/* * libebtc.c, January 2004 * * Contains the functions with which to make a table in userspace. * * Author: Bart De Schuymer * * This code is stongly inspired on the iptables code which is * Copyright (C) 1999 Paul `Rusty' Russell & Michael J. Neuling * * 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 #include #include #include #include "include/ebtables_u.h" #include "include/ethernetdb.h" #include #include #include #include #include #include #include static void decrease_chain_jumps(struct ebt_u_replace *replace); static int iterate_entries(struct ebt_u_replace *replace, int type); /* The standard names */ const char *ebt_hooknames[NF_BR_NUMHOOKS] = { [NF_BR_PRE_ROUTING]"PREROUTING", [NF_BR_LOCAL_IN]"INPUT", [NF_BR_FORWARD]"FORWARD", [NF_BR_LOCAL_OUT]"OUTPUT", [NF_BR_POST_ROUTING]"POSTROUTING", [NF_BR_BROUTING]"BROUTING" }; /* The four target names */ const char* ebt_standard_targets[NUM_STANDARD_TARGETS] = { "ACCEPT", "DROP", "CONTINUE", "RETURN", }; /* The lists of supported tables, matches, watchers and targets */ struct ebt_u_table *ebt_tables; struct ebt_u_match *ebt_matches; struct ebt_u_watcher *ebt_watchers; struct ebt_u_target *ebt_targets; /* Find the right structure belonging to a name */ struct ebt_u_target *ebt_find_target(const char *name) { struct ebt_u_target *t = ebt_targets; while (t && strcmp(t->name, name)) t = t->next; return t; } struct ebt_u_match *ebt_find_match(const char *name) { struct ebt_u_match *m = ebt_matches; while (m && strcmp(m->name, name)) m = m->next; return m; } struct ebt_u_watcher *ebt_find_watcher(const char *name) { struct ebt_u_watcher *w = ebt_watchers; while (w && strcmp(w->name, name)) w = w->next; return w; } struct ebt_u_table *ebt_find_table(const char *name) { struct ebt_u_table *t = ebt_tables; while (t && strcmp(t->name, name)) t = t->next; return t; } /* Prints all registered extensions */ void ebt_list_extensions() { struct ebt_u_table *tbl = ebt_tables; struct ebt_u_target *t = ebt_targets; struct ebt_u_match *m = ebt_matches; struct ebt_u_watcher *w = ebt_watchers; PRINT_VERSION; printf("Loaded userspace extensions:\n\nLoaded tables:\n"); while (tbl) { printf("%s\n", tbl->name); tbl = tbl->next; } printf("\nLoaded targets:\n"); while (t) { printf("%s\n", t->name); t = t->next; } printf("\nLoaded matches:\n"); while (m) { printf("%s\n", m->name); m = m->next; } printf("\nLoaded watchers:\n"); while (w) { printf("%s\n", w->name); w = w->next; } } #ifndef LOCKFILE #define LOCKDIR "/var/lib/ebtables" #define LOCKFILE LOCKDIR"/lock" #endif int use_lockfd; /* Returns 0 on success, -1 when the file is locked by another process * or -2 on any other error. */ static int lock_file() { int fd, try = 0; retry: fd = open(LOCKFILE, O_CREAT, 00600); if (fd < 0) { if (try == 1 || mkdir(LOCKDIR, 00700)) return -2; try = 1; goto retry; } return flock(fd, LOCK_EX); } /* Get the table from the kernel or from a binary file * init: 1 = ask the kernel for the initial contents of a table, i.e. the * way it looks when the table is insmod'ed * 0 = get the current data in the table */ int ebt_get_kernel_table(struct ebt_u_replace *replace, int init) { int ret; if (!ebt_find_table(replace->name)) { ebt_print_error("Bad table name '%s'", replace->name); return -1; } while (use_lockfd && (ret = lock_file())) { if (ret == -2) { /* if we get an error we can't handle, we exit. This * doesn't break backwards compatibility since using * this file locking is disabled by default. */ ebt_print_error2("Unable to create lock file "LOCKFILE); } fprintf(stderr, "Trying to obtain lock %s\n", LOCKFILE); sleep(1); } /* Get the kernel's information */ if (ebt_get_table(replace, init)) { if (ebt_errormsg[0] != '\0') return -1; ebtables_insmod("ebtables"); if (ebt_get_table(replace, init)) { ebt_print_error("The kernel doesn't support the ebtables '%s' table", replace->name); return -1; } } return 0; } /* Put sane values into a new entry */ void ebt_initialize_entry(struct ebt_u_entry *e) { e->bitmask = EBT_NOPROTO; e->invflags = 0; e->ethproto = 