blob: 45d8875fb7f9cce5d71016e7331c927fbdbf246c [file] [log] [blame]
/* dnsmasq is Copyright (c) 2000-2014 Simon Kelley
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; version 2 dated June, 1991, or
(at your option) version 3 dated 29 June, 2007.
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, see <http://www.gnu.org/licenses/>.
*/
/* define this to get facilitynames */
#define SYSLOG_NAMES
#include "dnsmasq.h"
#include <setjmp.h>
static volatile int mem_recover = 0;
static jmp_buf mem_jmp;
static int one_file(char *file, int hard_opt);
/* Solaris headers don't have facility names. */
#ifdef HAVE_SOLARIS_NETWORK
static const struct {
char *c_name;
unsigned int c_val;
} facilitynames[] = {
{ "kern", LOG_KERN },
{ "user", LOG_USER },
{ "mail", LOG_MAIL },
{ "daemon", LOG_DAEMON },
{ "auth", LOG_AUTH },
{ "syslog", LOG_SYSLOG },
{ "lpr", LOG_LPR },
{ "news", LOG_NEWS },
{ "uucp", LOG_UUCP },
{ "audit", LOG_AUDIT },
{ "cron", LOG_CRON },
{ "local0", LOG_LOCAL0 },
{ "local1", LOG_LOCAL1 },
{ "local2", LOG_LOCAL2 },
{ "local3", LOG_LOCAL3 },
{ "local4", LOG_LOCAL4 },
{ "local5", LOG_LOCAL5 },
{ "local6", LOG_LOCAL6 },
{ "local7", LOG_LOCAL7 },
{ NULL, 0 }
};
#endif
#ifndef HAVE_GETOPT_LONG
struct myoption {
const char *name;
int has_arg;
int *flag;
int val;
};
#endif
#define OPTSTRING "951yZDNLERKzowefnbvhdkqr:m:p:c:l:s:i:t:u:g:a:x:S:C:A:T:H:Q:I:B:F:G:O:M:X:V:U:j:P:J:W:Y:2:4:6:7:8:0:3:"
/* options which don't have a one-char version */
#define LOPT_RELOAD 256
#define LOPT_NO_NAMES 257
#define LOPT_TFTP 258
#define LOPT_SECURE 259
#define LOPT_PREFIX 260
#define LOPT_PTR 261
#define LOPT_BRIDGE 262
#define LOPT_TFTP_MAX 263
#define LOPT_FORCE 264
#define LOPT_NOBLOCK 265
#define LOPT_LOG_OPTS 266
#define LOPT_MAX_LOGS 267
#define LOPT_CIRCUIT 268
#define LOPT_REMOTE 269
#define LOPT_SUBSCR 270
#define LOPT_INTNAME 271
#define LOPT_BANK 272
#define LOPT_DHCP_HOST 273
#define LOPT_APREF 274
#define LOPT_OVERRIDE 275
#define LOPT_TFTPPORTS 276
#define LOPT_REBIND 277
#define LOPT_NOLAST 278
#define LOPT_OPTS 279
#define LOPT_DHCP_OPTS 280
#define LOPT_MATCH 281
#define LOPT_BROADCAST 282
#define LOPT_NEGTTL 283
#define LOPT_ALTPORT 284
#define LOPT_SCRIPTUSR 285
#define LOPT_LOCAL 286
#define LOPT_NAPTR 287
#define LOPT_MINPORT 288
#define LOPT_DHCP_FQDN 289
#define LOPT_CNAME 290
#define LOPT_PXE_PROMT 291
#define LOPT_PXE_SERV 292
#define LOPT_TEST 293
#define LOPT_TAG_IF 294
#define LOPT_PROXY 295
#define LOPT_GEN_NAMES 296
#define LOPT_MAXTTL 297
#define LOPT_NO_REBIND 298
#define LOPT_LOC_REBND 299
#define LOPT_ADD_MAC 300
#define LOPT_DNSSEC 301
#define LOPT_INCR_ADDR 302
#define LOPT_CONNTRACK 303
#define LOPT_FQDN 304
#define LOPT_LUASCRIPT 305
#define LOPT_RA 306
#define LOPT_DUID 307
#define LOPT_HOST_REC 308
#define LOPT_TFTP_LC 309
#define LOPT_RR 310
#define LOPT_CLVERBIND 311
#define LOPT_MAXCTTL 312
#define LOPT_AUTHZONE 313
#define LOPT_AUTHSERV 314
#define LOPT_AUTHTTL 315
#define LOPT_AUTHSOA 316
#define LOPT_AUTHSFS 317
#define LOPT_AUTHPEER 318
#define LOPT_IPSET 319
#define LOPT_SYNTH 320
#ifdef OPTION6_PREFIX_CLASS
#define LOPT_PREF_CLSS 321
#endif
#define LOPT_RELAY 323
#define LOPT_RA_PARAM 324
#define LOPT_ADD_SBNET 325
#define LOPT_QUIET_DHCP 326
#define LOPT_QUIET_DHCP6 327
#define LOPT_QUIET_RA 328
#define LOPT_SEC_VALID 329
#define LOPT_TRUST_ANCHOR 330
#define LOPT_DNSSEC_DEBUG 331
#define LOPT_REV_SERV 332
#define LOPT_SERVERS_FILE 333
#define LOPT_DNSSEC_CHECK 334
#define LOPT_LOCAL_SERVICE 335
#define LOPT_DNSSEC_TIME 336
#define LOPT_LOOP_DETECT 337
#ifdef HAVE_GETOPT_LONG
static const struct option opts[] =
#else
static const struct myoption opts[] =
#endif
{
{ "version", 0, 0, 'v' },
{ "no-hosts", 0, 0, 'h' },
{ "no-poll", 0, 0, 'n' },
{ "help", 0, 0, 'w' },
{ "no-daemon", 0, 0, 'd' },
{ "log-queries", 0, 0, 'q' },
{ "user", 2, 0, 'u' },
{ "group", 2, 0, 'g' },
{ "resolv-file", 2, 0, 'r' },
{ "servers-file", 1, 0, LOPT_SERVERS_FILE },
{ "mx-host", 1, 0, 'm' },
{ "mx-target", 1, 0, 't' },
{ "cache-size", 2, 0, 'c' },
{ "port", 1, 0, 'p' },
{ "dhcp-leasefile", 2, 0, 'l' },
{ "dhcp-lease", 1, 0, 'l' },
{ "dhcp-host", 1, 0, 'G' },
{ "dhcp-range", 1, 0, 'F' },
{ "dhcp-option", 1, 0, 'O' },
{ "dhcp-boot", 1, 0, 'M' },
{ "domain", 1, 0, 's' },
{ "domain-suffix", 1, 0, 's' },
{ "interface", 1, 0, 'i' },
{ "listen-address", 1, 0, 'a' },
{ "local-service", 0, 0, LOPT_LOCAL_SERVICE },
{ "bogus-priv", 0, 0, 'b' },
{ "bogus-nxdomain", 1, 0, 'B' },
{ "selfmx", 0, 0, 'e' },
{ "filterwin2k", 0, 0, 'f' },
{ "pid-file", 2, 0, 'x' },
{ "strict-order", 0, 0, 'o' },
{ "server", 1, 0, 'S' },
{ "rev-server", 1, 0, LOPT_REV_SERV },
{ "local", 1, 0, LOPT_LOCAL },
{ "address", 1, 0, 'A' },
{ "conf-file", 2, 0, 'C' },
{ "no-resolv", 0, 0, 'R' },
{ "expand-hosts", 0, 0, 'E' },
{ "localmx", 0, 0, 'L' },
{ "local-ttl", 1, 0, 'T' },
{ "no-negcache", 0, 0, 'N' },
{ "addn-hosts", 1, 0, 'H' },
{ "query-port", 1, 0, 'Q' },
{ "except-interface", 1, 0, 'I' },
{ "no-dhcp-interface", 1, 0, '2' },
{ "domain-needed", 0, 0, 'D' },
{ "dhcp-lease-max", 1, 0, 'X' },
{ "bind-interfaces", 0, 0, 'z' },
{ "read-ethers", 0, 0, 'Z' },
{ "alias", 1, 0, 'V' },
{ "dhcp-vendorclass", 1, 0, 'U' },
{ "dhcp-userclass", 1, 0, 'j' },
{ "dhcp-ignore", 1, 0, 'J' },
{ "edns-packet-max", 1, 0, 'P' },
{ "keep-in-foreground", 0, 0, 'k' },
{ "dhcp-authoritative", 0, 0, 'K' },
{ "srv-host", 1, 0, 'W' },
{ "localise-queries", 0, 0, 'y' },
{ "txt-record", 1, 0, 'Y' },
{ "dns-rr", 1, 0, LOPT_RR },
{ "enable-dbus", 2, 0, '1' },
{ "bootp-dynamic", 2, 0, '3' },
{ "dhcp-mac", 1, 0, '4' },
{ "no-ping", 0, 0, '5' },
{ "dhcp-script", 1, 0, '6' },
{ "conf-dir", 1, 0, '7' },
{ "log-facility", 1, 0 ,'8' },
{ "leasefile-ro", 0, 0, '9' },
{ "dns-forward-max", 1, 0, '0' },
{ "clear-on-reload", 0, 0, LOPT_RELOAD },
{ "dhcp-ignore-names", 2, 0, LOPT_NO_NAMES },
{ "enable-tftp", 2, 0, LOPT_TFTP },
{ "tftp-secure", 0, 0, LOPT_SECURE },
{ "tftp-unique-root", 0, 0, LOPT_APREF },
{ "tftp-root", 1, 0, LOPT_PREFIX },
{ "tftp-max", 1, 0, LOPT_TFTP_MAX },
{ "tftp-lowercase", 0, 0, LOPT_TFTP_LC },
{ "ptr-record", 1, 0, LOPT_PTR },
{ "naptr-record", 1, 0, LOPT_NAPTR },
{ "bridge-interface", 1, 0 , LOPT_BRIDGE },
{ "dhcp-option-force", 1, 0, LOPT_FORCE },
{ "tftp-no-blocksize", 0, 0, LOPT_NOBLOCK },
{ "log-dhcp", 0, 0, LOPT_LOG_OPTS },
{ "log-async", 2, 0, LOPT_MAX_LOGS },
{ "dhcp-circuitid", 1, 0, LOPT_CIRCUIT },
{ "dhcp-remoteid", 1, 0, LOPT_REMOTE },
{ "dhcp-subscrid", 1, 0, LOPT_SUBSCR },
{ "interface-name", 1, 0, LOPT_INTNAME },
{ "dhcp-hostsfile", 1, 0, LOPT_DHCP_HOST },
{ "dhcp-optsfile", 1, 0, LOPT_DHCP_OPTS },
{ "dhcp-no-override", 0, 0, LOPT_OVERRIDE },
{ "tftp-port-range", 1, 0, LOPT_TFTPPORTS },
{ "stop-dns-rebind", 0, 0, LOPT_REBIND },
{ "rebind-domain-ok", 1, 0, LOPT_NO_REBIND },
{ "all-servers", 0, 0, LOPT_NOLAST },
{ "dhcp-match", 1, 0, LOPT_MATCH },
{ "dhcp-broadcast", 2, 0, LOPT_BROADCAST },
{ "neg-ttl", 1, 0, LOPT_NEGTTL },
{ "max-ttl", 1, 0, LOPT_MAXTTL },
{ "max-cache-ttl", 1, 0, LOPT_MAXCTTL },
{ "dhcp-alternate-port", 2, 0, LOPT_ALTPORT },
{ "dhcp-scriptuser", 1, 0, LOPT_SCRIPTUSR },
{ "min-port", 1, 0, LOPT_MINPORT },
{ "dhcp-fqdn", 0, 0, LOPT_DHCP_FQDN },
{ "cname", 1, 0, LOPT_CNAME },
{ "pxe-prompt", 1, 0, LOPT_PXE_PROMT },
{ "pxe-service", 1, 0, LOPT_PXE_SERV },
