_stats)) return 1; /* Clear all the write protections if there is any */ if (test_uffdio_wp) wp_range(uffd, (unsigned long)area_dst, nr_pages * page_size, false); /* unregister */ if (ioctl(uffd, UFFDIO_UNREGISTER, &uffdio_register.range)) err("unregister failure"); if (area_dst_alias) { uffdio_register.range.start = (unsigned long) area_dst; if (ioctl(uffd, UFFDIO_UNREGISTER, &uffdio_register.range)) err("unregister failure alias"); } /* verification */ if (bounces & BOUNCE_VERIFY) for (nr = 0; nr < nr_pages; nr++) if (*area_count(area_dst, nr) != count_verify[nr]) err("error area_count %llu %llu %lu\n", *area_count(area_src, nr), count_verify[nr], nr); /* prepare next bounce */ swap(area_src, area_dst); swap(area_src_alias, area_dst_alias); uffd_stats_report(uffd_stats, nr_cpus); } if (test_type == TEST_ANON) { /* * shmem/hugetlb won't be able to run since they have different * behavior on fork() (file-backed memory normally drops ptes * directly when fork), meanwhile the pagemap test will verify * pgtable entry of fork()ed child. */ userfaultfd_pagemap_test(page_size); /* * Hard-code for x86_64 for now for 2M THP, as x86_64 is * currently the only one that supports uffd-wp */ userfaultfd_pagemap_test(page_size * 512); } return userfaultfd_zeropage_test() || userfaultfd_sig_test() || userfaultfd_events_test() || userfaultfd_minor_test(); } /* * Copied from mlock2-tests.c */ unsigned long default_huge_page_size(void) { unsigned long hps = 0; char *line = NULL; size_t linelen = 0; FILE *f = fopen("/proc/meminfo", "r"); if (!f) return 0; while (getline(&line, &linelen, f) > 0) { if (sscanf(line, "Hugepagesize: %lu kB", &hps) == 1) { hps <<= 10; break; } } free(line); fclose(f); return hps; } static void set_test_type(const char *type) { if (!strcmp(type, "anon")) { test_type = TEST_ANON; uffd_test_ops = &anon_uffd_test_ops; } else if (!strcmp(type, "hugetlb")) { test_type = TEST_HUGETLB; uffd_test_ops = &hugetlb_uffd_test_ops; } else if (!strcmp(type, "hugetlb_shared")) { map_shared = true; test_type = TEST_HUGETLB; uffd_test_ops = &hugetlb_uffd_test_ops; /* Minor faults require shared hugetlb; only enable here. */ test_uffdio_minor = true; } else if (!strcmp(type, "shmem")) { map_shared = true; test_type = TEST_SHMEM; uffd_test_ops = &shmem_uffd_test_ops; test_uffdio_minor = true; } } static void parse_test_type_arg(const char *raw_type) { char *buf = strdup(raw_type); uint64_t features = UFFD_API_FEATURES; while (buf) { const char *token = strsep(&buf, ":"); if (!test_type) set_test_type(token); else if (!strcmp(token, "dev")) test_dev_userfaultfd = true; else if (!strcmp(token, "syscall")) test_dev_userfaultfd = false; else if (!strcmp(token, "collapse")) test_collapse = true; else err("unrecognized test mod '%s'", token); } if (!test_type) err("failed to parse test type argument: '%s'", raw_type); if (test_collapse && test_type != TEST_SHMEM) err("Unsupported test: %s", raw_type); if (test_type == TEST_HUGETLB) page_size = hpage_size; else page_size = sysconf(_SC_PAGE_SIZE); if (!page_size) err("Unable to determine page size"); if ((unsigned long) area_count(NULL, 0) + sizeof(unsigned long long) * 2 > page_size) err("Impossible to run this test"); /* * Whether we can test certain features depends not just on test type, * but also on whether or not this particular kernel supports the * feature. */ userfaultfd_open(&features); test_uffdio_wp = test_uffdio_wp && (features & UFFD_FEATURE_PAGEFAULT_FLAG_WP); test_uffdio_minor = test_uffdio_minor && (features & uffd_minor_feature()); close(uffd); uffd = -1; } static void sigalrm(int sig) { if (sig != SIGALRM) abort(); test_uffdio_copy_eexist = true; test_uffdio_zeropage_eexist = true; alarm(ALARM_INTERVAL_SECS); } int main(int argc, char **argv) { size_t bytes; if (argc < 4) usage(); if (signal(SIGALRM, sigalrm) == SIG_ERR) err("failed to arm SIGALRM"); alarm(ALARM_INTERVAL_SECS); hpage_size = default_huge_page_size(); parse_test_type_arg(argv[1]); bytes = atol(argv[2]) * 1024 * 1024; if (test_collapse && bytes & (hpage_size - 1)) err("MiB must be multiple of %lu if :collapse mod set", hpage_size >> 20); nr_cpus = sysconf(_SC_NPROCESSORS_ONLN); if (test_collapse) { /* nr_cpus must divide (bytes / page_size), otherwise, * area allocations of (nr_pages * paze_size) won't be a * multiple of hpage_size, even if bytes is a multiple of * hpage_size. * * This means that nr_cpus must divide (N * (2 << (H-P)) * where: * bytes = hpage_size * N * hpage_size = 2 << H * page_size = 2 << P * * And we want to chose nr_cpus to be the largest value * satisfying this constraint, not larger than the number * of online CPUs. Unfortunately, prime factorization of * N and nr_cpus may be arbitrary, so have to search for it. * Instead, just use the highest power of 2 dividing both * nr_cpus and (bytes / page_size). */ int x = factor_of_2(nr_cpus); int y = factor_of_2(bytes / page_size); nr_cpus = x < y ? x : y; } nr_pages_per_cpu = bytes / page_size / nr_cpus; if (!nr_pages_per_cpu) { _err("invalid MiB"); usage(); } bounces = atoi(argv[3]); if (bounces <= 0) { _err("invalid bounces"); usage(); } nr_pages = nr_pages_per_cpu * nr_cpus; if (test_type == TEST_SHMEM || test_type == TEST_HUGETLB) { unsigned int memfd_flags = 0; if (test_type == TEST_HUGETLB) memfd_flags = MFD_HUGETLB; mem_fd = memfd_create(argv[0], memfd_flags); if (mem_fd < 0) err("memfd_create"); if (ftruncate(mem_fd, nr_pages * page_size * 2)) err("ftruncate"); if (fallocate(mem_fd, FALLOC_FL_PUNCH_HOLE | FALLOC_FL_KEEP_SIZE, 0, nr_pages * page_size * 2)) err("fallocate"); } printf("nr_pages: %lu, nr_pages_per_cpu: %lu\n", nr_pages, nr_pages_per_cpu); return userfaultfd_stress(); } #else /* __NR_userfaultfd */ #warning "missing __NR_userfaultfd definition" int main(void) { printf("skip: Skipping userfaultfd test (missing __NR_userfaultfd)\n"); return KSFT_SKIP; } #endif /* __NR_userfaultfd */ |