0; strcpy(e->in, ""); strcpy(e->out, ""); strcpy(e->logical_in, ""); strcpy(e->logical_out, ""); e->m_list = NULL; e->w_list = NULL; e->t = (struct ebt_entry_target *)ebt_find_target(EBT_STANDARD_TARGET); ebt_find_target(EBT_STANDARD_TARGET)->used = 1; e->cnt.pcnt = e->cnt.bcnt = e->cnt_surplus.pcnt = e->cnt_surplus.bcnt = 0; if (!e->t) ebt_print_bug("Couldn't load standard target"); ((struct ebt_standard_target *)((struct ebt_u_target *)e->t)->t)->verdict = EBT_CONTINUE; } /* Free up the memory of the table held in userspace, *replace can be reused */ void ebt_cleanup_replace(struct ebt_u_replace *replace) { int i; struct ebt_u_entries *entries; struct ebt_cntchanges *cc1, *cc2; struct ebt_u_entry *u_e1, *u_e2; replace->name[0] = '\0'; replace->valid_hooks = 0; replace->nentries = 0; replace->num_counters = 0; replace->flags = 0; replace->command = 0; replace->selected_chain = -1; free(replace->filename); replace->filename = NULL; free(replace->counters); replace->counters = NULL; for (i = 0; i < replace->num_chains; i++) { if (!(entries = replace->chains[i])) continue; u_e1 = entries->entries->next; while (u_e1 != entries->entries) { ebt_free_u_entry(u_e1); u_e2 = u_e1->next; free(u_e1); u_e1 = u_e2; } free(entries->entries); free(entries); replace->chains[i] = NULL; } cc1 = replace->cc->next; while (cc1 != replace->cc) { cc2 = cc1->next; free(cc1); cc1 = cc2; } replace->cc->next = replace->cc->prev = replace->cc; } /* Should be called, e.g., between 2 rule adds */ void ebt_reinit_extensions() { struct ebt_u_match *m; struct ebt_u_watcher *w; struct ebt_u_target *t; int size; /* The init functions should determine by themselves whether they are * called for the first time or not (when necessary). */ for (m = ebt_matches; m; m = m->next) { if (m->used) { size = EBT_ALIGN(m->size) + sizeof(struct ebt_entry_match); m->m = (struct ebt_entry_match *)malloc(size); if (!m->m) ebt_print_memory(); strcpy(m->m->u.name, m->name); m->m->u.revision = m->revision; m->m->match_size = EBT_ALIGN(m->size); m->used = 0; } m->flags = 0; /* An error can occur before used is set, while flags is changed. */ m->init(m->m); } for (w = ebt_watchers; w; w = w->next) { if (w->used) { size = EBT_ALIGN(w->size) + sizeof(struct ebt_entry_watcher); w->w = (struct ebt_entry_watcher *)malloc(size); if (!w->w) ebt_print_memory(); strcpy(w->w->u.name, w->name); w->w->watcher_size = EBT_ALIGN(w->size); w->used = 0; } w->flags = 0; w->init(w->w); } for (t = ebt_targets; t; t = t->next) { if (t->used) { size = EBT_ALIGN(t->size) + sizeof(struct ebt_entry_target); t->t = (struct ebt_entry_target *)malloc(size); if (!t->t) ebt_print_memory(); strcpy(t->t->u.name, t->name); t->t->target_size = EBT_ALIGN(t->size); t->used = 0; } t->flags = 0; t->init(t->t); } } /* This doesn't free e, because the calling function might need e->next */ void ebt_free_u_entry(struct ebt_u_entry *e) { struct ebt_u_match_list *m_l, *m_l2; struct ebt_u_watcher_list *w_l, *w_l2; m_l = e->m_list; while (m_l) { m_l2 = m_l->next; free(m_l->m); free(m_l); m_l = m_l2; } w_l = e->w_list; while (w_l) { w_l2 = w_l->next; free(w_l->w); free(w_l); w_l = w_l2; } free(e->t); } static char *get_modprobe(void) { int procfile; char *ret; procfile = open(PROC_SYS_MODPROBE, O_RDONLY); if (procfile < 0) return NULL; ret = malloc(1024); if (ret) { if (read(procfile, ret, 1024) == -1) goto fail; /* The kernel adds a '\n' */ ret[1023] = '\n'; *strchr(ret, '\n') = '\0'; close(procfile); return ret; } fail: free(ret); close(procfile); return NULL; } char *ebt_modprobe; /* Try to load the kernel module, analogous to ip_tables.c */ int ebtables_insmod(const char *modname) { char *buf = NULL; char *argv[3]; /* If they don't explicitly set it, read out of /proc */ if (!ebt_modprobe) { buf = get_modprobe(); if (!buf) return -1; ebt_modprobe = buf; /* Keep the value for possible later use */ } switch (fork()) { case 0: argv[0] = (char *)ebt_modprobe; argv[1] = (char *)modname; argv[2] = NULL; execv(argv[0], argv); /* Not usually reached */ exit(0); case -1: return -1; default: /* Parent */ wait(NULL); } return 0; } /* Parse the chain name and return a pointer to the chain base. * Returns NULL on failure. */ struct ebt_u_entries *ebt_name_to_chain(const struct ebt_u_replace *replace, const char* arg) { int i; struct ebt_u_entries *chain; for (i = 0; i < replace->num_chains; i++) { if (!