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|
/* dhcrelay.c
DHCP/BOOTP Relay Agent. */
/*
* Copyright(c) 2004-2010 by Internet Systems Consortium, Inc.("ISC")
* Copyright(c) 1997-2003 by Internet Software Consortium
*
* Permission to use, copy, modify, and distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND ISC DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL ISC BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT
* OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*
* Internet Systems Consortium, Inc.
* 950 Charter Street
* Redwood City, CA 94063
* <info@isc.org>
* https://www.isc.org/
*
* This software has been written for Internet Systems Consortium
* by Ted Lemon in cooperation with Vixie Enterprises and Nominum, Inc.
* To learn more about Internet Systems Consortium, see
* ``https://www.isc.org/''. To learn more about Vixie Enterprises,
* see ``http://www.vix.com''. To learn more about Nominum, Inc., see
* ``http://www.nominum.com''.
*/
#include "dhcpd.h"
#include <syslog.h>
#include <sys/time.h>
TIME default_lease_time = 43200; /* 12 hours... */
TIME max_lease_time = 86400; /* 24 hours... */
struct tree_cache *global_options[256];
struct option *requested_opts[2];
/* Needed to prevent linking against conflex.c. */
int lexline;
int lexchar;
char *token_line;
char *tlname;
const char *path_dhcrelay_pid = _PATH_DHCRELAY_PID;
int bogus_agent_drops = 0; /* Packets dropped because agent option
field was specified and we're not relaying
packets that already have an agent option
specified. */
int bogus_giaddr_drops = 0; /* Packets sent to us to relay back to a
client, but with a bogus giaddr. */
int client_packets_relayed = 0; /* Packets relayed from client to server. */
int server_packet_errors = 0; /* Errors sending packets to servers. */
int server_packets_relayed = 0; /* Packets relayed from server to client. */
int client_packet_errors = 0; /* Errors sending packets to clients. */
int add_agent_options = 0; /* If nonzero, add relay agent options. */
int agent_option_errors = 0; /* Number of packets forwarded without
agent options because there was no room. */
int drop_agent_mismatches = 0; /* If nonzero, drop server replies that
don't have matching circuit-id's. */
int corrupt_agent_options = 0; /* Number of packets dropped because
relay agent information option was bad. */
int missing_agent_option = 0; /* Number of packets dropped because no
RAI option matching our ID was found. */
int bad_circuit_id = 0; /* Circuit ID option in matching RAI option
did not match any known circuit ID. */
int missing_circuit_id = 0; /* Circuit ID option in matching RAI option
was missing. */
int max_hop_count = 10; /* Maximum hop count */
#ifdef DHCPv6
/* Force use of DHCPv6 interface-id option. */
isc_boolean_t use_if_id = ISC_FALSE;
#endif
/* Maximum size of a packet with agent options added. */
int dhcp_max_agent_option_packet_length = DHCP_MTU_MIN;
/* What to do about packets we're asked to relay that
already have a relay option: */
enum { forward_and_append, /* Forward and append our own relay option. */
forward_and_replace, /* Forward, but replace theirs with ours. */
forward_untouched, /* Forward without changes. */
discard } agent_relay_mode = forward_and_replace;
u_int16_t local_port;
u_int16_t remote_port;
/* Relay agent server list. */
struct server_list {
struct server_list *next;
struct sockaddr_in to;
} *servers;
#ifdef DHCPv6
struct stream_list {
struct stream_list *next;
struct interface_info *ifp;
struct sockaddr_in6 link;
int id;
} *downstreams, *upstreams;
