/* * Connection Manager * * Copyright (C) 2007-2012 Intel Corporation. All rights reserved. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 as * published by the Free Software Foundation. * * 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., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA * */ #include #include #include #include #include #include #include #include #include #include #include #include static const char *hooknames[] = { [NF_IP_PRE_ROUTING] = "PREROUTING", [NF_IP_LOCAL_IN] = "INPUT", [NF_IP_FORWARD] = "FORWARD", [NF_IP_LOCAL_OUT] = "OUTPUT", [NF_IP_POST_ROUTING] = "POSTROUTING", }; #define LABEL_ACCEPT "ACCEPT" #define LABEL_DROP "DROP" #define LABEL_QUEUE "QUEUE" #define LABEL_RETURN "RETURN" #define XT_OPTION_OFFSET_SCALE 256 /* fn returns 0 to continue iteration */ #define _XT_ENTRY_ITERATE_CONTINUE(type, entries, size, n, fn, args...) \ ({ \ unsigned int __i; \ int __n; \ int __ret = 0; \ type *__entry; \ \ for (__i = 0, __n = 0; __i < (size); \ __i += __entry->next_offset, __n++) { \ __entry = (void *)(entries) + __i; \ if (__n < n) \ continue; \ \ __ret = fn(__entry, ## args); \ if (__ret != 0) \ break; \ } \ __ret; \ }) /* fn returns 0 to continue iteration */ #define _XT_ENTRY_ITERATE(type, entries, size, fn, args...) \ _XT_ENTRY_ITERATE_CONTINUE(type, entries, size, 0, fn, args) #define ENTRY_ITERATE(entries, size, fn, args...) \ _XT_ENTRY_ITERATE(struct ipt_entry, entries, size, fn, ## args) #define MIN_ALIGN (__alignof__(struct ipt_entry)) #define ALIGN(s) (((s) + ((MIN_ALIGN)-1)) & ~((MIN_ALIGN)-1)) struct error_target { struct xt_entry_target t; char error[IPT_TABLE_MAXNAMELEN]; }; struct connman_iptables_entry { int offset; int builtin; struct ipt_entry *entry; }; struct connman_iptables { int ipt_sock; struct ipt_getinfo *info; struct ipt_get_entries *blob_entries; unsigned int num_entries; unsigned int old_entries; unsigned int size; unsigned int underflow[NF_INET_NUMHOOKS]; unsigned int hook_entry[NF_INET_NUMHOOKS]; GList *entries; }; static struct ipt_entry *get_entry(struct connman_iptables *table, unsigned int offset) { return (struct ipt_entry *)((char *)table->blob_entries->entrytable + offset); } static int is_hook_entry(struct connman_iptables *table, struct ipt_entry *entry) { unsigned int i; for (i = 0; i < NF_INET_NUMHOOKS; i++) { if ((table->info->valid_hooks & (1 << i)) && get_entry(table, table->info->hook_entry[i]) == entry) return i; } return -1; } static unsigned long entry_to_offset(struct connman_iptables *table, struct ipt_entry *entry) { return (void *)entry - (void *)table->blob_entries->entrytable; } static int target_to_verdict(char *target_name) { if (!strcmp(target_name, LABEL_ACCEPT)) return -NF_ACCEPT - 1; if (!strcmp(target_name, LABEL_DROP)) return -NF_DROP - 1; if (!strcmp(target_name, LABEL_QUEUE)) return -NF_QUEUE - 1; if (!strcmp(target_name, LABEL_RETURN)) return XT_RETURN; return 0; } static gboolean is_builtin_target(char *target_name) { if (!strcmp(target_name, LABEL_ACCEPT) || !strcmp(target_name, LABEL_DROP) || !strcmp(target_name, LABEL_QUEUE) || !strcmp(target_name, LABEL_RETURN)) return TRUE; return FALSE; } static gboolean is_jump(struct connman_iptables_entry *e) { struct xt_entry_target *target; target = ipt_get_target(e->entry); if (!strcmp(target->u.user.name, IPT_STANDARD_TARGET)) { struct xt_standard_target *t; t = (struct xt_standard_target *)target; switch (t->verdict) { case XT_RETURN: case -NF_ACCEPT - 1: case -NF_DROP - 1: case -NF_QUEUE - 1: case -NF_STOP - 1: return false; default: return true; } } return false; } static gboolean is_chain(struct connman_iptables *table, struct connman_iptables_entry *e) { struct ipt_entry *entry; struct xt_entry_target *target; entry = e->entry; if (e->builtin >= 0) return TRUE; target = ipt_get_target(entry); if (!strcmp(target->u.user.name, IPT_ERROR_TARGET)) return TRUE; return FALSE; } static GList *find_chain_head(struct connman_iptables *table, char *chain_name) { GList *list; struct connman_iptables_entry *head; struct ipt_entry *entry; struct xt_entry_target *target; int builtin; for (list = table->entries; list; list = list->next) { head = list->data; entry = head->entry; /* Buit-in chain */ builtin = head->builtin; if (builtin >= 0 && !strcmp(hooknames[builtin], chain_name)) break; /* User defined chain */ target = ipt_get_target(entry); if (!strcmp(target->u.user.name, IPT_ERROR_TARGET) && !strcmp((char *)target->data, chain_name)) break; } return list; } static GList *find_chain_tail(struct connman_iptables *table, char *chain_name) { GList *chain_head, *list; struct connman_iptables_entry *tail; chain_head = find_chain_head(table, chain_name); if (chain_head == NULL) return NULL; /* Then