(chain = replace->chains[i])) continue; if (!strcmp(arg, chain->name)) return chain; } return NULL; } /* Parse the chain name and return the corresponding chain nr * returns -1 on failure */ int ebt_get_chainnr(const struct ebt_u_replace *replace, const char* arg) { int i; for (i = 0; i < replace->num_chains; i++) { if (!replace->chains[i]) continue; if (!strcmp(arg, replace->chains[i]->name)) return i; } return -1; } /* ************ ************ **COMMANDS** ************ ************ */ /* Change the policy of selected_chain. * Handing a bad policy to this function is a bug. */ void ebt_change_policy(struct ebt_u_replace *replace, int policy) { struct ebt_u_entries *entries = ebt_to_chain(replace); if (policy < -NUM_STANDARD_TARGETS || policy == EBT_CONTINUE) ebt_print_bug("Wrong policy: %d", policy); entries->policy = policy; } void ebt_delete_cc(struct ebt_cntchanges *cc) { if (cc->type == CNT_ADD) { cc->prev->next = cc->next; cc->next->prev = cc->prev; free(cc); } else cc->type = CNT_DEL; } void ebt_empty_chain(struct ebt_u_entries *entries) { struct ebt_u_entry *u_e = entries->entries->next, *tmp; while (u_e != entries->entries) { ebt_delete_cc(u_e->cc); ebt_free_u_entry(u_e); tmp = u_e->next; free(u_e); u_e = tmp; } entries->entries->next = entries->entries->prev = entries->entries; entries->nentries = 0; } /* Flush one chain or the complete table * If selected_chain == -1 then flush the complete table */ void ebt_flush_chains(struct ebt_u_replace *replace) { int i, numdel; struct ebt_u_entries *entries = ebt_to_chain(replace); /* Flush whole table */ if (!entries) { if (replace->nentries == 0) return; replace->nentries = 0; /* Free everything and zero (n)entries */ for (i = 0; i < replace->num_chains; i++) { if (!(entries = replace->chains[i])) continue; entries->counter_offset = 0; ebt_empty_chain(entries); } return; } if (entries->nentries == 0) return; replace->nentries -= entries->nentries; numdel = entries->nentries; /* Update counter_offset */ for (i = replace->selected_chain+1; i < replace->num_chains; i++) { if (!(entries = replace->chains[i])) continue; entries->counter_offset -= numdel; } entries = ebt_to_chain(replace); ebt_empty_chain(entries); } #define OPT_COUNT 0x1000 /* This value is also defined in ebtables.c */ /* Returns the rule number on success (starting from 0), -1 on failure * * This function expects the ebt_{match,watcher,target} members of new_entry * to contain pointers to ebt_u_{match,watcher,target} */ int ebt_check_rule_exists(struct ebt_u_replace *replace, struct ebt_u_entry *new_entry) { struct ebt_u_entry *u_e; struct ebt_u_match_list *m_l, *m_l2; struct ebt_u_match *m; struct ebt_u_watcher_list *w_l, *w_l2; struct ebt_u_watcher *w; struct ebt_u_target *t = (struct ebt_u_target *)new_entry->t; struct ebt_u_entries *entries = ebt_to_chain(replace); int i, j, k; u_e = entries->entries->next; /* Check for an existing rule (if there are duplicate rules, * take the first occurance) */ for (i = 0; i < entries->nentries; i++, u_e = u_e->next) { if (u_e->ethproto != new_entry->ethproto) continue; if (strcmp(u_e->in, new_entry->in)) continue; if (strcmp(u_e->out, new_entry->out)) continue; if (strcmp(u_e->logical_in, new_entry->logical_in)) continue; if (strcmp(u_e->logical_out, new_entry->logical_out)) continue; if (new_entry->bitmask & EBT_SOURCEMAC && memcmp(u_e->sourcemac, new_entry->sourcemac, ETH_ALEN)) continue; if (new_entry->bitmask & EBT_DESTMAC && memcmp(u_e->destmac, new_entry->destmac, ETH_ALEN)) continue; if (new_entry->bitmask != u_e->bitmask || new_entry->invflags != u_e->invflags) continue; if (replace->flags & OPT_COUNT && (new_entry->cnt.pcnt != u_e->cnt.pcnt || new_entry->cnt.bcnt != u_e->cnt.bcnt)) continue; /* Compare