/* * checkconf - Read and repeat configuration file to output. * * Copyright (c) 2001-2011, NLnet Labs. All rights reserved. * * See LICENSE for the license. * */ #include #include #include #include #include #include #include "tsig.h" #include "options.h" #include "util.h" #include "dname.h" extern char *optarg; extern int optind; #define ZONE_GET_ACL(NAME, VAR) \ if (strcasecmp(#NAME, (VAR)) == 0) { \ quote_acl((zone->NAME)); \ return; \ } #define ZONE_GET_OUTGOING(NAME, VAR) \ if (strcasecmp(#NAME, (VAR)) == 0) { \ acl_options_t* acl; \ for(acl=zone->NAME; acl; acl=acl->next) \ quote(acl->ip_address_spec); \ return; \ } #define ZONE_GET_STR(NAME, VAR) \ if (strcasecmp(#NAME, (VAR)) == 0) { \ quote(zone->NAME); \ return; \ } #define ZONE_GET_BIN(NAME, VAR) \ if (strcasecmp(#NAME, (VAR)) == 0) { \ printf("%s\n", zone->NAME?"yes":"no"); \ } #define SERV_GET_BIN(NAME, VAR) \ if (strcasecmp(#NAME, (VAR)) == 0) { \ printf("%s\n", opt->NAME?"yes":"no"); \ } #define SERV_GET_STR(NAME, VAR) \ if (strcasecmp(#NAME, (VAR)) == 0) { \ quote(opt->NAME); \ return; \ } #define SERV_GET_INT(NAME, VAR) \ if (strcasecmp(#NAME, (VAR)) == 0) { \ printf("%d\n", (int) opt->NAME); \ return; \ } #define SERV_GET_IP(NAME, VAR) \ if (strcasecmp(#NAME, (VAR)) == 0) { \ for(ip = opt->ip_addresses; ip; ip=ip->next) \ { \ quote(ip->address); \ } \ return; \ } static char buf[BUFSIZ]; static char * underscore(const char *s) { const char *j = s; size_t i = 0; while(j && *j) { if (*j == '-') { buf[i++] = '_'; } else { buf[i++] = *j; } j++; if (i >= BUFSIZ) { return NULL; } } buf[i] = '\0'; return buf; } static void usage(void) { fprintf(stderr, "usage: nsd-checkconf [-v|-h] [-o option] [-z zonename]\n"); fprintf(stderr, " [-s keyname] \n"); fprintf(stderr, " Checks NSD configuration file for errors.\n"); fprintf(stderr, " Version %s. Report bugs to <%s>.\n\n", PACKAGE_VERSION, PACKAGE_BUGREPORT); fprintf(stderr, "Use with a configfile as argument to check syntax.\n"); fprintf(stderr, "Use with -o, -z or -s options to query the configuration.\n\n"); fprintf(stderr, "-v Verbose, echo settings that take effect to std output.\n"); fprintf(stderr, "-h Print this help information.\n"); fprintf(stderr, "-o option Print value of the option specified to stdout.\n"); fprintf(stderr, "-z zonename Print option value for the zone given.\n"); fprintf(stderr, "-a keyname Print algorithm name for the TSIG key.\n"); fprintf(stderr, "-s keyname Print base64 secret blob for the TSIG key.\n"); exit(1); } static void print_string_var(const char* varname, const char* value) { if (!value) { printf("\t#%s\n", varname); } else { printf("\t%s \"%s\"\n", varname, value); } } static void quote(const char *v) { if(v==NULL) printf("\n"); else printf("%s\n", v); } static void quote_acl(acl_options_t* acl) { while(acl) { printf("%s %s\n", acl->ip_address_spec, acl->nokey?"NOKEY":(acl->blocked?"BLOCKED": (acl->key_name?acl->key_name:"(null)"))); acl=acl->next; } } static void print_acl(const char* varname, acl_options_t* acl) { while(acl) { printf("\t%s ", varname); if(acl->use_axfr_only) printf("AXFR "); if(acl->allow_udp) printf("UDP "); printf("%s %s\n", acl->ip_address_spec, acl->nokey?"NOKEY":(acl->blocked?"BLOCKED": (acl->key_name?acl->key_name:"(null)"))); if(1) { printf("\t# %s", acl->is_ipv6?"ip6":"ip4"); if(acl->port == 0) printf(" noport"); else printf(" port=%d", acl->port); if(acl->rangetype == acl_range_single) printf(" single"); if(acl->rangetype == acl_range_mask) printf(" masked"); if(acl->rangetype == acl_range_subnet) printf(" subnet"); if(acl->rangetype == acl_range_minmax) printf(" minmax"); if(acl->is_ipv6) { #ifdef INET6 char dest[128]; inet_ntop(AF_INET6, &acl->addr.addr6, dest, sizeof(dest)); printf(" addr=%s", dest); if(acl->rangetype != acl_range_single) { inet_ntop(AF_INET6, &acl->range_mask.addr6, dest, sizeof(dest)); printf(" rangemask=%s", dest); } #else printf(" ip6addr-noip6defined"); #endif } else { char dest[128]; inet_ntop(AF_INET, &acl->addr.addr, dest, sizeof(dest)); printf(" addr=%s", dest); if(acl->rangetype != acl_range_single) { inet_ntop(AF_INET, &acl->range_mask.addr, dest, sizeof(dest)); printf(" rangemask=%s", dest); } } printf("\n"); } acl=acl->next; } } static void print_acl_ips(const char* varname, acl_options_t* acl) { while(acl) { printf("\t%s %s\n", varname, acl->ip_address_spec); acl=acl->next; } } void config_print_zone(nsd_options_t* opt, const char* k, int s, const char *o, const char *z) { zone_options_t* zone; ip_address_option_t* ip; if (k) { /* find key */ key_options_t* key = opt->keys; for( ; key ; key=key->next) { if(strcmp(key->name, k) == 0) { if (s) { quote(key->secret); } else { quote(key->algorithm); } return; } } printf("Could not find key %s\n", k); return; } if (!o) { return; } if (z) { const dname_type *dname = dname_parse(opt->region, z); if(!dname) { printf("Could not parse zone name %s\n", z); exit(1); } /* look per zone */ RBTREE_FOR(zone, zone_options_t*, opt->zone_options) { if (dname_compare(dname, zone->node.key) == 0) { /* -z matches, return are in the defines */ ZONE_GET_STR(name, o); ZONE_GET_STR(zonefile, o); ZONE_GET_ACL(request_xfr, o); ZONE_GET_ACL(provide_xfr, o); ZONE_GET_ACL(allow_notify, o); ZONE_GET_ACL(notify, o); ZONE_GET_BIN(notify_retry, o); ZONE_GET_OUTGOING(outgoing_interface, o); ZONE_GET_BIN(allow_axfr_fallback, o); printf("Zone option not handled: %s %s\n", z, o); exit(1); } } printf("Zone does not exist: %s\n", z); exit(1); } else { /* look in the server section */ SERV_GET_IP(ip_address, o); /* bin */ SERV_GET_BIN(debug_mode, o); SERV_GET_BIN(ip4_only, o); SERV_GET_BIN(ip6_only, o); SERV_GET_BIN(hide_version, o); /* str */ SERV_GET_STR(database, o); SERV_GET_STR(identity, o); SERV_GET_STR(nsid, o); SERV_GET_STR(logfile, o); SERV_GET_STR(pidfile, o); SERV_GET_STR(chroot, o); SERV_GET_STR(username, o); SERV_GET_STR(zonesdir, o); SERV_GET_STR(difffile, o); SERV_GET_STR(xfrdfile, o); SERV_GET_STR(port, o); /* int */ SERV_GET_INT(server_count, o); SERV_GET_INT(tcp_count, o); SERV_GET_INT(tcp_query_count, o); SERV_GET_INT(tcp_timeout, o); SERV_GET_INT(ipv4_edns_size, o); SERV_GET_INT(ipv6_edns_size, o); SERV_GET_INT(statistics, o); SERV_GET_INT(xfrd_reload_timeout, o); SERV_GET_INT(verbosity, o); if(strcasecmp(o, "zones") == 0) { RBTREE_FOR(zone, zone_options_t*, opt->zone_options) quote(zone->name); return; } printf("Server option not handled: %s\n", o); exit(1); } } void config_test_print_server(nsd_options_t* opt) { ip_address_option_t* ip; key_options_t* key; zone_options_t* zone; printf("# Config settings.