{ "test", 0, 0, LOPT_TEST },
{ "tag-if", 1, 0, LOPT_TAG_IF },
{ "dhcp-proxy", 2, 0, LOPT_PROXY },
{ "dhcp-generate-names", 2, 0, LOPT_GEN_NAMES },
{ "rebind-localhost-ok", 0, 0, LOPT_LOC_REBND },
{ "add-mac", 0, 0, LOPT_ADD_MAC },
{ "add-subnet", 2, 0, LOPT_ADD_SBNET },
{ "proxy-dnssec", 0, 0, LOPT_DNSSEC },
{ "dhcp-sequential-ip", 0, 0, LOPT_INCR_ADDR },
{ "conntrack", 0, 0, LOPT_CONNTRACK },
{ "dhcp-client-update", 0, 0, LOPT_FQDN },
{ "dhcp-luascript", 1, 0, LOPT_LUASCRIPT },
{ "enable-ra", 0, 0, LOPT_RA },
{ "dhcp-duid", 1, 0, LOPT_DUID },
{ "host-record", 1, 0, LOPT_HOST_REC },
{ "bind-dynamic", 0, 0, LOPT_CLVERBIND },
{ "auth-zone", 1, 0, LOPT_AUTHZONE },
{ "auth-server", 1, 0, LOPT_AUTHSERV },
{ "auth-ttl", 1, 0, LOPT_AUTHTTL },
{ "auth-soa", 1, 0, LOPT_AUTHSOA },
{ "auth-sec-servers", 1, 0, LOPT_AUTHSFS },
{ "auth-peer", 1, 0, LOPT_AUTHPEER },
{ "ipset", 1, 0, LOPT_IPSET },
{ "synth-domain", 1, 0, LOPT_SYNTH },
{ "dnssec", 0, 0, LOPT_SEC_VALID },
{ "trust-anchor", 1, 0, LOPT_TRUST_ANCHOR },
{ "dnssec-debug", 0, 0, LOPT_DNSSEC_DEBUG },
{ "dnssec-check-unsigned", 0, 0, LOPT_DNSSEC_CHECK },
{ "dnssec-no-timecheck", 0, 0, LOPT_DNSSEC_TIME },
#ifdef OPTION6_PREFIX_CLASS
{ "dhcp-prefix-class", 1, 0, LOPT_PREF_CLSS },
#endif
{ "dhcp-relay", 1, 0, LOPT_RELAY },
{ "ra-param", 1, 0, LOPT_RA_PARAM },
{ "quiet-dhcp", 0, 0, LOPT_QUIET_DHCP },
{ "quiet-dhcp6", 0, 0, LOPT_QUIET_DHCP6 },
{ "quiet-ra", 0, 0, LOPT_QUIET_RA },
{ "dns-loop-detect", 0, 0, LOPT_LOOP_DETECT },
{ NULL, 0, 0, 0 }
};
#define ARG_DUP OPT_LAST
#define ARG_ONE OPT_LAST + 1
#define ARG_USED_CL OPT_LAST + 2
#define ARG_USED_FILE OPT_LAST + 3
static struct {
int opt;
unsigned int rept;
char * const flagdesc;
char * const desc;
char * const arg;
} usage[] = {
{ 'a', ARG_DUP, "<ipaddr>", gettext_noop("Specify local address(es) to listen on."), NULL },
{ 'A', ARG_DUP, "/<domain>/<ipaddr>", gettext_noop("Return ipaddr for all hosts in specified domains."), NULL },
{ 'b', OPT_BOGUSPRIV, NULL, gettext_noop("Fake reverse lookups for RFC1918 private address ranges."), NULL },
{ 'B', ARG_DUP, "<ipaddr>", gettext_noop("Treat ipaddr as NXDOMAIN (defeats Verisign wildcard)."), NULL },
{ 'c', ARG_ONE, "<integer>", gettext_noop("Specify the size of the cache in entries (defaults to %s)."), "$" },
{ 'C', ARG_DUP, "<path>", gettext_noop("Specify configuration file (defaults to %s)."), CONFFILE },
{ 'd', OPT_DEBUG, NULL, gettext_noop("Do NOT fork into the background: run in debug mode."), NULL },
{ 'D', OPT_NODOTS_LOCAL, NULL, gettext_noop("Do NOT forward queries with no domain part."), NULL },
{ 'e', OPT_SELFMX, NULL, gettext_noop("Return self-pointing MX records for local hosts."), NULL },
{ 'E', OPT_EXPAND, NULL, gettext_noop("Expand simple names in /etc/hosts with domain-suffix."), NULL },
{ 'f', OPT_FILTER, NULL, gettext_noop("Don't forward spurious DNS requests from Windows hosts."), NULL },
{ 'F', ARG_DUP, "<ipaddr>,...", gettext_noop("Enable DHCP in the range given with lease duration."), NULL },
{ 'g', ARG_ONE, "<groupname>", gettext_noop("Change to this group after startup (defaults to %s)."), CHGRP },
{ 'G', ARG_DUP, "<hostspec>", gettext_noop("Set address or hostname for a specified machine."), NULL },
{ LOPT_DHCP_HOST, ARG_DUP, "<path>", gettext_noop("Read DHCP host specs from file."), NULL },
{ LOPT_DHCP_OPTS, ARG_DUP, "<path>", gettext_noop("Read DHCP option specs from file."), NULL },
{ LOPT_TAG_IF, ARG_DUP, "tag-expression", gettext_noop("Evaluate conditional tag expression."), NULL },
{ 'h', OPT_NO_HOSTS, NULL, gettext_noop("Do NOT load %s file."), HOSTSFILE },
{ 'H', ARG_DUP, "<path>", gettext_noop("Specify a hosts file to be read in addition to %s."), HOSTSFILE },
{ 'i', ARG_DUP, "<interface>", gettext_noop("Specify interface(s) to listen on."), NULL },
{ 'I', ARG_DUP, "<interface>", gettext_noop("Specify interface(s) NOT to listen on.") , NULL },
{ 'j', ARG_DUP, "set:<tag>,<class>", gettext_noop("Map DHCP user class to tag."), NULL },
{ LOPT_CIRCUIT, ARG_DUP, "set:<tag>,<circuit>", gettext_noop("Map RFC3046 circuit-id to tag."), NULL },
{ LOPT_REMOTE, ARG_DUP, "set:<tag>,<remote>", gettext_noop("Map RFC3046 remote-id to tag."), NULL },
{ LOPT_SUBSCR, ARG_DUP, "set:<tag>,<remote>", gettext_noop("Map RFC3993 subscriber-id to tag."), NULL },
{ 'J', ARG_DUP, "tag:<tag>...", gettext_noop("Don't do DHCP for hosts with tag set."), NULL },
{ LOPT_BROADCAST, ARG_DUP, "[=tag:<tag>...]", gettext_noop("Force broadcast replies for hosts with tag set."), NULL },
{ 'k', OPT_NO_FORK, NULL, gettext_noop("Do NOT fork into the background, do NOT run in debug mode."), NULL },
{ 'K', OPT_AUTHORITATIVE, NULL, gettext_noop("Assume we are the only DHCP server on the local network."), NULL },
{ 'l', ARG_ONE, "<path>", gettext_noop("Specify where to store DHCP leases (defaults to %s)."), LEASEFILE },
{ 'L', OPT_LOCALMX, NULL, gettext_noop("Return MX records for local hosts."), NULL },
{ 'm', ARG_DUP, "<host_name>,<target>,<pref>", gettext_noop("Specify an MX record."), NULL },
{ 'M', ARG_DUP, "<bootp opts>", gettext_noop("Specify BOOTP options to DHCP server."), NULL },
{ 'n', OPT_NO_POLL, NULL, gettext_noop("Do NOT poll %s file, reload only on SIGHUP."), RESOLVFILE },
{ 'N', OPT_NO_NEG, NULL, gettext_noop("Do NOT cache failed search results."), NULL },
{ 'o', OPT_ORDER, NULL, gettext_noop("Use nameservers strictly in the order given in %s."), RESOLVFILE },
{ 'O', ARG_DUP, "<optspec>", gettext_noop("Specify options to be sent to DHCP clients."), NULL },
{ LOPT_FORCE, ARG_DUP, "<optspec>", gettext_noop("DHCP option sent even if the client does not request it."), NULL},
{ 'p', ARG_ONE, "<integer>", gettext_noop("Specify port to listen for DNS requests on (defaults to 53)."), NULL },
{ 'P', ARG_ONE, "<integer>", gettext_noop("Maximum supported UDP packet size for EDNS.0 (defaults to %s)."), "*" },
{ 'q', OPT_LOG, NULL, gettext_noop("Log DNS queries."), NULL },
{ 'Q', ARG_ONE, "<integer>", gettext_noop("Force the originating port for upstream DNS queries."), NULL },
{ 'R', OPT_NO_RESOLV, NULL, gettext_noop("Do NOT read resolv.conf."), NULL },
{ 'r', ARG_DUP, "<path>", gettext_noop("Specify path to resolv.conf (defaults to %s)."), RESOLVFILE },
{ LOPT_SERVERS_FILE, ARG_ONE, "<path>", gettext_noop("Specify path to file with server= options"), NULL },
{ 'S', ARG_DUP, "/<domain>/<ipaddr>", gettext_noop("Specify address(es) of upstream servers with optional domains."), NULL },
{ LOPT_REV_SERV, ARG_DUP, "<addr>/<prefix>,<ipaddr>", gettext_noop("Specify address of upstream servers for reverse address queries"), NULL },
{ LOPT_LOCAL, ARG_DUP, "/<domain>/", gettext_noop("Never forward queries to specified domains."), NULL },
{ 's', ARG_DUP, "<domain>[,<range>]", gettext_noop("Specify the domain to be assigned in DHCP leases."), NULL },
{ 't', ARG_ONE, "<host_name>", gettext_noop("Specify default target in an MX record."), NULL },
{ 'T', ARG_ONE, "<integer>", gettext_noop("Specify time-to-live in seconds for replies from /etc/hosts."), NULL },
{ LOPT_NEGTTL, ARG_ONE, "<integer>", gettext_noop("Specify time-to-live in seconds for negative caching."), NULL },
{ LOPT_MAXTTL, ARG_ONE, "<integer>", gettext_noop("Specify time-to-live in seconds for maximum TTL to send to clients."), NULL },