all matches */ m_l = new_entry->m_list; j = 0; while (m_l) { m = (struct ebt_u_match *)(m_l->m); m_l2 = u_e->m_list; while (m_l2 && (strcmp(m_l2->m->u.name, m->m->u.name) || m_l2->m->u.revision != m->m->u.revision)) { m_l2 = m_l2->next; } if (!m_l2 || !m->compare(m->m, m_l2->m)) goto letscontinue; j++; m_l = m_l->next; } /* Now be sure they have the same nr of matches */ k = 0; m_l = u_e->m_list; while (m_l) { k++; m_l = m_l->next; } if (j != k) continue; /* Compare all watchers */ w_l = new_entry->w_list; j = 0; while (w_l) { w = (struct ebt_u_watcher *)(w_l->w); w_l2 = u_e->w_list; while (w_l2 && strcmp(w_l2->w->u.name, w->w->u.name)) w_l2 = w_l2->next; if (!w_l2 || !w->compare(w->w, w_l2->w)) goto letscontinue; j++; w_l = w_l->next; } k = 0; w_l = u_e->w_list; while (w_l) { k++; w_l = w_l->next; } if (j != k) continue; if (strcmp(t->t->u.name, u_e->t->u.name)) continue; if (!t->compare(t->t, u_e->t)) continue; return i; letscontinue:; } return -1; } /* Add a rule, rule_nr is the rule to update * rule_nr specifies where the rule should be inserted * rule_nr > 0 : insert the rule right before the rule_nr'th rule * (the first rule is rule 1) * rule_nr < 0 : insert the rule right before the (n+rule_nr+1)'th rule, * where n denotes the number of rules in the chain * rule_nr == 0: add a new rule at the end of the chain * * This function expects the ebt_{match,watcher,target} members of new_entry * to contain pointers to ebt_u_{match,watcher,target} and updates these * pointers so that they point to ebt_{match,watcher,target}, before adding * the rule to the chain. Don't free() the ebt_{match,watcher,target} and * don't reuse the new_entry after a successful call to ebt_add_rule() */ void ebt_add_rule(struct ebt_u_replace *replace, struct ebt_u_entry *new_entry, int rule_nr) { int i; struct ebt_u_entry *u_e; struct ebt_u_match_list *m_l; struct ebt_u_watcher_list *w_l; struct ebt_u_entries *entries = ebt_to_chain(replace); struct ebt_cntchanges *cc, *new_cc; if (rule_nr <= 0) rule_nr += entries->nentries; else rule_nr--; if (rule_nr > entries->nentries || rule_nr < 0) { ebt_print_error("The specified rule number is incorrect"); return; } /* Go to the right position in the chain */ if (rule_nr == entries->nentries) u_e = entries->entries; else { u_e = entries->entries->next; for (i = 0; i < rule_nr; i++) u_e = u_e->next; } /* We're adding one rule */ replace->nentries++; entries->nentries++; /* Insert the rule */ new_entry->next = u_e; new_entry->prev = u_e->prev; u_e->prev->next = new_entry; u_e->prev = new_entry; new_cc = (struct ebt_cntchanges *)malloc(sizeof(struct ebt_cntchanges)); if (!new_cc) ebt_print_memory(); new_cc->type = CNT_ADD; new_cc->change = 0; if (new_entry->next == entries->entries) { for (i = replace->selected_chain+1; i < replace->num_chains; i++) if (!replace->chains[i] || replace->chains[i]->nentries == 0) continue; else break; if (i == replace->num_chains) cc = replace->cc; else cc = replace->chains[i]->entries->next->cc; } else cc = new_entry->next->cc; new_cc->next = cc; new_cc->prev = cc->prev; cc->prev->next = new_cc; cc->prev = new_cc; new_entry->cc = new_cc; /* Put the ebt_{match, watcher, target} pointers in place */ m_l = new_entry->m_list; while (m_l) { m_l->m = ((struct ebt_u_match *)m_l->m)->m; m_l = m_l->next; } w_l = new_entry->w_list; while (w_l) { w_l->w = ((struct ebt_u_watcher *)w_l->w)->w; w_l = w_l->next; } new_entry->t = ((struct ebt_u_target *)new_entry->t)->t; /* Update the counter_offset of chains behind this one */ for (i = replace->selected_chain+1; i < replace->num_chains; i++) { entries = replace->chains[i]; if (!