/* SAMHAIN file system integrity testing */ /* Copyright (C) 2009 Rainer Wichmann */ /* */ /* This program is free software; you can redistribute it */ /* and/or modify */ /* it under the terms of the GNU General Public License as */ /* published by */ /* the Free Software Foundation; either version 2 of the License, or */ /* (at your option) any later version. */ /* */ /* This program is distributed in the hope that it will be useful, */ /* but WITHOUT ANY WARRANTY; without even the implied warranty of */ /* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the */ /* GNU General Public License for more details. */ /* */ /* You should have received a copy of the GNU General Public License */ /* along with this program; if not, write to the Free Software */ /* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ #include "config_xor.h" #if defined(HAVE_SYS_INOTIFY_H) #undef FIL__ #define FIL__ _("sh_inotify.c") /* printf */ #include #include #include #include #include #include #include #include "samhain.h" #include "sh_pthread.h" #include "sh_calls.h" #include "sh_inotify.h" #include "sh_mem.h" #include "sh_utils.h" #include "slib.h" /************************************************** * * Make the inotify fd thread-specific by * encapsulating it in get/set functions: * sh_get_inotify_fd() / sh_set_inotify_fd() * **************************************************/ #if defined(HAVE_PTHREAD) SH_MUTEX_STATIC(mutex_list_dormant, PTHREAD_MUTEX_INITIALIZER); SH_MUTEX_STATIC(mutex_watches, PTHREAD_MUTEX_INITIALIZER); static pthread_key_t inotify_key; static pthread_once_t inotify_key_once = PTHREAD_ONCE_INIT; static void make_inotify_key() { (void) pthread_key_create(&inotify_key, free); } static int sh_get_inotify_fd() { void * ptr; int * fp; (void) pthread_once(&inotify_key_once, make_inotify_key); if ((ptr = pthread_getspecific(inotify_key)) == NULL) { ptr = malloc(sizeof(int)); if (ptr) { fp = (int*) ptr; *fp = -1; (void) pthread_setspecific(inotify_key, ptr); } else { return -1; } } else { fp = (int*) ptr; } return *fp; } static void sh_set_inotify_fd(int fd) { int * fp; fp = (int*) pthread_getspecific(inotify_key); if (fp) *fp = fd; return; } /* !defined(HAVE_PTHREAD) */ #else static int sh_inotify_fd = -1; static inline int sh_get_inotify_fd() { return sh_inotify_fd; } static inline void sh_set_inotify_fd(int fd) { sh_inotify_fd = fd; } #endif /*--- nothing thread-related below this point --- */ #include "zAVLTree.h" typedef struct { int watch; short flag; short type; int class; int rdepth; unsigned long check_mask; char * file; } sh_watch; /************************************************** * * Get inotify fd, initialize inotify if necessary * **************************************************/ #define SH_INOTIFY_FAILED -2 static int sh_inotify_getfd() { int ifd = sh_get_inotify_fd(); if (ifd >= 0) { return ifd; } else if (ifd == SH_INOTIFY_FAILED) { return -1; } else /* if (ifd == -1) */ { #if defined(HAVE_INOTIFY_INIT1) ifd = inotify_init1(IN_CLOEXEC); #else ifd = inotify_init(); if (ifd >= 0) { long sflags; sflags = retry_fcntl(FIL__, __LINE__, ifd, F_GETFD, 0); retry_fcntl(FIL__, __LINE__, ifd, F_SETFD, sflags|FD_CLOEXEC); } #endif if (ifd < 0) { sh_set_inotify_fd(SH_INOTIFY_FAILED); return -1; } sh_set_inotify_fd(ifd); return ifd; } } /************************************************** * * Public