/* dnsmasq is Copyright (c) 2000-2022 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 COPYRIGHT "Copyright (c) 2000-2022 Simon Kelley"
/* We do defines that influence behavior of stdio.h, so complain
if included too early. */
#ifdef _STDIO_H
# error "Header file stdio.h included too early!"
#endif
#ifndef NO_LARGEFILE
/* Ensure we can use files >2GB (log files may grow this big) */
# define _LARGEFILE_SOURCE 1
# define _FILE_OFFSET_BITS 64
#endif
/* Get linux C library versions and define _GNU_SOURCE for kFreeBSD. */
#if defined(__linux__) || defined(__GLIBC__)
# ifndef __ANDROID__
# define _GNU_SOURCE
# endif
# include <features.h>
#endif
/* Need these defined early */
#if defined(__sun) || defined(__sun__)
# define _XPG4_2
# define __EXTENSIONS__
#endif
#if (defined(__GNUC__) && __GNUC__ >= 3) || defined(__clang__)
#define ATTRIBUTE_NORETURN __attribute__ ((noreturn))
#else
#define ATTRIBUTE_NORETURN
#endif
/* get these before config.h for IPv6 stuff... */
#include <sys/types.h>
#include <sys/socket.h>
#ifdef __APPLE__
/* Define before netinet/in.h to select API. OSX Lion onwards. */
# define __APPLE_USE_RFC_3542
#endif
#include <netinet/in.h>
/* Also needed before config.h. */
#include <getopt.h>
#include "config.h"
#include "ip6addr.h"
#include "metrics.h"
typedef unsigned char u8;
typedef unsigned short u16;
typedef unsigned int u32;
typedef unsigned long long u64;
#define countof(x) (long)(sizeof(x) / sizeof(x[0]))
#define MIN(a,b) ((a) < (b) ? (a) : (b))
#include "dns-protocol.h"
#include "dhcp-protocol.h"
#ifdef HAVE_DHCP6
#include "dhcp6-protocol.h"
#include "radv-protocol.h"
#endif
#define gettext_noop(S) (S)
#ifndef LOCALEDIR
# define _(S) (S)
#else
# include <libintl.h>
# include <locale.h>
# define _(S) gettext(S)
#endif
#include <arpa/inet.h>
#include <sys/stat.h>
#include <sys/ioctl.h>
#if defined(HAVE_SOLARIS_NETWORK)
# include <sys/sockio.h>
#endif
#include <poll.h>
#include <sys/wait.h>
#include <sys/time.h>
#include <sys/un.h>
#include <limits.h>
#include <net/if.h>
#if defined(HAVE_SOLARIS_NETWORK) && !defined(ifr_mtu)
/* Some solaris net/if./h omit this. */
# define ifr_mtu ifr_ifru.ifru_metric
#endif
#include <unistd.h>
#include <stdio.h>
#include <stdint.h>
#include <string.h>
#include <stdlib.h>
#include <fcntl.h>
#include <ctype.h>
#include <signal.h>
#include <stddef.h>
#include <time.h>
#include <errno.h>
#include <pwd.h>
#include <grp.h>
#include <stdarg.h>
#if defined(__OpenBSD__) || defined(__NetBSD__) || defined(__sun__) || defined (__sun) || defined (__ANDROID__)
# include <netinet/if_ether.h>
#else
# include <net/ethernet.h>
#endif
#include <net/if_arp.h>
#include <netinet/in_systm.h>
#include <netinet/ip.h>
#include <netinet/ip6.h>
#include <netinet/ip_icmp.h>
#include <netinet/tcp.h>
#include <sys/uio.h>
#include <syslog.h>
#include <dirent.h>
#include <netdb.h>
#ifndef HAVE_LINUX_NETWORK
# include <net/if_dl.h>
#endif
#if defined(HAVE_LINUX_NETWORK)
#include <linux/version.h>
#include <linux/sockios.h>
#include <linux/capability.h>
/* There doesn't seem to be a universally-available
userspace header for these. */
extern int capset(cap_user_header_t header, cap_user_data_t data);
extern int capget(cap_user_header_t header, cap_user_data_t data);
#define LINUX_CAPABILITY_VERSION_1 0x19980330
#define LINUX_CAPABILITY_VERSION_2 0x20071026
#define LINUX_CAPABILITY_VERSION_3 0x20080522
#include <sys/prctl.h>
#elif defined(HAVE_SOLARIS_NETWORK)
#include <priv.h>
#endif
/* Backwards compat with 2.83 */
#if defined(HAVE_NETTLEHASH)
# define HAVE_CRYPTOHASH
#endif
#if defined(HAVE_DNSSEC) || defined(HAVE_CRYPTOHASH)
# include <nettle/nettle-meta.h>
#endif
/* daemon is function in the C library.... */
#define daemon dnsmasq_daemon
#define ADDRSTRLEN INET6_ADDRSTRLEN
/* Async event queue */
struct event_desc {
int event, data, msg_sz;
};
#define EVENT_RELOAD 1
#define EVENT_DUMP 2
#define EVENT_ALARM 3
#define EVENT_TERM 4
#define EVENT_CHILD 5
#define EVENT_REOPEN 6
#define EVENT_EXITED 7
#define EVENT_KILLED 8
#define EVENT_EXEC_ERR 9
#define EVENT_PIPE_ERR 10
#define EVENT_USER_ERR 11
#define EVENT_CAP_ERR 12
#define EVENT_PIDFILE 13
#define EVENT_HUSER_ERR 14
#define EVENT_GROUP_ERR 15
#define EVENT_DIE 16
#define EVENT_LOG_ERR 17
#define EVENT_FORK_ERR 18
#define EVENT_LUA_ERR 19
#define EVENT_TFTP_ERR 20
#define EVENT_INIT 21
#define EVENT_NEWADDR 22
#define EVENT_NEWROUTE 23
#define EVENT_TIME_ERR 24
#define EVENT_SCRIPT_LOG 25
#define EVENT_TIME 26
/* Exit codes. */
#define EC_GOOD 0
#define EC_BADCONF 1
#define EC_BADNET 2
#define EC_FILE 3
#define EC_NOMEM 4
#define EC_MISC 5
#define EC_INIT_OFFSET 10
#define OPT_BOGUSPRIV 0
#define OPT_FILTER 1
#define OPT_LOG 2
#define OPT_SELFMX 3
#define OPT_NO_HOSTS 4
#define OPT_NO_POLL 5
#define OPT_DEBUG 6
#define OPT_ORDER 7
#define OPT_NO_RESOLV 8
#define OPT_EXPAND 9
#define OPT_LOCALMX 10
#define OPT_NO_NEG 11
#define OPT_NODOTS_LOCAL 12
#define OPT_NOWILD 13
#define OPT_ETHERS 14
#define OPT_RESOLV_DOMAIN 15
#define OPT_NO_FORK 16
#define OPT_AUTHORITATIVE 17
#define OPT_LOCALISE 18
#define OPT_DBUS 19
#define OPT_DHCP_FQDN 20
#define OPT_NO_PING 21
#define OPT_LEASE_RO 22
#define OPT_ALL_SERVERS 23
#define OPT_RELOAD 24
#define OPT_LOCAL_REBIND 25
#define OPT_TFTP_SECURE 26
#define OPT_TFTP_NOBLOCK 27
#define OPT_LOG_OPTS 28
#define OPT_TFTP_APREF_IP 29
#define OPT_NO_OVERRIDE 30
#define OPT_NO_REBIND 31
#define OPT_ADD_MAC 32
#define OPT_DNSSEC_PROXY 33
#define OPT_CONSEC_ADDR 34
#define OPT_CONNTRACK 35
#define OPT_FQDN_UPDATE 36
#define OPT_RA 37
#define OPT_TFTP_LC 38
#define OPT_CLEVERBIND 39
#define OPT_TFTP 40
#define OPT_CLIENT_SUBNET 41
#define OPT_QUIET_DHCP 42
#define OPT_QUIET_DHCP6 43
#define OPT_QUIET_RA 44
#define OPT_DNSSEC_VALID 45
#define OPT_DNSSEC_TIME 46
#define OPT_DNSSEC_DEBUG 47
#define OPT_DNSSEC_IGN_NS 48
#define OPT_LOCAL_SERVICE 49
#define OPT_LOOP_DETECT 50
#define OPT_EXTRALOG 51
#define OPT_TFTP_NO_FAIL 52
#define OPT_SCRIPT_ARP 53
#define OPT_MAC_B64 54
#define OPT_MAC_HEX 55
#define OPT_TFTP_APREF_MAC 56
#define OPT_RAPID_COMMIT 57
#define OPT_UBUS 58
#define OPT_IGNORE_CLID 59
#define OPT_SINGLE_PORT 60
#define OPT_LEASE_RENEW 61
#define OPT_LOG_DEBUG 62
#define OPT_UMBRELLA 63
#define OPT_UMBRELLA_DEVID 64
#define OPT_CMARK_ALST_EN 65
#define OPT_QUIET_TFTP 66
#define OPT_FILTER_A 67
#define OPT_FILTER_AAAA 68
#define OPT_STRIP_ECS 69
#define OPT_STRIP_MAC 70
#define OPT_NORR 71
#define OPT_NO_IDENT 72
#define OPT_LAST 73
#define OPTION_BITS (sizeof(unsigned int)*8)
#define OPTION_SIZE ( (OPT_LAST/OPTION_BITS)+((OPT_LAST%OPTION_BITS)!=0) )
#define option_var(x) (daemon->options[(x) / OPTION_BITS])
#define option_val(x) ((1u) << ((x) % OPTION_BITS))
#define option_bool(x) (option_var(x) & option_val(x))
/* extra flags for my_syslog, we use facilities since they are known
not to occupy the same bits as priorities, no matter how syslog.h is set up.