\n"); printf("server:\n"); printf("\tdebug-mode: %s\n", opt->debug_mode?"yes":"no"); printf("\tip4-only: %s\n", opt->ip4_only?"yes":"no"); printf("\tip6-only: %s\n", opt->ip6_only?"yes":"no"); printf("\thide-version: %s\n", opt->hide_version?"yes":"no"); print_string_var("database:", opt->database); print_string_var("identity:", opt->identity); print_string_var("nsid:", opt->nsid); print_string_var("logfile:", opt->logfile); printf("\tserver_count: %d\n", opt->server_count); printf("\ttcp_count: %d\n", opt->tcp_count); printf("\ttcp_query_count: %d\n", opt->tcp_query_count); printf("\ttcp_timeout: %d\n", opt->tcp_timeout); printf("\tipv4-edns-size: %d\n", (int) opt->ipv4_edns_size); printf("\tipv6-edns-size: %d\n", (int) opt->ipv6_edns_size); print_string_var("pidfile:", opt->pidfile); print_string_var("port:", opt->port); printf("\tstatistics: %d\n", opt->statistics); print_string_var("chroot:", opt->chroot); print_string_var("username:", opt->username); print_string_var("zonesdir:", opt->zonesdir); print_string_var("difffile:", opt->difffile); print_string_var("xfrdfile:", opt->xfrdfile); printf("\txfrd_reload_timeout: %d\n", opt->xfrd_reload_timeout); printf("\tverbosity: %d\n", opt->verbosity); for(ip = opt->ip_addresses; ip; ip=ip->next) { print_string_var("ip-address:", ip->address); } for(key = opt->keys; key; key=key->next) { printf("\nkey:\n"); print_string_var("name:", key->name); print_string_var("algorithm:", key->algorithm); print_string_var("secret:", key->secret); } RBTREE_FOR(zone, zone_options_t*, opt->zone_options) { printf("\nzone:\n"); print_string_var("name:", zone->name); print_string_var("zonefile:", zone->zonefile); print_acl("allow-notify:", zone->allow_notify); print_acl("request-xfr:", zone->request_xfr); printf("\tnotify-retry: %d\n", zone->notify_retry); print_acl("notify:", zone->notify); print_acl("provide-xfr:", zone->provide_xfr); print_acl_ips("outgoing-interface:", zone->outgoing_interface); printf("\tallow-axfr-fallback: %s\n", zone->allow_axfr_fallback?"yes":"no"); } } static int additional_checks(nsd_options_t* opt, const char* filename) { ip_address_option_t* ip = opt->ip_addresses; zone_options_t* zone; key_options_t* key; int num = 0; int errors = 0; while(ip) { num++; ip = ip->next; } if(num > MAX_INTERFACES) { fprintf(stderr, "%s: too many interfaces (ip-address:) specified.\n", filename); errors ++; } RBTREE_FOR(zone, zone_options_t*, opt->zone_options) { const dname_type* dname = dname_parse(opt->region, zone->name); /* memory leak. */ if(!dname) { fprintf(stderr, "%s: cannot parse zone name syntax for zone %s.\n", filename, zone->name); errors ++; } if(zone->allow_notify && !zone->request_xfr) { fprintf(stderr, "%s: zone %s has allow-notify but no request-xfr" " items. Where can it get a zone transfer when a notify " "is received?\n", filename, zone->name); errors ++; } } for(key = opt->keys; key; key=key->next) { const dname_type* dname = dname_parse(opt->region, key->name); /* memory leak. */ uint8_t data[4000]; int size; if(!dname) { fprintf(stderr, "%s: cannot parse tsig name syntax for key %s.\n", filename, key->name); errors ++; } size = b64_pton(key->secret, data, sizeof(data)); if(size == -1) { fprintf(stderr, "%s: cannot base64 decode tsig secret: for key %s.