function: * int sh_inotify_wait_for_change(char * filename, * int watch, * int * errnum, * int waitsec); * Returns: watch, if nonnegative * -1 on error or reopen required * (check errnum != 0) * * Caller needs to keep track of watch descriptor * **************************************************/ #define SH_INOTIFY_REOPEN 0 #define SH_INOTIFY_MODIFY 1 void sh_inotify_init(sh_watches * watches) { SH_MUTEX_LOCK_UNSAFE(mutex_watches); watches->list_of_watches = NULL; watches->count = 0; watches->max_count = 0; SH_MUTEX_UNLOCK_UNSAFE(mutex_watches); SH_MUTEX_LOCK_UNSAFE(mutex_list_dormant); watches->dormant_watches = NULL; SH_MUTEX_UNLOCK_UNSAFE(mutex_list_dormant); return; } ssize_t sh_inotify_read(char * buffer, size_t count) { ssize_t len = -1; int ifd = sh_inotify_getfd(); do { len = read (ifd, buffer, count); } while (len < 0 && (errno == EINTR || errno == EAGAIN)); return len; } ssize_t sh_inotify_read_timeout(char * buffer, size_t count, int timeout) { ssize_t len; int ifd = sh_inotify_getfd(); len = sl_read_timeout_fd (ifd, buffer, count, timeout, SL_FALSE); return len; } static void sh_inotify_free_watch(void * item) { sh_watch * this = (sh_watch *) item; if (this->file) SH_FREE(this->file); SH_FREE(this); return; } static sh_watch * sh_inotify_create_watch(const char * file, int nwatch, int flag) { sh_watch * this = SH_ALLOC(sizeof(sh_watch)); this->file = sh_util_strdup_track(file, __FILE__, __LINE__); this->watch = nwatch; this->flag = flag; return this; } /********** List Handling ******************/ struct sh_inotify_litem { sh_watch * watch; struct sh_inotify_litem * next; }; static void sh_inotify_listitem_destroy(struct sh_inotify_litem * this) { if (this) SH_FREE(this); return; } /* No Mutex in the list cursor functions, must be in the caller * function... */ typedef struct { struct sh_inotify_litem *prenode; struct sh_inotify_litem *curnode; } sh_inotify_listCursor; static sh_watch * sh_inotify_list_first(sh_inotify_listCursor * listcursor, sh_watches * watches) { listcursor->prenode = watches->dormant_watches; listcursor->curnode = watches->dormant_watches; if (listcursor->curnode) return listcursor->curnode->watch; return NULL; } static sh_watch * sh_inotify_list_next(sh_inotify_listCursor * listcursor, sh_watches * watches) { (void) watches; listcursor->prenode = listcursor->curnode; if (listcursor->curnode) { listcursor->curnode = listcursor->curnode->next; if (listcursor->curnode) return listcursor->curnode->watch; else return NULL; } return NULL; } static sh_watch * sh_inotify_list_del_cur(sh_inotify_listCursor * listcursor, sh_watches * watches) { sh_watch * ret = NULL; if (listcursor->curnode) { struct sh_inotify_litem * this = listcursor->curnode; if (listcursor->prenode == this) { watches->dormant_watches = this->next; listcursor->prenode = watches->dormant_watches; listcursor->curnode = watches->dormant_watches; } else { listcursor->prenode->next = this->next; listcursor->curnode = this->next; } if (listcursor->curnode) ret = listcursor->curnode->watch; else ret = NULL; sh_inotify_listitem_destroy(this); } return ret; } static int sh_inotify_add_dormant(sh_watches * watches, sh_watch * item) { struct sh_inotify_litem * this; SH_MUTEX_LOCK(mutex_list_dormant); this = SH_ALLOC(sizeof(struct sh_inotify_litem)); this->watch = item; this->next = (struct sh_inotify_litem *) watches->dormant_watches; watches->dormant_watches = this; SH_MUTEX_UNLOCK(mutex_list_dormant); return 0; } static void * sh_dummy_popret = NULL; char * sh_inotify_pop_dormant(sh_watches * watches, int * class, unsigned long * check_mask, int * type, int * rdepth) { char * popret = NULL; struct sh_inotify_litem * this; /* Take the address to keep gcc from putting it into a register. * Avoids the 'clobbered by longjmp' warning. */ sh_dummy_popret = (void *) &popret; SH_MUTEX_LOCK(mutex_list_dormant); this = (struct sh_inotify_litem *) watches->dormant_watches; if (this) { *class = this->watch->class; *type = this->watch->type; *rdepth = this->watch->rdepth; *check_mask = this->watch->check_mask; popret = sh_util_strdup_track(this->watch->file, __FILE__, __LINE__); watches->dormant_watches = this->next; sh_inotify_free_watch(this->watch); SH_FREE(this); } SH_MUTEX_UNLOCK(mutex_list_dormant); sh_dummy_popret = NULL; return popret; } void sh_inotify_purge_dormant(sh_watches * watches) { struct sh_inotify_litem * this; SH_MUTEX_LOCK(mutex_list_dormant); this = (struct sh_inotify_litem *) watches->dormant_watches; watches->dormant_watches = NULL; while (this) { struct sh_inotify_litem * cur = this; this = this->next; sh_inotify_free_watch(cur->watch); SH_FREE(cur); } SH_MUTEX_UNLOCK(mutex_list_dormant); return; } /********** End List Handling **************/ static zAVLKey sh_inotify_getkey(void const *item) { return (&((sh_watch *)item)->watch); } /* This function removes all watches from the list, * and closes the inode file descriptor in this thread. */ void sh_inotify_remove(sh_watches * watches) { int ifd = sh_inotify_getfd(); zAVLTree * all_watches; SH_MUTEX_LOCK(mutex_watches); all_watches = (zAVLTree *)(watches->list_of_watches); if (all_watches) zAVLFreeTree(all_watches, sh_inotify_free_watch); watches->list_of_watches = NULL; watches->count = 0; SH_MUTEX_UNLOCK(mutex_watches); if (ifd >= 0) close(ifd); sh_set_inotify_fd(-1); return; } static int index_watched_file(char * filename, sh_watches * watches) { sh_watch * item; zAVLCursor avlcursor; zAVLTree * all_watches = (zAVLTree *)(watches->list_of_watches); if (all_watches) { for (item = (sh_watch *) zAVLFirst(&avlcursor, all_watches); item; item = (sh_watch *) zAVLNext(&avlcursor)) { if (item->file) { if (0 == strcmp(filename, item->file)) return item->watch; } } } return -1; } #define SH_INOTIFY_FILEFLAGS \ (IN_ATTRIB|IN_MODIFY|IN_DELETE_SELF|IN_MOVE_SELF|IN_UNMOUNT) #define SH_INOTIFY_DIRFLAGS \ (SH_INOTIFY_FILEFLAGS|IN_DELETE|IN_CREATE|IN_MOVED_FROM|IN_MOVED_TO) #define SH_INOTIFY_FLAGS (SH_INOTIFY_FILEFLAGS|SH_INOTIFY_DIRFLAGS) /* Create an item and put it on the 'dormant' list for later watch creation */ int sh_inotify_add_watch_later(const char * filename, sh_watches * watches, int * errnum, int class, unsigned long check_mask, int type, int rdepth) { sh_watch * item; item = sh_inotify_create_watch(filename, -1, /* flag */ 0); item->class = class; item->type = (short) type; item->rdepth = (short) rdepth; item->check_mask = check_mask; sh_inotify_add_dormant(watches, item); if (errnum) *errnum = 0; return 0; } int sh_inotify_rm_watch (sh_watches * watches, sh_watches * save, int wd) { int ifd = sh_get_inotify_fd(); if (watches) { sh_watch * item; SH_MUTEX_LOCK(mutex_watches); item = zAVLSearch(watches->list_of_watches, &wd); if (item) { zAVLDelete(watches->list_of_watches, &wd); if (save) /* optionally save the item */ { item->watch = -1; sh_inotify_add_dormant(save, item); } else { sh_inotify_free_watch(item); } } SH_MUTEX_UNLOCK(mutex_watches); } return inotify_rm_watch(ifd, wd); } #if (defined(SH_WITH_CLIENT) || defined(SH_STANDALONE)) static void * sh_dummy_litem; int sh_inotify_recheck_watches (sh_watches * watches, sh_watches * save) { sh_watch * litem; sh_inotify_listCursor listcursor; int ifd = sh_get_inotify_fd(); extern void sh_fInotify_report_add(char * path, int class, unsigned long check_mask); sh_dummy_litem = (void*) &litem; /* -- Check dormant watches for reopening. */ SH_MUTEX_LOCK(mutex_list_dormant); litem = sh_inotify_list_first(&listcursor, save); while (litem) { have_next: /* sh_inotify_list_del_cur may return NULL */ if (litem && litem->file && litem->watch == -1) { litem->watch = inotify_add_watch (ifd, litem->file, SH_INOTIFY_FLAGS); if (litem->watch >= 0) { SH_MUTEX_LOCK(mutex_watches); if (watches->list_of_watches) zAVLInsert(watches->list_of_watches, litem); SH_MUTEX_UNLOCK(mutex_watches); sh_fInotify_report_add(litem->file, litem->class, litem->check_mask); litem = sh_inotify_list_del_cur(&listcursor, save); goto have_next; } } litem = sh_inotify_list_next(&listcursor, save); } SH_MUTEX_UNLOCK(mutex_list_dormant); return 0; } #endif /* This function is idempotent; it will add the watch only once */ int sh_inotify_add_watch(char * filename, sh_watches * watches, int * errnum, int class, unsigned long check_mask, int type, int rdepth) { volatile int retval = 0; SH_MUTEX_LOCK(mutex_watches); *errnum = 0; if (filename) { int nwatch; sh_watch * item; int index = index_watched_file(filename, watches); if (index < 0) { int ifd = sh_inotify_getfd(); /************************************* if (watches->count == SH_INOTIFY_MAX) { #ifdef EMFILE *errnum = EMFILE; #else *errnum = 24; #endif return -1; } **************************************/ nwatch = inotify_add_watch (ifd, filename, SH_INOTIFY_FLAGS); if (nwatch < 0) { *errnum = errno; retval = -1; goto retpoint; } item = sh_inotify_create_watch(filename, nwatch, /* flag */ 0); item->class = class; item->type = type; item->rdepth = rdepth; item->check_mask = check_mask; if (NULL == watches->list_of_watches) watches->list_of_watches = zAVLAllocTree (sh_inotify_getkey, zAVL_KEY_INT); if (watches->list_of_watches) { *errnum = zAVLInsert((zAVLTree *)(watches->list_of_watches), item); if (*errnum != 0) { (*errnum == -1) ? *errnum = ENOMEM : EEXIST; sh_inotify_free_watch(item); retval = -1; goto retpoint; } } else { *errnum = ENOMEM; sh_inotify_free_watch(item); retval = -1; goto retpoint; } ++(watches->count); } else if (type == SH_INOTIFY_DIR) /* watch exists */ { /* This covers the case that a directory has been added, * but is watched as file at first because it is also * specified as file in the config. */ item = zAVLSearch(watches->list_of_watches, &index); if (item && item->type == SH_INOTIFY_FILE) { item->type = SH_INOTIFY_DIR; } } } retpoint: ; /* 'label at end of compound statement' */ SH_MUTEX_UNLOCK(mutex_watches); return retval; } static void * sh_dummy_sret = NULL; char * sh_inotify_search_item(sh_watches * watches, int watch, int * class, unsigned long * check_mask, int * type, int * rdepth) { sh_watch * item; char * sret = NULL; /* Take the address to keep gcc from