MS_DEBUG messages are suppressed unless --log-debug is set. */
#define MS_TFTP LOG_USER
#define MS_DHCP LOG_DAEMON
#define MS_SCRIPT LOG_MAIL
#define MS_DEBUG LOG_NEWS
/* Note that this is used widely as a container for IPv4/IPv6 addresses,
so for that reason, was well as to avoid wasting memory in almost every
cache entry, the other variants should not be larger than
sizeof(struct in6_addr) - 16 bytes.
*/
union all_addr {
struct in_addr addr4;
struct in6_addr addr6;
struct {
union {
struct crec *cache;
char *name;
} target;
unsigned int uid;
int is_name_ptr; /* disciminates target union */
} cname;
struct {
struct blockdata *keydata;
unsigned short keylen, flags, keytag;
unsigned char algo;
} key;
struct {
struct blockdata *keydata;
unsigned short keylen, keytag;
unsigned char algo;
unsigned char digest;
} ds;
struct {
struct blockdata *target;
unsigned short targetlen, srvport, priority, weight;
} srv;
/* for log_query */
struct {
unsigned short keytag, algo, digest, rcode;
int ede;
} log;
};
struct bogus_addr {
int is6, prefix;
union all_addr addr;
struct bogus_addr *next;
};
/* dns doctor param */
struct doctor {
struct in_addr in, end, out, mask;
struct doctor *next;
};
struct mx_srv_record {
char *name, *target;
int issrv, srvport, priority, weight;
unsigned int offset;
struct mx_srv_record *next;
};
struct naptr {
char *name, *replace, *regexp, *services, *flags;
unsigned int order, pref;
struct naptr *next;
};
#ifndef NO_ID
#define TXT_STAT_CACHESIZE 1
#define TXT_STAT_INSERTS 2
#define TXT_STAT_EVICTIONS 3
#define TXT_STAT_MISSES 4
#define TXT_STAT_HITS 5
#define TXT_STAT_AUTH 6
#define TXT_STAT_SERVERS 7
#endif
struct txt_record {
char *name;
unsigned char *txt;
unsigned short class, len;
int stat;
struct txt_record *next;
};
struct ptr_record {
char *name, *ptr;
struct ptr_record *next;
};
struct cname {
int ttl, flag;
char *alias, *target;
struct cname *next, *targetp;
};
struct ds_config {
char *name, *digest;
int digestlen, class, algo, keytag, digest_type;
struct ds_config *next;
};
#define ADDRLIST_LITERAL 1
#define ADDRLIST_IPV6 2
#define ADDRLIST_REVONLY 4
#define ADDRLIST_PREFIX 8
#define ADDRLIST_WILDCARD 16
#define ADDRLIST_DECLINED 32
struct addrlist {
union all_addr addr;
int flags, prefixlen;
time_t decline_time;
struct addrlist *next;
};
#define AUTH6 1
#define AUTH4 2
struct auth_zone {
char *domain;
struct auth_name_list {
char *name;
int flags;
struct auth_name_list *next;
} *interface_names;
struct addrlist *subnet;
struct addrlist *exclude;
struct auth_zone *next;
};
#define HR_6 1
#define HR_4 2
struct host_record {
int ttl, flags;
struct name_list {
char *name;
struct name_list *next;
} *names;
struct in_addr addr;
struct in6_addr addr6;
struct host_record *next;
};
#define IN4 1
#define IN6 2
#define INP4 4
#define INP6 8
struct interface_name {
char *name; /* domain name */
char *intr; /* interface name */
int flags;
struct in_addr proto4;
struct in6_addr proto6;
struct addrlist *addr;
struct interface_name *next;
};
union bigname {
char name[MAXDNAME];
union bigname *next; /* freelist */
};
struct blockdata {
struct blockdata *next;
unsigned char key[KEYBLOCK_LEN];
};
struct crec {
struct crec *next, *prev, *hash_next;
union all_addr addr;
time_t ttd; /* time to die */
/* used as class if DNSKEY/DS, index to source for F_HOSTS */
unsigned int uid;
unsigned int flags;
union {
char sname[SMALLDNAME];
union bigname *bname;
char *namep;
} name;
};
#define SIZEOF_BARE_CREC (sizeof(struct crec) - SMALLDNAME)
#define SIZEOF_POINTER_CREC (sizeof(struct crec) + sizeof(char *) - SMALLDNAME)
#define F_IMMORTAL (1u<<0)
#define F_NAMEP (1u<<1)
#define F_REVERSE (1u<<2)
#define F_FORWARD (1u<<3)
#define F_DHCP (1u<<4)
#define F_NEG (1u<<5)
#define F_HOSTS (1u<<6)
#define F_IPV4 (1u<<7)
#define F_IPV6 (1u<<8)
#define F_BIGNAME (1u<<9)
#define F_NXDOMAIN (1u<<10)
#define F_CNAME (1u<<11)
#define F_DNSKEY (1u<<12)
#define F_CONFIG (1u<<13)
#define F_DS (1u<<14)
#define F_DNSSECOK (1u<<15)
#define F_UPSTREAM (1u<<16)
#define F_RRNAME (1u<<17)
#define F_SERVER (1u<<18)
#define F_QUERY (1u<<19)
#define F_NOERR (1u<<20)
#define F_AUTH (1u<<21)
#define F_DNSSEC (1u<<22)
#define F_KEYTAG (1u<<23)
#define F_SECSTAT (1u<<24)
#define F_NO_RR (1u<<25)
#define F_IPSET (1u<<26)
#define F_NOEXTRA (1u<<27)
#define F_DOMAINSRV (1u<<28)
#define F_RCODE (1u<<29)
#define F_SRV (1u<<30)
#define F_STALE (1u<<31)
#define UID_NONE 0
/* Values of uid in crecs with F_CONFIG bit set. */
#define SRC_CONFIG 1
#define SRC_HOSTS 2
#define SRC_AH 3
/* struct sockaddr is not large enough to hold any address,
and specifically not big enough to hold an IPv6 address.