\n", filename, key->name); errors ++; } if(tsig_get_algorithm_by_name(key->algorithm) == NULL) { fprintf(stderr, "%s: bad tsig algorithm %s: for key \ %s.\n", filename, key->algorithm, key->name); errors ++; } } #ifndef BIND8_STATS if(opt->statistics > 0) { fprintf(stderr, "%s: 'statistics: %d' but BIND 8 statistics feature not enabled.\n", filename, opt->statistics); errors ++; } #endif #ifndef HAVE_CHROOT if(opt->chroot != 0) { fprintf(stderr, "%s: chroot %s given. chroot not supported on this platform.\n", filename, opt->chroot); errors ++; } #endif if (opt->identity && strlen(opt->identity) > UCHAR_MAX) { fprintf(stderr, "%s: server identity too long (%u characters)\n", filename, (unsigned) strlen(opt->identity)); errors ++; } /* not done here: parsing of ip-address. parsing of username. */ if (opt->chroot) { int l = strlen(opt->chroot); if (strncmp(opt->chroot, opt->pidfile, l) != 0) { fprintf(stderr, "%s: pidfile %s is not relative to chroot %s.\n", filename, opt->pidfile, opt->chroot); errors ++; } if (strncmp(opt->chroot, opt->database, l) != 0) { fprintf(stderr, "%s: databasefile %s is not relative to chroot %s.\n", filename, opt->database, opt->chroot); errors ++; } if (strncmp(opt->chroot, opt->difffile, l) != 0) { fprintf(stderr, "%s: difffile %s is not relative to chroot %s.\n", filename, opt->difffile, opt->chroot); errors ++; } if (strncmp(opt->chroot, opt->xfrdfile, l) != 0) { fprintf(stderr, "%s: xfrdfile %s is not relative to chroot %s.\n", filename, opt->xfrdfile, opt->chroot); errors ++; } } if (atoi(opt->port) <= 0) { fprintf(stderr, "%s: port number '%s' is not a positive number.\n", filename, opt->port); errors ++; } if(errors != 0) { fprintf(stderr, "%s: %d semantic errors in %d zones, %d keys.\n", filename, errors, (int)nsd_options_num_zones(opt), (int)opt->numkeys); } return (errors == 0); } int main(int argc, char* argv[]) { int c; int verbose = 0; int key_sec = 0; const char * conf_opt = NULL; /* what option do you want? Can be NULL -> print all */ const char * conf_zone = NULL; /* what zone are we talking about */ const char * conf_key = NULL; /* what key is needed */ const char* configfile; nsd_options_t *options; log_init("nsd-checkconf"); /* Parse the command line... */ while ((c = getopt(argc, argv, "vo:a:s:z:")) != -1) { switch (c) { case 'v': verbose = 1; break; case 'o': conf_opt = optarg; break; case 'a': if (conf_key) { fprintf(stderr, "Error: cannot combine -a with -s or other -a.\n"); exit(1); } conf_key = optarg; break; case 's': if (conf_key) { fprintf(stderr, "Error: cannot combine -s with -a or other -s.\n"); exit(1); } conf_key = optarg; key_sec = 1; break; case 'z': conf_zone = optarg; break; default: usage(); }; } argc -= optind; argv += optind; if (argc == 0 || argc>=2) { usage(); } configfile = argv[0]; /* read config file */ options = nsd_options_create(region_create(xalloc, free)); tsig_init(options->region); if (!parse_options_file(options, configfile) || !additional_checks(options, configfile)) { exit(2); } if (conf_opt || conf_key) { config_print_zone(options, conf_key, key_sec, underscore(conf_opt), conf_zone); } else { if (verbose) { printf("# Read file %s: %d zones, %d keys.\n", configfile, (int)nsd_options_num_zones(options), (int)options->numkeys); config_test_print_server(options); } } return 0; }