/* $OpenBSD: confpars.c,v 1.29 2017/02/13 19:13:14 krw Exp $ */ /* * Copyright (c) 1995, 1996, 1997 The Internet Software Consortium. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of The Internet Software Consortium nor the names * of its contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE INTERNET SOFTWARE CONSORTIUM AND * CONTRIBUTORS ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, * INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL THE INTERNET SOFTWARE CONSORTIUM OR * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF * USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT * OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * This software has been written for the Internet Software Consortium * by Ted Lemon in cooperation with Vixie * Enterprises. To learn more about the Internet Software Consortium, * see ``http://www.vix.com/isc''. To learn more about Vixie * Enterprises, see ``http://www.vix.com''. */ #include #include #include #include #include #include #include #include "dhcp.h" #include "tree.h" #include "dhcpd.h" #include "dhctoken.h" #include "log.h" /* * conf-file :== parameters declarations EOF * parameters :== | parameter | parameters parameter * declarations :== | declaration | declarations declaration */ int readconf(void) { FILE *cfile; char *val; int token; int declaration = 0; new_parse(path_dhcpd_conf); /* Set up the initial dhcp option universe. */ initialize_universes(); /* Set up the global defaults. */ root_group.default_lease_time = 43200; /* 12 hours. */ root_group.max_lease_time = 86400; /* 24 hours. */ root_group.bootp_lease_cutoff = MAX_TIME; root_group.boot_unknown_clients = 1; root_group.allow_bootp = 1; root_group.allow_booting = 1; root_group.authoritative = 1; if ((cfile = fopen(path_dhcpd_conf, "r")) == NULL) fatalx("Can't open %s: %m", path_dhcpd_conf); do { token = peek_token(&val, cfile); if (token == EOF) break; declaration = parse_statement(cfile, &root_group, ROOT_GROUP, NULL, declaration); } while (1); token = next_token(&val, cfile); /* Clear the peek buffer */ fclose(cfile); return !warnings_occurred; } /* * lease-file :== lease-declarations EOF * lease-statments :== * | lease-declaration * | lease-declarations lease-declaration */ void read_leases(void) { FILE *cfile; char *val; int token; new_parse(path_dhcpd_db); /* * Open the lease file. If we can't open it, fail. The reason * for this is that although on initial startup, the absence of * a lease file is perfectly benign, if dhcpd has been running * and this file is absent, it means that dhcpd tried and failed * to rewrite the lease database. If we proceed and the * problem which caused the rewrite to fail has been fixed, but no * human has corrected the database problem, then we are left * thinking that no leases have been assigned to anybody, which * could create severe network chaos. */ if ((cfile = fopen(path_dhcpd_db, "r")) == NULL) { log_warnx("Can't open lease database %s: %m -- %s", path_dhcpd_db, "check for failed database rewrite attempt!"); log_warnx("Please read the dhcpd.leases manual page if you"); fatalx("don't know what to do about this."); } do { token = next_token(&val, cfile); if (token == EOF) break; if (token != TOK_LEASE) { log_warnx("Corrupt lease file - possible data loss!"); skip_to_semi(cfile); } else { struct lease *lease; lease = parse_lease_declaration(cfile); if (lease) enter_lease(lease); else parse_warn("possibly corrupt lease file"); } } while (1); fclose(cfile); } /* * statement :== parameter | declaration * * parameter :== timestamp * | DEFAULT_LEASE_TIME lease_time * | MAX_LEASE_TIME lease_time * | DYNAMIC_BOOTP_LEASE_CUTOFF date * | DYNAMIC_BOOTP_LEASE_LENGTH lease_time * | BOOT_UNKNOWN_CLIENTS boolean * | GET_LEASE_HOSTNAMES boolean * | USE_HOST_DECL_NAME boolean * | NEXT_SERVER ip-addr-or-hostname SEMI * | option_parameter * | SERVER-IDENTIFIER ip-addr-or-hostname SEMI * | FILENAME string-parameter * | SERVER_NAME string-parameter * | hardware-parameter * | fixed-address-parameter * | ALLOW allow-deny-keyword * | DENY allow-deny-keyword * | USE_LEASE_ADDR_FOR_DEFAULT_ROUTE boolean * * declaration :== host-declaration * | group-declaration * | shared-network-declaration * | subnet-declaration * | VENDOR_CLASS class-declaration * | USER_CLASS class-declaration * | RANGE address-range-declaration */ int parse_statement(FILE *cfile, struct group *group, int type, struct host_decl *host_decl, int declaration) { int token; char *val; struct shared_network *share; char *n; struct tree *tree; struct tree_cache *cache; struct hardware hardware; switch (next_token(&val, cfile)) { case TOK_HOST: if (type != HOST_DECL) parse_host_declaration(cfile, group); else { parse_warn("host declarations not allowed here."); skip_to_semi(cfile); } return 1; case TOK_GROUP: if (type != HOST_DECL) parse_group_declaration(cfile, group); else { parse_warn("host declarations not allowed here."); skip_to_semi(cfile); } return 1; case TOK_TIMESTAMP: break; case TOK_SHARED_NETWORK: if (type == SHARED_NET_DECL || type == HOST_DECL || type == SUBNET_DECL) { parse_warn("shared-network parameters not %s.", "allowed here"); skip_to_semi(cfile); break; } parse_shared_net_declaration(cfile, group); return 1; case TOK_SUBNET: if (type == HOST_DECL || type == SUBNET_DECL) { parse_warn("subnet declarations not allowed here."); skip_to_semi(cfile); return 1; } /* If we're in a subnet declaration, just do the parse. */ if (group->shared_network) { parse_subnet_declaration(cfile, group->shared_network); break; } /* * Otherwise, cons up a fake shared network structure * and populate it with the lone subnet. */ share = calloc(1, sizeof(struct shared_network)); if (!share) fatalx("No memory for shared subnet"); share->group = clone_group(group, "parse_statement:subnet"); share->group->shared_network = share; parse_subnet_declaration(cfile, share); /* share->subnets is the subnet we just parsed. */ if (share->subnets) { share->interface = share->subnets->interface; /* Make the shared network name from network number. */ n = piaddr(share->subnets->net); share->name = strdup(n); if (share->name == NULL) fatalx("no memory for subnet name"); /* * Copy the authoritative parameter from the subnet, * since there is no opportunity to declare it here. */ share->group->authoritative = share->subnets->group->authoritative; enter_shared_network(share); } return 1; case TOK_VENDOR_CLASS: parse_class_declaration(cfile, group, 0); return 1; case TOK_USER_CLASS: parse_class_declaration(cfile, group, 1); return 1; case TOK_DEFAULT_LEASE_TIME: parse_lease_time(cfile, &group->default_lease_time); break; case TOK_MAX_LEASE_TIME: parse_lease_time(cfile, &group->max_lease_time); break; case TOK_DYNAMIC_BOOTP_LEASE_CUTOFF: group->bootp_lease_cutoff = parse_date(cfile); break; case TOK_DYNAMIC_BOOTP_LEASE_LENGTH: parse_lease_time(cfile, &group->bootp_lease_length); break; case TOK_BOOT_UNKNOWN_CLIENTS: if (type == HOST_DECL) parse_warn("boot-unknown-clients not allowed here."); group->boot_unknown_clients = parse_boolean(cfile); break; case TOK_GET_LEASE_HOSTNAMES: if (type == HOST_DECL) parse_warn("get-lease-hostnames not allowed here."); group->get_lease_hostnames = parse_boolean(cfile); break; case TOK_ALWAYS_REPLY_RFC1048: group->always_reply_rfc1048 = parse_boolean(cfile); break; case TOK_USE_HOST_DECL_NAMES: if (type == HOST_DECL) parse_warn("use-host-decl-names not allowed here."); group->use_host_decl_names = parse_boolean(cfile); break; case