static struct stream_list *parse_downstream(char *);
static struct stream_list *parse_upstream(char *);
static void setup_streams(void);
#endif
static void do_relay4(struct interface_info *, struct dhcp_packet *,
unsigned int, unsigned int, struct iaddr,
struct hardware *);
static int add_relay_agent_options(struct interface_info *,
struct dhcp_packet *, unsigned,
struct in_addr);
static int find_interface_by_agent_option(struct dhcp_packet *,
struct interface_info **, u_int8_t *, int);
static int strip_relay_agent_options(struct interface_info *,
struct interface_info **,
struct dhcp_packet *, unsigned);
static const char copyright[] =
"Copyright 2004-2010 Internet Systems Consortium.";
static const char arr[] = "All rights reserved.";
static const char message[] =
"Internet Systems Consortium DHCP Relay Agent";
static const char url[] =
"For info, please visit https://www.isc.org/software/dhcp/";
#ifdef DHCPv6
#define DHCRELAY_USAGE \
"Usage: dhcrelay [-4] [-d] [-q] [-a] [-D]\n"\
" [-A <length>] [-c <hops>] [-p <port>]\n" \
" [-m append|replace|forward|discard]\n" \
" [-i interface0 [ ... -i interfaceN]\n" \
" server0 [ ... serverN]\n\n" \
" dhcrelay -6 [-d] [-q] [-I] [-c <hops>] [-p <port>]\n" \
" -l lower0 [ ... -l lowerN]\n" \
" -u upper0 [ ... -u upperN]\n" \
" lower (client link): [address%%]interface[#index]\n" \
" upper (server link): [address%%]interface"
#else
#define DHCRELAY_USAGE \
"Usage: dhcrelay [-d] [-q] [-a] [-D] [-A <length>] [-c <hops>] [-p <port>]\n" \
" [-m append|replace|forward|discard]\n" \
" [-i interface0 [ ... -i interfaceN]\n" \
" server0 [ ... serverN]\n\n"
#endif
static void usage() {
log_fatal(DHCRELAY_USAGE);
}
int
main(int argc, char **argv) {
isc_result_t status;
struct servent *ent;
struct server_list *sp = NULL;
struct interface_info *tmp = NULL;
char *service_local = NULL, *service_remote = NULL;
u_int16_t port_local = 0, port_remote = 0;
int no_daemon = 0, quiet = 0;
int fd;
int i;
#ifdef DHCPv6
struct stream_list *sl = NULL;
int local_family_set = 0;
#endif
/* Make sure that file descriptors 0(stdin), 1,(stdout), and
2(stderr) are open. To do this, we assume that when we
open a file the lowest available file descriptor is used. */
fd = open("/dev/null", O_RDWR);
if (fd == 0)
fd = open("/dev/null", O_RDWR);
if (fd == 1)
fd = open("/dev/null", O_RDWR);
if (fd == 2)
log_perror = 0; /* No sense logging to /dev/null. */
else if (fd != -1)
close(fd);
openlog("dhcrelay", LOG_NDELAY, LOG_DAEMON);
#if !defined(DEBUG)
setlogmask(LOG_UPTO(LOG_INFO));
#endif
/* Set up the OMAPI. */
status = omapi_init();
if (status != ISC_R_SUCCESS)
log_fatal("Can't initialize OMAPI: %s",
isc_result_totext(status));
/* Set up the OMAPI wrappers for the interface object. */
interface_setup();
for (i = 1; i < argc; i++) {
if (!strcmp(argv[i], "-4")) {
#ifdef DHCPv6
if (local_family_set && (local_family == AF_INET6)) {
usage();
}
local_family_set = 1;
local_family = AF_INET;
} else if (!strcmp(argv[i], "-6")) {
if (local_family_set && (local_family == AF_INET)) {
usage();
}
local_family_set = 1;
local_family = AF_INET6;
#endif
} else if (!strcmp(argv[i], "-d")) {
no_daemon = 1;
} else if (!strcmp(argv[i], "-q")) {
quiet = 1;
quiet_interface_discovery = 1;
} else if (!strcmp(argv[i], "-p")) {
if (++i == argc)
usage();
local_port = validate_port(argv[i]);
log_debug("binding to user-specified port %d",
ntohs(local_port));
} else if (!strcmp(argv[i], "-c")) {
int hcount;
if (++i == argc)
usage();
hcount = atoi(argv[i]);
if (hcount <= 255)
max_hop_count= hcount;
else
usage();
} else if (!strcmp(argv[i], "-i")) {
#ifdef DHCPv6
