// SPDX-License-Identifier: GPL-2.0-or-later /* * Copyright (c) International Business Machines Corp., 2004 * Copyright (c) Linux Test Project, 2004-2020 */ /* * DESCRIPTION * hugeshmctl02 - check for EACCES, EFAULT and EINVAL errors * * ALGORITHM * create a large shared memory segment without read or write permissions * create a large shared memory segment with read & write permissions * loop if that option was specified * call shmctl() using five different invalid cases * check the errno value * issue a PASS message if we get EACCES, EFAULT or EINVAL * otherwise, the tests fails * issue a FAIL message * call cleanup * * HISTORY * 03/2001 - Written by Wayne Boyer * 04/2004 - Updated by Robbie Williamson */ #include #include #include "hugetlb.h" #include "lapi/syscalls.h" static size_t shm_size; static int shm_id_1 = -1; static int shm_id_2 = -1; static int shm_id_3 = -1; static struct shmid_ds buf; static struct tcase { int *shmid; int cmd; struct shmid_ds *sbuf; int error; } tcases[] = { /* EFAULT - IPC_SET & buf isn't valid */ {&shm_id_2, IPC_SET, (struct shmid_ds *)-1, EFAULT}, /* EFAULT - IPC_STAT & buf isn't valid */ {&shm_id_2, IPC_STAT, (struct shmid_ds *)-1, EFAULT}, /* EINVAL - the shmid is not valid */ {&shm_id_3, IPC_STAT, &buf, EINVAL}, /* EINVAL - the command is not valid */ {&shm_id_2, -1, &buf, EINVAL}, }; static int libc_shmctl(int shmid, int cmd, void *buf) { return shmctl(shmid, cmd, buf); } static int sys_shmctl(int shmid, int cmd, void *buf) { return tst_syscall(__NR_shmctl, shmid, cmd, buf); } static struct test_variants { int (*shmctl)(int shmid, int cmd, void *buf); char *desc; } variants[] = { { .shmctl = libc_shmctl, .desc = "libc shmctl()"}, #if (__NR_shmctl != __LTP__NR_INVALID_SYSCALL) { .shmctl = sys_shmctl, .desc = "__NR_shmctl syscall"}, #endif }; static void test_hugeshmctl(unsigned int i) { struct test_variants *tv = &variants[tst_variant]; if (tcases[i].error == EFAULT && tv->shmctl == libc_shmctl) { tst_res(TCONF, "EFAULT is skipped for libc variant"); return; } TEST(tv->shmctl(*(tcases[i].shmid), tcases[i].cmd, tcases[i].sbuf)); if (TST_RET != -1) { tst_res(TFAIL, "shmctl succeeded unexpectedly"); return; } if (TST_ERR == tcases[i].error) { tst_res(TPASS | TTERRNO, "shmctl failed as expected"); return; } tst_res(TFAIL | TTERRNO, "shmctl failed unexpectedly - expect errno = %d, got", tcases[i].error); } static void setup(void) { struct test_variants *tv = &variants[tst_variant]; long hpage_size; tst_res(TINFO, "Testing variant: %s", tv->desc); if (tst_hugepages == 0) tst_brk(TCONF, "No enough hugepages for testing."); hpage_size = SAFE_READ_MEMINFO("Hugepagesize:") * 1024; shm_size = hpage_size * (tst_hugepages / 2); update_shm_size(&shm_size); shmkey = getipckey(); /* create a shared memory segment without read or write permissions */ shm_id_1 = shmget(shmkey, shm_size, SHM_HUGETLB | IPC_CREAT | IPC_EXCL); if (shm_id_1 == -1) tst_brk(TBROK | TERRNO, "shmget #1"); /* create a shared memory segment with read and write permissions */ shm_id_2 = shmget(shmkey + 1, shm_size, SHM_HUGETLB | IPC_CREAT | IPC_EXCL | SHM_RW); if (shm_id_2 == -1) tst_brk(TBROK | TERRNO, "shmget #2"); } static void cleanup(void) { rm_shm(shm_id_1); rm_shm(shm_id_2); } static struct tst_test test = { .test = test_hugeshmctl, .test_variants = ARRAY_SIZE(variants), .tcnt = ARRAY_SIZE(tcases), .needs_root = 1, .needs_tmpdir = 1, .options = (struct tst_option[]) { {"s:", &nr_opt, "Set the number of the been allocated hugepages"}, {} }, .setup = setup, .cleanup = cleanup, .hugepages = {128, TST_REQUEST}, };