/* * OpenVPN -- An application to securely tunnel IP networks * over a single TCP/UDP port, with support for SSL/TLS-based * session authentication and key exchange, * packet encryption, packet authentication, and * packet compression. * * Copyright (C) 2002-2010 OpenVPN Technologies, Inc. * * 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 (see the file COPYING included with this * distribution); if not, write to the Free Software Foundation, Inc., * 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ /* packet filter functions */ #include "syshead.h" #if defined(ENABLE_PF) #include "init.h" #include "memdbg.h" #include "pf-inline.h" static void pf_destroy (struct pf_set *pfs) { if (pfs) { if (pfs->cns.hash_table) hash_free (pfs->cns.hash_table); { struct pf_cn_elem *l = pfs->cns.list; while (l) { struct pf_cn_elem *next = l->next; free (l->rule.cn); free (l); l = next; } } { struct pf_subnet *l = pfs->sns.list; while (l) { struct pf_subnet *next = l->next; free (l); l = next; } } free (pfs); } } static bool add_client (const char *line, const char *prefix, const int line_num, struct pf_cn_elem ***next, const bool exclude) { struct pf_cn_elem *e; ALLOC_OBJ_CLEAR (e, struct pf_cn_elem); e->rule.exclude = exclude; e->rule.cn = string_alloc (line, NULL); **next = e; *next = &e->next; return true; } static bool add_subnet (const char *line, const char *prefix, const int line_num, struct pf_subnet ***next, const bool exclude) { struct in_addr network; in_addr_t netmask = 0; if (strcmp (line, "unknown")) { int netbits = 32; char *div = strchr (line, '/'); if (div) { *div++ = '\0'; if (sscanf (div, "%d", &netbits) != 1) { msg (D_PF_INFO, "PF: %s/%d: bad '/n' subnet specifier: '%s'", prefix, line_num, div); return false; } if (netbits < 0 || netbits > 32) { msg (D_PF_INFO, "PF: %s/%d: bad '/n' subnet specifier: must be between 0 and 32: '%s'", prefix, line_num, div); return false; } } if (openvpn_inet_aton (line, &network) != OIA_IP) { msg (D_PF_INFO, "PF: %s/%d: bad network address: '%s'", prefix, line_num, line); return false; } netmask = netbits_to_netmask (netbits); if ((network.s_addr & htonl (netmask)) != network.s_addr) { network.s_addr &= htonl (netmask); msg (M_WARN, "WARNING: PF: %s/%d: incorrect subnet %s/%d changed to %s/%d", prefix, line_num, line, netbits, inet_ntoa (network), netbits); } } else { /* match special "unknown" tag for addresses unrecognized by mroute */ network.s_addr = htonl(0); netmask = ~0; } { struct pf_subnet *e; ALLOC_OBJ_CLEAR (e, struct pf_subnet); e->rule.exclude = exclude; e->rule.network = ntohl (network.s_addr); e->rule.netmask = netmask; **next = e; *next = &e->next; return true; } } static uint32_t cn_hash_function (const void *key, uint32_t iv) { return hash_func ((uint8_t *)key, strlen ((char *)key) + 1, iv); } static bool cn_compare_function (const void *key1, const void *key2) { return !strcmp((const char *)key1, (const char *)key2); } static bool genhash (struct pf_cn_set *cns, const char *prefix, const int n_clients) { struct pf_cn_elem *e; bool status = true; int n_buckets = n_clients; if (n_buckets < 16) n_buckets = 16; cns->hash_table = hash_init (n_buckets, 0, cn_hash_function, cn_compare_function); for (e = cns->list; e != NULL; e = e->next) { if (!hash_add (cns->hash_table, e->rule.cn, &e->rule, false)) { msg (D_PF_INFO, "PF: %s: duplicate common name in [clients] section: '%s'", prefix, e->rule.cn); status = false; } } return status; } static struct pf_set * pf_init (const struct buffer_list *bl, const char *prefix, const