/* * Copyright (C) 2013 Linux Test Project * * This program is free software; you can redistribute it and/or * modify it under the terms of version 2 of the GNU General Public * License as published by the Free Software Foundation. * * This program is distributed in the hope that it would be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. * * Further, this software is distributed without any warranty that it * is free of the rightful claim of any third person regarding * infringement or the like. Any license provided herein, whether * implied or otherwise, applies only to this software file. Patent * licenses, if any, provided herein do not apply to combinations of * this program with other software, or any other product whatsoever. * * You should have received a copy of the GNU General Public License * along with this program; if not, write the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA * 02110-1301, USA. */ /* * Test /dev/kmsg based on kernel doc: Documentation/ABI/testing/dev-kmsg * - read() blocks * - non-blocking read() fails with EAGAIN * - partial read fails (buffer smaller than message) * - can write to /dev/kmsg and message seqno grows * - first read() after open() returns same message * - if messages get overwritten, read() returns -EPIPE * - device supports SEEK_SET, SEEK_END, SEEK_DATA */ #define _GNU_SOURCE #include <sys/types.h> #include <sys/stat.h> #include <sys/syscall.h> #include <sys/wait.h> #include <errno.h> #include <fcntl.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include <unistd.h> #include "config.h" #include "tst_test.h" #include "lapi/syscalls.h" #define MSG_PREFIX "LTP kmsg01 " #define MAX_MSGSIZE 4096 #define NUM_READ_MSGS 3 #define NUM_READ_RETRY 10 #define NUM_OVERWRITE_MSGS 1024 #define PRINTK "/proc/sys/kernel/printk" #define CONSOLE_LOGLEVEL_QUIET 4 static int console_loglevel = -1; /* * inject_msg - write message to /dev/kmsg * @msg: null-terminated message to inject, should end with \n * * RETURNS: * 0 on success * -1 on failure, errno reflects write() errno */ static int inject_msg(const char *msg) { int f; f = SAFE_OPEN("/dev/kmsg", O_WRONLY); TEST(write(f, msg, strlen(msg))); SAFE_CLOSE(f); errno = TEST_ERRNO; return TEST_RETURN; } /* * find_msg - find message in kernel ring buffer * @fd: fd to use, if < 0 function opens /dev/kmsg itself * @text_to_find: substring to look for in messages * @buf: buf to store found message * @bufsize: size of 'buf' * @first: 1 - return first matching message * 0 - return last matching message * RETURNS: * 0 on success * -1 on failure */ static int find_msg(int fd, const char *text_to_find, char *buf, int bufsize, int first) { int f, msg_found = 0; char msg[MAX_MSGSIZE + 1]; if (fd < 0) { f = SAFE_OPEN("/dev/kmsg", O_RDONLY | O_NONBLOCK); } else { f = fd; } while (1) { TEST(read(f, msg, MAX_MSGSIZE)); if (TEST_RETURN < 0) { if (TEST_ERRNO == EAGAIN) /* there are no more messages */ break; else if (TEST_ERRNO == EPIPE) /* current message was overwritten */ continue; else tst_brk(TBROK|TTERRNO, "err reading /dev/kmsg"); } else if (TEST_RETURN < bufsize) { /* lines from kmsg are not NULL terminated */ msg[TEST_RETURN] = '\0'; if (strstr(msg, text_to_find) != NULL) { strncpy(buf, msg, bufsize); msg_found = 1; if (first) break; } } } if (fd < 0) SAFE_CLOSE(f); if (msg_found) return 0; else return -1; } static int get_msg_fields(const char *msg, unsigned long *prio, unsigned long *seqno) { unsigned long s, p; if (sscanf(msg, "%lu,%lu,", &p, &s) == 2) { if (prio) *prio = p; if (seqno) *seqno = s; return 0; } else { return 1; } } /* * timed_read - if possible reads from fd or times out * @fd: fd to read from * @timeout_usec: timeout in useconds * * RETURNS: * read bytes on successful read * -1 on read() error, errno reflects read() errno * -2 on timeout */ static int timed_read(int fd, long timeout_usec) { int ret, tmp; struct timeval timeout; fd_set read_fds; FD_ZERO(&read_fds); FD_SET(fd, &read_fds); timeout.tv_sec = timeout_usec / 1000000; timeout.tv_usec = timeout_usec % 1000000; ret = select(fd + 1, &read_fds, 0, 0, &timeout); switch (ret) { case -1: tst_brk(TBROK|TERRNO, "select failed"); case 0: /* select timed out */ return -2; } return read(fd, &tmp, 1); } /* * timed_read_kmsg - reads file until it reaches end of file, * read fails or times out. This ignores any * EPIPE errors. * @fd: fd to read from * @timeout_usec: timeout in useconds for every read attempt * * RETURNS: * 0 on read reaching eof * -1 on read error, errno reflects read() errno * -2 on timeout */ static int timed_read_kmsg(int fd, long timeout_usec) { int child, status, ret = 0; int pipefd[2]; char msg[MAX_MSGSIZE]; if (pipe(pipefd) != 0) tst_brk(TBROK|TERRNO, "pipe failed"); child = fork(); switch (child) { case -1: tst_brk(TBROK|TERRNO, "failed to fork"); case 0: /* child does all the reading and keeps writing to * pipe to let parent know that it didn't block */ close(pipefd[0]); while (1) { if (write(pipefd[1], "", 1) == -1) tst_brk(TBROK|TERRNO, "write to pipe"); TEST(read(fd, msg, MAX_MSGSIZE)); if (TEST_RETURN == 0) break; if (TEST_RETURN == -1 && TEST_ERRNO != EPIPE) { ret = TEST_ERRNO; break; } } close(pipefd[1]); exit(ret); } SAFE_CLOSE(pipefd[1]); /* parent reads pipe until it reaches eof or until read times out */ do { TEST(timed_read(pipefd[0], timeout_usec)); } while (TEST_RETURN > 0); SAFE_CLOSE(pipefd[0]); /* child is blocked, kill it */ if (TEST_RETURN == -2) kill(child, SIGTERM); SAFE_WAITPID(child, &status, 0); if (WIFEXITED(status)) { if (WEXITSTATUS(status) == 0) { return 0; } else { errno = WEXITSTATUS(status); return -1; } } return -2; } static void test_read_nonblock(void) { int fd; tst_res(TINFO, "TEST: nonblock read"); fd = SAFE_OPEN("/dev/kmsg", O_RDONLY | O_NONBLOCK); TEST(timed_read_kmsg(fd, 5000000)); if (TEST_RETURN == -1 && TEST_ERRNO == EAGAIN) tst_res(TPASS, "non-block read returned EAGAIN"); else tst_res(TFAIL|TTERRNO, "non-block read returned: %ld", TEST_RETURN); SAFE_CLOSE(fd); } static void test_read_block(void) { int fd; tst_res(TINFO, "TEST: blocking read"); fd = SAFE_OPEN("/dev/kmsg", O_RDONLY); TEST(timed_read_kmsg(fd, 500000)); if (TEST_RETURN == -2) tst_res(TPASS, "read blocked"); else tst_res(TFAIL|TTERRNO, "read returned: %ld", TEST_RETURN); SAFE_CLOSE(fd); } static void test_partial_read(void) { char msg[MAX_MSGSIZE]; int fd; tst_res(TINFO, "TEST: partial read"); fd = SAFE_OPEN("/dev/kmsg", O_RDONLY | O_NONBLOCK); TEST(read(fd, msg, 1)); if (TEST_RETURN < 0) tst_res(TPASS|TTERRNO, "read failed as expected"); else tst_res(TFAIL, "read returned: %ld", TEST_RETURN); SAFE_CLOSE(fd); } static void test_inject(void) { char imsg[MAX_MSGSIZE], imsg_prefixed[MAX_MSGSIZE]; char tmp[MAX_MSGSIZE]; unsigned long prefix, seqno, seqno_last = 0; int i, facility, prio; tst_res(TINFO, "TEST: injected messages appear in /dev/kmsg"); srand(time(NULL)); /* test all combinations of prio 0-7, facility 0-15 */ for (i = 0; i < 127; i++) { prio = (i & 7); facility = (i >> 3); sprintf(imsg, MSG_PREFIX"TEST MESSAGE %ld prio: %d, " "facility: %d\n", random(), prio, facility); sprintf(imsg_prefixed, "<%d>%s", i, imsg); if (inject_msg(imsg_prefixed) == -1) { tst_res(TFAIL|TERRNO, "inject failed"); return; } /* check that message appears in log */ if (find_msg(-1, imsg, tmp, sizeof(tmp), 0) == -1) { tst_res(TFAIL, "failed to find: %s", imsg); return; } /* check that facility is not 0 (LOG_KERN). */ if (get_msg_fields(tmp, &prefix, &seqno) != 0) { tst_res(TFAIL, "failed to parse seqid: %s", tmp); return; } if (prefix >> 3 == 0) { tst_res(TFAIL, "facility 0 found: %s", tmp); return; } /* check that seq. number grows */ if (seqno > seqno_last) { seqno_last = seqno; } else { tst_res(TFAIL, "seqno doesn't grow: %lu, " "last: %lu", seqno, seqno_last); return; } } tst_res(TPASS, "injected messages found in log"); tst_res(TPASS, "sequence numbers grow as expected"); } static void test_read_returns_first_message(void) { unsigned long seqno[NUM_READ_MSGS + 1]; char msg[MAX_MSGSIZE]; int msgs_match = 1; int i, fd, j = NUM_READ_RETRY; /* Open extra fd, which we try to read after reading NUM_READ_MSGS. * If this read fails with EPIPE, first message was overwritten and * we should retry the whole test. If it still fails after * NUM_READ_RETRY attempts, report TWARN */ tst_res(TINFO, "TEST: mult. readers will get same first message"); while (j) { fd = SAFE_OPEN("/dev/kmsg", O_RDONLY | O_NONBLOCK); for (i = 0; i < NUM_READ_MSGS; i++) { if (find_msg(-1, "", msg, sizeof(msg), 1) != 0) tst_res(TFAIL, "failed to find any message"); if (get_msg_fields(msg, NULL, &seqno[i]) != 0) tst_res(TFAIL, "failed to parse seqid: %s", msg); } TEST(read(fd, msg, sizeof(msg))); SAFE_CLOSE(fd); if (TEST_RETURN != -1) break; if (TEST_ERRNO == EPIPE) tst_res(TINFO, "msg overwritten, retrying"); else tst_res(TFAIL|TTERRNO, "read failed"); /* give a moment to whoever overwrote first message to finish */ usleep(100000); j--; } if (!j) { tst_res(TWARN, "exceeded: %d attempts", NUM_READ_RETRY); return; } for (i = 0; i < NUM_READ_MSGS - 1; i++) if (seqno[i] != seqno[i + 1]) msgs_match = 0; if (msgs_match) { tst_res(TPASS, "all readers got same message on first read"); } else { tst_res(TFAIL, "readers got different messages"); for (i = 0; i < NUM_READ_MSGS; i++) tst_res(TINFO, "msg%d: %lu\n", i, seqno[i]); } } static void test_messages_overwritten(void) { int i, fd; char msg[MAX_MSGSIZE]; unsigned long first_seqno, seqno; char filler_str[] = "<7>"MSG_PREFIX"FILLER MESSAGE TO OVERWRITE OTHERS\n"; /* Keep injecting messages until we overwrite first one. * We know first message is overwritten when its seqno changes */ tst_res(TINFO, "TEST: read returns EPIPE when messages get " "overwritten"); fd = SAFE_OPEN("/dev/kmsg", O_RDONLY | O_NONBLOCK); if (find_msg(-1, "", msg, sizeof(msg), 1) == 0 && get_msg_fields(msg, NULL, &first_seqno) == 0) { tst_res(TINFO, "first seqno: %lu", first_seqno); } else { tst_brk(TBROK, "failed to get first seq. number"); } while (1) { if (find_msg(-1, "", msg, sizeof(msg), 1) != 0 || get_msg_fields(msg, NULL, &seqno) != 0) { tst_res(TFAIL, "failed to get first seq. number"); break; } if (first_seqno != seqno) { /* first message was overwritten */ tst_res(TINFO, "first seqno now: %lu", seqno); break; } for (i = 0; i < NUM_OVERWRITE_MSGS; i++) { if (inject_msg(filler_str) == -1) tst_brk(TBROK|TERRNO, "err write to /dev/kmsg"); } } /* first message is overwritten, so this next read should fail */ TEST(read(fd, msg, sizeof(msg))); if (TEST_RETURN == -1 && TEST_ERRNO == EPIPE) tst_res(TPASS, "read failed with EPIPE as expected"); else tst_res(TFAIL|TTERRNO, "read returned: %ld", TEST_RETURN); /* seek