putting it into a register. * Avoids the 'clobbered by longjmp' warning. */ sh_dummy_sret = (void *) &sret; SH_MUTEX_LOCK(mutex_watches); item = zAVLSearch(watches->list_of_watches, &watch); if (item) { *class = item->class; *check_mask = item->check_mask; *type = item->type; *rdepth = item->rdepth; sret = sh_util_strdup_track(item->file, __FILE__, __LINE__); } SH_MUTEX_UNLOCK(mutex_watches); return sret; } static void * sh_dummy_litem = NULL; int sh_inotify_wait_for_change(char * filename, sh_watches * watches, int * errnum, int waitsec) { sh_watch * litem; sh_watch * zitem; int ifd = sh_inotify_getfd(); /* Take the address to keep gcc from putting it into a register. * Avoids the 'clobbered by longjmp' warning. */ sh_dummy_litem = (void*) &litem; *errnum = 0; start_it: if (ifd >= 0) { volatile ssize_t i = 0; ssize_t len = -1; int flag = 0; char buffer[1024]; sh_inotify_listCursor listcursor; /* -- Add watch if required */ if (filename) { if (sh_inotify_add_watch(filename, watches, errnum, 0, 0, SH_INOTIFY_FILE, 0) < 0) { retry_msleep(waitsec, 0); return -1; } } /* -- Check dormant watches for reopening. */ SH_MUTEX_LOCK(mutex_list_dormant); for (litem = sh_inotify_list_first(&listcursor, watches); litem; litem = sh_inotify_list_next(&listcursor, watches)) { have_next: /* sh_inotify_list_del_cur may return NULL */ if (litem && litem->file && litem->watch == -1) { litem->watch = inotify_add_watch (ifd, litem->file, SH_INOTIFY_FLAGS); if (litem->watch >= 0) { SH_MUTEX_LOCK(mutex_watches); if (watches->list_of_watches) zAVLInsert(watches->list_of_watches, litem); SH_MUTEX_UNLOCK(mutex_watches); litem = sh_inotify_list_del_cur(&listcursor, watches); goto have_next; } } } SH_MUTEX_UNLOCK(mutex_list_dormant); /* -- Blocking read on inotify file descriptor */ len = sh_inotify_read(buffer, sizeof(buffer)); if (len > 0) { struct inotify_event *event; i = 0; while (i < len) { event = (struct inotify_event *) &buffer[i]; SH_MUTEX_LOCK(mutex_watches); zitem = zAVLSearch(watches->list_of_watches, &(event->wd)); if (zitem) { if (event->mask & IN_MODIFY) { zitem->flag |= SH_INOTIFY_MODIFY; flag |= SH_INOTIFY_MODIFY; } else if (event->mask & IN_DELETE_SELF || event->mask & IN_UNMOUNT || event->mask & IN_MOVE_SELF ) { zitem->flag |= SH_INOTIFY_REOPEN; (void) inotify_rm_watch(ifd, zitem->watch); zAVLDelete(watches->list_of_watches, zitem); sh_inotify_add_dormant(watches, zitem); zitem->watch = -1; flag |= SH_INOTIFY_REOPEN; } } SH_MUTEX_UNLOCK(mutex_watches); i += sizeof (struct inotify_event) + event->len; } } else if (len == -1) { *errnum = errno; retry_msleep(waitsec, 0); return -1; } if (flag & SH_INOTIFY_REOPEN) { if (flag & SH_INOTIFY_MODIFY) return 0; else goto start_it; } return 0; } /* Inotify not working, sleep */ retry_msleep(waitsec, 0); *errnum = 0; return -1; } /* !defined(HAVE_SYS_INOTIFY_H) */ #else #include "sh_calls.h" #include "sh_inotify.h" void sh_inotify_remove(sh_watches * watches) { (void) watches; return; } int sh_inotify_wait_for_change(char * filename, sh_watches * watches, int * errnum, int waitsec) { (void) filename; (void) watches; /* Inotify not working, sleep for waitsec seconds */ retry_msleep(waitsec, 0); *errnum = 0; return -1; } int sh_inotify_add_watch(char * filename, sh_watches * watches, int * errnum, int class, unsigned long check_mask, int type, int