if (local_family_set && (local_family == AF_INET6)) {
usage();
}
local_family_set = 1;
local_family = AF_INET;
#endif
status = interface_allocate(&tmp, MDL);
if (status != ISC_R_SUCCESS)
log_fatal("%s: interface_allocate: %s",
argv[i],
isc_result_totext(status));
if (++i == argc) {
usage();
}
strcpy(tmp->name, argv[i]);
interface_snorf(tmp, INTERFACE_REQUESTED);
interface_dereference(&tmp, MDL);
} else if (!strcmp(argv[i], "-a")) {
#ifdef DHCPv6
if (local_family_set && (local_family == AF_INET6)) {
usage();
}
local_family_set = 1;
local_family = AF_INET;
#endif
add_agent_options = 1;
} else if (!strcmp(argv[i], "-A")) {
#ifdef DHCPv6
if (local_family_set && (local_family == AF_INET6)) {
usage();
}
local_family_set = 1;
local_family = AF_INET;
#endif
if (++i == argc)
usage();
dhcp_max_agent_option_packet_length = atoi(argv[i]);
if (dhcp_max_agent_option_packet_length > DHCP_MTU_MAX)
log_fatal("%s: packet length exceeds "
"longest possible MTU\n",
argv[i]);
} else if (!strcmp(argv[i], "-m")) {
#ifdef DHCPv6
if (local_family_set && (local_family == AF_INET6)) {
usage();
}
local_family_set = 1;
local_family = AF_INET;
#endif
if (++i == argc)
usage();
if (!strcasecmp(argv[i], "append")) {
agent_relay_mode = forward_and_append;
} else if (!strcasecmp(argv[i], "replace")) {
agent_relay_mode = forward_and_replace;
} else if (!strcasecmp(argv[i], "forward")) {
agent_relay_mode = forward_untouched;
} else if (!strcasecmp(argv[i], "discard")) {
agent_relay_mode = discard;
} else
usage();
} else if (!strcmp(argv[i], "-D")) {
#ifdef DHCPv6
if (local_family_set && (local_family == AF_INET6)) {
usage();
}
local_family_set = 1;
local_family = AF_INET;
#endif
drop_agent_mismatches = 1;
#ifdef DHCPv6
} else if (!strcmp(argv[i], "-I")) {
if (local_family_set && (local_family == AF_INET)) {
usage();
}
local_family_set = 1;
local_family = AF_INET6;
use_if_id = ISC_TRUE;
} else if (!strcmp(argv[i], "-l")) {
if (local_family_set && (local_family == AF_INET)) {
usage();
}
local_family_set = 1;
local_family = AF_INET6;
if (downstreams != NULL)
use_if_id = ISC_TRUE;
if (++i == argc)
usage();
sl = parse_downstream(argv[i]);
sl->next = downstreams;
downstreams = sl;
} else if (!strcmp(argv[i], "-u")) {
if (local_family_set && (local_family == AF_INET)) {
usage();
}
local_family_set = 1;
local_family = AF_INET6;
if (++i == argc)
usage();
sl = parse_upstream(argv[i]);
sl->next = upstreams;
upstreams = sl;
#endif
} else if (!strcmp(argv[i], "--version")) {
log_info("isc-dhcrelay-%s", PACKAGE_VERSION);
exit(0);
} else if (!strcmp(argv[i], "--help") ||
!strcmp(argv[i], "-h")) {
log_info(DHCRELAY_USAGE);
exit(0);
} else if (argv[i][0] == '-') {
usage();
} else {
struct hostent *he;
struct in_addr ia, *iap = NULL;
#ifdef DHCPv6
if (local_family_set && (local_family == AF_INET6)) {
usage();
}
local_family_set = 1;
local_family = AF_INET;
#endif
if (inet_aton(argv[i], &ia)) {
iap = &ia;
} else {
he = gethostbyname(argv[i]);
if (!he) {
log_error("%s: host unknown", argv[i]);
} else {
iap = ((struct in_addr *)
he->h_addr_list[0]);
}
}
if (iap) {
sp = ((struct server_list *)
dmalloc(sizeof *sp, MDL));
if (!sp)
log_fatal("no memory for server.\n");
sp->next = servers;
servers = sp;
memcpy(&sp->to.sin_addr, iap, sizeof *iap);
}
}
}
if (local_family == AF_INET) {
path_dhcrelay_pid = getenv("PATH_DHCRELAY_PID");
if (path_dhcrelay_pid == NULL)
path_dhcrelay_pid = _PATH_DHCRELAY_PID;
}
#ifdef DHCPv6
else {
path_dhcrelay_pid = getenv("PATH_DHCRELAY6_PID");
if (path_dhcrelay_pid == NULL)
path_dhcrelay_pid = _PATH_DHCRELAY6_PID;
}
#endif
if (!quiet) {