Blech. Roll our own. */
union mysockaddr {
struct sockaddr sa;
struct sockaddr_in in;
struct sockaddr_in6 in6;
};
/* bits in flag param to IPv6 callbacks from iface_enumerate() */
#define IFACE_TENTATIVE 1
#define IFACE_DEPRECATED 2
#define IFACE_PERMANENT 4
/* The actual values here matter, since we sort on them to get records in the order
IPv6 addr, IPv4 addr, all zero return, resolvconf servers, upstream server, no-data return */
#define SERV_LITERAL_ADDRESS 1 /* addr is the answer, or NoDATA is the answer, depending on the next four flags */
#define SERV_USE_RESOLV 2 /* forward this domain in the normal way */
#define SERV_ALL_ZEROS 4 /* return all zeros for A and AAAA */
#define SERV_4ADDR 8 /* addr is IPv4 */
#define SERV_6ADDR 16 /* addr is IPv6 */
#define SERV_HAS_SOURCE 32 /* source address defined */
#define SERV_FOR_NODOTS 64 /* server for names with no domain part only */
#define SERV_WARNED_RECURSIVE 128 /* avoid warning spam */
#define SERV_FROM_DBUS 256 /* 1 if source is DBus */
#define SERV_MARK 512 /* for mark-and-delete and log code */
#define SERV_WILDCARD 1024 /* domain has leading '*' */
#define SERV_FROM_RESOLV 2048 /* 1 for servers from resolv, 0 for command line. */
#define SERV_FROM_FILE 4096 /* read from --servers-file */
#define SERV_LOOP 8192 /* server causes forwarding loop */
#define SERV_DO_DNSSEC 16384 /* Validate DNSSEC when using this server */
#define SERV_GOT_TCP 32768 /* Got some data from the TCP connection */
struct serverfd {
int fd;
union mysockaddr source_addr;
char interface[IF_NAMESIZE+1];
unsigned int ifindex, used, preallocated;
struct serverfd *next;
};
struct randfd {
struct server *serv;
int fd;
unsigned short refcount; /* refcount == 0xffff means overflow record. */
};
struct randfd_list {
struct randfd *rfd;
struct randfd_list *next;
};
struct server {
u16 flags, domain_len;
char *domain;
struct server *next;
int serial, arrayposn;
int last_server;
union mysockaddr addr, source_addr;
char interface[IF_NAMESIZE+1];
unsigned int ifindex; /* corresponding to interface, above */
struct serverfd *sfd;
int tcpfd, edns_pktsz;
time_t pktsz_reduced;
unsigned int queries, failed_queries, nxdomain_replies, retrys;
unsigned int query_latency, mma_latency;
time_t forwardtime;
int forwardcount;
#ifdef HAVE_LOOP
u32 uid;
#endif
};
/* First four fields must match struct server in next three definitions.. */
struct serv_addr4 {
u16 flags, domain_len;
char *domain;
struct server *next;
struct in_addr addr;
};
struct serv_addr6 {
u16 flags, domain_len;
char *domain;
struct server *next;
struct in6_addr addr;
};
struct serv_local {
u16 flags, domain_len;
char *domain;
struct server *next;
};
struct rebind_domain {
char *domain;
struct rebind_domain *next;
};
struct ipsets {
char **sets;
char *domain;
struct ipsets *next;
};
struct allowlist {
u32 mark, mask;
char **patterns;
struct allowlist *next;
};
struct irec {
union mysockaddr addr;
struct in_addr netmask; /* only valid for IPv4 */
int tftp_ok, dhcp_ok, mtu, done, warned, dad, dns_auth, index, multicast_done, found, label;
char *name;
struct irec *next;
};
struct listener {
int fd, tcpfd, tftpfd, used;
union mysockaddr addr;
struct irec *iface; /* only sometimes valid for non-wildcard */
struct listener *next;
};
/* interface and address parms from command line. */
struct iname {
char *name;
union mysockaddr addr;
int used;
struct iname *next;
};
/* subnet parameters from command line */
struct mysubnet {
union mysockaddr addr;
int addr_used;
int mask;
};
/* resolv-file parms from command-line */
struct resolvc {
struct resolvc *next;
int is_default, logged;
time_t mtime;
ino_t ino;
char *name;
#ifdef HAVE_INOTIFY
int wd; /* inotify watch descriptor */
char *file; /* pointer to file part if path */
#endif
};
/* adn-hosts parms from command-line (also dhcp-hostsfile and dhcp-optsfile and dhcp-hostsdir*/
#define AH_DIR 1
#define AH_INACTIVE 2
#define AH_WD_DONE 4
#define AH_HOSTS 8
#define AH_DHCP_HST 16
#define AH_DHCP_OPT 32
struct hostsfile {
struct hostsfile *next;
int flags;
char *fname;
unsigned int index; /* matches to cache entries for logging */
};
struct dyndir {
struct dyndir *next;
struct hostsfile *files;
int flags;
char *dname;
#ifdef HAVE_INOTIFY
int wd; /* inotify watch descriptor */
#endif
};
/* packet-dump flags */
#define DUMP_QUERY 0x0001
#define DUMP_REPLY 0x0002
#define DUMP_UP_QUERY 0x0004
#define DUMP_UP_REPLY 0x0008
#define DUMP_SEC_QUERY 0x0010
#define DUMP_SEC_REPLY 0x0020
#define DUMP_BOGUS 0x0040
#define DUMP_SEC_BOGUS 0x0080
#define DUMP_DHCP 0x1000
#define DUMP_DHCPV6 0x2000
#define DUMP_RA 0x4000
#define DUMP_TFTP 0x8000
/* DNSSEC status values. */
#define STAT_SECURE 0x10000
#define STAT_INSECURE 0x20000
#define STAT_BOGUS 0x30000
#define STAT_NEED_DS 0x40000
#define STAT_NEED_KEY 0x50000
#define STAT_TRUNCATED 0x60000
#define STAT_SECURE_WILDCARD 0x70000
#define STAT_OK 0x80000
#define STAT_ABANDONED 0x90000
#define DNSSEC_FAIL_NYV 0x0001 /* key not yet valid */
#define DNSSEC_FAIL_EXP 0x0002 /* key expired */
#define DNSSEC_FAIL_INDET 0x0004 /* indetermined */
#define DNSSEC_FAIL_NOKEYSUP 0x0008 /* no supported key algo. */
#define DNSSEC_FAIL_NOSIG 0x0010 /* No RRsigs */
#define DNSSEC_FAIL_NOZONE 0x0020 /* No Zone bit set */
#define DNSSEC_FAIL_NONSEC 0x0040 /* No NSEC */
#define DNSSEC_FAIL_NODSSUP 0x0080 /* no supported DS algo. */
#define DNSSEC_FAIL_NOKEY 0x0100 /* no DNSKEY */
#define STAT_ISEQUAL(a, b) (((a) & 0xffff0000) == (b))
#define FREC_NOREBIND 1
#define FREC_CHECKING_DISABLED 2
#define FREC_NO_CACHE 4
#define FREC_DNSKEY_QUERY 8
#define FREC_DS_QUERY 16
#define FREC_AD_QUESTION 32
#define FREC_DO_QUESTION 64
#define FREC_ADDED_PHEADER 128
#define FREC_TEST_PKTSZ 256
#define FREC_HAS_EXTRADATA 512
#define FREC_HAS_PHEADER 1024
#define HASH_SIZE 32 /* SHA-256 digest size */
struct frec {
struct frec_src {
union mysockaddr source;
union all_addr dest;
unsigned int iface, log_id;
int fd;
unsigned short orig_id;
struct frec_src *next;
} frec_src;
struct server *sentto; /* NULL means free */
struct randfd_list *rfds;
unsigned short new_id;
int forwardall, flags;
time_t time;
u32 forward_timestamp;
int forward_delay;
unsigned char *hash[HASH_SIZE];
struct blockdata *stash; /* Saved reply, whilst we validate */
size_t stash_len;
#ifdef HAVE_DNSSEC
int class, work_counter;
struct frec *dependent; /* Query awaiting internally-generated DNSKEY or DS query */
struct frec *next_dependent; /* list of above. */
struct frec *blocking_query; /* Query which is blocking us. */
#endif
struct frec *next;
};
/* flags in top of length field for DHCP-option tables */
#define OT_ADDR_LIST 0x8000
#define OT_RFC1035_NAME 0x4000
#define OT_INTERNAL 0x2000
#define OT_NAME 0x1000
#define OT_CSTRING 0x0800
#define OT_DEC 0x0400
#define OT_TIME 0x0200
/* actions in the daemon->helper RPC */
#define ACTION_DEL 1
#define ACTION_OLD_HOSTNAME 2
#define ACTION_OLD 3
#define ACTION_ADD 4
#define ACTION_TFTP 5
#define ACTION_ARP 6
#define ACTION_ARP_DEL 7