(entries = replace->chains[i])) continue; entries->counter_offset++; } } /* If *begin==*end==0 then find the rule corresponding to new_entry, * else make the rule numbers positive (starting from 0) and check * for bad rule numbers. */ static int check_and_change_rule_number(struct ebt_u_replace *replace, struct ebt_u_entry *new_entry, int *begin, int *end) { struct ebt_u_entries *entries = ebt_to_chain(replace); if (*begin < 0) *begin += entries->nentries + 1; if (*end < 0) *end += entries->nentries + 1; if (*begin < 0 || *begin > *end || *end > entries->nentries) { ebt_print_error("Sorry, wrong rule numbers"); return -1; } if ((*begin * *end == 0) && (*begin + *end != 0)) ebt_print_bug("begin and end should be either both zero, " "either both non-zero"); if (*begin != 0) { (*begin)--; (*end)--; } else { *begin = ebt_check_rule_exists(replace, new_entry); *end = *begin; if (*begin == -1) { ebt_print_error("Sorry, rule does not exist"); return -1; } } return 0; } /* Delete a rule or rules * begin == end == 0: delete the rule corresponding to new_entry * * The first rule has rule nr 1, the last rule has rule nr -1, etc. * This function expects the ebt_{match,watcher,target} members of new_entry * to contain pointers to ebt_u_{match,watcher,target}. */ void ebt_delete_rule(struct ebt_u_replace *replace, struct ebt_u_entry *new_entry, int begin, int end) { int i, nr_deletes; struct ebt_u_entry *u_e, *u_e2, *u_e3; struct ebt_u_entries *entries = ebt_to_chain(replace); if (check_and_change_rule_number(replace, new_entry, &begin, &end)) return; /* We're deleting rules */ nr_deletes = end - begin + 1; replace->nentries -= nr_deletes; entries->nentries -= nr_deletes; /* Go to the right position in the chain */ u_e = entries->entries->next; for (i = 0; i < begin; i++) u_e = u_e->next; u_e3 = u_e->prev; /* Remove the rules */ for (i = 0; i < nr_deletes; i++) { u_e2 = u_e; ebt_delete_cc(u_e2->cc); u_e = u_e->next; /* Free everything */ ebt_free_u_entry(u_e2); free(u_e2); } u_e3->next = u_e; u_e->prev = u_e3; /* Update the counter_offset of chains behind this one */ for (i = replace->selected_chain+1; i < replace->num_chains; i++) { if (!(entries = replace->chains[i])) continue; entries->counter_offset -= nr_deletes; } } /* Change the counters of a rule or rules * begin == end == 0: change counters of the rule corresponding to new_entry * * The first rule has rule nr 1, the last rule has rule nr -1, etc. * This function expects the ebt_{match,watcher,target} members of new_entry * to contain pointers to ebt_u_{match,watcher,target}. * The mask denotes the following: * pcnt: mask % 3 = 0 : change; = 1: increment; = 2: decrement * bcnt: mask / 3 = 0 : change; = 1: increment = 2: increment * In daemon mode, mask==0 must hold */ void ebt_change_counters(struct ebt_u_replace *replace, struct ebt_u_entry *new_entry, int begin, int end, struct ebt_counter *cnt, int mask) { int i; struct ebt_u_entry *u_e; struct ebt_u_entries *entries = ebt_to_chain(replace); if (check_and_change_rule_number(replace, new_entry, &begin, &end)) return; u_e = entries->entries->next; for (i = 0; i < begin; i++) u_e = u_e->next; for (i = end-begin+1; i > 0; i--) { if (mask % 3 == 0) { u_e->cnt.pcnt = (*cnt).pcnt; u_e->cnt_surplus.pcnt = 0; } else { #ifdef EBT_DEBUG if (u_e->cc->type != CNT_NORM) ebt_print_bug("cc->type != CNT_NORM"); #endif u_e->cnt_surplus.pcnt = (*cnt).pcnt; } if (mask / 3 == 0) { u_e->cnt.bcnt = (*cnt).bcnt; u_e->cnt_surplus.bcnt = 0; } else { #ifdef EBT_DEBUG if (u_e->cc->type != CNT_NORM) ebt_print_bug("cc->type != CNT_NORM"); #endif u_e->cnt_surplus.bcnt = (*cnt).bcnt; } if (u_e->cc->type != CNT_ADD) u_e->cc->type = CNT_CHANGE; u_e->cc->change = mask; u_e = u_e->next; } } /* If selected_chain == -1 then zero all counters, * otherwise, zero the counters of selected_chain */ void ebt_zero_counters(struct ebt_u_replace *replace) { struct ebt_u_entries *entries = ebt_to_chain(replace); struct ebt_u_entry *next; int i; if (!entries) { for (i = 0; i < replace->num_chains; i++) { if (!