bool allow_kill) { # define MODE_UNDEF 0 # define MODE_CLIENTS 1 # define MODE_SUBNETS 2 int mode = MODE_UNDEF; int line_num = 0; int n_clients = 0; int n_subnets = 0; int n_errors = 0; struct pf_set *pfs = NULL; char line[PF_MAX_LINE_LEN]; ALLOC_OBJ_CLEAR (pfs, struct pf_set); if (bl) { struct pf_cn_elem **cl = &pfs->cns.list; struct pf_subnet **sl = &pfs->sns.list; struct buffer_entry *be; for (be = bl->head; be != NULL; be = be->next) { ++line_num; strncpynt (line, BSTR(&be->buf), sizeof(line)); rm_trailing_chars (line, "\r\n\t "); if (line[0] == '\0' || line[0] == '#') ; else if (line[0] == '+' || line[0] == '-') { bool exclude = (line[0] == '-'); if (line[1] =='\0') { msg (D_PF_INFO, "PF: %s/%d: no data after +/-: '%s'", prefix, line_num, line); ++n_errors; } else if (mode == MODE_CLIENTS) { if (add_client (&line[1], prefix, line_num, &cl, exclude)) ++n_clients; else ++n_errors; } else if (mode == MODE_SUBNETS) { if (add_subnet (&line[1], prefix, line_num, &sl, exclude)) ++n_subnets; else ++n_errors; } else if (mode == MODE_UNDEF) ; else { ASSERT (0); } } else if (line[0] == '[') { if (!strcasecmp (line, "[clients accept]")) { mode = MODE_CLIENTS; pfs->cns.default_allow = true; } else if (!strcasecmp (line, "[clients drop]")) { mode = MODE_CLIENTS; pfs->cns.default_allow = false; } else if (!strcasecmp (line, "[subnets accept]")) { mode = MODE_SUBNETS; pfs->sns.default_allow = true; } else if (!strcasecmp (line, "[subnets drop]")) { mode = MODE_SUBNETS; pfs->sns.default_allow = false; } else if (!strcasecmp (line, "[end]")) goto done; else if (allow_kill && !strcasecmp (line, "[kill]")) goto kill; else { mode = MODE_UNDEF; msg (D_PF_INFO, "PF: %s/%d unknown tag: '%s'", prefix, line_num, line); ++n_errors; } } else { msg (D_PF_INFO, "PF: %s/%d line must begin with '+', '-', or '[' : '%s'", prefix, line_num, line); ++n_errors; } } ++n_errors; msg (D_PF_INFO, "PF: %s: missing [end]", prefix); } else { msg (D_PF_INFO, "PF: %s: cannot open", prefix); ++n_errors; } done: if (bl) { if (!n_errors) { if (!genhash (&pfs->cns, prefix, n_clients)) ++n_errors; } if (n_errors) msg (D_PF_INFO, "PF: %s rejected due to %d error(s)", prefix, n_errors); } if (n_errors) { pf_destroy (pfs); pfs = NULL; } return pfs; kill: pf_destroy (pfs); ALLOC_OBJ_CLEAR (pfs, struct pf_set); pfs->kill = true; return pfs; } #ifdef PLUGIN_PF static struct pf_set * pf_init_from_file (const char *fn) { struct buffer_list *bl = buffer_list_file (fn, PF_MAX_LINE_LEN); if (bl) { struct pf_set *pfs = pf_init (bl, fn, true); buffer_list_free (bl); return pfs; } else { msg (D_PF_INFO|M_ERRNO, "PF: %s: cannot open", fn); return NULL; } } #endif #ifdef ENABLE_DEBUG static const char * drop_accept (const bool accept) { return accept ? "ACCEPT" : "DROP"; } static const char * pct_name (const int type) { switch (type) { case PCT_SRC: return "SRC"; case PCT_DEST: return "DEST"; default: return "???"; } } static void pf_cn_test_print (const char *prefix, const int type, const char *prefix2, const char *cn, const bool allow, const struct pf_cn *rule) { if (rule) { dmsg (D_PF_DEBUG, "PF: %s/%s/%s %s %s rule=[%s %s]", prefix, prefix2, pct_name (type), cn, drop_accept (allow), rule->cn, drop_accept (!rule->exclude)); } else { dmsg (D_PF_DEBUG, "PF: %s/%s/%s %s %s", prefix, prefix2, pct_name (type), cn, drop_accept (allow)); } } static void pf_addr_test_print (const char *prefix, const char *prefix2, const struct context *src, const struct mroute_addr *dest, const bool allow, const struct ipv4_subnet *rule) { struct gc_arena gc = gc_new (); if (rule) { dmsg (D_PF_DEBUG, "PF: %s/%s %s %s %s rule=[%s/%s %s]", prefix, prefix2, tls_common_name (src->c2.tls_multi, false), mroute_addr_print_ex (dest, MAPF_SHOW_ARP, &gc), drop_accept (allow), print_in_addr_t (rule->network, 0, &gc), print_in_addr_t (rule->netmask, 0, &gc), drop_accept (!rule->exclude)); } else { dmsg (D_PF_DEBUG, "PF: %s/%s %s %s %s", prefix, prefix2, tls_common_name (src->c2.tls_multi, false), mroute_addr_print_ex (dest, MAPF_SHOW_ARP, &gc), drop_accept (allow)); } gc_free (&gc); } #endif static inline struct pf_cn * lookup_cn_rule (struct hash *h, const char *cn, const uint32_t cn_hash) { struct hash_element *he = hash_lookup_fast (h, hash_bucket (h, cn_hash), cn, cn_hash); if (he) return (struct pf_cn *) he->value; else return NULL; } bool pf_cn_test (struct pf_set *pfs, const struct tls_multi *tm, const int type, const char *prefix) { if (!pfs->kill) { const char *cn; uint32_t cn_hash; if (tls_common_name_hash (tm, &cn, &cn_hash)) { const struct pf_cn *rule = lookup_cn_rule (pfs->cns.hash_table, cn, cn_hash); if (rule) { #ifdef ENABLE_DEBUG if (check_debug_level (D_PF_DEBUG)) pf_cn_test_print ("PF_CN_MATCH", type, prefix, cn, !rule->exclude, rule); #endif if (!rule->exclude) return true; else return false; } else { #ifdef ENABLE_DEBUG if (check_debug_level (D_PF_DEBUG)) pf_cn_test_print ("PF_CN_DEFAULT", type, prefix, cn, pfs->cns.default_allow, NULL); #endif if (pfs->cns.default_allow) return true; else return false; } } } #ifdef ENABLE_DEBUG if (check_debug_level (D_PF_DEBUG)) pf_cn_test_print ("PF_CN_FAULT", type, prefix, tls_common_name (tm, false), false, NULL); #endif return false; } bool pf_addr_test_dowork (const struct context *src, const struct mroute_addr *dest, const char *prefix) { struct pf_set *pfs = src->c2.pf.pfs; if (pfs && !pfs->kill) { const in_addr_t addr = in_addr_t_from_mroute_addr (dest); const struct pf_subnet *se = pfs->sns.list; while (se) { if ((addr & se->rule.netmask) == se->rule.network) { #ifdef ENABLE_DEBUG if (check_debug_level (D_PF_DEBUG)) pf_addr_test_print ("PF_ADDR_MATCH", prefix, src, dest, !se->rule.exclude, &se->rule); #endif return !se->rule.exclude; } se = se->next; } #ifdef ENABLE_DEBUG if (check_debug_level (D_PF_DEBUG)) pf_addr_test_print ("PF_ADDR_DEFAULT", prefix, src, dest, pfs->sns.default_allow, NULL); #endif return pfs->sns.default_allow; } else { #ifdef ENABLE_DEBUG if (check_debug_level (D_PF_DEBUG)) pf_addr_test_print ("PF_ADDR_FAULT", prefix, src, dest, false, NULL); #endif return false; } } #ifdef PLUGIN_PF void pf_check_reload (struct context *c) { const int slow_wakeup = 15; const int fast_wakeup = 1; const int wakeup_transition = 60; bool reloaded = false; if (c->c2.pf.enabled && c->c2.pf.filename && event_timeout_trigger (&c->c2.pf.reload, &c->c2.timeval, ETT_DEFAULT)) { struct stat s; if (!stat (c->c2.pf.filename, &s)) { if (s.st_mtime > c->c2.pf.file_last_mod) { struct pf_set *pfs = pf_init_from_file (c->c2.pf.filename); if (pfs) { if (c->c2.pf.pfs) pf_destroy (c->c2.pf.pfs); c->c2.pf.pfs = pfs; reloaded = true; if (pf_kill_test (pfs)) { c->sig->signal_received = SIGTERM; c->sig->signal_text = "pf-kill"; } } c->c2.pf.file_last_mod = s.st_mtime; } } { int wakeup = slow_wakeup; if (!c->c2.pf.pfs && c->c2.pf.n_check_reload < wakeup_transition) wakeup = fast_wakeup; event_timeout_init (&c->c2.pf.reload, wakeup, now); reset_coarse_timers (c); c->c2.pf.n_check_reload++; } } #ifdef ENABLE_DEBUG if (reloaded && check_debug_level (D_PF_DEBUG)) pf_context_print (&c->c2.pf, "pf_check_reload", D_PF_DEBUG); #endif } #endif #ifdef MANAGEMENT_PF bool pf_load_from_buffer_list (struct context *c, const struct buffer_list *config) { struct pf_set *pfs = pf_init (config, "[SERVER-PF]", false); if (pfs) { if (c->c2.pf.pfs) pf_destroy (c->c2.pf.pfs); c->c2.pf.pfs = pfs; return true; } else return false; } #endif void pf_init_context (struct context *c) { struct gc_arena gc = gc_new (); #ifdef PLUGIN_PF if (plugin_defined (c->plugins, OPENVPN_PLUGIN_ENABLE_PF)) { const char *pf_file = create_temp_file (c->options.tmp_dir, "pf", &gc); if( pf_file ) { setenv_str (c->c2.es, "pf_file", pf_file); if (plugin_call (c->plugins, OPENVPN_PLUGIN_ENABLE_PF, NULL, NULL, c->c2.es) == OPENVPN_PLUGIN_FUNC_SUCCESS) { event_timeout_init (&c->c2.pf.reload, 1, now); c->c2.pf.filename = string_alloc (pf_file, NULL); c->c2.pf.enabled = true; #ifdef ENABLE_DEBUG if (check_debug_level (D_PF_DEBUG)) pf_context_print (&c->c2.pf, "pf_init_context#1", D_PF_DEBUG); #endif } else { msg (M_WARN, "WARNING: OPENVPN_PLUGIN_ENABLE_PF disabled"); } } } #endif #ifdef MANAGEMENT_PF if (!c->c2.pf.enabled && management_enable_pf (management)) { c->c2.pf.enabled = true; #ifdef ENABLE_DEBUG if (check_debug_level (D_PF_DEBUG)) pf_context_print (&c->c2.pf, "pf_init_context#2", D_PF_DEBUG); #endif } #endif gc_free (&gc); } void pf_destroy_context (struct pf_context *pfc) { #ifdef PLUGIN_PF if (pfc->filename) { delete_file (pfc->filename); free (pfc->filename); } #endif if (pfc->pfs) pf_destroy (pfc->pfs); } #ifdef ENABLE_DEBUG static void pf_subnet_set_print (const struct pf_subnet_set *s, const int lev) { struct gc_arena gc = gc_new (); if (s) { struct pf_subnet *e; msg (lev, " ----- struct pf_subnet_set -----"); msg (lev, " default_allow=%s", drop_accept (s->default_allow)); for (e = s->list; e != NULL; e = e->next) { msg (lev, " %s/%s %s", print_in_addr_t (e->rule.network, 0, &gc), print_in_addr_t (e->rule.netmask, 0, &gc), drop_accept (!e->rule.exclude)); } } gc_free (&gc); } static void pf_cn_set_print (const struct pf_cn_set *s, const int lev) { if (s) { struct hash_iterator hi; struct hash_element *he; msg (lev, " ----- struct pf_cn_set -----"); msg (lev, " default_allow=%s", drop_accept (s->default_allow)); if (s->hash_table) { hash_iterator_init (s->hash_table, &hi); while ((he = hash_iterator_next (&hi))) { struct pf_cn *e = (struct pf_cn *)he->value; msg (lev, " %s %s", e->cn, drop_accept (!e->exclude)); } msg (lev, " ----------"); { struct pf_cn_elem *ce; for (ce = s->list; ce != NULL; ce = ce->next) { struct pf_cn *e = lookup_cn_rule (s->hash_table, ce->rule.cn, cn_hash_function (ce->rule.cn, 0)); if (e) { msg (lev, " %s %s", e->cn, drop_accept (!e->exclude)); } else { msg (lev, " %s LOOKUP FAILED", ce->rule.cn); } } } } } } static void pf_set_print (const struct pf_set *pfs, const int lev) { if (pfs) { msg (lev, " ----- struct pf_set -----"); msg (lev, " kill=%d", pfs->kill); pf_subnet_set_print (&pfs->sns, lev); pf_cn_set_print (&pfs->cns, lev); } } void pf_context_print (const struct pf_context *pfc, const char *prefix, const int lev) { msg (lev, "----- %s : struct pf_context -----", prefix); if (pfc) { msg (lev, "enabled=%d", pfc->enabled); #ifdef PLUGIN_PF msg (lev, "filename='%s'", np(pfc->filename)); msg (lev, "file_last_mod=%u", (unsigned int)pfc->file_last_mod); msg (lev, "n_check_reload=%u", pfc->n_check_reload); msg (lev, "reload=[%d,%u,%u]", pfc->reload.defined, pfc->reload.n, (unsigned int)pfc->reload.last); #endif pf_set_print (pfc->pfs, lev); } msg (lev, "--------------------"); } #endif #endif