#define ACTION_RELAY_SNOOP 8
#define LEASE_NEW 1 /* newly created */
#define LEASE_CHANGED 2 /* modified */
#define LEASE_AUX_CHANGED 4 /* CLID or expiry changed */
#define LEASE_AUTH_NAME 8 /* hostname came from config, not from client */
#define LEASE_USED 16 /* used this DHCPv6 transaction */
#define LEASE_NA 32 /* IPv6 no-temporary lease */
#define LEASE_TA 64 /* IPv6 temporary lease */
#define LEASE_HAVE_HWADDR 128 /* Have set hwaddress */
#define LEASE_EXP_CHANGED 256 /* Lease expiry time changed */
struct dhcp_lease {
int clid_len; /* length of client identifier */
unsigned char *clid; /* clientid */
char *hostname, *fqdn; /* name from client-hostname option or config */
char *old_hostname; /* hostname before it moved to another lease */
int flags;
time_t expires; /* lease expiry */
#ifdef HAVE_BROKEN_RTC
unsigned int length;
#endif
int hwaddr_len, hwaddr_type;
unsigned char hwaddr[DHCP_CHADDR_MAX];
struct in_addr addr, override, giaddr;
unsigned char *extradata;
unsigned int extradata_len, extradata_size;
int last_interface;
int new_interface; /* save possible originated interface */
int new_prefixlen; /* and its prefix length */
#ifdef HAVE_DHCP6
struct in6_addr addr6;
unsigned int iaid;
struct slaac_address {
struct in6_addr addr;
time_t ping_time;
int backoff; /* zero -> confirmed */
struct slaac_address *next;
} *slaac_address;
int vendorclass_count;
#endif
struct dhcp_lease *next;
};
struct dhcp_netid {
char *net;
struct dhcp_netid *next;
};
struct dhcp_netid_list {
struct dhcp_netid *list;
struct dhcp_netid_list *next;
};
struct tag_if {
struct dhcp_netid_list *set;
struct dhcp_netid *tag;
struct tag_if *next;
};
struct delay_config {
int delay;
struct dhcp_netid *netid;
struct delay_config *next;
};
struct hwaddr_config {
int hwaddr_len, hwaddr_type;
unsigned char hwaddr[DHCP_CHADDR_MAX];
unsigned int wildcard_mask;
struct hwaddr_config *next;
};
struct dhcp_config {
unsigned int flags;
int clid_len; /* length of client identifier */
unsigned char *clid; /* clientid */
char *hostname, *domain;
struct dhcp_netid_list *netid;
struct dhcp_netid *filter;
#ifdef HAVE_DHCP6
struct addrlist *addr6;
#endif
struct in_addr addr;
time_t decline_time;
unsigned int lease_time;
struct hwaddr_config *hwaddr;
struct dhcp_config *next;
};
#define have_config(config, mask) ((config) && ((config)->flags & (mask)))
#define CONFIG_DISABLE 1
#define CONFIG_CLID 2
#define CONFIG_TIME 8
#define CONFIG_NAME 16
#define CONFIG_ADDR 32
#define CONFIG_NOCLID 128
#define CONFIG_FROM_ETHERS 256 /* entry created by /etc/ethers */
#define CONFIG_ADDR_HOSTS 512 /* address added by from /etc/hosts */
#define CONFIG_DECLINED 1024 /* address declined by client */
#define CONFIG_BANK 2048 /* from dhcp hosts file */
#define CONFIG_ADDR6 4096
#define CONFIG_ADDR6_HOSTS 16384 /* address added by from /etc/hosts */
struct dhcp_opt {
int opt, len, flags;
union {
int encap;
unsigned int wildcard_mask;
unsigned char *vendor_class;
} u;
unsigned char *val;
struct dhcp_netid *netid;
struct dhcp_opt *next;
};
#define DHOPT_ADDR 1
#define DHOPT_STRING 2
#define DHOPT_ENCAPSULATE 4
#define DHOPT_ENCAP_MATCH 8
#define DHOPT_FORCE 16
#define DHOPT_BANK 32
#define DHOPT_ENCAP_DONE 64
#define DHOPT_MATCH 128
#define DHOPT_VENDOR 256
#define DHOPT_HEX 512
#define DHOPT_VENDOR_MATCH 1024
#define DHOPT_RFC3925 2048
#define DHOPT_TAGOK 4096
#define DHOPT_ADDR6 8192
#define DHOPT_VENDOR_PXE 16384
struct dhcp_boot {
char *file, *sname, *tftp_sname;
struct in_addr next_server;
struct dhcp_netid *netid;
struct dhcp_boot *next;
};
struct dhcp_match_name {
char *name;
int wildcard;
struct dhcp_netid *netid;
struct dhcp_match_name *next;
};
struct pxe_service {
unsigned short CSA, type;
char *menu, *basename, *sname;
struct in_addr server;
struct dhcp_netid *netid;
struct pxe_service *next;
};
#define DHCP_PXE_DEF_VENDOR "PXEClient"
#define MATCH_VENDOR 1
#define MATCH_USER 2
#define MATCH_CIRCUIT 3
#define MATCH_REMOTE 4
#define MATCH_SUBSCRIBER 5
/* vendorclass, userclass, remote-id or circuit-id */
struct dhcp_vendor {
int len, match_type;
unsigned int enterprise;
char *data;
struct dhcp_netid netid;
struct dhcp_vendor *next;
};
struct dhcp_pxe_vendor {
char *data;
struct dhcp_pxe_vendor *next;
};
struct dhcp_mac {
unsigned int mask;
int hwaddr_len, hwaddr_type;
unsigned char hwaddr[DHCP_CHADDR_MAX];
struct dhcp_netid netid;
struct dhcp_mac *next;
};
struct dhcp_bridge {
char iface[IF_NAMESIZE];
struct dhcp_bridge *alias, *next;
};
struct cond_domain {
char *domain, *prefix; /* prefix is text-prefix on domain name */
char *interface; /* These two set when domain comes from interface. */
struct addrlist *al;
struct in_addr start, end;
struct in6_addr start6, end6;
int is6, indexed, prefixlen;
struct cond_domain *next;
};
struct ra_interface {
char *name;
char *mtu_name;
int interval, lifetime, prio, mtu;
struct ra_interface *next;
};
struct dhcp_context {
unsigned int lease_time, addr_epoch;
struct in_addr netmask, broadcast;
struct in_addr local, router;
struct in_addr start, end; /* range of available addresses */
#ifdef HAVE_DHCP6
struct in6_addr start6, end6; /* range of available addresses */
struct in6_addr local6;
int prefix, if_index;
unsigned int valid, preferred, saved_valid;
time_t ra_time, ra_short_period_start, address_lost_time;
char *template_interface;
#endif
int flags;
struct dhcp_netid netid, *filter;
struct dhcp_context *next, *current;
};
struct shared_network {
int if_index;
struct in_addr match_addr, shared_addr;
#ifdef HAVE_DHCP6
/* shared_addr == 0 for IP6 entries. */
struct in6_addr match_addr6, shared_addr6;
#endif
struct shared_network *next;
};
#define CONTEXT_STATIC (1u<<0)
#define CONTEXT_NETMASK (1u<<1)
#define CONTEXT_BRDCAST (1u<<2)
#define CONTEXT_PROXY (1u<<3)
#define CONTEXT_RA_ROUTER (1u<<4)
#define CONTEXT_RA_DONE (1u<<5)
#define CONTEXT_RA_NAME (1u<<6)
#define CONTEXT_RA_STATELESS (1u<<7)
#define CONTEXT_DHCP (1u<<8)
#define CONTEXT_DEPRECATE (1u<<9)
#define CONTEXT_TEMPLATE (1u<<10) /* create contexts using addresses */
#define CONTEXT_CONSTRUCTED (1u<<11)
#define CONTEXT_GC (1u<<12)
#define CONTEXT_RA (1u<<13)
#define CONTEXT_CONF_USED (1u<<14)
#define CONTEXT_USED (1u<<15)
#define CONTEXT_OLD (1u<<16)
#define CONTEXT_V6 (1u<<17)
#define CONTEXT_RA_OFF_LINK (1u<<18)
#define CONTEXT_SETLEASE (1u<<19)
struct ping_result {
struct in_addr addr;
time_t time;
unsigned int hash;
struct ping_result *next;
};
struct tftp_file {
int refcount, fd;
off_t size;
dev_t dev;
ino_t inode;
char filename[];
};
struct tftp_transfer {
int sockfd;
time_t timeout;
int backoff;
unsigned int block, blocksize, expansion;
off_t offset;
union mysockaddr peer;
union all_addr source;
int if_index;
char opt_blocksize, opt_transize, netascii, carrylf;
struct tftp_file *file;
struct tftp_transfer *next;
};
struct addr_list {
struct in_addr addr;
struct addr_list *next;
};
struct tftp_prefix {
char *interface;
char *prefix;
int missing;
struct tftp_prefix *next;
};