TOK_USE_LEASE_ADDR_FOR_DEFAULT_ROUTE: group->use_lease_addr_for_default_route = parse_boolean(cfile); break; case TOK_TOKEN_NOT: token = next_token(&val, cfile); switch (token) { case TOK_AUTHORITATIVE: if (type == HOST_DECL) parse_warn("authority makes no sense here."); group->authoritative = 0; parse_semi(cfile); break; default: parse_warn("expecting assertion"); skip_to_semi(cfile); break; } break; case TOK_AUTHORITATIVE: if (type == HOST_DECL) parse_warn("authority makes no sense here."); group->authoritative = 1; parse_semi(cfile); break; case TOK_NEXT_SERVER: tree = parse_ip_addr_or_hostname(cfile, 0); if (!tree) break; cache = tree_cache(tree); if (!tree_evaluate (cache)) fatalx("next-server is not known"); group->next_server.len = 4; memcpy(group->next_server.iabuf, cache->value, group->next_server.len); parse_semi(cfile); break; case TOK_OPTION: parse_option_param(cfile, group); break; case TOK_SERVER_IDENTIFIER: tree = parse_ip_addr_or_hostname(cfile, 0); if (!tree) return declaration; group->options[DHO_DHCP_SERVER_IDENTIFIER] = tree_cache(tree); token = next_token(&val, cfile); break; case TOK_FILENAME: group->filename = parse_string(cfile); break; case TOK_SERVER_NAME: group->server_name = parse_string(cfile); break; case TOK_HARDWARE: parse_hardware_param(cfile, &hardware); if (host_decl) host_decl->interface = hardware; else parse_warn("hardware address parameter %s", "not allowed here."); break; case TOK_FIXED_ADDR: cache = parse_fixed_addr_param(cfile); if (host_decl) host_decl->fixed_addr = cache; else parse_warn("fixed-address parameter not %s", "allowed here."); break; case TOK_RANGE: if (type != SUBNET_DECL || !group->subnet) { parse_warn("range declaration not allowed here."); skip_to_semi(cfile); return declaration; } parse_address_range(cfile, group->subnet); return declaration; case TOK_ALLOW: parse_allow_deny(cfile, group, 1); break; case TOK_DENY: parse_allow_deny(cfile, group, 0); break; default: if (declaration) parse_warn("expecting a declaration."); else parse_warn("expecting a parameter or declaration."); skip_to_semi(cfile); return declaration; } if (declaration) { parse_warn("parameters not allowed after first declaration."); return 1; } return 0; } /* * allow-deny-keyword :== BOOTP * | BOOTING * | DYNAMIC_BOOTP * | UNKNOWN_CLIENTS */ void parse_allow_deny(FILE *cfile, struct group *group, int flag) { int token; char *val; token = next_token(&val, cfile); switch (token) { case TOK_BOOTP: group->allow_bootp = flag; break; case TOK_BOOTING: group->allow_booting = flag; break; case TOK_DYNAMIC_BOOTP: group->dynamic_bootp = flag; break; case TOK_UNKNOWN_CLIENTS: group->boot_unknown_clients = flag; break; default: parse_warn("expecting allow/deny key"); skip_to_semi(cfile); return; } parse_semi(cfile); } /* * boolean :== ON SEMI | OFF SEMI | TRUE SEMI | FALSE SEMI */ int parse_boolean(FILE *cfile) { char *val; int rv; next_token(&val, cfile); if (!strcasecmp (val, "true") || !strcasecmp (val, "on")) rv = 1; else if (!strcasecmp (val, "false") || !strcasecmp (val, "off")) rv = 0; else { parse_warn("boolean value (true/false/on/off) expected"); skip_to_semi(cfile); return 0; } parse_semi(cfile); return rv; } /* * Expect a left brace; if there isn't one, skip over the rest of the * statement and return zero; otherwise, return 1. */ int parse_lbrace(FILE *cfile) { int token; char *val; token = next_token(&val, cfile); if (token != '{') { parse_warn("expecting left brace."); skip_to_semi(cfile); return 0; } return 1; } /* * host-declaration :== hostname '{' parameters declarations '}' */ void parse_host_declaration(FILE *cfile, struct group *group) { char *val; int token; struct host_decl *host; char *name = parse_host_name(cfile); int