// SPDX-License-Identifier: GPL-2.0 #define _GNU_SOURCE #include #include #include #include #include #include #include #include "mlock2.h" #include "../kselftest.h" struct vm_boundaries { unsigned long start; unsigned long end; }; static int get_vm_area(unsigned long addr, struct vm_boundaries *area) { FILE *file; int ret = 1; char line[1024] = {0}; char *end_addr; char *stop; unsigned long start; unsigned long end; if (!area) return ret; file = fopen("/proc/self/maps", "r"); if (!file) { perror("fopen"); return ret; } memset(area, 0, sizeof(struct vm_boundaries)); while(fgets(line, 1024, file)) { end_addr = strchr(line, '-'); if (!end_addr) { printf("cannot parse /proc/self/maps\n"); goto out; } *end_addr = '\0'; end_addr++; stop = strchr(end_addr, ' '); if (!stop) { printf("cannot parse /proc/self/maps\n"); goto out; } stop = '\0'; sscanf(line, "%lx", &start); sscanf(end_addr, "%lx", &end); if (start <= addr && end > addr) { area->start = start; area->end = end; ret = 0; goto out; } } out: fclose(file); return ret; } static uint64_t get_pageflags(unsigned long addr) { FILE *file; uint64_t pfn; unsigned long offset; file = fopen("/proc/self/pagemap", "r"); if (!file) { perror("fopen pagemap"); _exit(1); } offset = addr / getpagesize() * sizeof(pfn); if (fseek(file, offset, SEEK_SET)) { perror("fseek pagemap"); _exit(1); } if (fread(&pfn, sizeof(pfn), 1, file) != 1) { perror("fread pagemap"); _exit(1); } fclose(file); return pfn; } static uint64_t get_kpageflags(unsigned long pfn) { uint64_t flags; FILE *file; file = fopen("/proc/kpageflags", "r"); if (!file) { perror("fopen kpageflags"); _exit(1); } if (fseek(file, pfn * sizeof(flags), SEEK_SET)) { perror("fseek kpageflags"); _exit(1); } if (fread(&flags, sizeof(flags), 1, file) != 1) { perror("fread kpageflags"); _exit(1); } fclose(file); return flags; } #define VMFLAGS "VmFlags:" static bool is_vmflag_set(unsigned long addr, const char *vmflag) { char *line = NULL; char *flags; size_t size = 0; bool ret = false; FILE *smaps; smaps = seek_to_smaps_entry(addr); if (!smaps) { printf("Unable to parse /proc/self/smaps\n"); goto out; } while (getline(&line, &size, smaps) > 0) { if (!strstr(line, VMFLAGS)) { free(line); line = NULL; size = 0; continue; } flags = line + strlen(VMFLAGS); ret = (strstr(flags, vmflag) != NULL); goto out; } out: free(line); fclose(smaps); return ret; } #define SIZE "Size:" #define RSS "Rss:" #define LOCKED "lo" static bool is_vma_lock_on_fault(unsigned long addr) { bool ret = false; bool locked; FILE *smaps = NULL; unsigned long vma_size, vma_rss; char *line = NULL; char *value; size_t size = 0; locked = is_vmflag_set(addr, LOCKED); if (!locked) goto out; smaps = seek_to_smaps_entry(addr); if (!smaps) { printf("Unable to parse /proc/self/smaps\n"); goto out; } while (getline(&line, &size, smaps) > 0) { if (!strstr(line, SIZE)) { free(line); line = NULL; size = 0; continue; } value = line + strlen(SIZE); if (sscanf(value, "%lu kB", &vma_size) < 1) { printf("Unable to parse smaps entry for Size\n"); goto out; } break; } while (getline(&line, &size, smaps) > 0) { if (!strstr(line, RSS)) { free(line); line = NULL; size = 0; continue; } value = line + strlen(RSS); if (sscanf(value, "%lu kB", &vma_rss) < 1) { printf("Unable to parse smaps entry for Rss\n"); goto out; } break; } ret = locked && (vma_rss < vma_size); out: free(line); if (smaps) fclose(smaps); return ret; } #define PRESENT_BIT 0x8000000000000000ULL #define PFN_MASK 0x007FFFFFFFFFFFFFULL #define UNEVICTABLE_BIT (1UL << 18) static int lock_check(char *map) { unsigned long page_size = getpagesize(); uint64_t page1_flags, page2_flags; page1_flags = get_pageflags((unsigned long)map); page2_flags = get_pageflags((unsigned long)map + page_size); /* Both pages should be present */ if (((page1_flags & PRESENT_BIT) == 0) || ((page2_flags & PRESENT_BIT) == 0)) { printf("Failed to make both pages present\n"); return 1; } page1_flags = get_kpageflags(page1_flags & PFN_MASK); page2_flags = get_kpageflags(page2_flags & PFN_MASK); /* Both pages should be unevictable */ if (((page1_flags & UNEVICTABLE_BIT) == 0) || ((page2_flags & UNEVICTABLE_BIT) == 0)) { printf("Failed to make both pages unevictable\n"); return 1; } if (!is_vmflag_set((unsigned long)map, LOCKED)) { printf("VMA flag %s is missing on page 1\n", LOCKED); return 1; } if (!is_vmflag_set((unsigned long)map + page_size, LOCKED)) { printf("VMA flag %s is missing on page 2\n", LOCKED); return 1; } return 0; } static int unlock_lock_check(char *map) { unsigned long page_size = getpagesize(); uint64_t page1_flags, page2_flags; page1_flags = get_pageflags((unsigned long)map); page2_flags = get_pageflags((unsigned long)map + page_size); page1_flags = get_kpageflags(page1_flags & PFN_MASK); page2_flags = get_kpageflags(page2_flags & PFN_MASK); if ((page1_flags & UNEVICTABLE_BIT) || (page2_flags & UNEVICTABLE_BIT)) { printf("A page is still marked unevictable after unlock\n"); return 1; } if (is_vmflag_set((unsigned long)map, LOCKED)) { printf("VMA flag %s is present on page 1 after unlock\n", LOCKED); return 1; } if (is_vmflag_set((unsigned long)map + page_size, LOCKED)) { printf("VMA flag %s is present on page 2 after unlock\n", LOCKED); return 1; } return 0; } static int test_mlock_lock() { char *map; int ret = 1; unsigned long page_size = getpagesize(); map = mmap(NULL, 2 * page_size, PROT_READ | PROT_WRITE, MAP_ANONYMOUS | MAP_PRIVATE, -1, 0); if (map == MAP_FAILED) { perror("test_mlock_locked mmap"); goto out; } if (mlock2_(map, 2 * page_size, 0)) { if (errno == ENOSYS) { printf("Cannot call new mlock family, skipping test\n"); _exit(KSFT_SKIP); } perror("mlock2(0)"); goto unmap; } if (lock_check(map)) goto unmap; /* Now unlock and recheck attributes */ if (munlock(map, 2 * page_size)) { perror("munlock()"); goto unmap; } ret = unlock_lock_check(map); unmap: munmap(map, 2 * page_size); out: return ret; } static int onfault_check(char *map) { unsigned long page_size = getpagesize(); uint64_t page1_flags, page2_flags; page1_flags = get_pageflags((unsigned long)map); page2_flags = get_pageflags((unsigned long)map + page_size); /* Neither page should be present */ if ((page1_flags & PRESENT_BIT) || (page2_flags & PRESENT_BIT)) { printf("Pages were made present by MLOCK_ONFAULT\n"); return 1; } *map = 'a'; page1_flags = get_pageflags((unsigned long)map); page2_flags = get_pageflags((unsigned long)map + page_size); /* Only page 1 should be present */ if ((page1_flags & PRESENT_BIT) == 0) { printf("Page 1 is not present after fault\n"); return 1; } else if (page2_flags & PRESENT_BIT) { printf("Page 2 was made present\n"); return 1; } page1_flags = get_kpageflags(page1_flags & PFN_MASK); /* Page 1 should be unevictable */ if ((page1_flags & UNEVICTABLE_BIT) == 0) { printf("Failed to make faulted page unevictable\n"); return 1; } if (!is_vma_lock_on_fault((unsigned long)map)) { printf("VMA is not marked for lock on fault\n"); return 1; } if (!is_vma_lock_on_fault((unsigned long)map + page_size)) { printf("VMA is not marked for lock on fault\n"); return 1; } return 0; } static int unlock_onfault_check(char *map) { unsigned long page_size = getpagesize(); uint64_t page1_flags; page1_flags = get_pageflags((unsigned long)map); page1_flags = get_kpageflags(page1_flags & PFN_MASK); if (page1_flags & UNEVICTABLE_BIT) { printf("Page 1 is still marked unevictable after unlock\n"); return 1; } if (is_vma_lock_on_fault((unsigned long)map) || is_vma_lock_on_fault((unsigned long)map + page_size)) { printf("VMA is still lock on fault after unlock\n"); return 1; } return 0; } static int test_mlock_onfault() { char *map; int ret = 1; unsigned long page_size = getpagesize(); map = mmap(NULL, 2 * page_size, PROT_READ | PROT_WRITE, MAP_ANONYMOUS | MAP_PRIVATE, -1, 0); if (map == MAP_FAILED) { perror("test_mlock_locked mmap"); goto out; } if (mlock2_(map, 2 * page_size, MLOCK_ONFAULT)) { if (errno == ENOSYS) { printf("Cannot call new mlock family, skipping test\n"); _exit(KSFT_SKIP); } perror("mlock2(MLOCK_ONFAULT)"); goto unmap; } if (onfault_check(map)) goto unmap; /* Now unlock and recheck attributes */ if (munlock(map, 2 * page_size)) { if (errno == ENOSYS) { printf("Cannot call new mlock family, skipping test\n"); _exit(KSFT_SKIP); } perror("munlock()"); goto unmap; } ret = unlock_onfault_check(map); unmap: munmap(map, 2 * page_size); out: return ret; } static int test_lock_onfault_of_present() { char *map; int ret = 1; unsigned long page_size = getpagesize(); uint64_t page1_flags, page2_flags; map = mmap(NULL, 2 * page_size, PROT_READ | PROT_WRITE, MAP_ANONYMOUS | MAP_PRIVATE, -1, 0); if (map == MAP_FAILED) { perror("test_mlock_locked mmap"); goto out; } *map = 'a'; if (mlock2_(map, 2 * page_size, MLOCK_ONFAULT)) { if (errno == ENOSYS) { printf("Cannot call new mlock family, skipping test\n"); _exit(KSFT_SKIP); } perror("mlock2(MLOCK_ONFAULT)"); goto unmap; } page1_flags = get_pageflags((unsigned long)map); page2_flags = get_pageflags((unsigned long)map + page_size); page1_flags = get_kpageflags(page1_flags & PFN_MASK); page2_flags = get_kpageflags(page2_flags & PFN_MASK); /* Page 1 should be unevictable */ if ((page1_flags & UNEVICTABLE_BIT) == 0) { printf("Failed to make present page unevictable\n"); goto unmap; } if (!is_vma_lock_on_fault((unsigned long)map) || !is_vma_lock_on_fault((unsigned long)map + page_size)) { printf("VMA with present pages is not marked lock on fault\n"); goto unmap; } ret = 0; unmap: munmap(map, 2 * page_size); out: return ret; } static int test_munlockall() { char *map; int ret = 1; unsigned long page_size = getpagesize(); map = mmap(NULL, 2 * page_size, PROT_READ | PROT_WRITE, MAP_ANONYMOUS | MAP_PRIVATE, -1, 0); if (map == MAP_FAILED) { perror("test_munlockall mmap"); goto out; } if (mlockall(MCL_CURRENT)) { perror("mlockall(MCL_CURRENT)"); goto out; } if (lock_check(map)) goto unmap; if (munlockall()) { perror("munlockall()"); goto unmap; } if (unlock_lock_check(map)) goto unmap; munmap(map, 2 * page_size); map = mmap(NULL, 2 * page_size, PROT_READ | PROT_WRITE, MAP_ANONYMOUS | MAP_PRIVATE, -1, 0); if (map == MAP_FAILED) { perror("test_munlockall second mmap"); goto out; } if (mlockall(MCL_CURRENT | MCL_ONFAULT)) { perror("mlockall(MCL_CURRENT | MCL_ONFAULT)"); goto unmap; } if (onfault_check(map)) goto unmap; if (munlockall()) { perror("munlockall()"); goto unmap; } if (unlock_onfault_check(map)) goto unmap; if (mlockall(MCL_CURRENT | MCL_FUTURE)) { perror("mlockall(MCL_CURRENT | MCL_FUTURE)"); goto out; } if (lock_check(map)) goto unmap; if (munlockall()) { perror("munlockall()"); goto unmap; } ret = unlock_lock_check(map); unmap: munmap(map, 2 * page_size); out: munlockall(); return ret; } static int test_vma_management(bool call_mlock) { int ret = 1; void *map; unsigned long page_size = getpagesize(); struct vm_boundaries page1; struct vm_boundaries page2; struct vm_boundaries page3; map = mmap(NULL, 3 * page_size, PROT_READ | PROT_WRITE, MAP_ANONYMOUS | MAP_PRIVATE, -1, 0); if (map == MAP_FAILED) { perror("mmap()"); return ret; } if (call_mlock && mlock2_(map, 3 * page_size, MLOCK_ONFAULT)) { if (errno == ENOSYS) { printf("Cannot call new mlock family, skipping test\n"); _exit(KSFT_SKIP); } perror("mlock(ONFAULT)\n"); goto out; } if (get_vm_area((unsigned long)map, &page1) || get_vm_area((unsigned long)map + page_size, &page2) || get_vm_area((unsigned long)map + page_size * 2, &page3)) { printf("couldn't find mapping in /proc/self/maps\n"); goto out; } /* * Before we unlock a portion, we need to that all three pages are in * the same VMA. If they are not we abort this test (Note that this is * not a failure) */ if (page1.start != page2.start || page2.start != page3.start) { printf("VMAs are not merged to start, aborting test\n"); ret = 0; goto out; } if (munlock(map + page_size, page_size)) { perror("munlock()"); goto out; } if (get_vm_area((unsigned long)map, &page1) || get_vm_area((unsigned long)map + page_size, &page2) || get_vm_area((unsigned long)map + page_size * 2, &page3)) { printf("couldn't find mapping in /proc/self/maps\n"); goto out; } /* All three VMAs should be different */ if (page1.start == page2.start || page2.start == page3.start) { printf("failed to split VMA for munlock\n"); goto out; } /* Now unlock the first and third page and check the VMAs again */ if (munlock(map, page_size * 3)) { perror("munlock()"); goto out; } if (get_vm_area((unsigned long)map, &page1) || get_vm_area((unsigned long)map + page_size, &page2) || get_vm_area((unsigned long)map + page_size * 2, &page3)) { printf("couldn't find mapping in /proc/self/maps\n"); goto out; } /* Now all three VMAs should be the same */ if (page1.start != page2.start || page2.start != page3.start) { printf("failed to merge VMAs after munlock\n"); goto out; } ret = 0; out: munmap(map, 3 * page_size); return ret; } static int test_mlockall(int (test_function)(bool call_mlock)) { int ret = 1; if (mlockall(MCL_CURRENT | MCL_ONFAULT | MCL_FUTURE)) { perror("mlockall"); return ret; } ret = test_function(false); munlockall(); return ret; } int main(int argc, char **argv) { int ret = 0; ret += test_mlock_lock(); ret += test_mlock_onfault(); ret += test_munlockall(); ret += test_lock_onfault_of_present(); ret += test_vma_management(true); ret += test_mlockall(test_vma_management); return ret; }