struct dhcp_relay {
union all_addr local, server;
char *interface; /* Allowable interface for replies from server, and dest for IPv6 multicast */
int iface_index; /* working - interface in which requests arrived, for return */
int port; /* Port of relay we forward to. */
#ifdef HAVE_SCRIPT
struct snoop_record {
struct in6_addr client, prefix;
int prefix_len;
struct snoop_record *next;
} *snoop_records;
#endif
struct dhcp_relay *next;
};
extern struct daemon {
/* datastuctures representing the command-line and
config file arguments. All set (including defaults)
in option.c */
unsigned int options[OPTION_SIZE];
struct resolvc default_resolv, *resolv_files;
time_t last_resolv;
char *servers_file;
struct mx_srv_record *mxnames;
struct naptr *naptr;
struct txt_record *txt, *rr;
struct ptr_record *ptr;
struct host_record *host_records, *host_records_tail;
struct cname *cnames;
struct auth_zone *auth_zones;
struct interface_name *int_names;
char *mxtarget;
struct mysubnet *add_subnet4;
struct mysubnet *add_subnet6;
char *lease_file;
char *username, *groupname, *scriptuser;
char *luascript;
char *authserver, *hostmaster;
struct iname *authinterface;
struct name_list *secondary_forward_server;
int group_set, osport;
char *domain_suffix;
struct cond_domain *cond_domain, *synth_domains;
char *runfile;
char *lease_change_command;
struct iname *if_names, *if_addrs, *if_except, *dhcp_except, *auth_peers, *tftp_interfaces;
struct bogus_addr *bogus_addr, *ignore_addr;
struct server *servers, *servers_tail, *local_domains, **serverarray;
struct rebind_domain *no_rebind;
int server_has_wildcard;
int serverarraysz, serverarrayhwm;
struct ipsets *ipsets, *nftsets;
u32 allowlist_mask;
struct allowlist *allowlists;
int log_fac; /* log facility */
char *log_file; /* optional log file */
int max_logs; /* queue limit */
int randport_limit; /* Maximum number of source ports for query. */
int cachesize, ftabsize;
int port, query_port, min_port, max_port;
unsigned long local_ttl, neg_ttl, max_ttl, min_cache_ttl, max_cache_ttl, auth_ttl, dhcp_ttl, use_dhcp_ttl;
char *dns_client_id;
u32 umbrella_org;
u32 umbrella_asset;
u8 umbrella_device[8];
int host_index;
struct hostsfile *addn_hosts;
struct dhcp_context *dhcp, *dhcp6;
struct ra_interface *ra_interfaces;
struct dhcp_config *dhcp_conf;
struct dhcp_opt *dhcp_opts, *dhcp_match, *dhcp_opts6, *dhcp_match6;
struct dhcp_match_name *dhcp_name_match;
struct dhcp_pxe_vendor *dhcp_pxe_vendors;
struct dhcp_vendor *dhcp_vendors;
struct dhcp_mac *dhcp_macs;
struct dhcp_boot *boot_config;
struct pxe_service *pxe_services;
struct tag_if *tag_if;
struct addr_list *override_relays;
struct dhcp_relay *relay4, *relay6;
struct delay_config *delay_conf;
int override;
int enable_pxe;
int doing_ra, doing_dhcp6;
struct dhcp_netid_list *dhcp_ignore, *dhcp_ignore_names, *dhcp_gen_names;
struct dhcp_netid_list *force_broadcast, *bootp_dynamic;
struct hostsfile *dhcp_hosts_file, *dhcp_opts_file;
struct dyndir *dynamic_dirs;
int dhcp_max, tftp_max, tftp_mtu;
int dhcp_server_port, dhcp_client_port;
int start_tftp_port, end_tftp_port;
unsigned int min_leasetime;
struct doctor *doctors;
unsigned short edns_pktsz;
char *tftp_prefix;
struct tftp_prefix *if_prefix; /* per-interface TFTP prefixes */
unsigned int duid_enterprise, duid_config_len;
unsigned char *duid_config;
char *dbus_name;
char *ubus_name;
char *dump_file;
int dump_mask;
unsigned long soa_sn, soa_refresh, soa_retry, soa_expiry;
u32 metrics[__METRIC_MAX];
int fast_retry_time, fast_retry_timeout;
int cache_max_expiry;
#ifdef HAVE_DNSSEC
struct ds_config *ds;
char *timestamp_file;
#endif
/* globally used stuff for DNS */
char *packet; /* packet buffer */
int packet_buff_sz; /* size of above */
char *namebuff; /* MAXDNAME size buffer */
#if (defined(HAVE_CONNTRACK) && defined(HAVE_UBUS)) || defined(HAVE_DNSSEC)
/* CONNTRACK UBUS code uses this buffer, as well as DNSSEC code. */
char *workspacename;
#endif
#ifdef HAVE_DNSSEC
char *keyname; /* MAXDNAME size buffer */
unsigned long *rr_status; /* ceiling in TTL from DNSSEC or zero for insecure */
int rr_status_sz;
int dnssec_no_time_check;
int back_to_the_future;
#endif
struct frec *frec_list;
struct frec_src *free_frec_src;
int frec_src_count;
struct serverfd *sfds;
struct irec *interfaces;
struct listener *listeners;
struct server *srv_save; /* Used for resend on DoD */
size_t packet_len; /* " " */
int fd_save; /* " " */
pid_t tcp_pids[MAX_PROCS];
int tcp_pipes[MAX_PROCS];
int pipe_to_parent;
int numrrand;
struct randfd *randomsocks;
struct randfd_list *rfl_spare, *rfl_poll;
int v6pktinfo;
struct addrlist *interface_addrs; /* list of all addresses/prefix lengths associated with all local interfaces */
int log_id, log_display_id; /* ids of transactions for logging */
union mysockaddr *log_source_addr;
/* DHCP state */
int dhcpfd, helperfd, pxefd;
#ifdef HAVE_INOTIFY
int inotifyfd;
#endif
#if defined(HAVE_LINUX_NETWORK)
int netlinkfd, kernel_version;
#elif defined(HAVE_BSD_NETWORK)
int dhcp_raw_fd, dhcp_icmp_fd, routefd;
#endif
struct iovec dhcp_packet;
char *dhcp_buff, *dhcp_buff2, *dhcp_buff3;
struct ping_result *ping_results;
FILE *lease_stream;
struct dhcp_bridge *bridges;
struct shared_network *shared_networks;
#ifdef HAVE_DHCP6
int duid_len;
unsigned char *duid;
struct iovec outpacket;
int dhcp6fd, icmp6fd;
# ifdef HAVE_SCRIPT
struct snoop_record *free_snoops;
# endif
#endif
/* DBus stuff */
/* void * here to avoid depending on dbus headers outside dbus.c */
void *dbus;
#ifdef HAVE_DBUS
struct watch *watches;
#endif
/* UBus stuff */
#ifdef HAVE_UBUS
/* void * here to avoid depending on ubus headers outside ubus.c */
void *ubus;
#endif
/* TFTP stuff */
struct tftp_transfer *tftp_trans, *tftp_done_trans;
/* utility string buffer, hold max sized IP address as string */
char *addrbuff;
char *addrbuff2; /* only allocated when OPT_EXTRALOG */
#ifdef HAVE_DUMPFILE
/* file for packet dumps. */
int dumpfd;
#endif
} *daemon;
struct server_details {
union mysockaddr *addr, *source_addr;
struct addrinfo *hostinfo, *orig_hostinfo;
char *interface, *source, *scope_id, *interface_opt;
int serv_port, source_port, addr_type, scope_index, valid;
u16 *flags;
};
/* cache.c */
void cache_init(void);
void next_uid(struct crec *crecp);
void log_query(unsigned int flags, char *name, union all_addr *addr, char *arg, unsigned short type);
char *record_source(unsigned int index);
int cache_find_non_terminal(char *name, time_t now);
struct crec *cache_find_by_addr(struct crec *crecp,
union all_addr *addr, time_t now,
unsigned int prot);
struct crec *cache_find_by_name(struct crec *crecp,
char *name, time_t now, unsigned int prot);
void cache_end_insert(void);
void cache_start_insert(void);
unsigned int cache_remove_uid(const unsigned int uid);
int cache_recv_insert(time_t now, int fd);
struct crec *cache_insert(char *name, union all_addr *addr, unsigned short class,
time_t now, unsigned long ttl, unsigned int flags);
void cache_reload(void);