{ 'u', ARG_ONE, "<username>", gettext_noop("Change to this user after startup. (defaults to %s)."), CHUSER },
{ 'U', ARG_DUP, "set:<tag>,<class>", gettext_noop("Map DHCP vendor class to tag."), NULL },
{ 'v', 0, NULL, gettext_noop("Display dnsmasq version and copyright information."), NULL },
{ 'V', ARG_DUP, "<ipaddr>,<ipaddr>,<netmask>", gettext_noop("Translate IPv4 addresses from upstream servers."), NULL },
{ 'W', ARG_DUP, "<name>,<target>,...", gettext_noop("Specify a SRV record."), NULL },
{ 'w', 0, NULL, gettext_noop("Display this message. Use --help dhcp for known DHCP options."), NULL },
{ 'x', ARG_ONE, "<path>", gettext_noop("Specify path of PID file (defaults to %s)."), RUNFILE },
{ 'X', ARG_ONE, "<integer>", gettext_noop("Specify maximum number of DHCP leases (defaults to %s)."), "&" },
{ 'y', OPT_LOCALISE, NULL, gettext_noop("Answer DNS queries based on the interface a query was sent to."), NULL },
{ 'Y', ARG_DUP, "<name>,<txt>[,<txt]", gettext_noop("Specify TXT DNS record."), NULL },
{ LOPT_PTR, ARG_DUP, "<name>,<target>", gettext_noop("Specify PTR DNS record."), NULL },
{ LOPT_INTNAME, ARG_DUP, "<name>,<interface>", gettext_noop("Give DNS name to IPv4 address of interface."), NULL },
{ 'z', OPT_NOWILD, NULL, gettext_noop("Bind only to interfaces in use."), NULL },
{ 'Z', OPT_ETHERS, NULL, gettext_noop("Read DHCP static host information from %s."), ETHERSFILE },
{ '1', ARG_ONE, "[=<busname>]", gettext_noop("Enable the DBus interface for setting upstream servers, etc."), NULL },
{ '2', ARG_DUP, "<interface>", gettext_noop("Do not provide DHCP on this interface, only provide DNS."), NULL },
{ '3', ARG_DUP, "[=tag:<tag>]...", gettext_noop("Enable dynamic address allocation for bootp."), NULL },
{ '4', ARG_DUP, "set:<tag>,<mac address>", gettext_noop("Map MAC address (with wildcards) to option set."), NULL },
{ LOPT_BRIDGE, ARG_DUP, "<iface>,<alias>..", gettext_noop("Treat DHCP requests on aliases as arriving from interface."), NULL },
{ '5', OPT_NO_PING, NULL, gettext_noop("Disable ICMP echo address checking in the DHCP server."), NULL },
{ '6', ARG_ONE, "<path>", gettext_noop("Shell script to run on DHCP lease creation and destruction."), NULL },
{ LOPT_LUASCRIPT, ARG_DUP, "path", gettext_noop("Lua script to run on DHCP lease creation and destruction."), NULL },
{ LOPT_SCRIPTUSR, ARG_ONE, "<username>", gettext_noop("Run lease-change scripts as this user."), NULL },
{ '7', ARG_DUP, "<path>", gettext_noop("Read configuration from all the files in this directory."), NULL },
{ '8', ARG_ONE, "<facilty>|<file>", gettext_noop("Log to this syslog facility or file. (defaults to DAEMON)"), NULL },
{ '9', OPT_LEASE_RO, NULL, gettext_noop("Do not use leasefile."), NULL },
{ '0', ARG_ONE, "<integer>", gettext_noop("Maximum number of concurrent DNS queries. (defaults to %s)"), "!" },
{ LOPT_RELOAD, OPT_RELOAD, NULL, gettext_noop("Clear DNS cache when reloading %s."), RESOLVFILE },
{ LOPT_NO_NAMES, ARG_DUP, "[=tag:<tag>]...", gettext_noop("Ignore hostnames provided by DHCP clients."), NULL },
{ LOPT_OVERRIDE, OPT_NO_OVERRIDE, NULL, gettext_noop("Do NOT reuse filename and server fields for extra DHCP options."), NULL },
{ LOPT_TFTP, ARG_DUP, "[=<intr>[,<intr>]]", gettext_noop("Enable integrated read-only TFTP server."), NULL },
{ LOPT_PREFIX, ARG_DUP, "<dir>[,<iface>]", gettext_noop("Export files by TFTP only from the specified subtree."), NULL },
{ LOPT_APREF, OPT_TFTP_APREF, NULL, gettext_noop("Add client IP address to tftp-root."), NULL },
{ LOPT_SECURE, OPT_TFTP_SECURE, NULL, gettext_noop("Allow access only to files owned by the user running dnsmasq."), NULL },
{ LOPT_TFTP_MAX, ARG_ONE, "<integer>", gettext_noop("Maximum number of conncurrent TFTP transfers (defaults to %s)."), "#" },
{ LOPT_NOBLOCK, OPT_TFTP_NOBLOCK, NULL, gettext_noop("Disable the TFTP blocksize extension."), NULL },
{ LOPT_TFTP_LC, OPT_TFTP_LC, NULL, gettext_noop("Convert TFTP filenames to lowercase"), NULL },
{ LOPT_TFTPPORTS, ARG_ONE, "<start>,<end>", gettext_noop("Ephemeral port range for use by TFTP transfers."), NULL },
{ LOPT_LOG_OPTS, OPT_LOG_OPTS, NULL, gettext_noop("Extra logging for DHCP."), NULL },
{ LOPT_MAX_LOGS, ARG_ONE, "[=<integer>]", gettext_noop("Enable async. logging; optionally set queue length."), NULL },
{ LOPT_REBIND, OPT_NO_REBIND, NULL, gettext_noop("Stop DNS rebinding. Filter private IP ranges when resolving."), NULL },
{ LOPT_LOC_REBND, OPT_LOCAL_REBIND, NULL, gettext_noop("Allow rebinding of 127.0.0.0/8, for RBL servers."), NULL },
{ LOPT_NO_REBIND, ARG_DUP, "/<domain>/", gettext_noop("Inhibit DNS-rebind protection on this domain."), NULL },
{ LOPT_NOLAST, OPT_ALL_SERVERS, NULL, gettext_noop("Always perform DNS queries to all servers."), NULL },
{ LOPT_MATCH, ARG_DUP, "set:<tag>,<optspec>", gettext_noop("Set tag if client includes matching option in request."), NULL },
{ LOPT_ALTPORT, ARG_ONE, "[=<ports>]", gettext_noop("Use alternative ports for DHCP."), NULL },
{ LOPT_NAPTR, ARG_DUP, "<name>,<naptr>", gettext_noop("Specify NAPTR DNS record."), NULL },
{ LOPT_MINPORT, ARG_ONE, "<port>", gettext_noop("Specify lowest port available for DNS query transmission."), NULL },
{ LOPT_DHCP_FQDN, OPT_DHCP_FQDN, NULL, gettext_noop("Use only fully qualified domain names for DHCP clients."), NULL },
{ LOPT_GEN_NAMES, ARG_DUP, "[=tag:<tag>]", gettext_noop("Generate hostnames based on MAC address for nameless clients."), NULL},
{ LOPT_PROXY, ARG_DUP, "[=<ipaddr>]...", gettext_noop("Use these DHCP relays as full proxies."), NULL },
{ LOPT_RELAY, ARG_DUP, "<local-addr>,<server>[,<interface>]", gettext_noop("Relay DHCP requests to a remote server"), NULL},
{ LOPT_CNAME, ARG_DUP, "<alias>,<target>", gettext_noop("Specify alias name for LOCAL DNS name."), NULL },
{ LOPT_PXE_PROMT, ARG_DUP, "<prompt>,[<timeout>]", gettext_noop("Prompt to send to PXE clients."), NULL },
{ LOPT_PXE_SERV, ARG_DUP, "<service>", gettext_noop("Boot service for PXE menu."), NULL },
{ LOPT_TEST, 0, NULL, gettext_noop("Check configuration syntax."), NULL },
{ LOPT_ADD_MAC, OPT_ADD_MAC, NULL, gettext_noop("Add requestor's MAC address to forwarded DNS queries."), NULL },
{ LOPT_ADD_SBNET, ARG_ONE, "<v4 pref>[,<v6 pref>]", gettext_noop("Add requestor's IP subnet to forwarded DNS queries."), NULL },
{ LOPT_DNSSEC, OPT_DNSSEC_PROXY, NULL, gettext_noop("Proxy DNSSEC validation results from upstream nameservers."), NULL },
{ LOPT_INCR_ADDR, OPT_CONSEC_ADDR, NULL, gettext_noop("Attempt to allocate sequential IP addresses to DHCP clients."), NULL },
{ LOPT_CONNTRACK, OPT_CONNTRACK, NULL, gettext_noop("Copy connection-track mark from queries to upstream connections."), NULL },
{ LOPT_FQDN, OPT_FQDN_UPDATE, NULL, gettext_noop("Allow DHCP clients to do their own DDNS updates."), NULL },
{ LOPT_RA, OPT_RA, NULL, gettext_noop("Send router-advertisements for interfaces doing DHCPv6"), NULL },
{ LOPT_DUID, ARG_ONE, "<enterprise>,<duid>", gettext_noop("Specify DUID_EN-type DHCPv6 server DUID"), NULL },
{ LOPT_HOST_REC, ARG_DUP, "<name>,<address>", gettext_noop("Specify host (A/AAAA and PTR) records"), NULL },
{ LOPT_RR, ARG_DUP, "<name>,<RR-number>,[<data>]", gettext_noop("Specify arbitrary DNS resource record"), NULL },
{ LOPT_CLVERBIND, OPT_CLEVERBIND, NULL, gettext_noop("Bind to interfaces in use - check for new interfaces"), NULL },