(entries = replace->chains[i])) continue; next = entries->entries->next; while (next != entries->entries) { if (next->cc->type == CNT_NORM) next->cc->type = CNT_CHANGE; next->cnt.bcnt = next->cnt.pcnt = 0; next->cc->change = 0; next = next->next; } } } else { if (entries->nentries == 0) return; next = entries->entries->next; while (next != entries->entries) { if (next->cc->type == CNT_NORM) next->cc->type = CNT_CHANGE; next->cnt.bcnt = next->cnt.pcnt = 0; next = next->next; } } } /* Add a new chain and specify its policy */ void ebt_new_chain(struct ebt_u_replace *replace, const char *name, int policy) { struct ebt_u_entries *new; if (replace->num_chains == replace->max_chains) ebt_double_chains(replace); new = (struct ebt_u_entries *)malloc(sizeof(struct ebt_u_entries)); if (!new) ebt_print_memory(); replace->chains[replace->num_chains++] = new; new->nentries = 0; new->policy = policy; new->counter_offset = replace->nentries; new->hook_mask = 0; strcpy(new->name, name); new->entries = (struct ebt_u_entry *)malloc(sizeof(struct ebt_u_entry)); if (!new->entries) ebt_print_memory(); new->entries->next = new->entries->prev = new->entries; new->kernel_start = NULL; } /* returns -1 if the chain is referenced, 0 on success */ static int ebt_delete_a_chain(struct ebt_u_replace *replace, int chain, int print_err) { int tmp = replace->selected_chain; /* If the chain is referenced, don't delete it, * also decrement jumps to a chain behind the * one we're deleting */ replace->selected_chain = chain; if (ebt_check_for_references(replace, print_err)) return -1; decrease_chain_jumps(replace); ebt_flush_chains(replace); replace->selected_chain = tmp; free(replace->chains[chain]->entries); free(replace->chains[chain]); memmove(replace->chains+chain, replace->chains+chain+1, (replace->num_chains-chain-1)*sizeof(void *)); replace->num_chains--; return 0; } /* Selected_chain == -1: delete all non-referenced udc * selected_chain < NF_BR_NUMHOOKS is illegal */ void ebt_delete_chain(struct ebt_u_replace *replace) { if (replace->selected_chain != -1 && replace->selected_chain < NF_BR_NUMHOOKS) ebt_print_bug("You can't remove a standard chain"); if (replace->selected_chain == -1) { int i = NF_BR_NUMHOOKS; while (i < replace->num_chains) if (ebt_delete_a_chain(replace, i, 0)) i++; } else ebt_delete_a_chain(replace, replace->selected_chain, 1); } /* Rename an existing chain. */ void ebt_rename_chain(struct ebt_u_replace *replace, const char *name) { struct ebt_u_entries *entries = ebt_to_chain(replace); if (!entries) ebt_print_bug("ebt_rename_chain: entries == NULL"); strcpy(entries->name, name); } /* ************************* ************************* **SPECIALIZED*FUNCTIONS** ************************* ************************* */ void ebt_double_chains(struct ebt_u_replace *replace) { struct ebt_u_entries **new; replace->max_chains *= 2; new = (struct ebt_u_entries **)malloc(replace->max_chains*sizeof(void *)); if (!new) ebt_print_memory(); memcpy(new, replace->chains, replace->max_chains/2*sizeof(void *)); free(replace->chains); replace->chains = new; } /* Executes the final_check() function for all extensions used by the rule * ebt_check_for_loops should have been executed earlier, to make sure the * hook_mask is correct. The time argument to final_check() is set to 1, * meaning it's the second time the final_check() function is executed. */ void ebt_do_final_checks(struct ebt_u_replace *replace, struct ebt_u_entry *e, struct ebt_u_entries *entries) { struct ebt_u_match_list *m_l; struct ebt_u_watcher_list *w_l; struct ebt_u_target *t; struct ebt_u_match *m; struct ebt_u_watcher *w; m_l = e->m_list; w_l = e->w_list; while (m_l) { m = ebt_find_match(m_l->m->u.name); m->final_check(e, m_l->m, replace->name, entries->hook_mask, 1); if (ebt_errormsg[0] != '\0') return; m_l = m_l->next; } while (w_l) { w = ebt_find_watcher(w_l->w->u.name); w->final_check(e, w_l->w, replace->name, entries->hook_mask, 1); if (ebt_errormsg[0] != '\0') return; w_l = w_l->next; } t = ebt_find_target(e->t->u.name); t->final_check(e, e->t, replace->name, entries->hook_mask, 1); } /* Returns 1 (if it returns) when the chain is referenced, 0 when it isn't. * print_err: 0 (resp. 1) = don't (resp. do) print error when referenced */ int ebt_check_for_references(struct ebt_u_replace *replace, int print_err) { if (print_err) return iterate_entries(replace, 1); else return iterate_entries(replace, 2); } /* chain_nr: nr of the udc (>= NF_BR_NUMHOOKS) * Returns 