void cache_add_dhcp_entry(char *host_name, int prot, union all_addr *host_address, time_t ttd);
struct in_addr a_record_from_hosts(char *name, time_t now);
void cache_unhash_dhcp(void);
void dump_cache(time_t now);
#ifndef NO_ID
int cache_make_stat(struct txt_record *t);
#endif
char *cache_get_name(struct crec *crecp);
char *cache_get_cname_target(struct crec *crecp);
struct crec *cache_enumerate(int init);
int read_hostsfile(char *filename, unsigned int index, int cache_size,
struct crec **rhash, int hashsz);
/* blockdata.c */
void blockdata_init(void);
void blockdata_report(void);
struct blockdata *blockdata_alloc(char *data, size_t len);
void *blockdata_retrieve(struct blockdata *block, size_t len, void *data);
struct blockdata *blockdata_read(int fd, size_t len);
void blockdata_write(struct blockdata *block, size_t len, int fd);
void blockdata_free(struct blockdata *blocks);
/* domain.c */
char *get_domain(struct in_addr addr);
char *get_domain6(struct in6_addr *addr);
int is_name_synthetic(int flags, char *name, union all_addr *addr);
int is_rev_synth(int flag, union all_addr *addr, char *name);
/* rfc1035.c */
int extract_name(struct dns_header *header, size_t plen, unsigned char **pp,
char *name, int isExtract, int extrabytes);
unsigned char *skip_name(unsigned char *ansp, struct dns_header *header, size_t plen, int extrabytes);
unsigned char *skip_questions(struct dns_header *header, size_t plen);
unsigned char *skip_section(unsigned char *ansp, int count, struct dns_header *header, size_t plen);
unsigned int extract_request(struct dns_header *header, size_t qlen,
char *name, unsigned short *typep);
void setup_reply(struct dns_header *header, unsigned int flags, int ede);
int extract_addresses(struct dns_header *header, size_t qlen, char *name,
time_t now, struct ipsets *ipsets, struct ipsets *nftsets, int is_sign,
int check_rebind, int no_cache_dnssec, int secure, int *doctored);
#if defined(HAVE_CONNTRACK) && defined(HAVE_UBUS)
void report_addresses(struct dns_header *header, size_t len, u32 mark);
#endif
size_t answer_request(struct dns_header *header, char *limit, size_t qlen,
struct in_addr local_addr, struct in_addr local_netmask,
time_t now, int ad_reqd, int do_bit, int have_pseudoheader,
int *stale);
int check_for_bogus_wildcard(struct dns_header *header, size_t qlen, char *name,
time_t now);
int check_for_ignored_address(struct dns_header *header, size_t qlen);
int check_for_local_domain(char *name, time_t now);
size_t resize_packet(struct dns_header *header, size_t plen,
unsigned char *pheader, size_t hlen);
int add_resource_record(struct dns_header *header, char *limit, int *truncp,
int nameoffset, unsigned char **pp, unsigned long ttl,
int *offset, unsigned short type, unsigned short class, char *format, ...);
int in_arpa_name_2_addr(char *namein, union all_addr *addrp);
int private_net(struct in_addr addr, int ban_localhost);
/* auth.c */
#ifdef HAVE_AUTH
size_t answer_auth(struct dns_header *header, char *limit, size_t qlen,
time_t now, union mysockaddr *peer_addr, int local_query,
int do_bit, int have_pseudoheader);
int in_zone(struct auth_zone *zone, char *name, char **cut);
#endif
/* dnssec.c */
#ifdef HAVE_DNSSEC
size_t dnssec_generate_query(struct dns_header *header, unsigned char *end, char *name, int class, int type, int edns_pktsz);
int dnssec_validate_by_ds(time_t now, struct dns_header *header, size_t plen, char *name, char *keyname, int class);
int dnssec_validate_ds(time_t now, struct dns_header *header, size_t plen, char *name, char *keyname, int class);
int dnssec_validate_reply(time_t now, struct dns_header *header, size_t plen, char *name, char *keyname, int *class,
int check_unsigned, int *neganswer, int *nons, int *nsec_ttl);
int dnskey_keytag(int alg, int flags, unsigned char *key, int keylen);
size_t filter_rrsigs(struct dns_header *header, size_t plen);
int setup_timestamp(void);
int errflags_to_ede(int status);
#endif
/* hash_questions.c */
void hash_questions_init(void);
unsigned char *hash_questions(struct dns_header *header, size_t plen, char *name);
/* crypto.c */
const struct nettle_hash *hash_find(char *name);
int hash_init(const struct nettle_hash *hash, void **ctxp, unsigned char **digestp);
int verify(struct blockdata *key_data, unsigned int key_len, unsigned char *sig, size_t sig_len,
unsigned char *digest, size_t digest_len, int algo);
char *ds_digest_name(int digest);
char *algo_digest_name(int algo);
char *nsec3_digest_name(int digest);
/* util.c */
void rand_init(void);
unsigned short rand16(void);
u32 rand32(void);
u64 rand64(void);
int legal_hostname(char *name);
char *canonicalise(char *in, int *nomem);
unsigned char *do_rfc1035_name(unsigned char *p, char *sval, char *limit);
void *safe_malloc(size_t size);
void safe_strncpy(char *dest, const char *src, size_t size);
void safe_pipe(int *fd, int read_noblock);
void *whine_malloc(size_t size);
void *whine_realloc(void *ptr, size_t size);
int sa_len(union mysockaddr *addr);
int sockaddr_isequal(const union mysockaddr *s1, const union mysockaddr *s2);
int sockaddr_isnull(const union mysockaddr *s);
int hostname_order(const char *a, const char *b);
int hostname_isequal(const char *a, const char *b);
int hostname_issubdomain(char *a, char *b);
time_t dnsmasq_time(void);
u32 dnsmasq_milliseconds(void);
int netmask_length(struct in_addr mask);
int is_same_net(struct in_addr a, struct in_addr b, struct in_addr mask);
int is_same_net_prefix(struct in_addr a, struct in_addr b, int prefix);
int is_same_net6(struct in6_addr *a, struct in6_addr *b, int prefixlen);
u64 addr6part(struct in6_addr *addr);
void setaddr6part(struct in6_addr *addr, u64 host);
int retry_send(ssize_t rc);
void prettyprint_time(char *buf, unsigned int t);
int prettyprint_addr(union mysockaddr *addr, char *buf);
int parse_hex(char *in, unsigned char *out, int maxlen,
unsigned int *wildcard_mask, int *mac_type);
int memcmp_masked(unsigned char *a, unsigned char *b, int len,
unsigned int mask);
int expand_buf(struct iovec *iov, size_t size);
char *print_mac(char *buff, unsigned char *mac, int len);
int read_write(int fd, unsigned char *packet, int size, int rw);
void close_fds(long max_fd, int spare1, int spare2, int spare3);
int wildcard_match(const char* wildcard, const char* match);
int wildcard_matchn(const char* wildcard, const char* match, int num);
#ifdef HAVE_LINUX_NETWORK
int kernel_version(void);
#endif
/* log.c */
void die(char *message, char *arg1, int exit_code) ATTRIBUTE_NORETURN;
int log_start(struct passwd *ent_pw, int errfd);
int log_reopen(char *log_file);
void my_syslog(int priority, const char *format, ...);
void set_log_writer(void);
void check_log_writer(int force);
void flush_log(void);
/* option.c */
void read_opts (int argc, char **argv, char *compile_opts);
char *option_string(int prot, unsigned int opt, unsigned char *val,
int opt_len, char *buf, int buf_len);
void reread_dhcp(void);
void read_servers_file(void);
void set_option_bool(unsigned int opt);
void reset_option_bool(unsigned int opt);