we look for the next chain */ for (list = chain_head->next; list; list = list->next) { tail = list->data; if (is_chain(table, tail)) return list; } /* Nothing found, we return the table end */ return g_list_last(table->entries); } static void update_offsets(struct connman_iptables *table) { GList *list, *prev; struct connman_iptables_entry *entry, *prev_entry; for (list = table->entries; list; list = list->next) { entry = list->data; if (list == table->entries) { entry->offset = 0; continue; } prev = list->prev; prev_entry = prev->data; entry->offset = prev_entry->offset + prev_entry->entry->next_offset; } } static void update_targets_reference(struct connman_iptables *table, struct connman_iptables_entry *entry_before, struct connman_iptables_entry *modified_entry, gboolean is_removing) { struct connman_iptables_entry *tmp; struct xt_standard_target *t; GList *list; int offset; offset = modified_entry->entry->next_offset; for (list = table->entries; list; list = list->next) { tmp = list->data; if (!is_jump(tmp)) continue; t = (struct xt_standard_target *)ipt_get_target(tmp->entry); if (is_removing == TRUE) { if (t->verdict >= entry_before->offset) t->verdict -= offset; } else { if (t->verdict > entry_before->offset) t->verdict += offset; } } } static int connman_add_entry(struct connman_iptables *table, struct ipt_entry *entry, GList *before, int builtin) { struct connman_iptables_entry *e, *entry_before; if (table == NULL) return -1; e = g_try_malloc0(sizeof(struct connman_iptables_entry)); if (e == NULL) return -1; e->entry = entry; e->builtin = builtin; table->entries = g_list_insert_before(table->entries, before, e); table->num_entries++; table->size += entry->next_offset; if (before == NULL) { e->offset = table->size - entry->next_offset; return 0; } entry_before = before->data; /* * We've just appended/insterted a new entry. All references * should be bumped accordingly. */ update_targets_reference(table, entry_before, e, FALSE); update_offsets(table); return 0; } static int remove_table_entry(struct connman_iptables *table, struct connman_iptables_entry *entry) { int removed = 0; table->num_entries--; table->size -= entry->entry->next_offset; removed = entry->entry->next_offset; g_free(entry->entry); table->entries = g_list_remove(table->entries, entry); return removed; } static int connman_iptables_flush_chain(struct connman_iptables *table, char *name) { GList *chain_head, *chain_tail, *list, *next; struct connman_iptables_entry *entry; int builtin, removed = 0; chain_head = find_chain_head(table, name); if (chain_head == NULL) return -EINVAL; chain_tail = find_chain_tail(table, name); if (chain_tail == NULL) return -EINVAL; entry = chain_head->data; builtin = entry->builtin; if (builtin >= 0) list = chain_head; else list = chain_head->next; if (list == chain_tail->prev) return 0; while (list != chain_tail->prev) { entry = list->data; next = g_list_next(list); removed += remove_table_entry(table, entry); list = next; } if (builtin >= 0) { struct connman_iptables_entry *e; entry = list->data; entry->builtin = builtin; table->underflow[builtin] -= removed; for (list = chain_tail; list; list = list->next) { e = list->data; builtin = e->builtin; if (builtin < 0) continue; table->hook_entry[builtin] -= removed; table->underflow[builtin] -= removed; } } update_offsets(table); return 0; } static int connman_iptables_delete_chain(struct connman_iptables *table, char *name) { GList *chain_head, *chain_tail; struct connman_iptables_entry *entry; chain_head = find_chain_head(table, name); if (chain_head == NULL) return -EINVAL; entry = chain_head->data; /* We cannot remove builtin chain */ if (entry->builtin >= 0) return -EINVAL; chain_tail = find_chain_tail(table, name); if (chain_tail == NULL) return -EINVAL; /* Chain must be flushed */ if (chain_head->next != chain_tail->prev) return -EINVAL; remove_table_entry(table, entry); entry = chain_tail->prev->data; remove_table_entry(table, entry); update_offsets(table); return 0; } static int connman_iptables_add_chain(struct connman_iptables *table, char *name) { GList *last; struct ipt_entry *entry_head; struct ipt_entry *entry_return; struct error_target *error; struct ipt_standard_target *standard; u_int16_t entry_head_size, entry_return_size; last = g_list_last(table->entries); /* * An empty chain is composed of: * - A head entry, with no match and an error target. * The error target data is the chain name. * - A tail entry, with no match and a standard target. * The standard target verdict is XT_RETURN (return to the * caller). */ /* head entry */ entry_head_size = sizeof(struct ipt_entry) + sizeof(struct error_target); entry_head = g_try_malloc0(entry_head_size); if (entry_head == NULL) goto err_head; memset(entry_head, 0, entry_head_size); entry_head->target_offset = sizeof(struct ipt_entry); entry_head->next_offset = entry_head_size; error = (struct error_target *) entry_head->elems; strcpy(error->t.u.user.name, IPT_ERROR_TARGET); error->t.u.user.target_size = ALIGN(sizeof(struct error_target)); strcpy(error->error, name); if (connman_add_entry(table, entry_head, last, -1) < 0) goto err_head; /* tail entry */ entry_return_size = sizeof(struct ipt_entry) + sizeof(struct ipt_standard_target); entry_return = g_try_malloc0(entry_return_size); if (entry_return == NULL) goto err; memset(entry_return, 0, entry_return_size); entry_return->target_offset = sizeof(struct ipt_entry); entry_return->next_offset = entry_return_size; standard = (struct ipt_standard_target *) entry_return->elems; standard->target.u.user.target_size = ALIGN(sizeof(struct ipt_standard_target)); standard->verdict = XT_RETURN; if (connman_add_entry(table, entry_return, last, -1) < 0) goto err; return 0; err: g_free(entry_return); err_head: g_free(entry_head); return -ENOMEM; } static struct ipt_entry *new_rule(struct ipt_ip *ip, char *target_name, struct xtables_target *xt_t, struct xtables_rule_match *xt_rm) { struct xtables_rule_match *tmp_xt_rm; struct ipt_entry *new_entry; size_t match_size, target_size; match_size = 0; for (tmp_xt_rm = xt_rm; tmp_xt_rm != NULL; tmp_xt_rm = tmp_xt_rm->next) match_size += tmp_xt_rm->match->m->u.match_size; if (xt_t) target_size = ALIGN(xt_t->t->u.target_size); else target_size = ALIGN(sizeof(struct xt_standard_target)); new_entry = g_try_malloc0(sizeof(struct ipt_entry) + target_size + match_size); if (new_entry == NULL) return NULL; memcpy(&new_entry->ip, ip, sizeof(struct ipt_ip)); new_entry->target_offset = sizeof(struct ipt_entry) + match_size; new_entry->next_offset = sizeof(struct ipt_entry) + target_size + match_size; match_size = 0; for (tmp_xt_rm = xt_rm; tmp_xt_rm != NULL; tmp_xt_rm = tmp_xt_rm->next) { memcpy(new_entry->elems + match_size, tmp_xt_rm->match->m, tmp_xt_rm->match->m->u.match_size); match_size += tmp_xt_rm->match->m->u.match_size; } if (xt_t) { struct xt_entry_target *entry_target; entry_target = ipt_get_target(new_entry); memcpy(entry_target, xt_t->t, target_size); } return new_entry; } static void update_hooks(struct connman_iptables *table, GList *chain_head, struct ipt_entry *entry) { GList *list; struct connman_iptables_entry *head, *e; int builtin; if (chain_head == NULL) return; head = chain_head->data; builtin = head->builtin; if (builtin < 0) return; table->underflow[builtin] += entry->next_offset; for (list = chain_head->next; list; list = list->next) { e = list->data; builtin = e->builtin; if (builtin < 0) continue; table->hook_entry[builtin] += entry->next_offset; table->underflow[builtin] += entry->next_offset; } } static struct ipt_entry *prepare_rule_inclusion(struct connman_iptables *table, struct ipt_ip *ip, char *chain_name, char *target_name, struct xtables_target *xt_t, int *builtin, struct xtables_rule_match *xt_rm) { GList *chain_tail, *chain_head; struct ipt_entry *new_entry; struct connman_iptables_entry *head; chain_head = find_chain_head(table, chain_name); if (chain_head == NULL) return NULL; chain_tail = find_chain_tail(table, chain_name); if (chain_tail == NULL) return NULL; new_entry = new_rule(ip, target_name, xt_t, xt_rm); if (new_entry == NULL) return NULL; update_hooks(table, chain_head, new_entry); /* * If the chain is builtin, and does not have any rule, * then the one that we're inserting is becoming the head * and thus needs the builtin flag. */ head = chain_head->data; if (head->builtin < 0) *builtin = -1; else if (chain_head == chain_tail->prev) { *builtin = head->builtin; head->builtin = -1; } return new_entry; } static int connman_iptables_append_rule(struct connman_iptables *table, struct ipt_ip *ip, char *chain_name, char *target_name, struct xtables_target *xt_t, struct xtables_rule_match *xt_rm) { GList *chain_tail; struct ipt_entry *new_entry; int builtin = -1, ret; chain_tail = find_chain_tail(table, chain_name); if (chain_tail == NULL) return -EINVAL; new_entry = prepare_rule_inclusion(table, ip, chain_name, target_name, xt_t, &builtin, xt_rm); if (new_entry == NULL) return -EINVAL; ret = connman_add_entry(table, new_entry, chain_tail->prev, builtin); if (ret < 0) g_free(new_entry); return ret; } static int connman_iptables_insert_rule(struct connman_iptables *table, struct ipt_ip *ip, char *chain_name, char *target_name, struct xtables_target *xt_t, struct xtables_rule_match *xt_rm) { GList *chain_head; struct ipt_entry *new_entry; int builtin = -1, ret; chain_head = find_chain_head(table, chain_name); if (chain_head == NULL) return -EINVAL; new_entry = prepare_rule_inclusion(table, ip, chain_name, target_name, xt_t, &builtin, xt_rm); if (new_entry == NULL) return -EINVAL; if (builtin == -1) chain_head = chain_head->next; ret = connman_add_entry(table, new_entry, chain_head, builtin); if (ret < 0) g_free(new_entry); return ret; } static gboolean is_same_ipt_entry(struct ipt_entry *i_e1, struct ipt_entry *i_e2) { if (memcmp(&i_e1->ip, &i_e2->ip, sizeof(struct ipt_ip)) != 0) return FALSE; if (i_e1->target_offset != i_e2->target_offset) return FALSE; if (i_e1->next_offset != i_e2->next_offset) return FALSE; return TRUE; } static gboolean is_same_target(struct xt_entry_target *xt_e_t1, struct xt_entry_target *xt_e_t2) { if (xt_e_t1 == NULL || xt_e_t2 == NULL) return FALSE; if (strcmp(xt_e_t1->u.user.name, IPT_STANDARD_TARGET) == 0) { struct xt_standard_target *xt_s_t1; struct xt_standard_target *xt_s_t2; xt_s_t1 = (struct xt_standard_target *) xt_e_t1; xt_s_t2 = (struct xt_standard_target *) xt_e_t2; if (xt_s_t1->verdict != xt_s_t2->verdict) return FALSE; } else { if (xt_e_t1->u.target_size != xt_e_t2->u.target_size) return FALSE; if (strcmp(xt_e_t1->u.user.name, xt_e_t2->u.user.name) != 0) return FALSE; } return TRUE; } static gboolean is_same_match(struct xt_entry_match *xt_e_m1, struct xt_entry_match *xt_e_m2) { if (xt_e_m1 == NULL || xt_e_m2 == NULL) return FALSE; if (xt_e_m1->u.match_size != xt_e_m2->u.match_size) return FALSE; if (xt_e_m1->u.user.revision != xt_e_m2->u.user.revision) return FALSE; if (strcmp(xt_e_m1->u.user.name, xt_e_m2->u.user.name) != 0) return FALSE; return TRUE; } static GList *find_existing_rule(struct connman_iptables *table, struct ipt_ip *ip, char *chain_name, char *target_name, struct xtables_target *xt_t, struct xtables_match *xt_m, struct xtables_rule_match *xt_rm) { GList *chain_tail, *chain_head, *list; struct xt_entry_target *xt_e_t = NULL; struct xt_entry_match *xt_e_m = NULL; struct connman_iptables_entry *entry; struct ipt_entry *entry_test; int builtin; chain_head = find_chain_head(table, chain_name); if (chain_head == NULL) return NULL; chain_tail = find_chain_tail(table, chain_name); if (chain_tail == NULL) return NULL; if (!xt_t && !xt_m) return NULL; entry_test = new_rule(ip, target_name, xt_t, xt_rm); if (entry_test == NULL) return NULL; if (xt_t != NULL) xt_e_t = ipt_get_target(entry_test); if (xt_m != NULL) xt_e_m = (struct xt_entry_match *)entry_test->elems; entry = chain_head->data; builtin = entry->builtin; if (builtin >= 0) list = chain_head; else list = chain_head->next; for (; list != chain_tail->prev; list = list->next) { struct connman_iptables_entry *tmp; struct ipt_entry *tmp_e; tmp = list->data; tmp_e = tmp->entry; if (is_same_ipt_entry(entry_test, tmp_e) == FALSE) continue; if (xt_t != NULL) { struct xt_entry_target *tmp_xt_e_t; tmp_xt_e_t = ipt_get_target(tmp_e); if (!is_same_target(tmp_xt_e_t, xt_e_t)) continue; } if (xt_m != NULL) { struct xt_entry_match *tmp_xt_e_m; tmp_xt_e_m = (struct xt_entry_match *)tmp_e->elems; if (!is_same_match(tmp_xt_e_m, xt_e_m)) continue; } break; } g_free(entry_test); if (list != chain_tail->prev) return list; return NULL; } static int connman_iptables_delete_rule(struct connman_iptables *table, struct ipt_ip *ip, char *chain_name, char *target_name, struct xtables_target *xt_t, struct xtables_match *xt_m, struct xtables_rule_match *xt_rm) { struct connman_iptables_entry *entry; GList *chain_tail, *list; int builtin, removed; removed = 0; chain_tail = find_chain_tail(table, chain_name); if (chain_tail == NULL) return -EINVAL; list = find_existing_rule(table, ip, chain_name, target_name, xt_t, xt_m, xt_rm); if (list == NULL) return -EINVAL; entry = list->data; if (entry == NULL) return -EINVAL; builtin = entry->builtin; /* We have deleted a rule, * all references should be bumped accordingly */ if (list->next != NULL) update_targets_reference(table, list->next->data, list->data, TRUE); removed += remove_table_entry(table, entry); if (builtin >= 0) { list = list->next; if (list) { entry = list->data; entry->builtin = builtin; } table->underflow[builtin] -= removed; for (list = chain_tail; list; list = list->next) { entry = list->data; builtin = entry->builtin; if (builtin < 0) continue; table->hook_entry[builtin] -= removed; table->underflow[builtin] -= removed; } } update_offsets(table); return 0; } static int connman_iptables_compare_rule(struct connman_iptables *table, struct ipt_ip *ip, char *chain_name, char *target_name, struct xtables_target *xt_t, struct xtables_match *xt_m, struct xtables_rule_match *xt_rm) { struct connman_iptables_entry *entry; GList *found; found = find_existing_rule(table, ip, chain_name, target_name, xt_t, xt_m, xt_rm); if (found == NULL) return -EINVAL; entry = found->data; if (entry == NULL) return -EINVAL; return 0; } static int connman_iptables_change_policy(struct connman_iptables *table, char *chain_name, char *policy) { GList *chain_head; struct connman_iptables_entry *entry; struct xt_entry_target *target; struct xt_standard_target *t; int verdict; verdict = target_to_verdict(policy); if (verdict == 0) return -EINVAL; chain_head = find_chain_head(table, chain_name); if (chain_head == NULL) return -EINVAL; entry = chain_head->data; if (entry->builtin < 0) return -EINVAL; target = ipt_get_target(entry->entry); t = (struct xt_standard_target *)target; t->verdict = verdict; return 0; } static struct ipt_replace *connman_iptables_blob(struct connman_iptables *table) { struct ipt_replace *r; GList *list; struct connman_iptables_entry *e; unsigned char *entry_index; r = g_try_malloc0(sizeof(struct ipt_replace) + table->size); if (r == NULL) return NULL; memset(r, 0, sizeof(*r) + table->size); r->counters = g_try_malloc0(sizeof(struct xt_counters) * table->old_entries); if (r->counters == NULL) { g_free(r); return NULL; } strcpy(r->name, table->info->name); r->num_entries = table->num_entries; r->size = table->size; r->num_counters = table->old_entries; r->valid_hooks = table->info->valid_hooks; memcpy(r->hook_entry, table->hook_entry, sizeof(table->hook_entry)); memcpy(r->underflow, table->underflow, sizeof(table->underflow)); entry_index = (unsigned char *)r->entries; for (list = table->entries; list; list = list->next) { e = list->data; memcpy(entry_index, e->entry, e->entry->next_offset); entry_index += e->entry->next_offset; } return r; } static void dump_target(struct connman_iptables *table, struct ipt_entry *entry) { struct xtables_target *xt_t; struct xt_entry_target *target; target = ipt_get_target(entry); if (!strcmp(target->u.user.name, IPT_STANDARD_TARGET)) { struct xt_standard_target *t; t = (struct xt_standard_target *)target; switch (t->verdict) { case XT_RETURN: printf("\ttarget RETURN\n"); break; case -NF_ACCEPT - 1: printf("\ttarget ACCEPT\n"); break; case -NF_DROP - 1: printf("\ttarget DROP\n"); break; case -NF_QUEUE - 1: printf("\ttarget QUEUE\n"); break; case -NF_STOP - 1: printf("\ttarget STOP\n"); break; default: printf("\tJUMP @%p (0x%x)\n", (char*)table->blob_entries->entrytable + t->verdict, t->verdict); break; } xt_t = xtables_find_target(IPT_STANDARD_TARGET, XTF_LOAD_MUST_SUCCEED); if(xt_t->print != NULL) xt_t->print(NULL, target, 1); } else { xt_t = xtables_find_target(target->u.user.name, XTF_TRY_LOAD); if (xt_t == NULL) { printf("\ttarget %s\n", target->u.user.name); return; } if(xt_t->print != NULL) { printf("\ttarget "); xt_t->print(NULL, target, 1); printf("\n"); } } } static void dump_match(struct connman_iptables *table, struct ipt_entry *entry) { struct xtables_match *xt_m; struct xt_entry_match *match; if (entry->elems == (unsigned char *)entry + entry->target_offset) return; match = (struct xt_entry_match *) entry->elems; if (!strlen(match->u.user.name)) return; xt_m = xtables_find_match(match->u.user.name, XTF_TRY_LOAD, NULL); if (xt_m == NULL) goto out; if(xt_m->print != NULL) { printf("\tmatch "); xt_m->print(NULL, match, 1); printf("\n"); return; } out: printf("\tmatch %s\n", match->u.user.name); } static int connman_iptables_dump_entry(struct ipt_entry *entry, struct connman_iptables *table) { struct xt_entry_target *target; unsigned int offset; int builtin; offset = (char *)entry - (char *)table->blob_entries->entrytable; target = ipt_get_target(entry); builtin = is_hook_entry(table, entry); if (entry_to_offset(table, entry) + entry->next_offset == table->blob_entries->size) { printf("End of CHAIN 0x%x\n", offset); return 0; } if (!strcmp(target->u.user.name, IPT_ERROR_TARGET)) { printf("USER CHAIN (%s) %p match %p target %p size %d\n", target->data, entry, entry->elems, (char *)entry + entry->target_offset, entry->next_offset); return 0; } else if (builtin >= 0) { printf("CHAIN (%s) %p match %p target %p size %d\n", hooknames[builtin], entry, entry->elems, (char *)entry + entry->target_offset, entry->next_offset); } else { printf("RULE %p match %p target %p size %d\n", entry, entry->elems, (char *)entry + entry->target_offset, entry->next_offset); } dump_match(table, entry); dump_target(table, entry); return 0; } static void connman_iptables_dump_hook(struct connman_iptables *table) { int i; printf("hooks: \n"); for (i = 0; i < NF_INET_NUMHOOKS; i++) { if ((table->info->valid_hooks & (1 << i))) printf("%s entry %p underflow %p (%#x)\n", hooknames[i], table->blob_entries->entrytable + table->info->hook_entry[i], table->blob_entries->entrytable + table->info->underflow[i], table->info->underflow[i]); } } static void