{ LOPT_AUTHSERV, ARG_ONE, "<NS>,<interface>", gettext_noop("Export local names to global DNS"), NULL },
{ LOPT_AUTHZONE, ARG_DUP, "<domain>,[<subnet>...]", gettext_noop("Domain to export to global DNS"), NULL },
{ LOPT_AUTHTTL, ARG_ONE, "<integer>", gettext_noop("Set TTL for authoritative replies"), NULL },
{ LOPT_AUTHSOA, ARG_ONE, "<serial>[,...]", gettext_noop("Set authoritive zone information"), NULL },
{ LOPT_AUTHSFS, ARG_DUP, "<NS>[,<NS>...]", gettext_noop("Secondary authoritative nameservers for forward domains"), NULL },
{ LOPT_AUTHPEER, ARG_DUP, "<ipaddr>[,<ipaddr>...]", gettext_noop("Peers which are allowed to do zone transfer"), NULL },
{ LOPT_IPSET, ARG_DUP, "/<domain>/<ipset>[,<ipset>...]", gettext_noop("Specify ipsets to which matching domains should be added"), NULL },
{ LOPT_SYNTH, ARG_DUP, "<domain>,<range>,[<prefix>]", gettext_noop("Specify a domain and address range for synthesised names"), NULL },
{ LOPT_SEC_VALID, OPT_DNSSEC_VALID, NULL, gettext_noop("Activate DNSSEC validation"), NULL },
{ LOPT_TRUST_ANCHOR, ARG_DUP, "<domain>,[<class>],...", gettext_noop("Specify trust anchor key digest."), NULL },
{ LOPT_DNSSEC_DEBUG, OPT_DNSSEC_DEBUG, NULL, gettext_noop("Disable upstream checking for DNSSEC debugging."), NULL },
{ LOPT_DNSSEC_CHECK, OPT_DNSSEC_NO_SIGN, NULL, gettext_noop("Ensure answers without DNSSEC are in unsigned zones."), NULL },
{ LOPT_DNSSEC_TIME, OPT_DNSSEC_TIME, NULL, gettext_noop("Don't check DNSSEC signature timestamps until first cache-reload"), NULL },
#ifdef OPTION6_PREFIX_CLASS
{ LOPT_PREF_CLSS, ARG_DUP, "set:tag,<class>", gettext_noop("Specify DHCPv6 prefix class"), NULL },
#endif
{ LOPT_RA_PARAM, ARG_DUP, "<interface>,[high,|low,]<interval>[,<lifetime>]", gettext_noop("Set priority, resend-interval and router-lifetime"), NULL },
{ LOPT_QUIET_DHCP, OPT_QUIET_DHCP, NULL, gettext_noop("Do not log routine DHCP."), NULL },
{ LOPT_QUIET_DHCP6, OPT_QUIET_DHCP6, NULL, gettext_noop("Do not log routine DHCPv6."), NULL },
{ LOPT_QUIET_RA, OPT_QUIET_RA, NULL, gettext_noop("Do not log RA."), NULL },
{ LOPT_LOCAL_SERVICE, OPT_LOCAL_SERVICE, NULL, gettext_noop("Accept queries only from directly-connected networks"), NULL },
{ LOPT_LOOP_DETECT, OPT_LOOP_DETECT, NULL, gettext_noop("Detect and remove DNS forwarding loops"), NULL },
{ 0, 0, NULL, NULL, NULL }
};
/* We hide metacharaters in quoted strings by mapping them into the ASCII control
character space. Note that the \0, \t \b \r \033 and \n characters are carefully placed in the
following sequence so that they map to themselves: it is therefore possible to call
unhide_metas repeatedly on string without breaking things.
The transformation gets undone by opt_canonicalise, atoi_check and opt_string_alloc, and a
couple of other places.
Note that space is included here so that
--dhcp-option=3, string
has five characters, whilst
--dhcp-option=3," string"
has six.
*/
static const char meta[] = "\000123456 \b\t\n78\r90abcdefABCDE\033F:,.";
static char hide_meta(char c)
{
unsigned int i;
for (i = 0; i < (sizeof(meta) - 1); i++)
if (c == meta[i])
return (char)i;
return c;
}
static char unhide_meta(char cr)
{
unsigned int c = cr;
if (c < (sizeof(meta) - 1))
cr = meta[c];
return cr;
}
static void unhide_metas(char *cp)
{
if (cp)
for(; *cp; cp++)
*cp = unhide_meta(*cp);
}
static void *opt_malloc(size_t size)
{
void *ret;
if (mem_recover)
{
ret = whine_malloc(size);
if (!ret)
longjmp(mem_jmp, 1);
}
else
ret = safe_malloc(size);
return ret;
}
static char *opt_string_alloc(char *cp)
{
char *ret = NULL;
if (cp && strlen(cp) != 0)
{
ret = opt_malloc(strlen(cp)+1);
strcpy(ret, cp);
/* restore hidden metachars */
unhide_metas(ret);
}
return ret;
}
/* find next comma, split string with zero and eliminate spaces.
return start of string following comma */
static char *split_chr(char *s, char c)
{
char *comma, *p;
if (!s || !(comma = strchr(s, c)))
return NULL;
p = comma;
*comma = ' ';
for (; *comma == ' '; comma++);
for (; (p >= s) && *p == ' '; p--)
*p = 0;
return comma;
}
static char *split(char *s)
{
return split_chr(s, ',');
}
static char *canonicalise_opt(char *s)
{
char *ret;
int nomem;
if (!s)
return 0;
unhide_metas(s);
if (!(ret = canonicalise(s, &nomem)) && nomem)
{
if (mem_recover)
longjmp(mem_jmp, 1);
else
die(_("could not get memory"), NULL, EC_NOMEM);
}
return ret;
}
static int atoi_check(char *a, int *res)
{
char *p;
if (!a)
return 0;
unhide_metas(a);
for (p = a; *p; p++)
if (*p < '0' || *p > '9')
return 0;
*res = atoi(a);
return 1;
}
static int atoi_check16(char *a, int *res)
{
if (!(atoi_check(a, res)) ||
*res < 0 ||
*res > 0xffff)
return 0;
return 1;
}
#ifdef HAVE_DNSSEC
static int atoi_check8(char *a, int *res)
{
if (!(atoi_check(a, res)) ||
*res < 0 ||
*res > 0xff)
return 0;
return 1;
}
#endif
static void add_txt(char *name, char *txt, int stat)
{
struct txt_record *r = opt_malloc(sizeof(struct txt_record));
if (txt)
{
size_t len = strlen(txt);
r->txt = opt_malloc(len+1);
r->len = len+1;
*(r->txt) = len;
memcpy((r->txt)+1, txt, len);
}
r->stat = stat;
r->name = opt_string_alloc(name);
r->next = daemon->txt;
daemon->txt = r;
r->class = C_CHAOS;
}
static void do_usage(void)
{
char buff[100];
int i, j;
struct {
char handle;
int val;
} tab[] = {
{ '$', CACHESIZ },
{ '*', EDNS_PKTSZ },
{ '&', MAXLEASES },
{ '!', FTABSIZ },
{ '#', TFTP_MAX_CONNECTIONS },
{ '\0', 0 }
};
printf(_("Usage: dnsmasq [options]\n\n"));
#ifndef HAVE_GETOPT_LONG
printf(_("Use short options only on the command line.\n"));
#endif
printf(_("Valid options are:\n"));
for (i = 0; usage[i].opt != 0; i++)
{
char *desc = usage[i].flagdesc;
char *eq = "=";
if (!desc || *desc == '[')
eq = "";
if (!desc)
desc = "";
for ( j = 0; opts[j].name; j++)
if (opts[j].val == usage[i].opt)
break;
if (usage[i].opt < 256)
sprintf(buff, "-%c, ", usage[i].opt);
else
sprintf(buff, " ");
sprintf(buff+4, "--%s%s%s", opts[j].name, eq, desc);
printf("%-40.40s", buff);
if (usage[i].arg)
{
strcpy(buff, usage[i].arg);
for (j = 0; tab[j].handle; j++)
if (tab[j].handle == *(usage[i].arg))
sprintf(buff, "%d", tab[j].val);
}
printf(_(usage[i].desc), buff);
printf("\n");
}
}
#define ret_err(x) do { strcpy(errstr, (x)); return 0; } while (0)
char *parse_server(char *arg, union mysockaddr *addr, union mysockaddr *source_addr, char *interface, int *flags)
{
int source_port = 0, serv_port = NAMESERVER_PORT;
char *portno, *source;
#ifdef HAVE_IPV6
int scope_index = 0;
char *scope_id;
#endif
if (!arg || strlen(arg) == 0)
{
*flags |= SERV_NO_ADDR;
*interface = 0;
return NULL;
}
if ((source = split_chr(arg, '@')) && /* is there a source. */
(portno = split_chr(source, '#')) &&
!atoi_check16(portno, &source_port))
return _("bad port");
if ((portno = split_chr(arg, '#')) && /* is there a port no. */
!atoi_check16(portno, &serv_port))
return _("bad port");
#ifdef HAVE_IPV6
scope_id = split_chr(arg, '%');
#endif
if (inet_pton(AF_INET, arg, &addr->in.sin_addr) > 0)
{
addr->in.sin_port = htons(serv_port);
addr->sa.sa_family = source_addr->sa.sa_family = AF_INET;
#ifdef HAVE_SOCKADDR_SA_LEN
source_addr->in.sin_len = addr->in.sin_len = sizeof(struct sockaddr_in);
#endif
source_addr->in.sin_addr.s_addr = INADDR_ANY;
source_addr->in.sin_port = htons(daemon->query_port);
if (source)
{
if (flags)