struct hostsfile *expand_filelist(struct hostsfile *list);
char *parse_server(char *arg, struct server_details *sdetails);
char *parse_server_addr(struct server_details *sdetails);
int parse_server_next(struct server_details *sdetails);
int option_read_dynfile(char *file, int flags);
/* forward.c */
void reply_query(int fd, time_t now);
void receive_query(struct listener *listen, time_t now);
unsigned char *tcp_request(int confd, time_t now,
union mysockaddr *local_addr, struct in_addr netmask, int auth_dns);
void server_gone(struct server *server);
int send_from(int fd, int nowild, char *packet, size_t len,
union mysockaddr *to, union all_addr *source,
unsigned int iface);
void resend_query(void);
int allocate_rfd(struct randfd_list **fdlp, struct server *serv);
void free_rfds(struct randfd_list **fdlp);
int fast_retry(time_t now);
/* network.c */
int indextoname(int fd, int index, char *name);
int local_bind(int fd, union mysockaddr *addr, char *intname, unsigned int ifindex, int is_tcp);
void pre_allocate_sfds(void);
int reload_servers(char *fname);
void check_servers(int no_loop_call);
int enumerate_interfaces(int reset);
void create_wildcard_listeners(void);
void create_bound_listeners(int dienow);
void warn_bound_listeners(void);
void warn_wild_labels(void);
void warn_int_names(void);
int is_dad_listeners(void);
int iface_check(int family, union all_addr *addr, char *name, int *auth);
int loopback_exception(int fd, int family, union all_addr *addr, char *name);
int label_exception(int index, int family, union all_addr *addr);
int fix_fd(int fd);
int tcp_interface(int fd, int af);
int set_ipv6pktinfo(int fd);
#ifdef HAVE_DHCP6
void join_multicast(int dienow);
#endif
#if defined(HAVE_LINUX_NETWORK) || defined(HAVE_BSD_NETWORK)
void newaddress(time_t now);
#endif
/* dhcp.c */
#ifdef HAVE_DHCP
void dhcp_init(void);
void dhcp_packet(time_t now, int pxe_fd);
struct dhcp_context *address_available(struct dhcp_context *context,
struct in_addr taddr,
struct dhcp_netid *netids);
struct dhcp_context *narrow_context(struct dhcp_context *context,
struct in_addr taddr,
struct dhcp_netid *netids);
struct ping_result *do_icmp_ping(time_t now, struct in_addr addr,
unsigned int hash, int loopback);
int address_allocate(struct dhcp_context *context,
struct in_addr *addrp, unsigned char *hwaddr, int hw_len,
struct dhcp_netid *netids, time_t now, int loopback);
void dhcp_read_ethers(void);
struct dhcp_config *config_find_by_address(struct dhcp_config *configs, struct in_addr addr);
char *host_from_dns(struct in_addr addr);
#endif
/* lease.c */
#ifdef HAVE_DHCP
void lease_update_file(time_t now);
void lease_update_dns(int force);
void lease_init(time_t now);
struct dhcp_lease *lease4_allocate(struct in_addr addr);
#ifdef HAVE_DHCP6
struct dhcp_lease *lease6_allocate(struct in6_addr *addrp, int lease_type);
struct dhcp_lease *lease6_find(unsigned char *clid, int clid_len,
int lease_type, unsigned int iaid, struct in6_addr *addr);
void lease6_reset(void);
struct dhcp_lease *lease6_find_by_client(struct dhcp_lease *first, int lease_type,
unsigned char *clid, int clid_len, unsigned int iaid);
struct dhcp_lease *lease6_find_by_addr(struct in6_addr *net, int prefix, u64 addr);
u64 lease_find_max_addr6(struct dhcp_context *context);
void lease_ping_reply(struct in6_addr *sender, unsigned char *packet, char *interface);
void lease_update_slaac(time_t now);
void lease_set_iaid(struct dhcp_lease *lease, unsigned int iaid);
void lease_make_duid(time_t now);
#endif
void lease_set_hwaddr(struct dhcp_lease *lease, const unsigned char *hwaddr,
const unsigned char *clid, int hw_len, int hw_type,
int clid_len, time_t now, int force);
void lease_set_hostname(struct dhcp_lease *lease, const char *name, int auth, char *domain, char *config_domain);
void lease_set_expires(struct dhcp_lease *lease, unsigned int len, time_t now);
void lease_set_interface(struct dhcp_lease *lease, int interface, time_t now);
struct dhcp_lease *lease_find_by_client(unsigned char *hwaddr, int hw_len, int hw_type,
unsigned char *clid, int clid_len);
struct dhcp_lease *lease_find_by_addr(struct in_addr addr);
struct in_addr lease_find_max_addr(struct dhcp_context *context);
void lease_prune(struct dhcp_lease *target, time_t now);
void lease_update_from_configs(void);
int do_script_run(time_t now);
void rerun_scripts(void);
void lease_find_interfaces(time_t now);
#ifdef HAVE_SCRIPT
void lease_add_extradata(struct dhcp_lease *lease, unsigned char *data,
unsigned int len, int delim);
#endif
#endif
/* rfc2131.c */
#ifdef HAVE_DHCP
size_t dhcp_reply(struct dhcp_context *context, char *iface_name, int int_index,
size_t sz, time_t now, int unicast_dest, int loopback,
int *is_inform, int pxe, struct in_addr fallback, time_t recvtime);
unsigned char *extended_hwaddr(int hwtype, int hwlen, unsigned char *hwaddr,
int clid_len, unsigned char *clid, int *len_out);
#endif
/* dnsmasq.c */
#ifdef HAVE_DHCP
int make_icmp_sock(void);
int icmp_ping(struct in_addr addr);
int delay_dhcp(time_t start, int sec, int fd, uint32_t addr, unsigned short id);
#endif
void queue_event(int event);
void send_alarm(time_t event, time_t now);
void send_event(int fd, int event, int data, char *msg);
void clear_cache_and_reload(time_t now);
/* netlink.c */
#ifdef HAVE_LINUX_NETWORK
char *netlink_init(void);
void netlink_multicast(void);
#endif
/* bpf.c */
#ifdef HAVE_BSD_NETWORK
void init_bpf(void);
void send_via_bpf(struct dhcp_packet *mess, size_t len,
struct in_addr iface_addr, struct ifreq *ifr);
void route_init(void);
void route_sock(void);
#endif
/* bpf.c or netlink.c */
int iface_enumerate(int family, void *parm, int (callback)());
/* dbus.c */
#ifdef HAVE_DBUS
char *dbus_init(void);
void check_dbus_listeners(void);
void set_dbus_listeners(void);
# ifdef HAVE_DHCP
void emit_dbus_signal(int action, struct dhcp_lease *lease, char *hostname);
# endif
#endif
/* ubus.c */
#ifdef HAVE_UBUS
char *ubus_init(void);
void set_ubus_listeners(void);
void check_ubus_listeners(void);
void ubus_event_bcast(const char *type, const char *mac, const char *ip, const char *name, const char *interface);
# ifdef HAVE_CONNTRACK
void ubus_event_bcast_connmark_allowlist_refused(u32 mark, const char *name);
void ubus_event_bcast_connmark_allowlist_resolved(u32 mark, const char *pattern, const char *ip, u32 ttl);
# endif
#endif
/* ipset.c */
#ifdef HAVE_IPSET
void ipset_init(void);
int add_to_ipset(const char *setname, const union all_addr *ipaddr, int flags, int remove);
#endif
/* nftset.c */
#ifdef HAVE_NFTSET
void nftset_init(void);
int add_to_nftset(const char *setpath, const union all_addr *ipaddr, int flags, int remove);
#endif
/* pattern.c */
#ifdef HAVE_CONNTRACK
int is_valid_dns_name(const char *value);
int is_valid_dns_name_pattern(const char *value);
int is_dns_name_matching_pattern(const char *name, const char *pattern);
#endif
/* helper.c */
#if defined(HAVE_SCRIPT)
int create_helper(int event_fd, int err_fd, uid_t uid, gid_t gid, long max_fd);
