/* SAMHAIN file system integrity testing */ /* Copyright (C) 2008 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_PTHREAD_MUTEX_RECURSIVE) #define _XOPEN_SOURCE 500 #endif #if defined(GCC_VERSION_MAJOR) #if (GCC_VERSION_MAJOR > 4) || ((GCC_VERSION_MAJOR == 4) && (GCC_VERSION_MINOR > 8)) #pragma GCC diagnostic ignored "-Wclobbered" #endif #endif #include #include #if defined(SH_WITH_MAIL) #undef FIL__ #define FIL__ _("sh_nmail.c") #include "samhain.h" #include "sh_pthread.h" #include "sh_mem.h" #include "sh_mail.h" #include "sh_tiger.h" #include "sh_string.h" #include "sh_utils.h" #include "sh_fifo.h" #include "sh_filter.h" #include "sh_mail_int.h" SH_MUTEX_INIT(mutex_listall, PTHREAD_MUTEX_INITIALIZER); SH_MUTEX_INIT(mutex_flush_l, PTHREAD_MUTEX_INITIALIZER); /* Pointer to last address */ static struct alias * last = NULL; /* List of mail recipients */ static struct alias * recipient_list = NULL; static struct alias * compiled_recipient_list = NULL; static sh_filter_type compiled_mail_filter = SH_FILT_INIT; /* List of mail aliases */ static struct alias * alias_list = NULL; /* List of all recipients */ struct alias * all_recipients = NULL; /* Check if addr is in list. If list is all_recipients, * must iterate over ->all_next instead of ->next */ static int check_double (const char * str, struct alias * list, int isAll) { if (str && list) { struct alias * item = list; while (item) { if (0 == strcmp(sh_string_str(item->recipient), str)) return -1; if (isAll) item = item->all_next; else item = item->next; } } return 0; } /* Add recipient to 'list' AND to all_recipients. If * it already is in all_recipients, mark it as an alias * (isAlias = 1). */ struct alias * add_recipient_intern(const char * str, struct alias * list) { if (str) { struct alias * new = SH_ALLOC(sizeof(struct alias)); new->next = list; new->mx_list = NULL; new->mail_filter = NULL; new->recipient_list = NULL; new->severity = (-1); new->send_mail = 0; new->isAlias = 0; new->recipient = sh_string_new_from_lchar(str, strlen(str)); list = new; SH_MUTEX_LOCK_UNSAFE(mutex_listall); if (0 != check_double(str, all_recipients, S_TRUE)) { new->isAlias = 1; } new->all_next = all_recipients; all_recipients = new; SH_MUTEX_UNLOCK_UNSAFE(mutex_listall); } return list; } int sh_nmail_close_recipient(const char * str) { (void) str; if (last) { last = NULL; return 0; } return -1; } /* Add a single recipient. Must not be in in * recipient_list already, and not in all_recipients. */ int sh_nmail_add_recipient(const char * str) { /* return error if duplicate, or * already defined within an alias list. */ if (0 == check_double(str, recipient_list, S_FALSE) && 0 == check_double(str, all_recipients, S_TRUE)) { recipient_list = add_recipient_intern(str, recipient_list); last = recipient_list; return 0; } return -1; } /* Add a compiled-in address. These share the compiled_mail_filter */ int sh_nmail_add_compiled_recipient(const char * str) { if (0 == check_double(str, compiled_recipient_list, S_FALSE)) { compiled_recipient_list = add_recipient_intern(str, compiled_recipient_list); if (compiled_recipient_list) compiled_recipient_list->mail_filter = &compiled_mail_filter; last = compiled_recipient_list; return 0; } return -1; } /* Add an alias; format is name ":" comma-delimited_list_of_recipients */ int sh_nmail_add_alias(const char * str) { #define SH_ALIASES_RECP_NUM 256 size_t lengths[SH_ALIASES_RECP_NUM]; unsigned int nfields = SH_ALIASES_RECP_NUM; char * new = sh_util_strdup(str); char * p = strchr(new, ':'); char * q; if (p && strlen(p) > 1) { unsigned int i; char ** array; *p = '\0'; q = p; ++p; if (strlen(new) > 