/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2007 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. * * write binary audit records directly to a file. */ #pragma ident "%Z%%M% %I% %E% SMI" #define DEBUG 0 #if DEBUG #define DPRINT(x) {fprintf x; } #else #define DPRINT(x) #endif /* * auditd_plugin_open(), auditd_plugin() and auditd_plugin_close() * implement a replacable library for use by auditd; they are a * project private interface and may change without notice. * */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define AUDIT_DATE_SZ 14 #define AUDIT_FNAME_SZ 2 * AUDIT_DATE_SZ + 2 + MAXHOSTNAMELEN #define AUDIT_BAK_SZ 50 /* size of name of audit_data back-up file */ /* per-directory status */ #define SOFT_SPACE 0 /* minfree or less space available */ #define PLENTY_SPACE 1 /* more than minfree available */ #define SPACE_FULL 2 /* out of space */ #define AVAIL_MIN 50 /* If there are less that this number */ /* of blocks avail, the filesystem is */ /* presumed full. */ #define ALLHARD_DELAY 20 /* Call audit_warn(allhard) every 20 seconds */ /* * The directory list is a circular linked list. It is pointed into by * activeDir. Each element contains the pointer to the next * element, the directory pathname, a flag for how much space there is * in the directory's filesystem, and a file handle. Since a new * directory list can be created from auditd_plugin_open() while the * current list is in use, activeDir is protected by log_mutex. */ typedef struct dirlist_s dirlist_t; struct dirlist_s { dirlist_t *dl_next; int dl_space; int dl_flags; char *dl_dirname; char *dl_filename; /* file name (not path) if open */ int dl_fd; /* file handle, -1 unless open */ }; /* * Defines for dl_flags */ #define SOFT_WARNED 0x0001 /* already did soft warning for this dir */ #define HARD_WARNED 0x0002 /* already did hard warning for this dir */ #if DEBUG static FILE *dbfp; /* debug file */ #endif static pthread_mutex_t log_mutex; static int binfile_is_open = 0; static int minfree = -1; static int minfreeblocks; /* minfree in blocks */ static dirlist_t *activeDir = NULL; /* current directory */ static dirlist_t *startdir; /* first dir in the ring */ static int activeCount = 0; /* number of dirs in the ring */ static int openNewFile = 0; /* need to open a new file */ static int hung_count = 0; /* count of audit_warn hard */ /* flag from audit_plugin_open to audit_plugin_close */ static int am_open = 0; /* preferred dir state */ static int fullness_state = PLENTY_SPACE; static int open_log(dirlist_t *); static void freedirlist(dirlist_t *head) { dirlist_t *n1, *n2; /* * Free up the old directory list if any */ if (head != NULL) { n1 = head; do { n2 = n1->dl_next; free(n1->dl_dirname); free(n1->dl_filename); free(n1); n1 = n2; } while (n1 != head); } } /* * add to a linked list of directories available for writing * */ static int growauditlist(dirlist_t **listhead, char *dirlist, dirlist_t *endnode, int *count) { dirlist_t *node; char *bs, *be; dirlist_t **node_p; char *dirname; char *remainder; DPRINT((dbfp, "binfile: dirlist=%s\n", dirlist)); if (*listhead == NULL) node_p = listhead; else node_p = &(endnode->dl_next); node = NULL; while ((dirname = strtok_r(dirlist, ",", &remainder)) != NULL) { dirlist = NULL; DPRINT((dbfp, "binfile: p_dir = %s\n", dirname)); (*count)++; node = malloc(sizeof (dirlist_t)); if (node == NULL) return (AUDITD_NO_MEMORY); node->dl_flags = 0; node->dl_filename = NULL; node->dl_fd = -1; node->dl_space = PLENTY_SPACE; node->dl_dirname = malloc((unsigned)strlen(dirname) + 1); if (node->dl_dirname == NULL) return (AUDITD_NO_MEMORY); bs = dirname; while ((*bs == ' ') || (*bs == '\t')) /* trim blanks */ bs++; be = bs + strlen(bs) - 1; while (be > bs) { /* trim trailing blanks */ if ((*bs != ' ') && (*bs != '\t')) break; be--; } *(be + 1) = '\0'; (void) strlcpy(node->dl_dirname, bs, AUDIT_FNAME_SZ); if (*listhead != NULL) node->dl_next = *listhead; else node->dl_next = node; *node_p = node; node_p = &(node->dl_next); } return (0); } /* * create a linked list of directories available for writing * * if a list already exists, the two are compared and the new one is * used only if it is different than the old. * * returns -2 for new or changed list, 0 for unchanged list and -1 for * error. (Positive returns are for AUDITD_ values) * */ static int loadauditlist(char *dirstr, char *minfreestr) { char buf[MAXPATHLEN]; char *bs, *be; dirlist_t *node, *n1, *n2; dirlist_t **node_p; dirlist_t *listhead = NULL; dirlist_t *thisdir; int acresult; int node_count = 0; int rc; int temp_minfree; au_acinfo_t *ach; static dirlist_t *activeList = NULL; /* directory list */ DPRINT((dbfp, "binfile: Loading audit list from auditcontrol\n")); /* * Build new directory list */ /* part 1 -- using pre Sol 10 audit_control directives */ node_p = &listhead; ach = _openac(NULL); if (ach == NULL) return (-1); /* at least one directory is needed */ while ((acresult = _getacdir(ach, buf, sizeof (buf))) == 0 || acresult == 2 || acresult == -3) { /* * loop if the result is 0 (success), 2 (a warning * that the audit_data file has been rewound), * or -3 (a directory entry was found, but it * was badly formatted. */ if (acresult == 0) { /* * A directory entry was found. */ node_count++; node = malloc(sizeof (dirlist_t)); if (node == NULL) return (AUDITD_NO_MEMORY); node->dl_flags = 0; node->dl_fd = -1; node->dl_space = PLENTY_SPACE; node->dl_filename = NULL; node->dl_dirname = malloc((unsigned)strlen(buf) + 1); if (node->dl_dirname == NULL) return (AUDITD_NO_MEMORY); bs = buf; while ((*bs == ' ') || (*bs == '\t')) bs++; be = bs + strlen(bs) - 1; while (be > bs) { /* trim trailing blanks */ if ((*bs != ' ') && (*bs != '\t')) break; be--; } *(be + 1) = '\0'; (void) strlcpy(node->dl_dirname, bs, AUDIT_FNAME_SZ); if (listhead != NULL) node->dl_next = listhead; else node->dl_next = node; *node_p = node; node_p = &(node->dl_next); } } /* end of getacdir while */ /* * part 2 -- use directories and minfree from the (new as of Sol 10) * plugin directive */ if (dirstr != NULL) { if (node_count == 0) { listhead = NULL; node = NULL; } rc = growauditlist(&listhead, dirstr, node, &node_count); if (rc) return (rc); } if (node_count == 0) { /* * there was a problem getting the directory * list or remote host info from the audit_control file * even though auditd thought there was at least 1 good * entry */ DPRINT((dbfp, "binfile: " "problem getting directory / libpath list " "from audit_control.\n")); _endac(ach); return (-1); } #if DEBUG /* print out directory list */ if (listhead != NULL) { fprintf(dbfp, "Directory list:\n\t%s\n", listhead->dl_dirname); thisdir = listhead->dl_next; while (thisdir != listhead) { fprintf(dbfp, "\t%s\n", thisdir->dl_dirname); thisdir = thisdir->dl_next; } } #endif /* DEBUG */ thisdir = listhead; /* * See if the list has changed. * If there was a change rc = 0 if no change, else 1 */ rc = 0; /* no change */ if (node_count == activeCount) { n1 = listhead; n2 = activeList; do { if (strcmp(n1->dl_dirname, n2->dl_dirname) != 0) { DPRINT((dbfp, "binfile: new dirname = %s\n" "binfile: old dirname = %s\n", n1->dl_dirname, n2->dl_dirname)); rc = -2; break; } n1 = n1->dl_next; n2 = n2->dl_next; } while ((n1 != listhead) && (n2 != activeList)); } else { DPRINT((dbfp, "binfile: old dir count = %d\n" "binfile: new dir count = %d\n", activeCount, node_count)); rc = -2; } if (rc == -2) { (void) pthread_mutex_lock(&log_mutex); DPRINT((dbfp, "loadauditlist: close / open log\n")); if (open_log(listhead) == 0) { openNewFile = 1; /* try again later */ } else { openNewFile = 0; } freedirlist(activeList); /* old list */ activeList = listhead; /* new list */ activeDir = startdir = thisdir; activeCount = node_count; (void) pthread_mutex_unlock(&log_mutex); } else freedirlist(listhead); /* * Get the minfree value. If minfree comes in via the attribute * list, ignore the possibility it may also be listed on a separate * audit_control line. */ if (minfreestr != NULL) temp_minfree = atoi(minfreestr); else if (!