void helper_write(void);
void queue_script(int action, struct dhcp_lease *lease,
char *hostname, time_t now);
#ifdef HAVE_TFTP
void queue_tftp(off_t file_len, char *filename, union mysockaddr *peer);
#endif
void queue_arp(int action, unsigned char *mac, int maclen,
int family, union all_addr *addr);
int helper_buf_empty(void);
#ifdef HAVE_DHCP6
void queue_relay_snoop(struct in6_addr *client, int if_index, struct in6_addr *prefix, int prefix_len);
#endif
#endif
/* tftp.c */
#ifdef HAVE_TFTP
void tftp_request(struct listener *listen, time_t now);
void check_tftp_listeners(time_t now);
int do_tftp_script_run(void);
#endif
/* conntrack.c */
#ifdef HAVE_CONNTRACK
int get_incoming_mark(union mysockaddr *peer_addr, union all_addr *local_addr,
int istcp, unsigned int *markp);
#endif
/* dhcp6.c */
#ifdef HAVE_DHCP6
void dhcp6_init(void);
void dhcp6_packet(time_t now);
struct dhcp_context *address6_allocate(struct dhcp_context *context, unsigned char *clid, int clid_len, int temp_addr,
unsigned int iaid, int serial, struct dhcp_netid *netids, int plain_range, struct in6_addr *ans);
struct dhcp_context *address6_available(struct dhcp_context *context,
struct in6_addr *taddr,
struct dhcp_netid *netids,
int plain_range);
struct dhcp_context *address6_valid(struct dhcp_context *context,
struct in6_addr *taddr,
struct dhcp_netid *netids,
int plain_range);
struct dhcp_config *config_find_by_address6(struct dhcp_config *configs, struct in6_addr *net,
int prefix, struct in6_addr *addr);
void make_duid(time_t now);
void dhcp_construct_contexts(time_t now);
void get_client_mac(struct in6_addr *client, int iface, unsigned char *mac,
unsigned int *maclenp, unsigned int *mactypep, time_t now);
#endif
/* rfc3315.c */
#ifdef HAVE_DHCP6
unsigned short dhcp6_reply(struct dhcp_context *context, int interface, char *iface_name,
struct in6_addr *fallback, struct in6_addr *ll_addr, struct in6_addr *ula_addr,
size_t sz, struct in6_addr *client_addr, time_t now);
int relay_upstream6(int iface_index, ssize_t sz, struct in6_addr *peer_address,
u32 scope_id, time_t now);
int relay_reply6( struct sockaddr_in6 *peer, ssize_t sz, char *arrival_interface);
# ifdef HAVE_SCRIPT
int do_snoop_script_run(void);
# endif
#endif
/* dhcp-common.c */
#ifdef HAVE_DHCP
void dhcp_common_init(void);
ssize_t recv_dhcp_packet(int fd, struct msghdr *msg);
struct dhcp_netid *run_tag_if(struct dhcp_netid *tags);
struct dhcp_netid *option_filter(struct dhcp_netid *tags, struct dhcp_netid *context_tags,
struct dhcp_opt *opts);
int match_netid(struct dhcp_netid *check, struct dhcp_netid *pool, int tagnotneeded);
char *strip_hostname(char *hostname);
void log_tags(struct dhcp_netid *netid, u32 xid);
int match_bytes(struct dhcp_opt *o, unsigned char *p, int len);
void dhcp_update_configs(struct dhcp_config *configs);
void display_opts(void);
int lookup_dhcp_opt(int prot, char *name);
int lookup_dhcp_len(int prot, int val);
struct dhcp_config *find_config(struct dhcp_config *configs,
struct dhcp_context *context,
unsigned char *clid, int clid_len,
unsigned char *hwaddr, int hw_len,
int hw_type, char *hostname,
struct dhcp_netid *filter);
int config_has_mac(struct dhcp_config *config, unsigned char *hwaddr, int len, int type);
#ifdef HAVE_LINUX_NETWORK
char *whichdevice(void);
int bind_dhcp_devices(char *bound_device);
#endif
# ifdef HAVE_DHCP6
void display_opts6(void);
# endif
void log_context(int family, struct dhcp_context *context);
void log_relay(int family, struct dhcp_relay *relay);
#endif
/* outpacket.c */
#ifdef HAVE_DHCP6
void end_opt6(int container);
void reset_counter(void);
int save_counter(int newval);
void *expand(size_t headroom);
int new_opt6(int opt);
void *put_opt6(void *data, size_t len);
void put_opt6_long(unsigned int val);
void put_opt6_short(unsigned int val);
void put_opt6_char(unsigned int val);
void put_opt6_string(char *s);
#endif
/* radv.c */
#ifdef HAVE_DHCP6
void ra_init(time_t now);
void icmp6_packet(time_t now);
time_t periodic_ra(time_t now);
void ra_start_unsolicited(time_t now, struct dhcp_context *context);
#endif
/* slaac.c */
#ifdef HAVE_DHCP6
void slaac_add_addrs(struct dhcp_lease *lease, time_t now, int force);
time_t periodic_slaac(time_t now, struct dhcp_lease *leases);
void slaac_ping_reply(struct in6_addr *sender, unsigned char *packet, char *interface, struct dhcp_lease *leases);
#endif
/* loop.c */
#ifdef HAVE_LOOP
void loop_send_probes(void);
int detect_loop(char *query, int type);
#endif
/* inotify.c */
#ifdef HAVE_INOTIFY
void inotify_dnsmasq_init(void);
int inotify_check(time_t now);
void set_dynamic_inotify(int flag, int total_size, struct crec **rhash, int revhashsz);
#endif
/* poll.c */
void poll_reset(void);
int poll_check(int fd, short event);
void poll_listen(int fd, short event);
int do_poll(int timeout);
/* rrfilter.c */
size_t rrfilter(struct dns_header *header, size_t plen, int mode);
u16 *rrfilter_desc(int type);
int expand_workspace(unsigned char ***wkspc, int *szp, int new);
/* modes. */
#define RRFILTER_EDNS0 0
#define RRFILTER_DNSSEC 1
#define RRFILTER_A 2
#define RRFILTER_AAAA 3
/* edns0.c */
unsigned char *find_pseudoheader(struct dns_header *header, size_t plen,
size_t *len, unsigned char **p, int *is_sign, int *is_last);
size_t add_pseudoheader(struct dns_header *header, size_t plen, unsigned char *limit,
unsigned short udp_sz, int optno, unsigned char *opt, size_t optlen, int set_do, int replace);
size_t add_do_bit(struct dns_header *header, size_t plen, unsigned char *limit);
size_t add_edns0_config(struct dns_header *header, size_t plen, unsigned char *limit,
union mysockaddr *source, time_t now, int *cacheable);
int check_source(struct dns_header *header, size_t plen, unsigned char *pseudoheader, union mysockaddr *peer);
/* arp.c */
int find_mac(union mysockaddr *addr, unsigned char *mac, int lazy, time_t now);
int do_arp_script_run(void);
/* dump.c */
#ifdef HAVE_DUMPFILE
void dump_init(void);
void dump_packet_udp(int mask, void *packet, size_t len, union mysockaddr *src,
union mysockaddr *dst, int fd);
void dump_packet_icmp(int mask, void *packet, size_t len, union mysockaddr *src,
union mysockaddr *dst);
#endif
/* domain-match.c */
void build_server_array(void);
int lookup_domain(char *qdomain, int flags, int *lowout, int *highout);
int filter_servers(int seed, int flags, int *lowout, int *highout);
int is_local_answer(time_t now, int first, char *name);
size_t make_local_answer(int flags, int gotname, size_t size, struct dns_header *header,
char *name, char *limit, int first, int last, int ede);
int server_samegroup(struct server *a, struct server *b);
#ifdef HAVE_DNSSEC
int dnssec_server(struct server *server, char *keyname, int *firstp, int *lastp);
#endif
void mark_servers(int flag);
void cleanup_servers(void);
int add_update_server(int flags,
union mysockaddr *addr,
union mysockaddr *source_addr,
const char *interface,
const char *domain,
union all_addr *local_addr);
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