0) { /* strip trailing space */ --q; while ((q != new) && *q == ' ') { *q = '\0'; --q; } } else { goto err; } if (0 == check_double(new, alias_list, S_FALSE)) { array = split_array_list(p, &nfields, lengths); if (array && nfields > 0) { struct alias * newalias = NULL; /* Enforce that all list members are defined already */ int nflag = 0; for (i = 0; i < nfields; ++i) { if (0 == check_double(array[i], all_recipients, S_TRUE)) nflag = 1; /* not in all_recipients --> bad */ } if (nflag == 0) { newalias = SH_ALLOC(sizeof(struct alias)); newalias->recipient_list = NULL; newalias->mail_filter = NULL; newalias->mx_list = NULL; newalias->severity = (-1); /* This is the alias */ newalias->recipient = sh_string_new_from_lchar(new, strlen(new)); for (i = 0; i < nfields; ++i) { if (lengths[i] > 0 && 0 == check_double(array[i], newalias->recipient_list, S_FALSE)) { newalias->recipient_list = add_recipient_intern(array[i], newalias->recipient_list); } } } SH_FREE(array); if (newalias == NULL || newalias->recipient_list == NULL) { if (newalias) SH_FREE(newalias); goto err; } newalias->next = alias_list; alias_list = newalias; last = alias_list; SH_FREE(new); return 0; } } } err: SH_FREE(new); return -1; } /* <<<<<<<<<<<<<<< Recipient List >>>>>>>>>>>>>>>>>>>>>> */ static struct alias * find_list (const char * alias, int * single) { struct alias * list = NULL; *single = 0; if (!alias) { list = all_recipients; } else { struct alias * test = alias_list; while (test) { if (0 == strcmp(alias, sh_string_str(test->recipient))) { list = test->recipient_list; break; } test = test->next; } if (!list) { test = recipient_list; while (test) { if (0 == strcmp(alias, sh_string_str(test->recipient))) { list = test; *single = 1; break; } test = test->next; } } if (!list) { test = compiled_recipient_list; while (test) { if (0 == strcmp(alias, sh_string_str(test->recipient))) { list = test; *single = 1; break; } test = test->next; } } } return list; } /* Returns zero (no) or one (yes). Used to tag messages that are * valid for a given recipient (or mailing list alias). */ int sh_nmail_valid_message_for_alias (int level, const char * message, const char * alias, const void * rcv_info) { struct alias * rcv = (struct alias *) rcv_info; if (!alias || 0 == strcmp(alias, sh_string_str(rcv->recipient))) { if ((level & rcv->severity) == 0) { return 0; } if (rcv->mail_filter) { if (0 != sh_filter_filter(message, rcv->mail_filter)) { return 0; } } } return 1; } /* Returns number of recipients */ static int sh_nmail_compute_recipients (int level, const char * message, const char * alias, int flagit) { struct alias * list = NULL; int single = 0; int retval = 0; if (flagit) { list = all_recipients; while (list) { list->send_mail = 0; list = list->all_next; } list = NULL; } if (message) { int flag = 0; list = find_list (alias, &single); if (list == all_recipients) flag = 1; while (list) { /* Check severity */ if ((list->severity & level) == 0) { if (single) break; if (flag) list = list->all_next; else list = list->next; continue; } /* Check filter */ if (list->mail_filter && 0 != sh_filter_filter(message, list->mail_filter)) { if (single) break; if (flag) list = list->all_next; else list = list->next; continue; } /* Mark the entry */ if (flag) { /* Don't mark aliases */ if (flagit && list->isAlias == 0) { list->send_mail = 1; } list = list->all_next; } else { if (flagit) list->send_mail = 1; list = list->next; } ++retval; } } return retval; } /* Is not called from same(recursively) or different thread */ static int sh_nmail_flag_recipients (int level, const char * message, const char * alias) { int retval = 0; if (message) { SH_MUTEX_LOCK_UNSAFE(mutex_listall); retval = sh_nmail_compute_recipients (level, message, alias, 1); SH_MUTEX_UNLOCK_UNSAFE(mutex_listall); } return retval; } /* Can be called from same thread with mutex_listall held via sh_nmail_flush() */ static int sh_nmail_test_recipients (int level, const char * message, const char * alias) { int retval = 0; if (message) { if (0 == SH_MUTEX_TRYLOCK_UNSAFE(mutex_flush_l)) { SH_MUTEX_LOCK_UNSAFE(mutex_listall); retval = sh_nmail_compute_recipients (level, message, alias, 0); SH_MUTEX_UNLOCK_UNSAFE(mutex_listall); SH_MUTEX_UNLOCK_UNSAFE(mutex_flush_l); } } return retval; } /* <<<<<<<<<<<<<<<<<<< Mail the message >>>>>>>>>>>>>>>>>>>>>> */ SH_MUTEX_RECURSIVE(mutex_nmail_msg); SH_MUTEX_STATIC(nmail_lock, PTHREAD_MUTEX_INITIALIZER); /* * First test list of recipients, then call sh_mail_pushstack(). */ int sh_nmail_pushstack (int level, const char * message, const char * alias) { int retval = 0; if (0 != sh_nmail_test_recipients (level, message, alias)) { retval = sh_mail_pushstack(level, message, alias); } return retval; } static int nmail_count = 0; /* * First mark list of recipients, then call sh_mail_msg(). */ int sh_nmail_msg (int level, const char * message, const char * alias) { volatile int retval = 0; /* Need to: * -- wait if different thread, and * -- fail if same thread. */ SH_MUTEX_RECURSIVE_INIT(mutex_nmail_msg); SH_MUTEX_RECURSIVE_LOCK(mutex_nmail_msg); /* Only same thread beyond this point. We fail * if count > 0 already. */ if (0 == SH_MUTEX_TRYLOCK_UNSAFE(nmail_lock)) { ++nmail_count; if (nmail_count != 1) { --nmail_count; SH_MUTEX_UNLOCK_UNSAFE(nmail_lock); goto cleanup; } SH_MUTEX_UNLOCK_UNSAFE(nmail_lock); if (0 != sh_nmail_flag_recipients (level, message, alias)) { /* Need to keep info for sh_nmail_pushstack() */ SH_MUTEX_LOCK(mutex_listall); retval = sh_mail_msg(message); SH_MUTEX_UNLOCK(mutex_listall); if (retval != 0) { sh_error_handle (SH_ERR_ALL, FIL__, __LINE__, retval, MSG_E_SUBGEN, _("could not mail immediately"), _("sh_nmail_msg") ); sh_mail_pushstack(level, message, alias); } } SH_MUTEX_LOCK_UNSAFE(nmail_lock); --nmail_count; SH_MUTEX_UNLOCK_UNSAFE(nmail_lock); } cleanup: ; /* label at end of compound statement */ SH_MUTEX_RECURSIVE_UNLOCK(mutex_nmail_msg); return retval; } static int sh_nmail_flush_int (void); int sh_nmail_flush () { int retval = 0; if (0 == SH_MUTEX_TRYLOCK_UNSAFE(nmail_lock)) { ++nmail_count; if (nmail_count != 1) { --nmail_count; SH_MUTEX_UNLOCK_UNSAFE(nmail_lock); return retval; } SH_MUTEX_UNLOCK_UNSAFE(nmail_lock); retval = sh_nmail_flush_int (); SH_MUTEX_LOCK_UNSAFE(nmail_lock); --nmail_count; SH_MUTEX_UNLOCK_UNSAFE(nmail_lock); } return retval; } /* warning: variable ‘list’ might be clobbered by ‘longjmp’ or ‘vfork’*/ static struct alias ** list_dummy; /* * Loop over all recipients in stack. * For each distinct one, mark all messages for sending. * Then call sh_mail_msg(). */ static int sh_nmail_flush_int () { int retval = 0; sh_string * msg = NULL; sh_string * smsg = NULL; struct alias * list; struct alias * dlist; /* warning: variable ‘list’ might be clobbered by ‘longjmp’ or ‘vfork’*/ list_dummy = &list; SH_MUTEX_LOCK(mutex_listall); /* Reset recipient list */ list = all_recipients; while (list) { list->send_mail = 0; list = list->all_next; } /* Check (i) compiled recipients, (b) aliases, (c) single recipients. * For each, tag all messages, then call sh_mail_msg with * appropriate address list. */ reset_list(fifo_mail); /* Compiled recipients. These share threshold and filter, * hence only the first recipient needs to be tested. */ list = compiled_recipient_list; if (list) { msg = tag_list(fifo_mail, sh_string_str(list->recipient), sh_nmail_valid_message_for_alias, list, S_TRUE); } if (msg) { while (list) { list->send_mail = 1; list = list->next; } list = compiled_recipient_list; SH_MUTEX_LOCK(mutex_flush_l); (void) sh_mail_msg(sh_string_str(msg)); SH_MUTEX_UNLOCK(mutex_flush_l); sh_string_destroy(&msg); list = compiled_recipient_list; while (list) { list->send_mail = 0; list = list->next; } } /* Aliases */ list = alias_list; while (list) { /* Work through the recipient list. As smsg stores last msg, * we send a batch whenever msg != smsg, and continue from * that point in the recipient list. */ struct alias * lnew; while (list) { msg = tag_list(fifo_mail, sh_string_str(list->recipient), sh_nmail_valid_message_for_alias, list, S_FALSE); if (msg) { if (!smsg) /* init */ { smsg = sh_string_copy(msg); } else { if (0 != strcmp(sh_string_str(smsg), sh_string_str(msg))) { /* * Don't set list = list->next here, since we want * to continue with this recipient in the next batch. */ sh_string_destroy(&msg); break; } } lnew = list->recipient_list; while (lnew) { lnew->send_mail = 1; lnew= lnew->next; } sh_string_destroy(&msg); } list = list->next; } /* Continue here if smsg != msg */ if (smsg) { SH_MUTEX_LOCK(mutex_flush_l); (void) sh_mail_msg(sh_string_str(smsg)); SH_MUTEX_UNLOCK(mutex_flush_l); sh_string_destroy(&smsg); } /* Reset old list of recipients (up to current point in list) * and then continue with list from current point on. */ dlist = alias_list; while (dlist) { lnew = dlist->recipient_list; while (lnew) { lnew->send_mail = 0; lnew = lnew->next; } dlist = dlist->next; } } /* Single recipients */ list = recipient_list; while (list) { /* Work through the recipient list. As smsg stores last msg, * we send a batch whenever msg != smsg, and continue from * that point in the recipient list. */ while (list) { msg = tag_list(fifo_mail, sh_string_str(list->recipient), sh_nmail_valid_message_for_alias, list, S_TRUE); if (msg) { if (!smsg) /* init */ { smsg = sh_string_copy(msg); } else { if (0 != strcmp(sh_string_str(smsg), sh_string_str(msg))) { /* * Don't set list = list->next here, since we want * to continue with this recipient in the next batch. */ sh_string_destroy(&msg); break; } } list->send_mail = 1; sh_string_destroy(&msg); } list = list->next; } /* Continue here if smsg != msg */ if (smsg) { SH_MUTEX_LOCK(mutex_flush_l); (void) sh_mail_msg(sh_string_str(smsg)); SH_MUTEX_UNLOCK(mutex_flush_l); sh_string_destroy(&smsg); } /* Reset old list of recipients (up to current point in list) * and then continue with list from current point on. */ dlist = recipient_list; while (dlist) { dlist->send_mail = 0; dlist = dlist->next; } } /* Remove all mails for which no recipient failed */ sh.mailNum.alarm_last -= commit_list(fifo_mail); SH_MUTEX_UNLOCK(mutex_listall); return retval; } /* <<<<<<<<<<<<<<<<<<< Severity >>>>>>>>>>>>>>>>>>>>>> */ /* * -- set severity threshold for recipient or alias */ int sh_nmail_set_severity (const char * str) { if (last == recipient_list || last == alias_list) { if (0 == sh_error_set_level(str, &(last->severity))) { /* All recipients in alias share the severity */ if (last == alias_list) { struct alias * ptr = last->recipient_list; while (ptr) { ptr->severity = last->severity; ptr = ptr->next; } } return 0; } } return (-1); } /* <<<<<<<<<<<<<<<<<<< Filters >>>>>>>>>>>>>>>>>>>>>> */ int sh_nmail_add_generic (const char * str, int flag) { if (last) { if (NULL == last->mail_filter) last->mail_filter = sh_filter_alloc(); /* All recipients in alias share the mail filter */ if (last == alias_list) { struct alias * ptr = last->recipient_list; while (ptr) { ptr->mail_filter = last->mail_filter; ptr = ptr->next; } } return (sh_filter_add (str, last->mail_filter, flag)); } return (-1); } /* * -- add keywords to the OR filter */ int sh_nmail_add_or (const char * str) { return sh_nmail_add_generic(str, SH_FILT_OR); } /* * -- add keywords to the AND filter */ int sh_nmail_add_and (const char * str) { return sh_nmail_add_generic(str, SH_FILT_AND); } /* * -- add keywords to the NOT filter */ int sh_nmail_add_not (const char * str) { return sh_nmail_add_generic(str, SH_FILT_NOT); } /* <<<<<<<<<<<<<<<<<<< Mailkey per Alias >>>>>>>>>>>>>>>>>>>>>>>>> */ #if defined(HAVE_MLOCK) && !defined(HAVE_BROKEN_MLOCK) #include #endif #include "zAVLTree.h" zAVLTree * mailkeys = NULL; struct alias_mailkey { char * alias; unsigned int mailcount; time_t id_audit; char mailkey_old[KEY_LEN+1]; char mailkey_new[KEY_LEN+1]; }; static zAVLKey sh_nmail_getkey(void const *item) { const struct alias_mailkey * t = (const struct alias_mailkey *) item; return (zAVLKey) t->alias; } /* Return mailkey for alias. If there's no key yet, create it and * store it in the AVL tree. * This is called from sh_mail_msg, * which is called from sh_nmail_msg, * which is protected by a mutex. */ int sh_nmail_get_mailkey (const char * alias, char * buf, size_t bufsiz, time_t * id_audit) { char hashbuf[KEYBUF_SIZE]; start: if (mailkeys) { struct alias_mailkey * t; if (!alias) t = (struct alias_mailkey *) zAVLSearch (mailkeys, _("(null)")); else t = (struct alias_mailkey *) zAVLSearch (mailkeys, alias); if (t) { /* iterate the key */ (void) sl_strlcpy(t->mailkey_new, sh_tiger_hash (t->mailkey_old, TIGER_DATA, KEY_LEN, hashbuf, sizeof(hashbuf)), KEY_LEN+1); (void) sl_strlcpy(buf, t->mailkey_new, bufsiz); ++(t->mailcount); } else { t = SH_ALLOC(sizeof(struct alias_mailkey)); MLOCK(t, sizeof(struct alias_mailkey)); if (!alias) t->alias = sh_util_strdup(_("(null)")); else t->alias = sh_util_strdup(alias); t->mailcount = 0; t->id_audit = time(NULL); BREAKEXIT(sh_util_keyinit); (void) sh_util_keyinit (t->mailkey_old, KEY_LEN+1); /* iterate the key */ (void) sl_strlcpy(t->mailkey_new, sh_tiger_hash (t->mailkey_old, TIGER_DATA, KEY_LEN, hashbuf, sizeof(hashbuf)), KEY_LEN+1); (void) sl_strlcpy(buf, t->mailkey_new, bufsiz); (void) zAVLInsert(mailkeys, t); } /* X(n) -> X(n-1) */ (void) sl_strlcpy (t->mailkey_old, t->mailkey_new, KEY_LEN+1); *id_audit = t->id_audit; return (t->mailcount); } mailkeys = zAVLAllocTree (sh_nmail_getkey, zAVL_KEY_STRING); goto start; } /* <<<<<<<<<<<<<<<<<<< Free for Reconfigure >>>>>>>>>>>>>>>>>>>>>> */ static void free_recipient_list(struct alias * list) { struct alias * new; sh_filter_type * p = NULL; while (list) { new = list; list = new->next; if (new->mx_list) free_mx(new->mx_list); if (new->mail_filter) { sh_filter_free(new->mail_filter); if (!p || p != new->mail_filter) { p = new->mail_filter; SH_FREE(new->mail_filter); } } sh_string_destroy(&(new->recipient)); SH_FREE(new); } } /* Free everything to prepare for reconfigure */ void sh_nmail_free() { SH_MUTEX_LOCK_UNSAFE(mutex_listall); all_recipients = NULL; SH_MUTEX_UNLOCK_UNSAFE(mutex_listall); free_recipient_list(recipient_list); recipient_list = NULL; sh_filter_free(&compiled_mail_filter); while (alias_list) { struct alias * item = alias_list; alias_list = item->next; sh_string_destroy(&(item->recipient)); free_recipient_list(item->recipient_list); if (item->mail_filter) { sh_filter_free(item->mail_filter); /* SH_FREE(item->mail_filter); */ } SH_FREE(item); } alias_list = NULL; last = compiled_recipient_list; return; } /* defined(SH_WITH_MAIL) */ #endif