connman_iptables_dump(struct connman_iptables *table) { printf("%s valid_hooks=0x%08x, num_entries=%u, size=%u\n", table->info->name, table->info->valid_hooks, table->info->num_entries, table->info->size); connman_iptables_dump_hook(table); ENTRY_ITERATE(table->blob_entries->entrytable, table->blob_entries->size, connman_iptables_dump_entry, table); } static int connman_iptables_get_entries(struct connman_iptables *table) { socklen_t entry_size; entry_size = sizeof(struct ipt_get_entries) + table->info->size; return getsockopt(table->ipt_sock, IPPROTO_IP, IPT_SO_GET_ENTRIES, table->blob_entries, &entry_size); } static int connman_iptables_replace(struct connman_iptables *table, struct ipt_replace *r) { return setsockopt(table->ipt_sock, IPPROTO_IP, IPT_SO_SET_REPLACE, r, sizeof(*r) + r->size); } static void connman_iptables_cleanup(struct connman_iptables *table) { GList *list; struct connman_iptables_entry *entry; close(table->ipt_sock); for (list = table->entries; list; list = list->next) { entry = list->data; g_free(entry->entry); } g_free(table->info); g_free(table->blob_entries); g_free(table); xtables_free_opts(1); } static int connman_iptables_commit(struct connman_iptables *table) { struct ipt_replace *repl; repl = connman_iptables_blob(table); return connman_iptables_replace(table, repl); } static int add_entry(struct ipt_entry *entry, struct connman_iptables *table) { struct ipt_entry *new_entry; int builtin; new_entry = g_try_malloc0(entry->next_offset); if (new_entry == NULL) return -ENOMEM; memcpy(new_entry, entry, entry->next_offset); builtin = is_hook_entry(table, entry); return connman_add_entry(table, new_entry, NULL, builtin); } static struct connman_iptables *connman_iptables_init(const char *table_name) { struct connman_iptables *table = NULL; char *module = NULL; socklen_t s; if (table_name == NULL) table_name = "filter"; if (xtables_insmod("ip_tables", NULL, TRUE) != 0) goto err; module = g_strconcat("iptable_", table_name, NULL); if (module == NULL) goto err; if (xtables_insmod(module, NULL, TRUE) != 0) goto err; g_free(module); module = NULL; table = g_try_new0(struct connman_iptables, 1); if (table == NULL) return NULL; table->info = g_try_new0(struct ipt_getinfo, 1); if (table->info == NULL) goto err; table->ipt_sock = socket(AF_INET, SOCK_RAW | SOCK_CLOEXEC, IPPROTO_RAW); if (table->ipt_sock < 0) goto err; s = sizeof(*table->info); strcpy(table->info->name, table_name); if (getsockopt(table->ipt_sock, IPPROTO_IP, IPT_SO_GET_INFO, table->info, &s) < 0) goto err; table->blob_entries = g_try_malloc0(sizeof(struct ipt_get_entries) + table->info->size); if (table->blob_entries == NULL) goto err; strcpy(table->blob_entries->name, table_name); table->blob_entries->size = table->info->size; if (connman_iptables_get_entries(table) < 0) goto err; table->num_entries = 0; table->old_entries = table->info->num_entries; table->size = 0; memcpy(table->underflow, table->info->underflow, sizeof(table->info->underflow)); memcpy(table->hook_entry, table->info->hook_entry, sizeof(table->info->hook_entry)); ENTRY_ITERATE(table->blob_entries->entrytable, table->blob_entries->size, add_entry, table); return table; err: g_free(module); connman_iptables_cleanup(table); return NULL; } static struct option connman_iptables_opts[] = { {.name = "append", .has_arg = 1, .val = 'A'}, {.name = "compare", .has_arg = 1, .val = 'C'}, {.name = "delete", .has_arg = 1, .val = 'D'}, {.name = "flush-chain", .has_arg = 1, .val = 'F'}, {.name = "insert", .has_arg = 1, .val = 'I'}, {.name = "list", .has_arg = 2, .val = 'L'}, {.name = "new-chain", .has_arg = 1, .val = 'N'}, {.name = "policy", .has_arg = 1, .val = 'P'}, {.name = "delete-chain", .has_arg = 1, .val = 'X'}, {.name = "destination", .has_arg = 1, .val = 'd'}, {.name = "in-interface", .has_arg = 1, .val = 'i'}, {.name = "jump", .has_arg = 1, .val = 'j'}, {.name = "match", .has_arg = 1, .val = 'm'}, {.name = "out-interface", .has_arg = 1, .val = 'o'}, {.name = "source", .has_arg = 1, .val = 's'}, {.name = "table", .has_arg = 1, .val = 't'}, {NULL}, }; struct xtables_globals connman_iptables_globals = { .option_offset = 0, .opts = connman_iptables_opts, .orig_opts = connman_iptables_opts, }; static struct xtables_target *prepare_target(struct connman_iptables *table, char *target_name) { struct xtables_target *xt_t = NULL; gboolean is_builtin, is_user_defined; GList *chain_head = NULL; size_t target_size; is_builtin = FALSE; is_user_defined = FALSE; if (is_builtin_target(target_name)) is_builtin = TRUE; else { chain_head = find_chain_head(table, target_name); if (chain_head != NULL && chain_head->next != NULL) is_user_defined = TRUE; } if (is_builtin || is_user_defined) xt_t = xtables_find_target(IPT_STANDARD_TARGET, XTF_LOAD_MUST_SUCCEED); else xt_t = xtables_find_target(target_name, XTF_TRY_LOAD); if (xt_t == NULL) return NULL; target_size = ALIGN(sizeof(struct ipt_entry_target)) + xt_t->size; xt_t->t = g_try_malloc0(target_size); if (xt_t->t == NULL) return NULL; xt_t->t->u.target_size = target_size; if (is_builtin || is_user_defined) { struct xt_standard_target *target; target = (struct xt_standard_target *)(xt_t->t); strcpy(target->target.u.user.name, IPT_STANDARD_TARGET); if (is_builtin == TRUE) target->verdict = target_to_verdict(target_name); else if (is_user_defined == TRUE) { struct connman_iptables_entry *target_rule; if (chain_head == NULL) { g_free(xt_t->t); return NULL; } target_rule = chain_head->next->data; target->verdict = target_rule->offset; } } else { strcpy(xt_t->t->u.user.name, target_name); xt_t->t->u.user.revision = xt_t->revision; if (xt_t->init != NULL) xt_t->init(xt_t->t); } #if XTABLES_VERSION_CODE > 5 if (xt_t->x6_options != NULL) connman_iptables_globals.opts = xtables_options_xfrm( connman_iptables_globals.orig_opts, connman_iptables_globals.opts, xt_t->x6_options, &xt_t->option_offset); else #endif connman_iptables_globals.opts = xtables_merge_options( #if XTABLES_VERSION_CODE > 5 connman_iptables_globals.orig_opts, #endif connman_iptables_globals.opts, xt_t->extra_opts, &xt_t->option_offset); if (connman_iptables_globals.opts == NULL) { g_free(xt_t->t); xt_t = NULL; } return xt_t; } static struct xtables_match *prepare_matches(struct connman_iptables *table, struct xtables_rule_match **xt_rm, char *match_name) { struct xtables_match *xt_m; size_t match_size; if (match_name == NULL) return NULL; xt_m = xtables_find_match(match_name, XTF_LOAD_MUST_SUCCEED, xt_rm); match_size = ALIGN(sizeof(struct ipt_entry_match)) + xt_m->size; xt_m->m = g_try_malloc0(match_size); if (xt_m->m == NULL) return NULL; xt_m->m->u.match_size = match_size; strcpy(xt_m->m->u.user.name, xt_m->name); xt_m->m->u.user.revision = xt_m->revision; if (xt_m->init != NULL) xt_m->init(xt_m->m); if (xt_m == xt_m->next) goto done; #if XTABLES_VERSION_CODE > 5 if (xt_m->x6_options != NULL) connman_iptables_globals.opts = xtables_options_xfrm( connman_iptables_globals.orig_opts, connman_iptables_globals.opts, xt_m->x6_options, &xt_m->option_offset); else #endif connman_iptables_globals.opts = xtables_merge_options( #if XTABLES_VERSION_CODE > 5 connman_iptables_globals.orig_opts, #endif connman_iptables_globals.opts, xt_m->extra_opts, &xt_m->option_offset); if (connman_iptables_globals.opts == NULL) { g_free(xt_m->m); xt_m = NULL; } done: return xt_m; } static int parse_ip_and_mask(const char *str, struct in_addr *ip, struct in_addr *mask) { char **tokens; uint32_t prefixlength; uint32_t tmp; int err; tokens = g_strsplit(str, "/", 2); if (tokens == NULL) return -1; if (!inet_pton(AF_INET, tokens[0], ip)) { err = -1; goto out; } if (tokens[1] != NULL) { prefixlength = strtol(tokens[1], NULL, 10); if (prefixlength > 31) { err = -1; goto out; } tmp = ~(0xffffffff >> prefixlength); } else { tmp = 0xffffffff; } mask->s_addr = htonl(tmp); ip->s_addr = ip->s_addr & mask->s_addr; err = 0; out: g_strfreev(tokens); return err; } static struct connman_iptables *pre_load_table(char *table_name, struct connman_iptables *table) { if (table != NULL) return table; return connman_iptables_init(table_name); } int main(int argc, char *argv[]) { struct connman_iptables *table; struct xtables_rule_match *xt_rm, *tmp_xt_rm; struct xtables_match *xt_m, *xt_m_t; struct xtables_target *xt_t; struct ipt_ip ip; char *table_name, *chain, *new_chain, *match_name, *target_name; char *delete_chain, *flush_chain, *policy; int c, in_len, out_len; gboolean dump, invert, delete, insert, delete_rule, compare_rule; xtables_init_all(&connman_iptables_globals, NFPROTO_IPV4); dump = FALSE; invert = FALSE; delete = FALSE; insert = FALSE; delete_rule = FALSE; compare_rule = FALSE; chain = new_chain = match_name = target_name = NULL; delete_chain = flush_chain = policy = table_name = NULL; memset(&ip, 0, sizeof(struct ipt_ip)); table = NULL; xt_rm = NULL; xt_m = NULL; xt_t = NULL; /* extension's options will generate false-positives errors */ opterr = 0; while ((c = getopt_long(argc, argv, "-A:C:D:F:I:L::N:P:X:d:i:j:m:o:s:t:", connman_iptables_globals.opts, NULL)) != -1) { switch (c) { case 'A': /* It is either -A, -C, -D or -I at once */ if (chain) goto out; chain = optarg; break; case 'C': /* It is either -A, -C, -D or -I at once */ if (chain) goto out; chain = optarg; compare_rule = TRUE; break; case 'D': /* It is either -A, -C, -D or -I at once */ if (chain) goto out; chain = optarg; delete_rule = TRUE; break; case 'F': flush_chain = optarg; break; case 'I': /* It is