(_getacmin(ach, &temp_minfree) == 0)) temp_minfree = 0; if ((temp_minfree < 0) || (temp_minfree > 100)) temp_minfree = 0; if (minfree != temp_minfree) { DPRINT((dbfp, "minfree: old = %d, new = %d\n", minfree, temp_minfree)); rc = -2; /* data change */ minfree = temp_minfree; } _endac(ach); return (rc); } /* * getauditdate - get the current time (GMT) and put it in the form * yyyymmddHHMMSS . */ static void getauditdate(char *date) { struct timeval tp; struct timezone tzp; struct tm tm; (void) gettimeofday(&tp, &tzp); tm = *gmtime(&tp.tv_sec); /* * NOTE: if we want to use gmtime, we have to be aware that the * structure only keeps the year as an offset from TM_YEAR_BASE. * I have used TM_YEAR_BASE in this code so that if they change * this base from 1900 to 2000, it will hopefully mean that this * code does not have to change. TM_YEAR_BASE is defined in * tzfile.h . */ (void) sprintf(date, "%.4d%.2d%.2d%.2d%.2d%.2d", tm.tm_year + TM_YEAR_BASE, tm.tm_mon + 1, tm.tm_mday, tm.tm_hour, tm.tm_min, tm.tm_sec); } /* * write_file_token - put the file token into the audit log */ static int write_file_token(int fd, char *name) { adr_t adr; /* xdr ptr */ struct timeval tv; /* time now */ char for_adr[AUDIT_FNAME_SZ + AUDIT_FNAME_SZ]; /* plenty of room */ char token_id; short i; (void) gettimeofday(&tv, (struct timezone *)0); i = strlen(name) + 1; adr_start(&adr, for_adr); #ifdef _LP64 token_id = AUT_OTHER_FILE64; adr_char(&adr, &token_id, 1); adr_int64(&adr, (int64_t *)& tv, 2); #else token_id = AUT_OTHER_FILE32; adr_char(&adr, &token_id, 1); adr_int32(&adr, (int32_t *)& tv, 2); #endif adr_short(&adr, &i, 1); adr_char(&adr, name, i); if (write(fd, for_adr, adr_count(&adr)) < 0) { DPRINT((dbfp, "binfile: Bad write\n")); return (errno); } return (0); } /* * close_log - close the file if open. Also put the name of the * new log file in the trailer, and rename the old file * to oldname. The caller must hold log_mutext while calling * close_log since any change to activeDir is a complete redo * of all it points to. * arguments - * oldname - the new name for the file to be closed * newname - the name of the new log file (for the trailer) */ static void close_log(dirlist_t *currentdir, char *oname, char *newname) { char auditdate[AUDIT_DATE_SZ+1]; char *name; char oldname[AUDIT_FNAME_SZ+1]; if ((currentdir == NULL) || (currentdir->dl_fd == -1)) return; /* * If oldname is blank, we were called by auditd_plugin_close() * instead of by open_log, so we need to update our name. */ (void) strlcpy(oldname, oname, AUDIT_FNAME_SZ); if (strcmp(oldname, "") == 0) { getauditdate(auditdate); assert(currentdir->dl_filename != NULL); (void) strlcpy(oldname, currentdir->dl_filename, AUDIT_FNAME_SZ); name = strrchr(oldname, '/') + 1; (void) memcpy(name + AUDIT_DATE_SZ + 1, auditdate, AUDIT_DATE_SZ); } /* * Write the trailer record and rename and close the file. * If any of the write, rename, or close fail, ignore it * since there is not much else we can do and the next open() * will trigger the necessary full directory logic. * * newname is "" if binfile is being closed down. */ (void) write_file_token(currentdir->dl_fd, newname); if (currentdir->dl_fd >= 0) { (void) fsync(currentdir->dl_fd); (void) close(currentdir->dl_fd); } currentdir->dl_fd = -1; (void) rename(currentdir->dl_filename, oldname); DPRINT((dbfp, "binfile: Log closed %s\n", oldname)); free(currentdir->dl_filename); currentdir->dl_filename = NULL; } /* * open_log - open a new file in the current directory. If a * file is already open, close it. * * return 1 if ok, 0 if all directories are full. * * lastOpenDir - used to get the oldfile name (and change it), * to close the oldfile. * * The caller must hold log_mutex while calling open_log. * */ static int open_log(dirlist_t *current_dir) { char auditdate[AUDIT_DATE_SZ + 1]; char oldname[AUDIT_FNAME_SZ + 1] = ""; char newname[AUDIT_FNAME_SZ + 1]; char *name; /* pointer into oldname */ int opened; int error = 0; int newfd = 0; static char host[MAXHOSTNAMELEN + 1] = ""; /* previous directory with open log file */ static dirlist_t *lastOpenDir = NULL; if (host[0] == '\0') (void) gethostname(host, MAXHOSTNAMELEN); /* Get a filename which does not already exist */ opened = 0; while (!opened) { getauditdate(auditdate); (void) snprintf(newname, AUDIT_FNAME_SZ, "%s/%s.not_terminated.%s", current_dir->dl_dirname, auditdate, host); newfd = open(newname, O_RDWR | O_APPEND | O_CREAT | O_EXCL, 0640); if (newfd < 0) { switch (errno) { case EEXIST: DPRINT((dbfp, "open_log says duplicate for %s " "(will try another)\n", newname)); (void) sleep(1); break; default: /* open failed */ DPRINT((dbfp, "open_log says full for %s: %s\n", newname, strerror(errno))); current_dir->dl_space = SPACE_FULL; current_dir = current_dir->dl_next; return (0); } /* switch */ } else opened = 1; } /* while */ /* * When we get here, we have opened our new log file. * Now we need to update the name of the old file to * store in this file's header. lastOpenDir may point * to current_dir if the list is only one entry long and * there is only one list. */ if ((lastOpenDir != NULL) && (lastOpenDir->dl_filename != NULL)) { (void) strlcpy(oldname, lastOpenDir->dl_filename, AUDIT_FNAME_SZ); name = (char *)strrchr(oldname, '/') + 1; (void) memcpy(name + AUDIT_DATE_SZ + 1, auditdate, AUDIT_DATE_SZ); close_log(lastOpenDir, oldname, newname); } error = write_file_token(newfd, oldname); if (error) { /* write token failed */ (void) close(newfd); current_dir->dl_space = SPACE_FULL; current_dir->dl_fd = -1; free(current_dir->dl_filename); current_dir->dl_filename = NULL; current_dir = current_dir->dl_next; return (0); } else { lastOpenDir = current_dir; current_dir->dl_fd = newfd; current_dir->dl_filename = strdup(newname); __logpost(newname); DPRINT((dbfp, "binfile: Log opened: %s\n", newname)); return (1); } } #define IGNORE_SIZE 8192 /* * spacecheck - determine whether the given directory's filesystem * has the at least the space requested. Also set the space * value in the directory list structure. If the caller * passes other than PLENTY_SPACE or SOFT_SPACE, the caller should * ignore the return value. Otherwise, 0 = less than the * requested space is available, 1 = at least the requested space * is available. * * log_mutex must be held by the caller * * -1 is returned if stat fails * * IGNORE_SIZE is one page (Sol 9 / 10 timeframe) and is the default * buffer size written for Sol 9 and earlier. To keep the same accuracy * for the soft limit check as before, spacecheck checks for space * remaining IGNORE_SIZE bytes. This reduces the number of statvfs() * calls and related math. * * globals - * minfree - the soft limit, i.e., the % of filesystem to reserve */ static int spacecheck(dirlist_t *thisdir, int test_limit, size_t next_buf_size) { struct statvfs sb; static int ignore_size = 0; ignore_size += next_buf_size; if ((test_limit == PLENTY_SPACE) && (ignore_size < IGNORE_SIZE)) return (1); assert(thisdir != NULL); if (statvfs(thisdir->dl_dirname, &sb) < 0) { thisdir->dl_space = SPACE_FULL; minfreeblocks = AVAIL_MIN; return (-1); } else { minfreeblocks = ((minfree * sb.f_blocks) / 100) + AVAIL_MIN; if (sb.f_bavail < AVAIL_MIN) thisdir->dl_space = SPACE_FULL; else if (sb.f_bavail > minfreeblocks) { thisdir->dl_space = fullness_state = PLENTY_SPACE; ignore_size = 0; } else thisdir->dl_space = SOFT_SPACE; } if (thisdir->dl_space == PLENTY_SPACE) return (1); return (thisdir->dl_space == test_limit); } /* * auditd_plugin() writes a buffer to the currently open file. The * global "openNewFile" is used to force a new log file for cases * such as the initial open, when minfree is reached or the current * file system fills up, and "audit -s" with changed audit_control * data. For "audit -n" a new log file is opened immediately in * auditd_plugin_open(). * * This function manages one or more audit directories as follows: * * If the current open file is in a directory that has not * reached the soft limit, write the input data and return. * * Scan the list of directories for one which has not reached * the soft limit; if one is found, write and return. Such * a writable directory is in "PLENTY_SPACE" state. * * Scan the list of directories for one which has not reached * the hard limit; if one is found, write and return. This * directory in in "SOFT_SPACE" state. * * Oh, and if a write fails, handle it like a hard space limit. * * audit_warn (via __audit_dowarn()) is used to alert an operator * at various levels of fullness. */ /* ARGSUSED */ auditd_rc_t auditd_plugin(const char *input, size_t in_len, uint32_t sequence, char **error) { auditd_rc_t rc = AUDITD_FAIL; int open_status; size_t out_len; /* LINTED */ int statrc; /* avoid excess audit_warnage */ static int allsoftfull_warning = 0; static int allhard_pause = 0; static struct timeval next_allhard; struct timeval now; #if DEBUG static char *last_file_written_to = NULL; static uint32_t last_sequence = 0; static uint32_t write_count = 0; if ((last_sequence > 0) && (sequence != last_sequence + 1)) fprintf(dbfp, "binfile: buffer sequence=%d but prev=%d=n", sequence, last_sequence); last_sequence = sequence; fprintf(dbfp, "binfile: input seq=%d, len=%d\n", sequence, in_len); #endif *error = NULL; /* * lock is for activeDir, referenced by open_log() and close_log() */ (void) pthread_mutex_lock(&log_mutex); while (rc == AUDITD_FAIL) { open_status = 1; if (openNewFile) { open_status = open_log(activeDir); if (open_status == 1) /* ok */ openNewFile = 0; } /* * consider "space ok" return and error return the same; * a -1 means spacecheck couldn't check for space. */ if ((open_status == 1) && (statrc = spacecheck(activeDir, fullness_state, in_len)) != 0) { #if DEBUG DPRINT((dbfp, "binfile: returned from spacecheck\n")); /* * The last copy of last_file_written_to is * never free'd, so there will be one open * memory reference on exit. It's debug only. */ if ((last_file_written_to != NULL) && (strcmp(last_file_written_to, activeDir->dl_filename) != 0)) { DPRINT((dbfp, "binfile: now writing to %s\n", activeDir->dl_filename)); free(last_file_written_to); } DPRINT((dbfp, "binfile: finished some debug stuff\n")); last_file_written_to = strdup(activeDir->dl_filename); #endif out_len = write(activeDir->dl_fd, input, in_len); DPRINT((dbfp, "binfile: finished the write\n")); if (out_len == in_len) { DPRINT((dbfp, "binfile: write_count=%u, sequence=%u," " l=%u\n", ++write_count, sequence, out_len)); allsoftfull_warning = 0; activeDir->dl_flags = 0; rc = AUDITD_SUCCESS; break; } else if (!(activeDir->dl_flags & HARD_WARNED)) { DPRINT((dbfp, "binfile: write failed, sequence=%u, " "l=%u\n", sequence, out_len)); DPRINT((dbfp, "hard warning sent.\n")); __audit_dowarn("hard", activeDir->dl_dirname, 0); activeDir->dl_flags |= HARD_WARNED; } } else { DPRINT((dbfp, "binfile: statrc=%d, fullness_state=%d\n", statrc, fullness_state)); if (!