*flags |= SERV_HAS_SOURCE;
source_addr->in.sin_port = htons(source_port);
if (!(inet_pton(AF_INET, source, &source_addr->in.sin_addr) > 0))
{
#if defined(SO_BINDTODEVICE)
source_addr->in.sin_addr.s_addr = INADDR_ANY;
strncpy(interface, source, IF_NAMESIZE - 1);
#else
return _("interface binding not supported");
#endif
}
}
}
#ifdef HAVE_IPV6
else if (inet_pton(AF_INET6, arg, &addr->in6.sin6_addr) > 0)
{
if (scope_id && (scope_index = if_nametoindex(scope_id)) == 0)
return _("bad interface name");
addr->in6.sin6_port = htons(serv_port);
addr->in6.sin6_scope_id = scope_index;
source_addr->in6.sin6_addr = in6addr_any;
source_addr->in6.sin6_port = htons(daemon->query_port);
source_addr->in6.sin6_scope_id = 0;
addr->sa.sa_family = source_addr->sa.sa_family = AF_INET6;
addr->in6.sin6_flowinfo = source_addr->in6.sin6_flowinfo = 0;
#ifdef HAVE_SOCKADDR_SA_LEN
addr->in6.sin6_len = source_addr->in6.sin6_len = sizeof(addr->in6);
#endif
if (source)
{
if (flags)
*flags |= SERV_HAS_SOURCE;
source_addr->in6.sin6_port = htons(source_port);
if (inet_pton(AF_INET6, source, &source_addr->in6.sin6_addr) == 0)
{
#if defined(SO_BINDTODEVICE)
source_addr->in6.sin6_addr = in6addr_any;
strncpy(interface, source, IF_NAMESIZE - 1);
#else
return _("interface binding not supported");
#endif
}
}
}
#endif
else
return _("bad address");
return NULL;
}
static struct server *add_rev4(struct in_addr addr, int msize)
{
struct server *serv = opt_malloc(sizeof(struct server));
in_addr_t a = ntohl(addr.s_addr) >> 8;
char *p;
memset(serv, 0, sizeof(struct server));
p = serv->domain = opt_malloc(25); /* strlen("xxx.yyy.zzz.in-addr.arpa")+1 */
if (msize == 24)
p += sprintf(p, "%d.", a & 0xff);
a = a >> 8;
if (msize != 8)
p += sprintf(p, "%d.", a & 0xff);
a = a >> 8;
p += sprintf(p, "%d.in-addr.arpa", a & 0xff);
serv->flags = SERV_HAS_DOMAIN;
serv->next = daemon->servers;
daemon->servers = serv;
return serv;
}
static struct server *add_rev6(struct in6_addr *addr, int msize)
{
struct server *serv = opt_malloc(sizeof(struct server));
char *p;
int i;
memset(serv, 0, sizeof(struct server));
p = serv->domain = opt_malloc(73); /* strlen("32*<n.>ip6.arpa")+1 */
for (i = msize-1; i >= 0; i -= 4)
{
int dig = ((unsigned char *)addr)[i>>3];
p += sprintf(p, "%.1x.", (i>>2) & 1 ? dig & 15 : dig >> 4);
}
p += sprintf(p, "ip6.arpa");
serv->flags = SERV_HAS_DOMAIN;
serv->next = daemon->servers;
daemon->servers = serv;
return serv;
}
#ifdef HAVE_DHCP
static int is_tag_prefix(char *arg)
{
if (arg && (strstr(arg, "net:") == arg || strstr(arg, "tag:") == arg))
return 1;
return 0;
}
static char *set_prefix(char *arg)
{
if (strstr(arg, "set:") == arg)
return arg+4;
return arg;
}
/* This is too insanely large to keep in-line in the switch */
static int parse_dhcp_opt(char *errstr, char *arg, int flags)
{
struct dhcp_opt *new = opt_malloc(sizeof(struct dhcp_opt));
char lenchar = 0, *cp;
int addrs, digs, is_addr, is_addr6, is_hex, is_dec, is_string, dots;
char *comma = NULL;
struct dhcp_netid *np = NULL;
u16 opt_len = 0;
int is6 = 0;
int option_ok = 0;
new->len = 0;
new->flags = flags;
new->netid = NULL;
new->val = NULL;
new->opt = 0;
while (arg)
{
comma = split(arg);
for (cp = arg; *cp; cp++)
if (*cp < '0' || *cp > '9')
break;
if (!*cp)
{
new->opt = atoi(arg);
opt_len = 0;
option_ok = 1;
break;
}
if (strstr(arg, "option:") == arg)
{
if ((new->opt = lookup_dhcp_opt(AF_INET, arg+7)) != -1)
{
opt_len = lookup_dhcp_len(AF_INET, new->opt);
/* option:<optname> must follow tag and vendor string. */
if (!(opt_len & OT_INTERNAL) || flags == DHOPT_MATCH)
option_ok = 1;
}
break;
}
#ifdef HAVE_DHCP6
else if (strstr(arg, "option6:") == arg)
{
for (cp = arg+8; *cp; cp++)
if (*cp < '0' || *cp > '9')
break;
if (!*cp)
{
new->opt = atoi(arg+8);
opt_len = 0;
option_ok = 1;
}
else
{
if ((new->opt = lookup_dhcp_opt(AF_INET6, arg+8)) != -1)
{
opt_len = lookup_dhcp_len(AF_INET6, new->opt);
if (!(opt_len & OT_INTERNAL) || flags == DHOPT_MATCH)
option_ok = 1;
}
}
/* option6:<opt>|<optname> must follow tag and vendor string. */
is6 = 1;
break;
}
#endif
else if (strstr(arg, "vendor:") == arg)
{
new->u.vendor_class = (unsigned char *)opt_string_alloc(arg+7);
new->flags |= DHOPT_VENDOR;
}
else if (strstr(arg, "encap:") == arg)
{
new->u.encap = atoi(arg+6);
new->flags |= DHOPT_ENCAPSULATE;
}
else if (strstr(arg, "vi-encap:") == arg)
{
new->u.encap = atoi(arg+9);
new->flags |= DHOPT_RFC3925;
if (flags == DHOPT_MATCH)
{
option_ok = 1;
break;
}
}
else
{
new->netid = opt_malloc(sizeof (struct dhcp_netid));
/* allow optional "net:" or "tag:" for consistency */
if (is_tag_prefix(arg))
new->netid->net = opt_string_alloc(arg+4);
else
new->netid->net = opt_string_alloc(set_prefix(arg));
new->netid->next = np;
np = new->netid;
}
arg = comma;
}
#ifdef HAVE_DHCP6
if (is6)
{
if (new->flags & (DHOPT_VENDOR | DHOPT_ENCAPSULATE))
ret_err(_("unsupported encapsulation for IPv6 option"));
if (opt_len == 0 &&
!(new->flags & DHOPT_RFC3925))
opt_len = lookup_dhcp_len(AF_INET6, new->opt);
}
else
#endif
if (opt_len == 0 &&
!(new->flags & (DHOPT_VENDOR | DHOPT_ENCAPSULATE | DHOPT_RFC3925)))
opt_len = lookup_dhcp_len(AF_INET, new->opt);
/* option may be missing with rfc3925 match */
if (!option_ok)
ret_err(_("bad dhcp-option"));
if (comma)
{
/* characterise the value */
char c;
int found_dig = 0;
is_addr = is_addr6 = is_hex = is_dec = is_string = 1;
addrs = digs = 1;
dots = 0;
for (cp = comma; (c = *cp); cp++)
if (c == ',')
{
addrs++;
is_dec = is_hex = 0;
}
else if (c == ':')
{
digs++;
is_dec = is_addr = 0;
}
else if (c == '/')
{
is_addr6 = is_dec = is_hex = 0;
if (cp == comma) /* leading / means a pathname */
is_addr = 0;
}
else if (c == '.')
{
is_addr6 = is_dec = is_hex = 0;
dots++;
}
else if (c == '-')
is_hex = is_addr = is_addr6 = 0;
else if (c == ' ')
is_dec = is_hex = 0;
else if (!(c >='0' && c <= '9'))
{
is_addr = 0;
if (cp[1] == 0 && is_dec &&
(c == 'b' || c == 's' || c == 'i'))
{
lenchar = c;
*cp = 0;
}
else
is_dec = 0;
if (!((c >='A' && c <= 'F') ||
(c >='a' && c <= 'f') ||
(c == '*' && (flags & DHOPT_MATCH))))
{
is_hex = 0;
if (c != '[' && c != ']')
is_addr6 = 0;
}
}
else
found_dig = 1;
if (!found_dig)
is_dec = is_addr = 0;
/* We know that some options take addresses */
if (opt_len & OT_ADDR_LIST)
{
is_string = is_dec = is_hex = 0;
if (!is6 && (!is_addr || dots == 0))
ret_err(_("bad IP address"));
if (is6 && !is_addr6)
ret_err(_("bad IPv6 address"));
}
/* or names */
else if (opt_len & (OT_NAME | OT_RFC1035_NAME | OT_CSTRING))
is_addr6 = is_addr = is_dec = is_hex = 0;
if (found_dig && (opt_len & OT_TIME) && strlen(comma) > 0)
{
int val, fac = 1;
switch (comma[strlen(comma) - 1])
{
case 'w':
case 'W':
fac *= 7;
/* fall through */
case 'd':
case 'D':
fac *= 24;
/* fall though */
case 'h':
case 'H':
fac *= 60;
/* fall through */
case 'm':
case 'M':
fac *= 60;
/* fall through */
case 's':
case 'S':
comma[strlen(comma) - 1] = 0;
}
new->len = 4;
new->val = opt_malloc(4);
val = atoi(comma);
*((int *)new->val) = htonl(val * fac);
}
else if (is_hex && digs > 1)
{
new->len = digs;
new->val = opt_malloc(new->len);
parse_hex(comma, new->val, digs, (flags & DHOPT_MATCH) ? &new->u.wildcard_mask : NULL, NULL);
new->flags |= DHOPT_HEX;
}
else if (is_dec)
{
int i, val = atoi(comma);
/* assume numeric arg is 1 byte except for
options where it is known otherwise.