position is updated to the next available record */ tst_res(TINFO, "TEST: Subsequent reads() will return available " "records again"); if (find_msg(fd, "", msg, sizeof(msg), 1) != 0) tst_res(TFAIL|TTERRNO, "read returned: %ld", TEST_RETURN); else tst_res(TPASS, "after EPIPE read returned next record"); SAFE_CLOSE(fd); } static int read_msg_seqno(int fd, unsigned long *seqno) { char msg[MAX_MSGSIZE]; TEST(read(fd, msg, sizeof(msg))); if (TEST_RETURN == -1 && TEST_ERRNO != EPIPE) tst_brk(TBROK|TTERRNO, "failed to read /dev/kmsg"); if (TEST_ERRNO == EPIPE) return -1; if (get_msg_fields(msg, NULL, seqno) != 0) { tst_res(TFAIL, "failed to parse seqid: %s", msg); return -1; } return 0; } static void test_seek(void) { int j, fd, fd2; char msg[MAX_MSGSIZE]; unsigned long seqno[2], tmp; int ret = 0; /* 1. read() after SEEK_SET 0 returns same (first) message */ tst_res(TINFO, "TEST: seek SEEK_SET 0"); for (j = 0; j < NUM_READ_RETRY && !ret; j++) { /* * j > 0 means we are trying again, because we most likely * failed on read returning EPIPE - first message in buffer * has been overwrittern. Give a moment to whoever overwrote * first message to finish. */ if (j) usleep(100000); /* * Open 2 fds. Use fd1 to read seqno1, then seek to * begininng and read seqno2. Use fd2 to check if * first entry in buffer got overwritten. If so, * we'll have to repeat the test. */ fd = SAFE_OPEN("/dev/kmsg", O_RDONLY | O_NONBLOCK); fd2 = SAFE_OPEN("/dev/kmsg", O_RDONLY | O_NONBLOCK); if (read_msg_seqno(fd, &seqno[0])) goto close_fds; if (lseek(fd, 0, SEEK_SET) == -1) { tst_res(TFAIL|TERRNO, "SEEK_SET 0 failed"); ret = -1; goto close_fds; } if (read_msg_seqno(fd, &seqno[1])) goto close_fds; if (read_msg_seqno(fd2, &tmp)) goto close_fds; ret = 1; close_fds: SAFE_CLOSE(fd); SAFE_CLOSE(fd2); } if (j == NUM_READ_RETRY) { tst_res(TWARN, "exceeded: %d attempts", NUM_READ_RETRY); } else if (ret > 0) { if (seqno[0] != seqno[1]) { tst_res(TFAIL, "SEEK_SET 0, %lu != %lu", seqno[0], seqno[1]); } else { tst_res(TPASS, "SEEK_SET 0"); } } /* 2. messages after SEEK_END 0 shouldn't contain MSG_PREFIX */ fd = SAFE_OPEN("/dev/kmsg", O_RDONLY | O_NONBLOCK); tst_res(TINFO, "TEST: seek SEEK_END 0"); if (lseek(fd, 0, SEEK_END) == -1) tst_res(TFAIL|TERRNO, "lseek SEEK_END 0 failed"); if (find_msg(fd, MSG_PREFIX, msg, sizeof(msg), 0) != 0) tst_res(TPASS, "SEEK_END 0"); else tst_res(TFAIL, "SEEK_END 0 found: %s", msg); #ifdef SEEK_DATA /* 3. messages after SEEK_DATA 0 shouldn't contain MSG_PREFIX */ tst_res(TINFO, "TEST: seek SEEK_DATA 0"); /* clear ring buffer */ if (tst_syscall(__NR_syslog, 5, NULL, 0) == -1) tst_brk(TBROK|TERRNO, "syslog clear failed"); if (lseek(fd, 0, SEEK_DATA) == -1) tst_res(TFAIL|TERRNO, "lseek SEEK_DATA 0 failed"); if (find_msg(fd, MSG_PREFIX, msg, sizeof(msg), 0) != 0) tst_res(TPASS, "SEEK_DATA 0"); else tst_res(TFAIL, "SEEK_DATA 0 found: %s", msg); #endif SAFE_CLOSE(fd); } static void test_kmsg(void) { /* run test_inject first so log isn't empty for other tests */ test_inject(); test_read_nonblock(); test_read_block(); test_partial_read(); test_read_returns_first_message(); test_messages_overwritten(); test_seek(); } static void setup(void) { if (access(PRINTK, F_OK) == 0) { SAFE_FILE_SCANF(PRINTK, "%d", &console_loglevel); SAFE_FILE_PRINTF(PRINTK, "%d", CONSOLE_LOGLEVEL_QUIET); } } static void cleanup(void) { if (console_loglevel != -1) SAFE_FILE_PRINTF(PRINTK, "%d", console_loglevel); } static struct tst_test test = { .setup = setup, .cleanup = cleanup, .needs_root = 1, .test_all = test_kmsg, .min_kver = "3.5.0" };