log_info("%s %s", message, PACKAGE_VERSION);
log_info(copyright);
log_info(arr);
log_info(url);
} else {
quiet = 0;
log_perror = 0;
}
/* Set default port */
if (local_family == AF_INET) {
service_local = "bootps";
service_remote = "bootpc";
port_local = htons(67);
port_remote = htons(68);
}
#ifdef DHCPv6
else {
service_local = "dhcpv6-server";
service_remote = "dhcpv6-client";
port_local = htons(547);
port_remote = htons(546);
}
#endif
if (!local_port) {
ent = getservbyname(service_local, "udp");
if (ent)
local_port = ent->s_port;
else
local_port = port_local;
ent = getservbyname(service_remote, "udp");
if (ent)
remote_port = ent->s_port;
else
remote_port = port_remote;
endservent();
}
if (local_family == AF_INET) {
/* We need at least one server */
if (servers == NULL) {
log_fatal("No servers specified.");
}
/* Set up the server sockaddrs. */
for (sp = servers; sp; sp = sp->next) {
sp->to.sin_port = local_port;
sp->to.sin_family = AF_INET;
#ifdef HAVE_SA_LEN
sp->to.sin_len = sizeof sp->to;
#endif
}
}
#ifdef DHCPv6
else {
unsigned code;
/* We need at least one upstream and one downstream interface */
if (upstreams == NULL || downstreams == NULL) {
log_info("Must specify at least one lower "
"and one upper interface.\n");
usage();
}
/* Set up the initial dhcp option universe. */
initialize_common_option_spaces();
/* Check requested options. */
code = D6O_RELAY_MSG;
if (!option_code_hash_lookup(&requested_opts[0],
dhcpv6_universe.code_hash,
&code, 0, MDL))
log_fatal("Unable to find the RELAY_MSG "
"option definition.");
code = D6O_INTERFACE_ID;
if (!option_code_hash_lookup(&requested_opts[1],
dhcpv6_universe.code_hash,
&code, 0, MDL))
log_fatal("Unable to find the INTERFACE_ID "
"option definition.");
}
#endif
/* Get the current time... */
gettimeofday(&cur_tv, NULL);
/* Discover all the network interfaces. */
discover_interfaces(DISCOVER_RELAY);
#ifdef DHCPv6
if (local_family == AF_INET6)
setup_streams();
#endif
/* Become a daemon... */
if (!no_daemon) {
int pid;
FILE *pf;
int pfdesc;
log_perror = 0;
if ((pid = fork()) < 0)
log_fatal("Can't fork daemon: %m");
else if (pid)
exit(0);
pfdesc = open(path_dhcrelay_pid,
O_CREAT | O_TRUNC | O_WRONLY, 0644);
if (pfdesc < 0) {
log_error("Can't create %s: %m", path_dhcrelay_pid);
} else {
pf = fdopen(pfdesc, "w");
if (!pf)
log_error("Can't fdopen %s: %m",
path_dhcrelay_pid);
else {
fprintf(pf, "%ld\n",(long)getpid());
fclose(pf);
}
}
close(0);
close(1);
close(2);
pid = setsid();
IGNORE_RET (chdir("/"));
}
/* Set up the packet handler... */
if (local_family == AF_INET)
bootp_packet_handler = do_relay4;
#ifdef DHCPv6
else
dhcpv6_packet_handler = do_packet6;
#endif
/* Start dispatching packets and timeouts... */
dispatch();
/* Not reached */
return (0);
}
static void
do_relay4(struct interface_info *ip, struct dhcp_packet *packet,
unsigned int length, unsigned int from_port, struct iaddr from,
struct hardware *hfrom) {
struct server_list *sp;
struct sockaddr_in to;
struct interface_info *out;
struct hardware hto, *htop;
if (packet->hlen > sizeof packet->chaddr) {
log_info("Discarding packet with invalid hlen.");
return;
}
/* Find the interface that corresponds to the giaddr
in the packet. */
if (packet->giaddr.s_addr) {
for (out = interfaces; out; out = out->next) {
int i;
for (i = 0 ; i < out->address_count ; i++ ) {
if (out->addresses[i].s_addr ==
packet->giaddr.s_addr)
i = -1;
break;
}
if (i == -1)
break;
}
} else {
out = NULL;
}
/* If it's a bootreply, forward it to the client. */
if (packet->op == BOOTREPLY) {
if (!(packet->flags & htons(BOOTP_BROADCAST)) &&
can_unicast_without_arp(out)) {