For vendor class option, we have to hack. */
if (opt_len != 0)
new->len = opt_len;
else if (val & 0xffff0000)
new->len = 4;
else if (val & 0xff00)
new->len = 2;
else
new->len = 1;
if (lenchar == 'b')
new->len = 1;
else if (lenchar == 's')
new->len = 2;
else if (lenchar == 'i')
new->len = 4;
new->val = opt_malloc(new->len);
for (i=0; i<new->len; i++)
new->val[i] = val>>((new->len - i - 1)*8);
}
else if (is_addr && !is6)
{
struct in_addr in;
unsigned char *op;
char *slash;
/* max length of address/subnet descriptor is five bytes,
add one for the option 120 enc byte too */
new->val = op = opt_malloc((5 * addrs) + 1);
new->flags |= DHOPT_ADDR;
if (!(new->flags & (DHOPT_ENCAPSULATE | DHOPT_VENDOR | DHOPT_RFC3925)) &&
new->opt == OPTION_SIP_SERVER)
{
*(op++) = 1; /* RFC 3361 "enc byte" */
new->flags &= ~DHOPT_ADDR;
}
while (addrs--)
{
cp = comma;
comma = split(cp);
slash = split_chr(cp, '/');
inet_pton(AF_INET, cp, &in);
if (!slash)
{
memcpy(op, &in, INADDRSZ);
op += INADDRSZ;
}
else
{
unsigned char *p = (unsigned char *)&in;
int netsize = atoi(slash);
*op++ = netsize;
if (netsize > 0)
*op++ = *p++;
if (netsize > 8)
*op++ = *p++;
if (netsize > 16)
*op++ = *p++;
if (netsize > 24)
*op++ = *p++;
new->flags &= ~DHOPT_ADDR; /* cannot re-write descriptor format */
}
}
new->len = op - new->val;
}
else if (is_addr6 && is6)
{
unsigned char *op;
new->val = op = opt_malloc(16 * addrs);
new->flags |= DHOPT_ADDR6;
while (addrs--)
{
cp = comma;
comma = split(cp);
/* check for [1234::7] */
if (*cp == '[')
cp++;
if (strlen(cp) > 1 && cp[strlen(cp)-1] == ']')
cp[strlen(cp)-1] = 0;
if (inet_pton(AF_INET6, cp, op))
{
op += IN6ADDRSZ;
continue;
}
ret_err(_("bad IPv6 address"));
}
new->len = op - new->val;
}
else if (is_string)
{
/* text arg */
if ((new->opt == OPTION_DOMAIN_SEARCH || new->opt == OPTION_SIP_SERVER) &&
!is6 && !(new->flags & (DHOPT_ENCAPSULATE | DHOPT_VENDOR | DHOPT_RFC3925)))
{
/* dns search, RFC 3397, or SIP, RFC 3361 */
unsigned char *q, *r, *tail;
unsigned char *p, *m = NULL, *newp;
size_t newlen, len = 0;
int header_size = (new->opt == OPTION_DOMAIN_SEARCH) ? 0 : 1;
arg = comma;
comma = split(arg);
while (arg && *arg)
{
char *in, *dom = NULL;
size_t domlen = 1;
/* Allow "." as an empty domain */
if (strcmp (arg, ".") != 0)
{
if (!(dom = canonicalise_opt(arg)))
ret_err(_("bad domain in dhcp-option"));
domlen = strlen(dom) + 2;
}
newp = opt_malloc(len + domlen + header_size);
if (m)
{
memcpy(newp, m, header_size + len);
free(m);
}
m = newp;
p = m + header_size;
q = p + len;
/* add string on the end in RFC1035 format */
for (in = dom; in && *in;)
{
unsigned char *cp = q++;
int j;
for (j = 0; *in && (*in != '.'); in++, j++)
*q++ = *in;
*cp = j;
if (*in)
in++;
}
*q++ = 0;
free(dom);
/* Now tail-compress using earlier names. */
newlen = q - p;
for (tail = p + len; *tail; tail += (*tail) + 1)
for (r = p; r - p < (int)len; r += (*r) + 1)
if (strcmp((char *)r, (char *)tail) == 0)
{
PUTSHORT((r - p) | 0xc000, tail);
newlen = tail - p;
goto end;
}
end:
len = newlen;
arg = comma;
comma = split(arg);
}
/* RFC 3361, enc byte is zero for names */
if (new->opt == OPTION_SIP_SERVER)
m[0] = 0;
new->len = (int) len + header_size;
new->val = m;
}
#ifdef HAVE_DHCP6
else if (comma && (opt_len & OT_CSTRING))
{
/* length fields are two bytes so need 16 bits for each string */
int i, commas = 1;
unsigned char *p, *newp;
for (i = 0; comma[i]; i++)
if (comma[i] == ',')
commas++;
newp = opt_malloc(strlen(comma)+(2*commas));
p = newp;
arg = comma;
comma = split(arg);
while (arg && *arg)
{
u16 len = strlen(arg);
unhide_metas(arg);
PUTSHORT(len, p);
memcpy(p, arg, len);
p += len;
arg = comma;
comma = split(arg);
}
new->val = newp;
new->len = p - newp;
}
else if (comma && (opt_len & OT_RFC1035_NAME))
{
unsigned char *p = NULL, *newp, *end;
int len = 0;
arg = comma;
comma = split(arg);
while (arg && *arg)
{
char *dom = canonicalise_opt(arg);
if (!dom)
ret_err(_("bad domain in dhcp-option"));
newp = opt_malloc(len + strlen(dom) + 2);
if (p)
{
memcpy(newp, p, len);
free(p);
}
p = newp;
end = do_rfc1035_name(p + len, dom);
*end++ = 0;
len = end - p;
free(dom);
arg = comma;
comma = split(arg);
}
new->val = p;
new->len = len;
}
#endif
else
{
new->len = strlen(comma);
/* keep terminating zero on string */
new->val = (unsigned char *)opt_string_alloc(comma);
new->flags |= DHOPT_STRING;
}
}
}
if (!is6 &&
((new->len > 255) ||
(new->len > 253 && (new->flags & (DHOPT_VENDOR | DHOPT_ENCAPSULATE))) ||
(new->len > 250 && (new->flags & DHOPT_RFC3925))))
ret_err(_("dhcp-option too long"));
if (flags == DHOPT_MATCH)
{
if ((new->flags & (DHOPT_ENCAPSULATE | DHOPT_VENDOR)) ||
!new->netid ||
new->netid->next)
ret_err(_("illegal dhcp-match"));
if (is6)
{
new->next = daemon->dhcp_match6;
daemon->dhcp_match6 = new;
}
else
{
new->next = daemon->dhcp_match;
daemon->dhcp_match = new;
}
}
else if (is6)
{
new->next = daemon->dhcp_opts6;
daemon->dhcp_opts6 = new;
}
else
{
new->next = daemon->dhcp_opts;
daemon->dhcp_opts = new;
}
return 1;
}
#endif
void set_option_bool(unsigned int opt)
{
if (opt < 32)
daemon->options |= 1u << opt;
else
daemon->options2 |= 1u << (opt - 32);
}
void reset_option_bool(unsigned int opt)
{
if (opt < 32)
daemon->options &= ~(1u << opt);
else
daemon->options2 &= ~(1u << (opt - 32));
}
static int one_opt(int option, char *arg, char *errstr, char *gen_err, int command_line, int servers_only)
{
int i;
char *comma;
if (option == '?')
ret_err(gen_err);
for (i=0; usage[i].opt != 0; i++)
if (usage[i].opt == option)
{
int rept = usage[i].rept;
if (command_line)
{
/* command line */
if (rept == ARG_USED_CL)
ret_err(_("illegal repeated flag"));
if (rept == ARG_ONE)
usage[i].rept = ARG_USED_CL;
}
else
{
/* allow file to override command line */
if (rept == ARG_USED_FILE)
ret_err(_("illegal repeated keyword"));
if (rept == ARG_USED_CL || rept == ARG_ONE)
usage[i].rept = ARG_USED_FILE;
}
if (rept != ARG_DUP && rept != ARG_ONE && rept != ARG_USED_CL)
{
set_option_bool(rept);
return 1;
}
break;
}
switch (option)
{
case 'C': /* --conf-file */
{
char *file = opt_string_alloc(arg);
if (file)
{
one_file(file, 0);
free(file);
}
break;
}
case '7': /* --conf-dir */
{
DIR *dir_stream;
struct dirent *ent;
char *directory, *path;
struct list {
char *suffix;
struct list *next;
} *ignore_suffix = NULL, *match_suffix = NULL, *li;
comma = split(arg);
if (!(directory = opt_string_alloc(arg)))
break;
for (arg = comma; arg; arg = comma)
{
comma = split(arg);
li = opt_malloc(sizeof(struct list));
if (*arg == '*')
{
li->next = match_suffix;
match_suffix = li;
/* Have to copy: buffer is overwritten */
li->suffix = opt_string_alloc(arg+1);
}
else
{
li->next = ignore_suffix;
ignore_suffix = li;
/* Have to copy: buffer is overwritten */
li->suffix = opt_string_alloc(arg);
}
};
if (!(dir_stream = opendir(directory)))
die(_("cannot access directory %s: %s"), directory, EC_FILE);
while ((ent = readdir(dir_stream)))
{
size_t len = strlen(ent->d_name);
struct stat buf;
/* ignore emacs backups and dotfiles */
if (len == 0 ||
ent->d_name[len - 1] == '~' ||
(ent->d_name[0] == '#' && ent->d_name[len - 1] == '#') ||
ent->d_name[0] == '.')