rdepth) { (void) filename; (void) watches; (void) class; (void) check_mask; (void) type; (void) rdepth; *errnum = 0; return 0; } int sh_inotify_add_watch_later(const char * filename, sh_watches * watches, int * errnum, int class, unsigned long check_mask, int type, int rdepth) { (void) filename; (void) watches; (void) class; (void) check_mask; (void) type; (void) rdepth; *errnum = 0; return 0; } #endif #ifdef SH_CUTEST #include "CuTest.h" void Test_inotify(CuTest *tc) { #if defined(HAVE_SYS_INOTIFY_H) && (defined(SH_WITH_CLIENT) || defined(SH_STANDALONE)) int ret; sh_watches twatch = SH_INOTIFY_INITIALIZER; sh_watch * litem; sh_inotify_listCursor listcursor; char * p; int class; int type; int rdepth; unsigned long check_mask; int nrun = 0; sh_watch aw1 = { -1, 0, 0, 1, 99, 1, "a1" }; sh_watch aw2 = { -1, 0, 0, 2, 99, 1, "a2" }; sh_watch aw3 = { 2, 0, 0, 3, 99, 1, "a3" }; sh_watch aw4 = { -1, 0, 0, 4, 99, 1, "a4" }; sh_watch aw5 = { 5, 0, 0, 5, 99, 1, "a5" }; do { int count = 0; sh_watch * w1 = SH_ALLOC(sizeof(sh_watch)); sh_watch * w2 = SH_ALLOC(sizeof(sh_watch)); sh_watch * w3 = SH_ALLOC(sizeof(sh_watch)); sh_watch * w4 = SH_ALLOC(sizeof(sh_watch)); sh_watch * w5 = SH_ALLOC(sizeof(sh_watch)); memcpy(w1, &aw1, sizeof(sh_watch)); w1->file = sh_util_strdup(aw1.file); memcpy(w2, &aw2, sizeof(sh_watch)); w2->file = sh_util_strdup(aw2.file); memcpy(w3, &aw3, sizeof(sh_watch)); w3->file = sh_util_strdup(aw3.file); memcpy(w4, &aw4, sizeof(sh_watch)); w4->file = sh_util_strdup(aw4.file); memcpy(w5, &aw5, sizeof(sh_watch)); w5->file = sh_util_strdup(aw5.file); ret = sh_inotify_add_dormant(&twatch, w1); CuAssertIntEquals(tc, ret, 0); ret = sh_inotify_add_dormant(&twatch, w2); CuAssertIntEquals(tc, ret, 0); ret = sh_inotify_add_dormant(&twatch, w3); CuAssertIntEquals(tc, ret, 0); ret = sh_inotify_add_dormant(&twatch, w4); CuAssertIntEquals(tc, ret, 0); ret = sh_inotify_add_dormant(&twatch, w5); CuAssertIntEquals(tc, ret, 0); /* -- Check dormant watches for reopening. */ for (litem = sh_inotify_list_first(&listcursor, &twatch); litem; litem = sh_inotify_list_next(&listcursor, &twatch)) { have_next: /* sh_inotify_list_del_cur may return NULL */ if (litem) { ++count; if (litem->file && litem->watch == -1) { switch (litem->class) { case 1: CuAssertStrEquals(tc, litem->file, "a1"); break; case 2: CuAssertStrEquals(tc, litem->file, "a2"); break; case 3: CuAssertStrEquals(tc, litem->file, "deadbeef"); break; case 4: CuAssertStrEquals(tc, litem->file, "a4"); break; case 5: CuAssertStrEquals(tc, litem->file, "deadbeef"); break; default: CuAssertStrEquals(tc, litem->file, "deadbeef"); } litem = sh_inotify_list_del_cur(&listcursor, &twatch); goto have_next; } switch (litem->class) { case 3: CuAssertStrEquals(tc, litem->file, "a3"); break; case 5: CuAssertStrEquals(tc, litem->file, "a5"); break; default: CuAssertStrEquals(tc, litem->file, "foobar"); } } } CuAssertIntEquals(tc, count, 5); p = sh_inotify_pop_dormant(&twatch, &class, &check_mask, &type, &rdepth); CuAssertStrEquals(tc, p, "a5"); p = sh_inotify_pop_dormant(&twatch, &class, &check_mask, &type, &rdepth); CuAssertStrEquals(tc, p, "a3"); CuAssertIntEquals(tc, class, 3); p = sh_inotify_pop_dormant(&twatch, &class, &check_mask, &type, &rdepth); CuAssertTrue(tc, NULL == p); CuAssertTrue(tc, NULL == twatch.dormant_watches); ++nrun; } while (nrun < 100); #else (void) tc; #endif return; } #endif