to.sin_addr = packet->yiaddr;
to.sin_port = remote_port;
/* and hardware address is not broadcast */
htop = &hto;
} else {
to.sin_addr.s_addr = htonl(INADDR_BROADCAST);
to.sin_port = remote_port;
/* hardware address is broadcast */
htop = NULL;
}
to.sin_family = AF_INET;
#ifdef HAVE_SA_LEN
to.sin_len = sizeof to;
#endif
memcpy(&hto.hbuf[1], packet->chaddr, packet->hlen);
hto.hbuf[0] = packet->htype;
hto.hlen = packet->hlen + 1;
/* Wipe out the agent relay options and, if possible, figure
out which interface to use based on the contents of the
option that we put on the request to which the server is
replying. */
if (!(length =
strip_relay_agent_options(ip, &out, packet, length)))
return;
if (!out) {
log_error("Packet to bogus giaddr %s.\n",
inet_ntoa(packet->giaddr));
++bogus_giaddr_drops;
return;
}
if (send_packet(out, NULL, packet, length, out->addresses[0],
&to, htop) < 0) {
++server_packet_errors;
} else {
log_debug("Forwarded BOOTREPLY for %s to %s",
print_hw_addr(packet->htype, packet->hlen,
packet->chaddr),
inet_ntoa(to.sin_addr));
++server_packets_relayed;
}
return;
}
/* If giaddr matches one of our addresses, ignore the packet -
we just sent it. */
if (out)
return;
/* Add relay agent options if indicated. If something goes wrong,
drop the packet. */
if (!(length = add_relay_agent_options(ip, packet, length,
ip->addresses[0])))
return;
/* If giaddr is not already set, Set it so the server can
figure out what net it's from and so that we can later
forward the response to the correct net. If it's already
set, the response will be sent directly to the relay agent
that set giaddr, so we won't see it. */
if (!packet->giaddr.s_addr)
packet->giaddr = ip->addresses[0];
if (packet->hops < max_hop_count)
packet->hops = packet->hops + 1;
else
return;
/* Otherwise, it's a BOOTREQUEST, so forward it to all the
servers. */
for (sp = servers; sp; sp = sp->next) {
if (send_packet((fallback_interface
? fallback_interface : interfaces),
NULL, packet, length, ip->addresses[0],
&sp->to, NULL) < 0) {
++client_packet_errors;
} else {
log_debug("Forwarded BOOTREQUEST for %s to %s",
print_hw_addr(packet->htype, packet->hlen,
packet->chaddr),
inet_ntoa(sp->to.sin_addr));
++client_packets_relayed;
}
}
}
/* Strip any Relay Agent Information options from the DHCP packet
option buffer. If there is a circuit ID suboption, look up the
outgoing interface based upon it. */
static int
strip_relay_agent_options(struct interface_info *in,
struct interface_info **out,
struct dhcp_packet *packet,
unsigned length) {
int is_dhcp = 0;
u_int8_t *op, *nextop, *sp, *max;
int good_agent_option = 0;
int status;
/* If we're not adding agent options to packets, we're not taking
them out either. */
if (!add_agent_options)
return (length);
/* If there's no cookie, it's a bootp packet, so we should just
forward it unchanged. */
if (memcmp(packet->options, DHCP_OPTIONS_COOKIE, 4))
return (length);
max = ((u_int8_t *)packet) + length;
sp = op = &packet->options[4];
while (op < max) {
switch(*op) {
/* Skip padding... */
case DHO_PAD:
if (sp != op)
*sp = *op;
++op;
++sp;
continue;
/* If we see a message type, it's a DHCP packet. */
case DHO_DHCP_MESSAGE_TYPE:
is_dhcp = 1;
goto skip;
break;
/* Quit immediately if we hit an End option. */
case DHO_END:
if (sp != op)
*sp++ = *op++;
goto out;
case DHO_DHCP_AGENT_OPTIONS:
/* We shouldn't see a relay agent option in a
packet before we've seen the DHCP packet type,
but if we do, we have to leave it alone. */
if (!is_dhcp)
goto skip;
/* Do not process an agent option if it exceeds the
* buffer. Fail this packet.