continue;
if (match_suffix)
{
for (li = match_suffix; li; li = li->next)
{
/* check for required suffices */
size_t ls = strlen(li->suffix);
if (len > ls &&
strcmp(li->suffix, &ent->d_name[len - ls]) == 0)
break;
}
if (!li)
continue;
}
for (li = ignore_suffix; li; li = li->next)
{
/* check for proscribed suffices */
size_t ls = strlen(li->suffix);
if (len > ls &&
strcmp(li->suffix, &ent->d_name[len - ls]) == 0)
break;
}
if (li)
continue;
path = opt_malloc(strlen(directory) + len + 2);
strcpy(path, directory);
strcat(path, "/");
strcat(path, ent->d_name);
/* files must be readable */
if (stat(path, &buf) == -1)
die(_("cannot access %s: %s"), path, EC_FILE);
/* only reg files allowed. */
if (S_ISREG(buf.st_mode))
one_file(path, 0);
free(path);
}
closedir(dir_stream);
free(directory);
for(; ignore_suffix; ignore_suffix = li)
{
li = ignore_suffix->next;
free(ignore_suffix->suffix);
free(ignore_suffix);
}
break;
}
case LOPT_ADD_SBNET: /* --add-subnet */
set_option_bool(OPT_CLIENT_SUBNET);
if (arg)
{
comma = split(arg);
if (!atoi_check(arg, &daemon->addr4_netmask) ||
(comma && !atoi_check(comma, &daemon->addr6_netmask)))
ret_err(gen_err);
}
break;
case '1': /* --enable-dbus */
set_option_bool(OPT_DBUS);
if (arg)
daemon->dbus_name = opt_string_alloc(arg);
else
daemon->dbus_name = DNSMASQ_SERVICE;
break;
case '8': /* --log-facility */
/* may be a filename */
if (strchr(arg, '/') || strcmp (arg, "-") == 0)
daemon->log_file = opt_string_alloc(arg);
else
{
#ifdef __ANDROID__
ret_err(_("setting log facility is not possible under Android"));
#else
for (i = 0; facilitynames[i].c_name; i++)
if (hostname_isequal((char *)facilitynames[i].c_name, arg))
break;
if (facilitynames[i].c_name)
daemon->log_fac = facilitynames[i].c_val;
else
ret_err(_("bad log facility"));
#endif
}
break;
case 'x': /* --pid-file */
daemon->runfile = opt_string_alloc(arg);
break;
case 'r': /* --resolv-file */
{
char *name = opt_string_alloc(arg);
struct resolvc *new, *list = daemon->resolv_files;
if (list && list->is_default)
{
/* replace default resolv file - possibly with nothing */
if (name)
{
list->is_default = 0;
list->name = name;
}
else
list = NULL;
}
else if (name)
{
new = opt_malloc(sizeof(struct resolvc));
new->next = list;
new->name = name;
new->is_default = 0;
new->mtime = 0;
new->logged = 0;
list = new;
}
daemon->resolv_files = list;
break;
}
case LOPT_SERVERS_FILE:
daemon->servers_file = opt_string_alloc(arg);
break;
case 'm': /* --mx-host */
{
int pref = 1;
struct mx_srv_record *new;
char *name, *target = NULL;
if ((comma = split(arg)))
{
char *prefstr;
if ((prefstr = split(comma)) && !atoi_check16(prefstr, &pref))
ret_err(_("bad MX preference"));
}
if (!(name = canonicalise_opt(arg)) ||
(comma && !(target = canonicalise_opt(comma))))
ret_err(_("bad MX name"));
new = opt_malloc(sizeof(struct mx_srv_record));
new->next = daemon->mxnames;
daemon->mxnames = new;
new->issrv = 0;
new->name = name;
new->target = target; /* may be NULL */
new->weight = pref;
break;
}
case 't': /* --mx-target */
if (!(daemon->mxtarget = canonicalise_opt(arg)))
ret_err(_("bad MX target"));
break;
#ifdef HAVE_DHCP
case 'l': /* --dhcp-leasefile */
daemon->lease_file = opt_string_alloc(arg);
break;
/* Sorry about the gross pre-processor abuse */
case '6': /* --dhcp-script */
case LOPT_LUASCRIPT: /* --dhcp-luascript */
# if defined(NO_FORK)
ret_err(_("cannot run scripts under uClinux"));
# elif !defined(HAVE_SCRIPT)
ret_err(_("recompile with HAVE_SCRIPT defined to enable lease-change scripts"));
# else
if (option == LOPT_LUASCRIPT)
# if !defined(HAVE_LUASCRIPT)
ret_err(_("recompile with HAVE_LUASCRIPT defined to enable Lua scripts"));
# else
daemon->luascript = opt_string_alloc(arg);
# endif
else
daemon->lease_change_command = opt_string_alloc(arg);
# endif
break;
#endif /* HAVE_DHCP */
case LOPT_DHCP_HOST: /* --dhcp-hostfile */
case LOPT_DHCP_OPTS: /* --dhcp-optsfile */
case 'H': /* --addn-hosts */
{
struct hostsfile *new = opt_malloc(sizeof(struct hostsfile));
static unsigned int hosts_index = SRC_AH;
new->fname = opt_string_alloc(arg);
new->index = hosts_index++;
new->flags = 0;
if (option == 'H')
{
new->next = daemon->addn_hosts;
daemon->addn_hosts = new;
}
else if (option == LOPT_DHCP_HOST)
{
new->next = daemon->dhcp_hosts_file;
daemon->dhcp_hosts_file = new;
}
else if (option == LOPT_DHCP_OPTS)
{
new->next = daemon->dhcp_opts_file;
daemon->dhcp_opts_file = new;
}
break;
}
#ifdef HAVE_AUTH
case LOPT_AUTHSERV: /* --auth-server */
if (!(comma = split(arg)))
ret_err(gen_err);
daemon->authserver = opt_string_alloc(arg);
arg = comma;
do {
struct iname *new = opt_malloc(sizeof(struct iname));
comma = split(arg);
new->name = NULL;
unhide_metas(arg);
if (inet_pton(AF_INET, arg, &new->addr.in.sin_addr) > 0)
new->addr.sa.sa_family = AF_INET;
#ifdef HAVE_IPV6
else if (inet_pton(AF_INET6, arg, &new->addr.in6.sin6_addr) > 0)
new->addr.sa.sa_family = AF_INET6;
#endif
else
{
char *fam = split_chr(arg, '/');
new->name = opt_string_alloc(arg);
new->addr.sa.sa_family = 0;
if (fam)
{
if (strcmp(fam, "4") == 0)
new->addr.sa.sa_family = AF_INET;
#ifdef HAVE_IPV6
else if (strcmp(fam, "6") == 0)
new->addr.sa.sa_family = AF_INET6;
#endif
else
ret_err(gen_err);
}
}
new->next = daemon->authinterface;
daemon->authinterface = new;
arg = comma;
} while (arg);
break;
case LOPT_AUTHSFS: /* --auth-sec-servers */
{
struct name_list *new;
do {
comma = split(arg);
new = opt_malloc(sizeof(struct name_list));
new->name = opt_string_alloc(arg);
new->next = daemon->secondary_forward_server;
daemon->secondary_forward_server = new;
arg = comma;
} while (arg);
break;
}
case LOPT_AUTHZONE: /* --auth-zone */
{
struct auth_zone *new;
comma = split(arg);
new = opt_malloc(sizeof(struct auth_zone));
new->domain = opt_string_alloc(arg);
new->subnet = NULL;
new->interface_names = NULL;
new->next = daemon->auth_zones;
daemon->auth_zones = new;
while ((arg = comma))
{
int prefixlen = 0;
char *prefix;
struct addrlist *subnet = NULL;
struct all_addr addr;
comma = split(arg);
prefix = split_chr(arg, '/');
if (prefix && !atoi_check(prefix, &prefixlen))
ret_err(gen_err);
if (inet_pton(AF_INET, arg, &addr.addr.addr4))
{
subnet = opt_malloc(sizeof(struct addrlist));
subnet->prefixlen = (prefixlen == 0) ? 24 : prefixlen;
subnet->flags = ADDRLIST_LITERAL;
}
#ifdef HAVE_IPV6
else if (inet_pton(AF_INET6, arg, &addr.addr.addr6))
{
subnet = opt_malloc(sizeof(struct addrlist));
subnet->prefixlen = (prefixlen == 0) ? 64 : prefixlen;
subnet->flags = ADDRLIST_LITERAL | ADDRLIST_IPV6;
}
#endif
else
{
struct auth_name_list *name = opt_malloc(sizeof(struct auth_name_list));
name->name = opt_string_alloc(arg);
name->flags = AUTH4 | AUTH6;
name->next = new->interface_names;
new->interface_names = name;
if (prefix)
{
if (prefixlen == 4)
name->flags &= ~AUTH6;
#ifdef HAVE_IPV6
else if (prefixlen == 6)
name->flags &= ~AUTH4;
#endif
else
ret_err(gen_err);
}
}
if (subnet)
{
subnet->addr = addr;
subnet->next = new->subnet;
new->subnet = subnet;
}
}
break;
}
case LOPT_AUTHSOA: /* --auth-soa */
comma = split(arg);
daemon->soa_sn = (u32)atoi(arg);
if (comma)
{
char *cp;
arg = comma;
comma = split(arg);
daemon->hostmaster = opt_string_alloc(arg);
for (cp = daemon->hostmaster; *cp; cp++)
if (*cp == '@')
*cp = '.';
if (comma)
{
arg = comma;
comma = split(arg);
daemon->soa_refresh = (u32)atoi(arg);
if (comma)
{
arg = comma;
comma = split(arg);
daemon->soa_retry = (u32)atoi(arg);
if (comma)
{
arg = comma;
comma = split(arg);
daemon->soa_expiry = (u32)atoi(arg);
}
}
}
}
break;
#endif
case 's': /* --domain */
case LOPT_SYNTH: /* --synth-domain */
if (strcmp (arg, "#") == 0)
set_option_bool(OPT_RESOLV_DOMAIN);
else
{
char *d;
comma = split(arg);
if (!(d = canonicalise_opt(arg)))
ret_err(gen_err);
else
{
if (comma)
{
struct cond_domain *new = opt_malloc(sizeof(struct cond_domain));
char *netpart;
new->prefix = NULL;
unhide_metas(comma);
if ((netpart = split_chr(comma, '/')))
{
int msize;
arg = split(netpart);
if (!atoi_check(netpart, &msize))
ret_err(gen_err);
else if (inet_pton(AF_INET, comma, &new->start))
{
int mask = (1 << (32 - msize)) - 1;
new->is6 = 0;
new->start.s_addr = ntohl(htonl(new->start.s_addr) & ~mask);
new->end.s_addr = new->start.s_addr | htonl(mask);
if (arg)
{
if (option != 's')
{
if (!(new->prefix = canonicalise_opt(arg)) ||
strlen(new->prefix) > MAXLABEL - INET_ADDRSTRLEN)
ret_err(_("bad prefix"));
}
else if (strcmp(arg, "local") != 0 ||
(msize != 8 && msize != 16 && msize != 24))
ret_err(gen_err);
else
{
/* generate the equivalent of
local=/<domain>/
local=/xxx.yyy.zzz.in-addr.arpa/ */
struct server *serv = add_rev4(new->start, msize);
serv->flags |= SERV_NO_ADDR;
}
}
}
#ifdef HAVE_IPV6
else if (inet_pton(AF_INET6, comma, &new->start6))
{
u64 mask = (1LLU << (128 - msize)) - 1LLU;
u64 addrpart = addr6part(&new->start6);
new->is6 = 1;
/* prefix==64 overflows the mask calculation above */
if (msize == 64)
mask = (u64)-1LL;
new->end6 = new->start6;
setaddr6part(&new->start6, addrpart & ~mask);
setaddr6part(&new->end6, addrpart | mask);
if (msize < 64)
ret_err(gen_err);
else if (arg)
{
if (option != 's')
{
if (!(new->prefix = canonicalise_opt(arg)) ||
strlen(new->prefix) > MAXLABEL - INET6_ADDRSTRLEN)
ret_err(_("bad prefix"));
}
else if (strcmp(arg, "local") != 0 || ((msize & 4) != 0))
ret_err(gen_err);
