/* * fwd - OpenWrt firewall daemon - config parsing * * Copyright (C) 2009 Jo-Philipp Wich * * The fwd 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. * * The fwd 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 the fwd program. If not, see http://www.gnu.org/licenses/. */ #include "fwd.h" #include "fwd_addr.h" #include "fwd_config.h" #include "ucix.h" #define fwd_read_error(...) do { \ fprintf(stderr, "ERROR: "); \ fprintf(stderr, __VA_ARGS__); \ fprintf(stderr, "\n"); \ return; \ } while(0) /* * Parse helpers */ static int fwd_read_policy(struct uci_context *uci, const char *s, const char *o) { const char *val = ucix_get_option(uci, "firewall", s, o); if( val != NULL ) { switch( val[0] ) { case 'D': case 'd': return FWD_P_DROP; case 'R': case 'r': return FWD_P_REJECT; case 'A': case 'a': return FWD_P_ACCEPT; } } return FWD_P_UNSPEC; } static int fwd_read_bool(struct uci_context *uci, const char *s, const char *o, int d) { const char *val = ucix_get_option(uci, "firewall", s, o); if( val != NULL ) { if( !strcmp(val, "yes") || !strcmp(val, "true") || !strcmp(val, "1") ) return 1; else return 0; } return d; } static unsigned int fwd_read_uint(struct uci_context *uci, const char *s, const char *o, unsigned int d) { const char *val = ucix_get_option(uci, "firewall", s, o); if( val != NULL ) { return atoi(val); } return d; } static int fwd_read_cidr(struct uci_context *uci, const char *s, const char *o, struct fwd_cidr **c) { const char *val = ucix_get_option(uci, "firewall", s, o); char ip[32], prefix[32]; struct in_addr ina; memset(ip, 0, 32); memset(prefix, 0, 32); if( val == NULL ) { return 0; } else if( (strlen(val) < 32) && (sscanf(val, "%[^/]/%s", ip, prefix) > 0) ) { if( !(*c = fwd_alloc_ptr(struct fwd_cidr)) ) goto inval; if( inet_aton(ip, &ina) ) { (*c)->addr.s_addr = ina.s_addr; if( strchr(prefix, '.') ) { if( inet_aton(prefix, &ina) ) { (*c)->prefix = 32; ina.s_addr = ntohl(ina.s_addr); while( !(ina.s_addr & 1) ) { ina.s_addr >>= 1; (*c)->prefix--; } } else { goto inval; } } else { (*c)->prefix = prefix[0] ? atoi(prefix) : 32; if( ((*c)->prefix < 0) || ((*c)->prefix > 32) ) { goto inval; } } return 0; } } inval: fwd_free_ptr(*c); return -1; } static int fwd_read_mac(struct uci_context *uci, const char *s, const char *o, struct fwd_mac **m) { const char *val = ucix_get_option(uci, "firewall", s, o); if( val == NULL ) { return 0; } else { if( (*m = fwd_alloc_ptr(struct fwd_mac)) != NULL ) { if( sscanf(val, "%2x:%2x:%2x:%2x:%2x:%2x", (unsigned int *)&(*m)->mac[0], (unsigned int *)&(*m)->mac[1], (unsigned int *)&(*m)->mac[2], (unsigned int *)&(*m)->mac[3], (unsigned int *)&(*m)->mac[4], (unsigned int *)&(*m)->mac[5]) == 6 ) { return 0; } } } fwd_free_ptr(*m); return -1; } static int fwd_read_portrange(struct uci_context *uci, const char *s, const char *o, struct fwd_portrange **p) { const char *val = ucix_get_option(uci, "firewall", s, o); int min = -1; int max = -1; unsigned int tmp; if( val == NULL ) { return 0; } else if( sscanf(val, "%u%*[:-]%u", &min, &max) > 0 ) { if( max == -1 ) { max = min; } else if( min > max ) { tmp = max; max = min; min = tmp; } if( (min >= 0) && (min <= 65535) && (max >= 0) && (max <= 65535) ) { if( (*p = fwd_alloc_ptr(struct fwd_portrange)) != NULL ) { (*p)->min = min; (*p)->max = max; return 0; } } } fwd_free_ptr(*p); return -1; } static int fwd_read_proto(struct uci_context *uci, const char *s, const char *o, struct fwd_proto **p) { const char *val = ucix_get_option(uci, "firewall", s, o); int proto; if( val == NULL ) { return 0; } else { if( (*p = fwd_alloc_ptr(struct fwd_proto)) != NULL ) { proto = atoi(val); if( !strcasecmp(val, "all") ) { (*p)->type = FWD_PR_ALL; (*p)->proto = 0; } else if( !strcasecmp(val, "icmp") ) { (*p)->type = FWD_PR_ICMP; (*p)->proto = 0; } else if( !strcasecmp(val, "udp") ) { (*p)->type = FWD_PR_UDP; (*p)->proto = 0; } else if( !strcasecmp(val, "tcp") ) { (*p)->type = FWD_PR_TCP; (*p)->proto = 0; } else if( !strcasecmp(val, "tcpudp") ) { (*p)->type = FWD_PR_TCPUDP; (*p)->proto = 0; } else if( proto > 0 ) { (*p)->type = FWD_PR_CUSTOM; (*p)->proto = proto; } else { goto inval; } return 0; } } inval: fwd_free_ptr(*p); return -1; } static int fwd_read_icmptype(struct uci_context *uci, const char *s, const char *o, struct fwd_icmptype **i) { const char *val = ucix_get_option(uci, "firewall", s, o); unsigned int type, code; if( val == NULL ) { return 0; } else { if( (*i = fwd_alloc_ptr(struct fwd_icmptype)) != NULL ) { if( sscanf(val, "%u/%u", &type, &code) == 2 ) { if( (type > 255) || (code > 255) ) goto inval; (*i)->type = type; (*i)->code = code; return 0; } else if( sscanf(val, "%u", &type) == 1 ) { if( type > 255 ) goto inval; (*i)->type = type; (*i)->code = -1; return 0; } /* XXX: no validity check here but I do not want to duplicate libipt_icmp.c ... */ else if( sscanf(val, "%31s", (*i)->name) == 1 ) { return 0; } } } inval: fwd_free_ptr(*i); return -1; } static const char * fwd_read_string(struct uci_context *uci, const char *s, const char *o) { return ucix_get_option(uci, "firewall", s, o); } static void fwd_append_config(struct fwd_data *h, struct fwd_data *a) { while( h->next ) h = h->next; h->next = a; } /* * config defaults */ static void fwd_read_defaults_cb( struct uci_context *uci, const char *s, struct fwd_defaults *d ) { d->input = fwd_read_policy(uci, s, "input"); d->forward = fwd_read_policy(uci, s, "forward"); d->output = fwd_read_policy(uci, s, "output"); d->syn_flood = fwd_read_bool(uci, s, "syn_flood", 1); d->syn_rate = fwd_read_uint(uci, s, "syn_rate", 25); d->syn_burst = fwd_read_uint(uci, s, "syn_burst", 50); d->drop_invalid = fwd_read_bool(uci, s, "drop_invalid", 1); } static struct fwd_data * fwd_read_defaults(struct uci_context *uci) { struct fwd_data *dt; struct fwd_defaults d; if( (dt = fwd_alloc_ptr(struct fwd_data)) != NULL ) { memset(&d, 0, sizeof(d)); ucix_for_each_section_type(uci, "firewall", "defaults", (void *)fwd_read_defaults_cb, &d); memcpy(&dt->section.defaults, &d, sizeof(d)); dt->type = FWD_S_DEFAULTS; dt->next = NULL; return dt; } return NULL; } /* * config zone */ static void fwd_read_zone_networks_cb( const char *net, struct fwd_network_list **np ) { struct fwd_network_list *nn; if( (nn = fwd_alloc_ptr(struct fwd_network_list)) != NULL ) { nn->name = strdup(net); nn->next = *np; *np = nn; } } static void fwd_read_zones_cb( struct uci_context *uci, const char *s, struct fwd_data_conveyor *cv ) { struct fwd_data *dtn; struct fwd_network_list *net = NULL; const char *name; if( !(name = fwd_read_string(uci, s, "name")) ) fwd_read_error("section '%s' is missing 'name' option!", s); if( (dtn = fwd_alloc_ptr(struct fwd_data)) != NULL ) { dtn->section.zone.name = strdup(name); dtn->section.zone.masq = fwd_read_bool(uci, s, "masq", 0); dtn->section.zone.mtu_fix = fwd_read_bool(uci, s, "mtu_fix", 0); dtn->section.zone.conntrack = fwd_read_bool(uci, s, "conntrack", 0); dtn->section.zone.input = fwd_read_policy(uci, s, "input") ?: cv->head->section.defaults.input ?: FWD_P_DROP; dtn->section.zone.forward = fwd_read_policy(uci, s, "forward") ?: cv->head->section.defaults.forward ?: FWD_P_DROP; dtn->section.zone.output = fwd_read_policy(uci, s, "output") ?: cv->head->section.defaults.output ?: FWD_P_DROP; /* try to parse option/list network ... */ if( ucix_for_each_list(uci, "firewall", s, "network", (void *)&fwd_read_zone_networks_cb, &net) < 0 ) { /* ... didn't work, fallback to option name */ fwd_read_zone_networks_cb(name, &net); } dtn->section.zone.networks = net; dtn->type = FWD_S_ZONE; dtn->next = cv->cursor; cv->cursor = dtn; } } static struct fwd_data * fwd_read_zones(struct uci_context *uci, struct fwd_data *def) { struct fwd_data_conveyor cv; cv.cursor = NULL; cv.head = def; ucix_for_each_section_type(uci, "firewall", "zone", (void *)fwd_read_zones_cb, &cv); return cv.cursor; } /* * config forwarding */ static void fwd_read_forwards_cb( struct uci_context *uci, const char *s, struct fwd_data_conveyor *cv ) { const char *src, *dest; struct fwd_data *dtn; struct fwd_zone *zsrc = NULL; struct fwd_zone *zdest = NULL; if( (src = fwd_read_string(uci, s, "src")) != NULL ) { if( !(zsrc = fwd_lookup_zone(cv->head, src)) ) fwd_read_error("section '%s' references unknown src zone '%s'!", s, src); } if( (dest = fwd_read_string(uci, s, "dest")) != NULL ) { if( !(zdest = fwd_lookup_zone(cv->head, dest)) ) fwd_read_error("section '%s' references unknown dest zone '%s'!", s, dest); } if( (dtn = fwd_alloc_ptr(struct fwd_data)) != NULL ) { dtn->section.forwarding.src = zsrc; dtn->section.forwarding.dest = zdest; dtn->section.forwarding.mtu_fix = fwd_read_bool(uci, s, "mtu_fix", 0); dtn->section.forwarding.masq = fwd_read_bool(uci, s, "masq", 0); dtn->type = FWD_S_FORWARD; dtn->next = cv->cursor; cv->cursor = dtn; } else { fwd_read_error("out of memory while parsing config!"); } } static struct fwd_data * fwd_read_forwards(struct uci_context *uci, struct fwd_data *zones) { struct fwd_data_conveyor cv; cv.cursor = NULL; cv.head = zones; ucix_for_each_section_type(uci, "firewall", "forwarding", (void *)fwd_read_forwards_cb, &cv); return cv.cursor; } /* * config redirect */ static void fwd_read_redirects_cb( struct uci_context *uci, const char *s, struct fwd_data_conveyor *cv ) { const char *src; struct fwd_data *dtn = NULL; struct fwd_data *dtn2 = NULL; struct fwd_zone *zsrc = NULL; /* check zone */ if( !(src = fwd_read_string(uci, s, "src")) ) fwd_read_error( "section '%s' is missing 'src' option!", s ); else if( !(zsrc = fwd_lookup_zone(cv->head, src)) ) fwd_read_error( "section '%s' references unknown src zone '%s'!", s, src ); /* uci context, section, name, type */ fwd_check_option(uci, s, src_ip, cidr); fwd_check_option(uci, s, src_mac, mac); fwd_check_option(uci, s, src_port, portrange); fwd_check_option(uci, s, src_dport, portrange); fwd_check_option(uci, s, dest_ip, cidr); fwd_check_option(uci, s, dest_port, portrange); fwd_check_option(uci, s, proto, proto); if( (dtn = fwd_alloc_ptr(struct fwd_data)) != NULL ) { dtn->section.redirect.proto = proto; dtn->section.redirect.src = zsrc; dtn->section.redirect.src_ip = src_ip; dtn->section.redirect.src_mac = src_mac; dtn->section.redirect.src_port = src_port; dtn->section.redirect.src_dport = src_dport; dtn->section.redirect.dest_ip = dest_ip; dtn->section.redirect.dest_port = dest_port; dtn->type = FWD_S_REDIRECT; dtn->next = cv->cursor; cv->cursor = dtn; if( (proto != NULL) && (proto->type == FWD_PR_TCPUDP) ) { if( !(dtn2 = fwd_alloc_ptr(struct fwd_data)) || !