declaration = 0; if (!name) return; host = calloc(1, sizeof (struct host_decl)); if (!host) fatalx("can't allocate host decl struct %s.", name); host->name = name; host->group = clone_group(group, "parse_host_declaration"); if (!parse_lbrace(cfile)) { free(host->name); free(host->group); free(host); return; } do { token = peek_token(&val, cfile); if (token == '}') { token = next_token(&val, cfile); break; } if (token == EOF) { token = next_token(&val, cfile); parse_warn("unexpected end of file"); break; } declaration = parse_statement(cfile, host->group, HOST_DECL, host, declaration); } while (1); if (!host->group->options[DHO_HOST_NAME] && host->group->use_host_decl_names) { host->group->options[DHO_HOST_NAME] = new_tree_cache("parse_host_declaration"); if (!host->group->options[DHO_HOST_NAME]) fatalx("can't allocate a tree cache for hostname."); host->group->options[DHO_HOST_NAME]->len = strlen(name); host->group->options[DHO_HOST_NAME]->value = (unsigned char *)name; host->group->options[DHO_HOST_NAME]->buf_size = host->group->options[DHO_HOST_NAME]->len; host->group->options[DHO_HOST_NAME]->timeout = -1; host->group->options[DHO_HOST_NAME]->tree = NULL; } enter_host(host); } /* * class-declaration :== STRING '{' parameters declarations '}' */ void parse_class_declaration(FILE *cfile, struct group *group, int type) { char *val; int token; struct class *class; int declaration = 0; token = next_token(&val, cfile); if (token != TOK_STRING) { parse_warn("Expecting class name"); skip_to_semi(cfile); return; } class = add_class (type, val); if (!class) fatalx("No memory for class %s.", val); class->group = clone_group(group, "parse_class_declaration"); if (!parse_lbrace(cfile)) { free(class->name); free(class->group); free(class); return; } do { token = peek_token(&val, cfile); if (token == '}') { token = next_token(&val, cfile); break; } else if (token == EOF) { token = next_token(&val, cfile); parse_warn("unexpected end of file"); break; } else { declaration = parse_statement(cfile, class->group, CLASS_DECL, NULL, declaration); } } while (1); } /* * shared-network-declaration :== * hostname LBRACE declarations parameters RBRACE */ void parse_shared_net_declaration(FILE *cfile, struct group *group) { char *val; int token; struct shared_network *share; char *name; int declaration = 0; share = calloc(1, sizeof(struct shared_network)); if (!share) fatalx("No memory for shared subnet"); share->leases = NULL; share->last_lease = NULL; share->insertion_point = NULL; share->next = NULL; share->interface = NULL; share->group = clone_group(group, "parse_shared_net_declaration"); share->group->shared_network = share; /* Get the name of the shared network. */ token = peek_token(&val, cfile); if (token == TOK_STRING) { token = next_token(&val, cfile); if (val[0] == 0) { parse_warn("zero-length shared network name"); val = ""; } name = strdup(val); if (name == NULL) fatalx("no memory for shared network name"); } else { name = parse_host_name(cfile); if (!name) { free(share->group); free(share); return; } } share->name = name; if (!parse_lbrace(cfile)) { free(share->group); free(share->name); free(share); return; } do { token = peek_token(&val, cfile); if (token == '}') { token = next_token(&val, cfile); if (!share->subnets) { free(share->group); free(share->name); free(share); parse_warn("empty shared-network decl"); return; } enter_shared_network(share); return; } else if (token == EOF) { token = next_token(&val, cfile); parse_warn("unexpected end of file"); break; } declaration = parse_statement(cfile, share->group, SHARED_NET_DECL, NULL, declaration); } while (1); } /* * subnet-declaration :== * net NETMASK netmask RBRACE parameters declarations LBRACE */ void parse_subnet_declaration(FILE *cfile, struct shared_network *share) { char *val; int token; struct subnet *subnet, *t, *u; struct iaddr iaddr; unsigned char addr[4]; int len = sizeof addr; int declaration = 0; subnet = calloc(1, sizeof(struct subnet)); if (!subnet) fatalx("No memory for new subnet"); subnet->shared_network = share; subnet->group = clone_group(share->group, "parse_subnet_declaration"); subnet->group->subnet = subnet; /* Get the network number. */ if (!parse_numeric_aggregate(cfile, addr, &len, '.', 10, 8)) { free(subnet->group); free(subnet); return; } memcpy(iaddr.iabuf, addr, len); iaddr.len = len; subnet->net = iaddr; token = next_token(&val, cfile); if (token != TOK_NETMASK) { free(subnet->group); free(subnet); parse_warn("Expecting netmask"); skip_to_semi(cfile); return; } /* Get the netmask. */ if (!parse_numeric_aggregate(cfile, addr, &len, '.', 10, 8)) { free(subnet->group); free(subnet); return; } memcpy(iaddr.iabuf, addr, len); iaddr.len = len; subnet->netmask = iaddr; /* Save only the subnet number. */ subnet->net = subnet_number(subnet->net, subnet->netmask); enter_subnet(subnet); if (!parse_lbrace(cfile)) return; do { token = peek_token(&val, cfile); if (token == '}') { token = next_token(&val, cfile); break; } else if (token == EOF) { token = next_token(&val, cfile); parse_warn("unexpected end of file"); break; } declaration = parse_statement(cfile, subnet->group, SUBNET_DECL, NULL, declaration); } while (1); /* * If this subnet supports dynamic bootp, flag it so in the * shared_network containing it. */ if (subnet->group->dynamic_bootp) share->group->dynamic_bootp = 1; /* Add the subnet to the list of subnets in this shared net. */ if (!share->subnets) share->subnets = subnet; else { u = NULL; for (t = share->subnets; t; t = t->next_sibling) { if (subnet_inner_than(subnet, t, 0)) { if (u) u->next_sibling = subnet; else share->subnets = subnet; subnet->next_sibling = t; return; } u = t; } u->next_sibling = subnet; } } /* * group-declaration :== RBRACE parameters declarations LBRACE */ void parse_group_declaration(FILE *cfile, struct group *group) { char *val; int token; struct group *g; int declaration = 0; g = clone_group(group, "parse_group_declaration"); if (!parse_lbrace(cfile)) { free(g); return; } do { token = peek_token(&val, cfile); if (token == '}') { token = next_token(&val, cfile); break; } else if (token == EOF) { token = next_token(&val, cfile); parse_warn("unexpected end of file"); break; } declaration = parse_statement(cfile, g, GROUP_DECL, NULL, declaration); } while (1); } /* * cidr :== ip-address "/" bit-count * ip-address :== NUMBER [ DOT NUMBER [ DOT NUMBER [ DOT NUMBER ] ] ] * bit-count :== 0..32 */ int parse_cidr(FILE *cfile, unsigned char *addr, unsigned char *prefix) { const char *errstr; char *val; int token; int len = 4; token = peek_token(&val, cfile); if (!parse_numeric_aggregate(cfile, addr, &len, '.', 10, 8)) { parse_warn("Expecting CIDR subnet"); goto nocidr; } token = next_token(&val, cfile); if (token != '/') { parse_warn("Expecting '/'"); goto nocidr; } token = next_token(&val, cfile); if (token == TOK_NUMBER_OR_NAME) *prefix = strtonum(val, 0, 32, &errstr); if (token != TOK_NUMBER_OR_NAME || errstr) { *prefix = 0; parse_warn("Expecting CIDR prefix length, got '%s'", val); goto nocidr; } return 1; nocidr: if (token != ';') skip_to_semi(cfile); return 0; } /* * ip-addr-or-hostname :== ip-address | hostname * ip-address :== NUMBER DOT NUMBER DOT NUMBER DOT NUMBER * * Parse an ip address or a hostname. If uniform is zero, put in * a TREE_LIMIT node to catch hostnames that evaluate to more than * one IP address. */ struct tree * parse_ip_addr_or_hostname(FILE *cfile, int uniform) { char *val; int token; unsigned char addr[4]; int len = sizeof addr; char *name; struct tree *rv; struct hostent *h; name = NULL; h = NULL; token = peek_token(&val, cfile); if (is_identifier(token)) { name = parse_host_name(cfile); if (name) h = gethostbyname(name); if (name && h) { rv = tree_const(h->h_addr_list[0], h->h_length); if (!uniform) rv = tree_limit(rv, 4); return rv; } } if (token == TOK_NUMBER_OR_NAME) { if (!parse_numeric_aggregate(cfile, addr, &len, '.', 10, 8)) { parse_warn("%s (%d): expecting IP address or hostname", val, token); return NULL; } rv = tree_const(addr, len); } else { if (token != '{' && token != '}') token = next_token(&val, cfile); parse_warn("%s (%d): expecting IP address or hostname", val, token); if (token != ';') skip_to_semi(cfile); return NULL; } return rv; } /* * fixed-addr-parameter :== ip-addrs-or-hostnames SEMI * ip-addrs-or-hostnames :== ip-addr-or-hostname * | ip-addrs-or-hostnames ip-addr-or-hostname */ struct tree_cache * parse_fixed_addr_param(FILE *cfile) { char *val; int token; struct tree *tree = NULL; struct tree *tmp; do { tmp = parse_ip_addr_or_hostname(cfile, 0); if (tree) tree = tree_concat(tree, tmp); else tree = tmp; token = peek_token(&val, cfile); if (token == ',') token = next_token(&val, cfile); } while (token == ','); if (!parse_semi(cfile)) return NULL; return tree_cache(tree); } /* * option_parameter :== identifier DOT identifier SEMI * | identifier SEMI * * Option syntax is handled specially through format strings, so it * would be painful to come up with BNF for it. However, it always * starts as above and ends in a SEMI. */ void parse_option_param(FILE *cfile, struct group *group) { char *val; int token; unsigned char buf[4]; unsigned char cprefix; char *vendor; char *fmt; struct universe *universe; struct option *option; struct tree *tree = NULL; struct tree *t; token = next_token(&val, cfile); if (!is_identifier(token)) { parse_warn("expecting identifier after option keyword."); if (token != ';') skip_to_semi(cfile); return; } vendor = strdup(val); if (vendor == NULL) fatalx("no memory for vendor token."); token = peek_token(&val, cfile); if (token == '.') { /* Go ahead and take the DOT token. */ token = next_token(&val, cfile); /* The next token should be an identifier. */ token = next_token(&val, cfile); if (!is_identifier(token)) { parse_warn("expecting identifier after '.'"); if (token != ';') skip_to_semi(cfile); free(vendor); return; } /* * Look up the option name hash table for the specified * vendor. */ universe = ((struct universe *)hash_lookup(&universe_hash, (unsigned char *)vendor, 0)); /* * If it's not there, we can't parse the rest of the * declaration. */ if (!universe) { parse_warn("no vendor named %s.", vendor); skip_to_semi(cfile); free(vendor); return; } } else { /* * Use the default hash table, which contains all the * standard dhcp option names. */ val = vendor; universe = &dhcp_universe; } /* Look up the actual option info. */ option = (struct option *)hash_lookup(universe->hash, (unsigned char *)val, 0); /* If we didn't get an option structure, it's an undefined option. */ if (!option) { if (val == vendor) parse_warn("no option named %s", val); else parse_warn("no option named %s for vendor %s", val, vendor); skip_to_semi(cfile); free(vendor); return; } /* Free the initial identifier token. */ free(vendor); /* Parse the option data. */ do { /* * Set a flag if this is an array of a simple type (i.e., * not an array of pairs of IP addresses, or something * like that. */ int uniform = option->format[1] == 'A'; for (fmt = option->format; *fmt; fmt++) { if (*fmt == 'A') break; switch (*fmt) { case 'X': token = peek_token(&val, cfile); if (token == TOK_NUMBER_OR_NAME) { do { token = next_token (&val, cfile); if (token != TOK_NUMBER_OR_NAME) { parse_warn("expecting " "hex number."); if (token != ';') skip_to_semi( cfile); return; } convert_num(buf, val, 16, 8); tree = tree_concat(tree, tree_const(buf, 1)); token = peek_token(&val, cfile); if (token == ':') token = next_token(&val, cfile); } while (token == ':'); } else if (token == TOK_STRING) { token = next_token(&val, cfile); tree = tree_concat(tree, tree_const((unsigned char *)val, strlen(val))); } else { parse_warn("expecting string %s.", "or hexadecimal data"); skip_to_semi(cfile); return; } break; case 't': /* Text string. */ token = next_token(&val, cfile); if (token != TOK_STRING && !is_identifier(token)) { parse_warn("expecting string."); if (token != ';') skip_to_semi(cfile); return; } tree = tree_concat(tree, tree_const((unsigned char *)val, strlen(val))); break; case 'I': /* IP address or hostname. */ t = parse_ip_addr_or_hostname(cfile, uniform); if (!t) return; tree = tree_concat(tree, t); break; case 'L': /* Unsigned 32-bit integer. */ case 'l': /* Signed 32-bit integer. */ token = next_token(&val, cfile); if (token != TOK_NUMBER && token != TOK_NUMBER_OR_NAME) { parse_warn("expecting number."); if (token != ';') skip_to_semi(cfile); return; } convert_num(buf, val, 0, 32); tree = tree_concat(tree, tree_const(buf, 4)); break; case 's': /* Signed 16-bit integer. */ case 'S': /* Unsigned 16-bit integer. */ token = next_token(&val, cfile); if (token != TOK_NUMBER && token != TOK_NUMBER_OR_NAME) { parse_warn("expecting number."); if (token != ';') skip_to_semi(cfile); return; } convert_num(buf, val, 0, 16); tree = tree_concat(tree, tree_const(buf, 2)); break; case 'b': /* Signed 8-bit integer. */ case 'B': /* Unsigned 8-bit integer. */ token = next_token(&val, cfile); if (token != TOK_NUMBER && token != TOK_NUMBER_OR_NAME) { parse_warn("expecting number."); if (token != ';') skip_to_semi(cfile); return; } convert_num(buf, val, 0, 8); tree = tree_concat(tree, tree_const(buf, 1)); break; case 'f': /* Boolean flag. */ token = next_token(&val, cfile); if (!is_identifier(token)) { parse_warn("expecting identifier."); if (token != ';') skip_to_semi(cfile); return; } if (!strcasecmp(val, "true") || !strcasecmp(val, "on")) buf[0] = 1; else if (!strcasecmp(val, "false") || !strcasecmp(val, "off")) buf[0] = 0; else { parse_warn("expecting boolean."); if (token != ';') skip_to_semi(cfile); return; } tree = tree_concat(tree, tree_const(buf, 1)); break; case 'C': if (!parse_cidr(cfile, buf, &cprefix)) return; tree = tree_concat(tree, tree_const(&cprefix, sizeof(cprefix))); if (cprefix > 0) tree = tree_concat(tree, tree_const(buf, (cprefix + 7) / 8)); break; default: log_warnx("Bad format %c in parse_option_param.", *fmt); skip_to_semi(cfile); return; } } if (*fmt == 'A') { token = peek_token(&val, cfile); if (token == ',') { token = next_token(&val, cfile); continue; } break; } } while (*fmt == 'A'); token = next_token(&val, cfile); if (token != ';') { parse_warn("semicolon expected."); skip_to_semi(cfile); return; } group->options[option->code] = tree_cache(tree); } /* * lease_declaration :== LEASE ip_address LBRACE lease_parameters RBRACE * * lease_parameters :== * | lease_parameter * | lease_parameters lease_parameter * * lease_parameter :== STARTS date * | ENDS date * | TIMESTAMP date * | HARDWARE hardware-parameter * | UID hex_numbers SEMI * | HOSTNAME hostname SEMI * | CLIENT_HOSTNAME hostname SEMI * | CLASS identifier SEMI * | DYNAMIC_BOOTP SEMI */ struct lease * parse_lease_declaration(FILE *cfile) { char *val; int token; unsigned char addr[4]; int len = sizeof addr; int seenmask = 0; int seenbit; char tbuf[32]; static struct lease lease; /* Zap the lease structure. */ memset(&lease, 0, sizeof lease); /* Get the address for which the lease has been issued. */ if (!parse_numeric_aggregate(cfile, addr, &len, '.', 10, 8)) return NULL; memcpy(lease.ip_addr.iabuf, addr, len); lease.ip_addr.len = len; if (!parse_lbrace(cfile)) return NULL; do { token = next_token(&val, cfile); if (token == '}') break; else if (token == EOF) { parse_warn("unexpected end of file"); break; } strlcpy(tbuf, val, sizeof tbuf); /* Parse any of the times associated with the lease. */ if (token == TOK_STARTS || token == TOK_ENDS || token == TOK_TIMESTAMP) { time_t t; t = parse_date(cfile); switch (token) { case TOK_STARTS: seenbit = 1; lease.starts = t; break; case TOK_ENDS: seenbit = 2; lease.ends = t; break; case TOK_TIMESTAMP: seenbit = 4; lease.timestamp = t; break; default: /*NOTREACHED*/ seenbit = 0; break; } } else { switch (token) { /* Colon-separated hexadecimal octets. */ case TOK_UID: seenbit = 8; token = peek_token(&val, cfile); if (token == TOK_STRING) { token = next_token(&val, cfile); lease.uid_len = strlen(val); lease.uid = malloc(lease.uid_len); if (!lease.uid) { log_warnx("no space for uid"); return NULL; } memcpy(lease.uid, val, lease.uid_len); parse_semi(cfile); } else { lease.uid_len = 0; lease.uid = parse_numeric_aggregate(cfile, NULL, &lease.uid_len, ':', 16, 8); if (!lease.uid) { log_warnx("no space for uid"); return NULL; } if (lease.uid_len == 0) { lease.uid = NULL; parse_warn("zero-length uid"); seenbit = 0; break; } } if (!lease.uid) fatalx("No memory for lease uid"); break; case TOK_CLASS: seenbit = 32; token = next_token(&val, cfile); if (!is_identifier(token)) { if (token != ';') skip_to_semi(cfile); return NULL; } /* for now, we aren't using this. */ break; case TOK_HARDWARE: seenbit = 64; parse_hardware_param(cfile, &lease.hardware_addr); break; case TOK_DYNAMIC_BOOTP: seenbit = 128; lease.flags |= BOOTP_LEASE; break; case TOK_ABANDONED: seenbit = 256; lease.flags |= ABANDONED_LEASE; break; case TOK_HOSTNAME: seenbit = 512; token = peek_token(&val, cfile); if (token == TOK_STRING) lease.hostname = parse_string(cfile); else lease.hostname = parse_host_name(cfile); if (!lease.hostname) { seenbit = 0; return NULL; } break; case TOK_CLIENT_HOSTNAME: seenbit = 1024; token = peek_token(&val, cfile); if (token == TOK_STRING) lease.client_hostname = parse_string(cfile); else lease.client_hostname = parse_host_name(cfile); break; default: skip_to_semi(cfile); seenbit = 0; return NULL; } if (token != TOK_HARDWARE && token != TOK_STRING) { token = next_token(&val, cfile); if (token != ';') { parse_warn("semicolon expected."); skip_to_semi(cfile); return NULL; } } } if (seenmask & seenbit) { parse_warn("Too many %s parameters in lease %s\n", tbuf, piaddr(lease.ip_addr)); } else seenmask |= seenbit; } while (1); return &lease; } /* * address-range-declaration :== ip-address ip-address SEMI * | DYNAMIC_BOOTP ip-address ip-address SEMI */ void parse_address_range(FILE *cfile, struct subnet *subnet) { struct iaddr low, high; unsigned char addr[4]; int len = sizeof addr, token, dynamic = 0; char *val; if ((token = peek_token(&val, cfile)) == TOK_DYNAMIC_BOOTP) { token = next_token(&val, cfile); subnet->group->dynamic_bootp = dynamic = 1; } /* Get the bottom address in the range. */ if (!parse_numeric_aggregate(cfile, addr, &len, '.', 10, 8)) return; memcpy(low.iabuf, addr, len); low.len = len; /* Only one address? */ token = peek_token(&val, cfile); if (token == ';') high = low; else { /* Get the top address in the range. */ if (!parse_numeric_aggregate(cfile, addr, &len, '.', 10, 8)) return; memcpy(high.iabuf, addr, len); high.len = len; } token = next_token(&val, cfile); if (token != ';') { parse_warn("semicolon expected."); skip_to_semi(cfile); return; } /* Create the new address range. */ new_address_range(low, high, subnet, dynamic); }