else
{
/* generate the equivalent of
local=/<domain>/
local=/xxx.yyy.zzz.ip6.arpa/ */
struct server *serv = add_rev6(&new->start6, msize);
serv->flags |= SERV_NO_ADDR;
}
}
}
#endif
else
ret_err(gen_err);
}
else
{
char *prefstr;
arg = split(comma);
prefstr = split(arg);
if (inet_pton(AF_INET, comma, &new->start))
{
new->is6 = 0;
if (!arg)
new->end.s_addr = new->start.s_addr;
else if (!inet_pton(AF_INET, arg, &new->end))
ret_err(gen_err);
}
#ifdef HAVE_IPV6
else if (inet_pton(AF_INET6, comma, &new->start6))
{
new->is6 = 1;
if (!arg)
memcpy(&new->end6, &new->start6, IN6ADDRSZ);
else if (!inet_pton(AF_INET6, arg, &new->end6))
ret_err(gen_err);
}
#endif
else
ret_err(gen_err);
if (option != 's' && prefstr)
{
if (!(new->prefix = canonicalise_opt(prefstr)) ||
strlen(new->prefix) > MAXLABEL - INET_ADDRSTRLEN)
ret_err(_("bad prefix"));
}
}
new->domain = d;
if (option == 's')
{
new->next = daemon->cond_domain;
daemon->cond_domain = new;
}
else
{
new->next = daemon->synth_domains;
daemon->synth_domains = new;
}
}
else if (option == 's')
daemon->domain_suffix = d;
else
ret_err(gen_err);
}
}
break;
case 'u': /* --user */
daemon->username = opt_string_alloc(arg);
break;
case 'g': /* --group */
daemon->groupname = opt_string_alloc(arg);
daemon->group_set = 1;
break;
#ifdef HAVE_DHCP
case LOPT_SCRIPTUSR: /* --scriptuser */
daemon->scriptuser = opt_string_alloc(arg);
break;
#endif
case 'i': /* --interface */
do {
struct iname *new = opt_malloc(sizeof(struct iname));
comma = split(arg);
new->next = daemon->if_names;
daemon->if_names = new;
/* new->name may be NULL if someone does
"interface=" to disable all interfaces except loop. */
new->name = opt_string_alloc(arg);
new->used = 0;
arg = comma;
} while (arg);
break;
case LOPT_TFTP: /* --enable-tftp */
set_option_bool(OPT_TFTP);
if (!arg)
break;
/* fall through */
case 'I': /* --except-interface */
case '2': /* --no-dhcp-interface */
do {
struct iname *new = opt_malloc(sizeof(struct iname));
comma = split(arg);
new->name = opt_string_alloc(arg);
if (option == 'I')
{
new->next = daemon->if_except;
daemon->if_except = new;
}
else if (option == LOPT_TFTP)
{
new->next = daemon->tftp_interfaces;
daemon->tftp_interfaces = new;
}
else
{
new->next = daemon->dhcp_except;
daemon->dhcp_except = new;
}
arg = comma;
} while (arg);
break;
case 'B': /* --bogus-nxdomain */
{
struct in_addr addr;
unhide_metas(arg);
if (arg && (inet_pton(AF_INET, arg, &addr) > 0))
{
struct bogus_addr *baddr = opt_malloc(sizeof(struct bogus_addr));
baddr->next = daemon->bogus_addr;
daemon->bogus_addr = baddr;
baddr->addr = addr;
}
else
ret_err(gen_err); /* error */
break;
}
case 'a': /* --listen-address */
case LOPT_AUTHPEER: /* --auth-peer */
do {
struct iname *new = opt_malloc(sizeof(struct iname));
comma = split(arg);
unhide_metas(arg);
if (arg && (inet_pton(AF_INET, arg, &new->addr.in.sin_addr) > 0))
{
new->addr.sa.sa_family = AF_INET;
new->addr.in.sin_port = 0;
#ifdef HAVE_SOCKADDR_SA_LEN
new->addr.in.sin_len = sizeof(new->addr.in);
#endif
}
#ifdef HAVE_IPV6
else if (arg && inet_pton(AF_INET6, arg, &new->addr.in6.sin6_addr) > 0)
{
new->addr.sa.sa_family = AF_INET6;
new->addr.in6.sin6_flowinfo = 0;
new->addr.in6.sin6_scope_id = 0;
new->addr.in6.sin6_port = 0;
#ifdef HAVE_SOCKADDR_SA_LEN
new->addr.in6.sin6_len = sizeof(new->addr.in6);
#endif
}
#endif
else
ret_err(gen_err);
new->used = 0;
if (option == 'a')
{
new->next = daemon->if_addrs;
daemon->if_addrs = new;
}
else
{
new->next = daemon->auth_peers;
daemon->auth_peers = new;
}
arg = comma;
} while (arg);
break;
case 'S': /* --server */
case LOPT_LOCAL: /* --local */
case 'A': /* --address */
case LOPT_NO_REBIND: /* --rebind-domain-ok */
{
struct server *serv, *newlist = NULL;
unhide_metas(arg);
if (arg && (*arg == '/' || option == LOPT_NO_REBIND))
{
int rebind = !(*arg == '/');
char *end = NULL;
if (!rebind)
arg++;
while (rebind || (end = split_chr(arg, '/')))
{
char *domain = NULL;
/* elide leading dots - they are implied in the search algorithm */
while (*arg == '.') arg++;
/* # matches everything and becomes a zero length domain string */
if (strcmp(arg, "#") == 0)
domain = "";
else if (strlen (arg) != 0 && !(domain = canonicalise_opt(arg)))
option = '?';
serv = opt_malloc(sizeof(struct server));
memset(serv, 0, sizeof(struct server));
serv->next = newlist;
newlist = serv;
serv->domain = domain;
serv->flags = domain ? SERV_HAS_DOMAIN : SERV_FOR_NODOTS;
arg = end;
if (rebind)
break;
}
if (!newlist)
ret_err(gen_err);
}
else
{
newlist = opt_malloc(sizeof(struct server));
memset(newlist, 0, sizeof(struct server));
#ifdef HAVE_LOOP
newlist->uid = rand32();
#endif
}
if (servers_only && option == 'S')
newlist->flags |= SERV_FROM_FILE;
if (option == 'A')
{
newlist->flags |= SERV_LITERAL_ADDRESS;
if (!(newlist->flags & SERV_TYPE))
ret_err(gen_err);
}
else if (option == LOPT_NO_REBIND)
newlist->flags |= SERV_NO_REBIND;
if (!arg || !*arg)
{
if (!(newlist->flags & SERV_NO_REBIND))
newlist->flags |= SERV_NO_ADDR; /* no server */
if (newlist->flags & SERV_LITERAL_ADDRESS)
ret_err(gen_err);
}
else if (strcmp(arg, "#") == 0)
{
newlist->flags |= SERV_USE_RESOLV; /* treat in ordinary way */
if (newlist->flags & SERV_LITERAL_ADDRESS)
ret_err(gen_err);
}
else
{
char *err = parse_server(arg, &newlist->addr, &newlist->source_addr, newlist->interface, &newlist->flags);
if (err)
ret_err(err);
}
serv = newlist;
while (serv->next)
{
serv->next->flags = serv->flags;
serv->next->addr = serv->addr;
serv->next->source_addr = serv->source_addr;
strcpy(serv->next->interface, serv->interface);
serv = serv->next;
}
serv->next = daemon->servers;
daemon->servers = newlist;
break;
}
case LOPT_REV_SERV: /* --rev-server */
{
char *string;
int size;
struct server *serv;
struct in_addr addr4;
#ifdef HAVE_IPV6
struct in6_addr addr6;
#endif
unhide_metas(arg);
if (!arg || !(comma=split(arg)) || !(string = split_chr(arg, '/')) || !atoi_check(string, &size))
ret_err(gen_err);
if (inet_pton(AF_INET, arg, &addr4))
serv = add_rev4(addr4, size);
#ifdef HAVE_IPV6
else if (inet_pton(AF_INET6, arg, &addr6))
serv = add_rev6(&addr6, size);
#endif
else
ret_err(gen_err);
string = parse_server(comma, &serv->addr, &serv->source_addr, serv->interface, &serv->flags);
if (string)
ret_err(string);
if (servers_only)
serv->flags |= SERV_FROM_FILE;
break;
}
case LOPT_IPSET: /* --ipset */
#ifndef HAVE_IPSET
ret_err(_("recompile with HAVE_IPSET defined to enable ipset directives"));
break;
#else
{
struct ipsets ipsets_head;
struct ipsets *ipsets = &ipsets_head;
int size;
char *end;
char **sets, **sets_pos;
memset(ipsets, 0, sizeof(struct ipsets));
unhide_metas(arg);
if (arg && *arg == '/')
{
arg++;
while ((end = split_chr(arg, '/')))
{
char *domain = NULL;
/* elide leading dots - they are implied in the search algorithm */
while (*arg == '.')
arg++;
/* # matches everything and becomes a zero length domain string */
if (strcmp(arg, "#") == 0 || !*arg)
domain = "";
else if (strlen(arg) != 0 && !(domain = canonicalise_opt(arg)))
option = '?';
ipsets->next = opt_malloc(sizeof(struct ipsets));
ipsets = ipsets->next;
memset(ipsets, 0, sizeof(struct ipsets));
ipsets->domain = domain;
arg = end;
}
}
else
{
ipsets->next = opt_malloc(sizeof(struct ipsets));
ipsets = ipsets->next;
memset(ipsets, 0, sizeof(struct ipsets));
ipsets->domain = "";
}
if (!arg || !*arg)
{
option = '?';
break;
}
size = 2;
for (end = arg; *end; ++end)
if (*end == ',')
++size;
sets = sets_pos = opt_malloc(sizeof(char *) * size);
do {
end = split(arg);
*sets_pos++ = opt_string_alloc(arg);
arg = end;
} while (end);
*sets_pos = 0;
for (ipsets = &ipsets_head; ipsets->next; ipsets = ipsets->next)
ipsets->next->sets = sets;
ipsets->next = daemon->ipsets;
daemon->ipsets = ipsets_head.next;
break;
}
#endif
case 'c': /* --cache-size */
{
int size;
if (!atoi_check(arg, &size))
ret_err(gen_err);
else
{
/* zero is OK, and means no caching. */
if (size < 0)
size = 0;
else if (size > 10000)
size = 10000;
daemon->cachesize = size;
}
break;
}
case 'p': /* --port */
if (!atoi_check16(arg, &daemon->port))
ret_err(gen_err);
break;
case LOPT_MINPORT: /* --min-port */
if (!atoi_check16(arg, &daemon->min_port))
ret_err(gen_err);
break;
case '0': /* --dns-forward-max */
if (!atoi_check(arg, &daemon->ftabsize))
ret_err(gen_err);
break;
case LOPT_MAX_LOGS: /* --log-async */
daemon->max_logs = LOG_MAX; /* default */
if (arg && !atoi_check(arg, &daemon->max_logs))
ret_err(gen_err);
else if (daemon->max_logs > 100)
daemon->max_logs = 100;
break;
case 'P': /* --edns-packet-max */
{
int i;
if (!atoi_check(arg, &i))
ret_err(gen_err);
daemon->edns_pktsz = (unsigned short)i;
break;
}
case 'Q': /* --query-port */
if (!atoi_check16(arg, &daemon->query_port))
ret_err(gen_err);
/* if explicitly set to zero, use single OS ephemeral port
and disable random ports */
if (daemon->query_port == 0)
daemon->osport = 1;
break;
case 'T': /* --local-ttl */
case LOPT_NEGTTL: /* --neg-ttl */
case LOPT_MAXTTL: /* --max-ttl */
case LOPT_MAXCTTL: /* --max-cache-ttl */
case LOPT_AUTHTTL: /* --auth-ttl */
{
int ttl;
if (!atoi_check(arg, &ttl))
ret_err(gen_err);
else if (option == LOPT_NEGTTL)
daemon->neg_ttl = (unsigned long)ttl;
else if (option == LOPT_MAXTTL)
daemon->max_ttl = (unsigned long)ttl;
else if (option == LOPT_MAXCTTL)
daemon->max_cache_ttl = (unsigned long)ttl;
else