(dtn2->section.redirect.proto = fwd_alloc_ptr(struct fwd_proto)) ) { fwd_free_ptr(dtn2); fwd_read_error("out of memory while parsing config!"); } dtn->section.redirect.proto->type = FWD_PR_UDP; dtn2->section.redirect.proto->type = FWD_PR_TCP; dtn2->section.redirect.src = zsrc; dtn2->section.redirect.src_ip = src_ip; dtn2->section.redirect.src_mac = src_mac; dtn2->section.redirect.src_port = src_port; dtn2->section.redirect.src_dport = src_dport; dtn2->section.redirect.dest_ip = dest_ip; dtn2->section.redirect.dest_port = dest_port; dtn2->type = FWD_S_REDIRECT; dtn2->next = cv->cursor; cv->cursor = dtn2; } } else { fwd_read_error("out of memory while parsing config!"); } } static struct fwd_data * fwd_read_redirects(struct uci_context *uci, struct fwd_data *zones) { struct fwd_data_conveyor cv; cv.cursor = NULL; cv.head = zones; ucix_for_each_section_type(uci, "firewall", "redirect", (void *)fwd_read_redirects_cb, &cv); return cv.cursor; } /* * config rule */ static void fwd_read_rules_cb( struct uci_context *uci, const char *s, struct fwd_data_conveyor *cv ) { const char *src, *dest; struct fwd_data *dtn = NULL; struct fwd_data *dtn2 = NULL; struct fwd_zone *zsrc = NULL; struct fwd_zone *zdest = NULL; /* check zones */ if( !(src = fwd_read_string(uci, s, "src")) ) fwd_read_error( "section '%s' is missing 'src' option!", s ); else if( !(zsrc = fwd_lookup_zone(cv->head, src)) ) fwd_read_error( "section '%s' references unknown src zone '%s'!", s, src ); if( (dest = fwd_read_string(uci, s, "dest")) != NULL ) if( !(zdest = fwd_lookup_zone(cv->head, dest)) ) fwd_read_error( "section '%s' references unknown dest zone '%s'!", s, dest ); /* uci context, section, name, type */ fwd_check_option(uci, s, src_ip, cidr); fwd_check_option(uci, s, src_mac, mac); fwd_check_option(uci, s, src_port, portrange); fwd_check_option(uci, s, dest_ip, cidr); fwd_check_option(uci, s, dest_port, portrange); fwd_check_option(uci, s, proto, proto); fwd_check_option(uci, s, icmptype, icmptype); if( (dtn = fwd_alloc_ptr(struct fwd_data)) != NULL ) { dtn->section.rule.proto = proto; dtn->section.rule.icmp_type = icmptype; dtn->section.rule.src = zsrc; dtn->section.rule.src_ip = src_ip; dtn->section.rule.src_mac = src_mac; dtn->section.rule.src_port = src_port; dtn->section.rule.dest = zdest; dtn->section.rule.dest_ip = dest_ip; dtn->section.rule.dest_port = dest_port; dtn->section.rule.target = fwd_read_policy(uci, s, "target"); dtn->type = FWD_S_RULE; dtn->next = cv->cursor; cv->cursor = dtn; if( (proto != NULL) && (proto->type == FWD_PR_TCPUDP) ) { if( !(dtn2 = fwd_alloc_ptr(struct fwd_data)) || !(dtn2->section.rule.proto = fwd_alloc_ptr(struct fwd_proto)) ) { fwd_free_ptr(dtn2); fwd_read_error("out of memory while parsing config!"); } dtn->section.rule.proto->type = FWD_PR_UDP; dtn2->section.rule.proto->type = FWD_PR_TCP; dtn2->section.rule.src = zsrc; dtn2->section.rule.src_ip = src_ip; dtn2->section.rule.src_mac = src_mac; dtn2->section.rule.src_port = src_port; dtn2->section.rule.dest = zdest; dtn2->section.rule.dest_ip = dest_ip; dtn2->section.rule.dest_port = dest_port; dtn2->section.rule.target = dtn->section.rule.target; dtn2->type = FWD_S_RULE; dtn2->next = cv->cursor; cv->cursor = dtn2; } } else { fwd_read_error("out of memory while parsing config!"); } } static struct fwd_data * fwd_read_rules(struct uci_context *uci, struct fwd_data *zones) { struct fwd_data_conveyor cv; cv.cursor = NULL; cv.head = zones; ucix_for_each_section_type(uci, "firewall", "rule", (void *)fwd_read_rules_cb, &cv); return cv.cursor; } /* * config include */ static void fwd_read_includes_cb( struct uci_context *uci, const char *s, struct fwd_data_conveyor *cv ) { const char *path = fwd_read_string(uci, s, "path"); struct fwd_data *dtn = NULL; if( path != NULL ) { if( (dtn = fwd_alloc_ptr(struct fwd_data)) != NULL ) { dtn->section.include.path = strdup(path); dtn->type = FWD_S_INCLUDE; dtn->next = cv->cursor; cv->cursor = dtn; } else { fwd_read_error("out of memory while parsing config!"); } } } static struct fwd_data * fwd_read_includes(struct uci_context *uci) { struct fwd_data_conveyor cv; cv.cursor = NULL; cv.head = NULL; ucix_for_each_section_type(uci, "firewall", "include", (void *)fwd_read_includes_cb, &cv); return cv.cursor; } /* * config interface */ static void fwd_read_network_data( struct uci_context *uci, struct fwd_network_list *net ) { struct fwd_network_list *e; const char *type, *ifname; for( e = net; e; e = e->next ) { if( (type = ucix_get_option(uci, "network", e->name, NULL)) != NULL ) { if( !(ifname = ucix_get_option(uci, "network", e->name, "ifname")) ) fwd_read_error( "section '%s' is missing 'ifname' option!", e->name ); e->isalias = (strcmp(type, "alias") ? 0 : 1); e->ifname = strdup(ifname); } } } static void fwd_read_networks( struct uci_context *uci, struct fwd_data *zones ) { struct fwd_data *e; for( e = zones; e; e = e->next ) if( e->type == FWD_S_ZONE ) fwd_read_network_data(uci, e->section.zone.networks); } static void fwd_free_networks(struct fwd_network_list *h) { struct fwd_network_list *e = h; while( h != NULL ) { e = h->next; fwd_free_ptr(h->name); fwd_free_ptr(h->ifname); fwd_free_ptr(h->addr); free(h); h = e; } e = h = NULL; } struct fwd_data * fwd_read_config(void) { struct uci_context *ctx; struct fwd_data *defaults, *zones; if( (ctx = ucix_init("firewall")) != NULL ) { if( !(defaults = fwd_read_defaults(ctx)) ) goto error; if( !(zones = fwd_read_zones(ctx, defaults)) ) goto error; fwd_append_config(defaults, zones); fwd_append_config(defaults, fwd_read_forwards(ctx, zones)); fwd_append_config(defaults, fwd_read_redirects(ctx, zones)); fwd_append_config(defaults, fwd_read_rules(ctx, zones)); fwd_append_config(defaults, fwd_read_includes(ctx)); ucix_cleanup(ctx); if( (ctx = ucix_init("network")) != NULL ) { fwd_read_networks(ctx, zones); ucix_cleanup(ctx); return defaults; } } error: if( ctx ) ucix_cleanup(ctx); fwd_free_config(defaults); fwd_free_config(zones); return NULL; } void fwd_free_config(struct fwd_data *h) { struct fwd_data *e = h; while( h != NULL ) { e = h->next; switch(h->type) { case FWD_S_INCLUDE: fwd_free_ptr(h->section.include.path); break; case FWD_S_ZONE: fwd_free_ptr(h->section.zone.name); fwd_free_networks(h->section.zone.networks); break; case FWD_S_REDIRECT: fwd_free_ptr(h->section.redirect.src_ip); fwd_free_ptr(h->section.redirect.src_mac); fwd_free_ptr(h->section.redirect.src_port); fwd_free_ptr(h->section.redirect.src_dport); fwd_free_ptr(h->section.redirect.dest_ip); fwd_free_ptr(h->section.redirect.dest_port); fwd_free_ptr(h->section.redirect.proto); break; case FWD_S_RULE: fwd_free_ptr(h->section.rule.src_ip); fwd_free_ptr(h->section.rule.src_mac); fwd_free_ptr(h->section.rule.src_port); fwd_free_ptr(h->section.rule.dest_ip); fwd_free_ptr(h->section.rule.dest_port); fwd_free_ptr(h->section.rule.proto); fwd_free_ptr(h->section.rule.icmp_type); break; case FWD_S_DEFAULTS: case FWD_S_FORWARD: /* Make gcc happy */ break; } free(h); h = e; } e = h = NULL; } struct fwd_zone * fwd_lookup_zone(struct fwd_data *h, const char *n) { struct fwd_data *e; if( n != NULL ) { for( e = h; e; e = e->next ) { if( (e->type = FWD_S_ZONE) && !strcmp(e->section.zone.name, n) ) return &e->section.zone; } } return NULL; }