either -A, -C, -D or -I at once */ if (chain) goto out; chain = optarg; insert = TRUE; break; case 'L': dump = true; break; case 'N': new_chain = optarg; break; case 'P': chain = optarg; if (optind < argc) policy = argv[optind++]; else goto out; break; case 'X': delete = true; delete_chain = optarg; break; case 'd': if (!parse_ip_and_mask(optarg, &ip.dst, &ip.dmsk)) break; if (invert) ip.invflags |= IPT_INV_DSTIP; break; case 'i': in_len = strlen(optarg); if (in_len + 1 > IFNAMSIZ) break; strcpy(ip.iniface, optarg); memset(ip.iniface_mask, 0xff, in_len + 1); if (invert) ip.invflags |= IPT_INV_VIA_IN; break; case 'j': target_name = optarg; table = pre_load_table(table_name, table); if (table == NULL) goto out; xt_t = prepare_target(table, target_name); if (xt_t == NULL) goto out; break; case 'm': match_name = optarg; table = pre_load_table(table_name, table); if (table == NULL) goto out; xt_m = prepare_matches(table, &xt_rm, match_name); if (xt_m == NULL) goto out; break; case 'o': out_len = strlen(optarg); if (out_len + 1 > IFNAMSIZ) break; strcpy(ip.outiface, optarg); memset(ip.outiface_mask, 0xff, out_len + 1); if (invert) ip.invflags |= IPT_INV_VIA_OUT; break; case 's': if (!parse_ip_and_mask(optarg, &ip.src, &ip.smsk)) break; if (invert) ip.invflags |= IPT_INV_SRCIP; break; case 't': table_name = optarg; table = pre_load_table(table_name, table); if (table == NULL) return -1; break; case 1: if (optarg[0] == '!' && optarg[1] == '\0') { if (invert) printf("Consecutive ! not allowed\n"); invert = TRUE; optarg[0] = '\0'; continue; } printf("Invalid option\n"); return -1; default: #if XTABLES_VERSION_CODE > 5 if (xt_t != NULL && (xt_t->x6_parse != NULL || xt_t->parse != NULL) && (c >= (int) xt_t->option_offset && c < (int) xt_t->option_offset + XT_OPTION_OFFSET_SCALE)) { xtables_option_tpcall(c, argv, invert, xt_t, NULL); break; } for (tmp_xt_rm = xt_rm; tmp_xt_rm != NULL; tmp_xt_rm = tmp_xt_rm->next) { xt_m_t = tmp_xt_rm->match; if (tmp_xt_rm->completed || (xt_m_t->x6_parse == NULL && xt_m_t->parse == NULL)) continue; if (c < (int) xt_m_t->option_offset || c >= (int) xt_m_t->option_offset + XT_OPTION_OFFSET_SCALE) continue; xtables_option_mpcall(c, argv, invert, xt_m_t, NULL); break; } #else if (xt_t == NULL || xt_t->parse == NULL || !xt_t->parse(c - xt_t->option_offset, argv, invert, &xt_t->tflags, NULL, &xt_t->t)) { for (tmp_xt_rm = xt_rm; tmp_xt_rm != NULL; tmp_xt_rm = tmp_xt_rm->next) { xt_m_t = tmp_xt_rm->match; if (tmp_xt_rm->completed || xt_m_t->parse == NULL) continue; if (xt_m->parse(c - xt_m->option_offset, argv, invert, &xt_m->mflags, NULL, &xt_m->m)) break; } } #endif break; } invert = FALSE; } #if XTABLES_VERSION_CODE > 5 for (tmp_xt_rm = xt_rm; tmp_xt_rm != NULL; tmp_xt_rm = tmp_xt_rm->next) xtables_option_mfcall(tmp_xt_rm->match); if (xt_t != NULL) xtables_option_tfcall(xt_t); #else for (tmp_xt_rm = xt_rm; tmp_xt_rm != NULL; tmp_xt_rm = tmp_xt_rm->next) if (tmp_xt_rm->match->final_check != NULL) tmp_xt_rm->match->final_check( tmp_xt_rm->match->mflags); if (xt_t != NULL && xt_t->final_check != NULL) xt_t->final_check(xt_t->tflags); #endif table = pre_load_table(table_name, table); if (table == NULL) return -1; if (delete) { if (delete_chain == NULL) goto out; printf("Delete chain %s\n", delete_chain); connman_iptables_delete_chain(table, delete_chain); goto commit; } if (flush_chain) { printf("Flush chain %s\n", flush_chain); connman_iptables_flush_chain(table, flush_chain); goto commit; } if (dump) { connman_iptables_dump(table); return 0; } if (chain && new_chain) return -1; if (new_chain) { printf("New chain %s\n", new_chain); connman_iptables_add_chain(table, new_chain); goto commit; } if (chain) { if (policy != NULL) { printf("Changing policy of %s to %s\n", chain, policy); connman_iptables_change_policy(table, chain, policy); goto commit; } if (compare_rule == TRUE) { int ret; ret = connman_iptables_compare_rule(table, &ip, chain, target_name, xt_t, xt_m, xt_rm); if (ret == 0) printf("Rule exists.\n"); else printf("Rule does not exist.\n"); goto out; } if (delete_rule == TRUE) { printf("Deleting %s to %s (match %s)\n", target_name, chain, match_name); connman_iptables_delete_rule(table, &ip, chain, target_name, xt_t, xt_m, xt_rm); goto commit; } if (insert == TRUE) { printf("Inserting %s to %s (match %s)\n", target_name, chain, match_name); connman_iptables_insert_rule(table, &ip, chain, target_name, xt_t, xt_rm); } else { printf("Appending %s to %s (match %s)\n", target_name, chain, match_name); connman_iptables_append_rule(table, &ip, chain, target_name, xt_t, xt_rm); } } commit: connman_iptables_commit(table); out: connman_iptables_cleanup(table); if (xt_t) g_free(xt_t->t); if (xt_m) g_free(xt_m->m); return 0; }