(activeDir->dl_flags & SOFT_WARNED) && (activeDir->dl_space == SOFT_SPACE)) { DPRINT((dbfp, "soft warning sent\n")); __audit_dowarn("soft", activeDir->dl_dirname, 0); activeDir->dl_flags |= SOFT_WARNED; } if (!(activeDir->dl_flags & HARD_WARNED) && (activeDir->dl_space == SPACE_FULL)) { DPRINT((dbfp, "hard warning sent.\n")); __audit_dowarn("hard", activeDir->dl_dirname, 0); activeDir->dl_flags |= HARD_WARNED; } } DPRINT((dbfp, "binfile: activeDir=%s, next=%s\n", activeDir->dl_dirname, activeDir->dl_next->dl_dirname)); activeDir = activeDir->dl_next; openNewFile = 1; if (activeDir == startdir) { /* full circle */ if (fullness_state == PLENTY_SPACE) { /* once */ fullness_state = SOFT_SPACE; if (allsoftfull_warning == 0) { allsoftfull_warning++; __audit_dowarn("allsoft", "", 0); } } else { /* full circle twice */ if ((hung_count > 0) && !allhard_pause) { allhard_pause = 1; (void) gettimeofday(&next_allhard, NULL); next_allhard.tv_sec += ALLHARD_DELAY; } if (allhard_pause) { (void) gettimeofday(&now, NULL); if (now.tv_sec >= next_allhard.tv_sec) { allhard_pause = 0; __audit_dowarn("allhard", "", ++hung_count); } } else { __audit_dowarn("allhard", "", ++hung_count); } minfreeblocks = AVAIL_MIN; rc = AUDITD_RETRY; *error = strdup(gettext( "all partitions full\n")); __logpost(""); } } } (void) pthread_mutex_unlock(&log_mutex); return (rc); } /* * the open function uses getacdir() and getacmin to determine which * directories to use and when to switch. It takes no inputs. * * It may be called multiple times as auditd handles SIGHUP and SIGUSR1 * corresponding to the audit(1M) flags -s and -n * * kvlist is NULL only if auditd caught a SIGUSR1, so after the first * time open is called, the reason is -s if kvlist != NULL and -n * otherwise. * */ auditd_rc_t auditd_plugin_open(const kva_t *kvlist, char **ret_list, char **error) { int rc = 0; int status; int reason; char *dirlist; char *minfree; kva_t *kv; *error = NULL; *ret_list = NULL; kv = (kva_t *)kvlist; if (am_open) { if (kvlist == NULL) reason = 1; /* audit -n */ else reason = 2; /* audit -s */ } else { reason = 0; /* initial open */ #if DEBUG dbfp = __auditd_debug_file_open(); #endif } DPRINT((dbfp, "binfile: am_open=%d, reason=%d\n", am_open, reason)); am_open = 1; if (kvlist == NULL) { dirlist = NULL; minfree = NULL; } else { dirlist = kva_match(kv, "p_dir"); minfree = kva_match(kv, "p_minfree"); } switch (reason) { case 0: /* initial open */ if (!binfile_is_open) (void) pthread_mutex_init(&log_mutex, NULL); binfile_is_open = 1; openNewFile = 1; /* FALLTHRU */ case 2: /* audit -s */ fullness_state = PLENTY_SPACE; status = loadauditlist(dirlist, minfree); if (status == -1) { __logpost(""); *error = strdup(gettext("no directories configured")); return (AUDITD_RETRY); } else if (status == AUDITD_NO_MEMORY) { __logpost(""); *error = strdup(gettext("no memory")); return (status); } else { /* status is 0 or -2 (no change or changed) */ hung_count = 0; DPRINT((dbfp, "binfile: loadauditlist returned %d\n", status)); } break; case 1: /* audit -n */ (void) pthread_mutex_lock(&log_mutex); if (open_log(activeDir) == 1) /* ok */ openNewFile = 0; (void) pthread_mutex_unlock(&log_mutex); break; } rc = AUDITD_SUCCESS; *ret_list = NULL; return (rc); } auditd_rc_t auditd_plugin_close(char **error) { *error = NULL; (void) pthread_mutex_lock(&log_mutex); close_log(activeDir, "", ""); freedirlist(activeDir); activeDir = NULL; (void) pthread_mutex_unlock(&log_mutex); DPRINT((dbfp, "binfile: closed\n")); if (binfile_is_open) { (void) pthread_mutex_destroy(&log_mutex); binfile_is_open = 0; /* LINTED */ } else { DPRINT((dbfp, "auditd_plugin_close() called when already closed.")); } am_open = 0; return (AUDITD_SUCCESS); }