1 (if it returns) when the chain is referenced, 0 when it isn't. * print_err: 0 (resp. 1) = don't (resp. do) print error when referenced */ int ebt_check_for_references2(struct ebt_u_replace *replace, int chain_nr, int print_err) { int tmp = replace->selected_chain, ret; replace->selected_chain = chain_nr; if (print_err) ret = iterate_entries(replace, 1); else ret = iterate_entries(replace, 2); replace->selected_chain = tmp; return ret; } struct ebt_u_stack { int chain_nr; int n; struct ebt_u_entry *e; struct ebt_u_entries *entries; }; /* Checks for loops * As a by-product, the hook_mask member of each chain is filled in * correctly. The check functions of the extensions need this hook_mask * to know from which standard chains they can be called. */ void ebt_check_for_loops(struct ebt_u_replace *replace) { int chain_nr , i, j , k, sp = 0, verdict; struct ebt_u_entries *entries, *entries2; struct ebt_u_stack *stack = NULL; struct ebt_u_entry *e; /* Initialize hook_mask to 0 */ for (i = 0; i < replace->num_chains; i++) { if (!(entries = replace->chains[i])) continue; if (i < NF_BR_NUMHOOKS) /* (1 << NF_BR_NUMHOOKS) implies it's a standard chain * (usefull in the final_check() funtions) */ entries->hook_mask = (1 << i) | (1 << NF_BR_NUMHOOKS); else entries->hook_mask = 0; } if (replace->num_chains == NF_BR_NUMHOOKS) return; stack = (struct ebt_u_stack *)malloc((replace->num_chains - NF_BR_NUMHOOKS) * sizeof(struct ebt_u_stack)); if (!stack) ebt_print_memory(); /* Check for loops, starting from every base chain */ for (i = 0; i < NF_BR_NUMHOOKS; i++) { if (!(entries = replace->chains[i])) continue; chain_nr = i; e = entries->entries->next; for (j = 0; j < entries->nentries; j++) { if (strcmp(e->t->u.name, EBT_STANDARD_TARGET)) goto letscontinue; verdict = ((struct ebt_standard_target *)(e->t))->verdict; if (verdict < 0) goto letscontinue; /* Now see if we've been here before */ for (k = 0; k < sp; k++) if (stack[k].chain_nr == verdict + NF_BR_NUMHOOKS) { ebt_print_error("Loop from chain '%s' to chain '%s'", replace->chains[chain_nr]->name, replace->chains[stack[k].chain_nr]->name); goto free_stack; } entries2 = replace->chains[verdict + NF_BR_NUMHOOKS]; /* check if we've dealt with this chain already */ if (entries2->hook_mask & (1<hook_mask |= entries->hook_mask & ~(1 << NF_BR_NUMHOOKS); /* Jump to the chain, make sure we know how to get back */ stack[sp].chain_nr = chain_nr; stack[sp].n = j; stack[sp].entries = entries; stack[sp].e = e; sp++; j = -1; e = entries2->entries->next; chain_nr = verdict + NF_BR_NUMHOOKS; entries = entries2; continue; letscontinue: e = e->next; } /* We are at the end of a standard chain */ if (sp == 0) continue; /* Go back to the chain one level higher */ sp--; j = stack[sp].n; chain_nr = stack[sp].chain_nr; e = stack[sp].e; entries = stack[sp].entries; goto letscontinue; } free_stack: free(stack); return; } /* The user will use the match, so put it in new_entry. The ebt_u_match * pointer is put in the ebt_entry_match pointer. ebt_add_rule will * fill in the final value for new->m. Unless the rule is added to a chain, * the pointer will keep pointing to the ebt_u_match (until the new_entry * is freed). I know, I should use a union for these 2 pointer types... */ void ebt_add_match(struct ebt_u_entry *new_entry, struct ebt_u_match *m) { struct ebt_u_match_list **m_list, *new; for (m_list = &new_entry->m_list; *m_list; m_list = &(*m_list)->next); new = (struct ebt_u_match_list *) malloc(sizeof(struct ebt_u_match_list)); if (!new) ebt_print_memory(); *m_list = new; new->next = NULL; new->m = (struct ebt_entry_match *)m; } void ebt_add_watcher(struct ebt_u_entry *new_entry, struct ebt_u_watcher *w) { struct ebt_u_watcher_list **w_list; struct ebt_u_watcher_list *new; for (w_list = &new_entry->w_list; *w_list; w_list = &(*w_list)->next); new = (struct ebt_u_watcher_list *) malloc(sizeof(struct ebt_u_watcher_list)); if (!new) ebt_print_memory(); *w_list = new; new->next = NULL; new->w = (struct ebt_entry_watcher *)w; } /* ******************* ******************* **OTHER*FUNCTIONS** ******************* ******************* */ /* type = 0 => update chain jumps * type = 1 => check for reference, print error when referenced * type = 2 => check for reference, don't print error when referenced * * Returns 1 when type == 1 and the chain is referenced * returns 0 otherwise */ static int iterate_entries(struct ebt_u_replace *replace, int type) { int i, j, chain_nr = replace->selected_chain - NF_BR_NUMHOOKS; struct ebt_u_entries *entries; struct ebt_u_entry *e; if (chain_nr < 0) ebt_print_bug("iterate_entries: udc = %d < 0", chain_nr); for (i = 0; i < replace->num_chains; i++) { if (!(entries = replace->chains[i])) continue; e = entries->entries->next; for (j = 0; j < entries->nentries; j++) { int chain_jmp; if (strcmp(e->t->u.name, EBT_STANDARD_TARGET)) { e = e->next; continue; } chain_jmp = ((struct ebt_standard_target *)e->t)-> verdict; switch (type) { case 1: case 2: if (chain_jmp == chain_nr) { if (type == 2) return 1; ebt_print_error("Can't delete the chain '%s', it's referenced in chain '%s', rule %d", replace->chains[chain_nr + NF_BR_NUMHOOKS]->name, entries->name, j); return 1; } break; case 0: /* Adjust the chain jumps when necessary */ if (chain_jmp > chain_nr) ((struct ebt_standard_target *)e->t)->verdict--; break; } /* End switch */ e = e->next; } } return 0; } static void decrease_chain_jumps(struct ebt_u_replace *replace) { iterate_entries(replace, 0); } /* Used in initialization code of modules */ void ebt_register_match(struct ebt_u_match *m) { int size = EBT_ALIGN(m->size) + sizeof(struct ebt_entry_match); struct ebt_u_match **i; m->m = (struct ebt_entry_match *)malloc(size); if (!m->m) ebt_print_memory(); strcpy(m->m->u.name, m->name); m->m->u.revision = m->revision; m->m->match_size = EBT_ALIGN(m->size); m->init(m->m); for (i = &ebt_matches; *i; i = &((*i)->next)); m->next = NULL; *i = m; } void ebt_register_watcher(struct ebt_u_watcher *w) { int size = EBT_ALIGN(w->size) + sizeof(struct ebt_entry_watcher); struct ebt_u_watcher **i; w->w = (struct ebt_entry_watcher *)malloc(size); if (!w->w) ebt_print_memory(); strcpy(w->w->u.name, w->name); w->w->watcher_size = EBT_ALIGN(w->size); w->init(w->w); for (i = &ebt_watchers; *i; i = &((*i)->next)); w->next = NULL; *i = w; } void ebt_register_target(struct ebt_u_target *t) { int size = EBT_ALIGN(t->size) + sizeof(struct ebt_entry_target); struct ebt_u_target **i; t->t = (struct ebt_entry_target *)malloc(size); if (!t->t) ebt_print_memory(); strcpy(t->t->u.name, t->name); t->t->target_size = EBT_ALIGN(t->size); t->init(t->t); for (i = &ebt_targets; *i; i = &((*i)->next)); t->next = NULL; *i = t; } void ebt_register_table(struct ebt_u_table *t) { t->next = ebt_tables; ebt_tables = t; } void ebt_iterate_matches(void (*f)(struct ebt_u_match *)) { struct ebt_u_match *i; for (i = ebt_matches; i; i = i->next) f(i); } void ebt_iterate_watchers(void (*f)(struct ebt_u_watcher *)) { struct ebt_u_watcher *i; for (i = ebt_watchers; i; i = i->next) f(i); } void ebt_iterate_targets(void (*f)(struct ebt_u_target *)) { struct ebt_u_target *i; for (i = ebt_targets; i; i = i->next) f(i); } /* Don't use this function, use ebt_print_bug() */ void __ebt_print_bug(char *file, int line, char *format, ...) { va_list l; va_start(l, format); fprintf(stderr, PROGNAME" v"PROGVERSION":%s:%d:--BUG--: \n", file, line); vfprintf(stderr, format, l); fprintf(stderr, "\n"); va_end(l); exit (-1); } /* The error messages are put in here when ebt_silent == 1 * ebt_errormsg[0] == '\0' implies there was no error */ char ebt_errormsg[ERRORMSG_MAXLEN]; /* When error messages should not be printed on the screen, after which * the program exit()s, set ebt_silent to 1. */ int ebt_silent; /* Don't use this function, use ebt_print_error() */ void __ebt_print_error(char *format, ...) { va_list l; va_start(l, format); if (ebt_silent && ebt_errormsg[0] == '\0') { vsnprintf(ebt_errormsg, ERRORMSG_MAXLEN, format, l); va_end(l); } else { vfprintf(stderr, format, l); fprintf(stderr, ".\n"); va_end(l); exit (-1); } }