*/
nextop = op + op[1] + 2;
if (nextop > max)
return (0);
status = find_interface_by_agent_option(packet,
out, op + 2,
op[1]);
if (status == -1 && drop_agent_mismatches)
return (0);
if (status)
good_agent_option = 1;
op = nextop;
break;
skip:
/* Skip over other options. */
default:
/* Fail if processing this option will exceed the
* buffer(op[1] is malformed).
*/
nextop = op + op[1] + 2;
if (nextop > max)
return (0);
if (sp != op) {
memmove(sp, op, op[1] + 2);
sp += op[1] + 2;
op = nextop;
} else
op = sp = nextop;
break;
}
}
out:
/* If it's not a DHCP packet, we're not supposed to touch it. */
if (!is_dhcp)
return (length);
/* If none of the agent options we found matched, or if we didn't
find any agent options, count this packet as not having any
matching agent options, and if we're relying on agent options
to determine the outgoing interface, drop the packet. */
if (!good_agent_option) {
++missing_agent_option;
if (drop_agent_mismatches)
return (0);
}
/* Adjust the length... */
if (sp != op) {
length = sp -((u_int8_t *)packet);
/* Make sure the packet isn't short(this is unlikely,
but WTH) */
if (length < BOOTP_MIN_LEN) {
memset(sp, DHO_PAD, BOOTP_MIN_LEN - length);
length = BOOTP_MIN_LEN;
}
}
return (length);
}
/* Find an interface that matches the circuit ID specified in the
Relay Agent Information option. If one is found, store it through
the pointer given; otherwise, leave the existing pointer alone.
We actually deviate somewhat from the current specification here:
if the option buffer is corrupt, we suggest that the caller not
respond to this packet. If the circuit ID doesn't match any known
interface, we suggest that the caller to drop the packet. Only if
we find a circuit ID that matches an existing interface do we tell
the caller to go ahead and process the packet. */
static int
find_interface_by_agent_option(struct dhcp_packet *packet,
struct interface_info **out,
u_int8_t *buf, int len) {
int i = 0;
u_int8_t *circuit_id = 0;
unsigned circuit_id_len = 0;
struct interface_info *ip;
while (i < len) {
/* If the next agent option overflows the end of the
packet, the agent option buffer is corrupt. */
if (i + 1 == len ||
i + buf[i + 1] + 2 > len) {
++corrupt_agent_options;
return (-1);
}
switch(buf[i]) {
/* Remember where the circuit ID is... */
case RAI_CIRCUIT_ID:
circuit_id = &buf[i + 2];
circuit_id_len = buf[i + 1];
i += circuit_id_len + 2;
continue;
default:
i += buf[i + 1] + 2;
break;
}
}
/* If there's no circuit ID, it's not really ours, tell the caller
it's no good. */
if (!circuit_id) {
++missing_circuit_id;
return (-1);
}
/* Scan the interface list looking for an interface whose
name matches the one specified in circuit_id. */
for (ip = interfaces; ip; ip = ip->next) {
if (ip->circuit_id &&
ip->circuit_id_len == circuit_id_len &&
!memcmp(ip->circuit_id, circuit_id, circuit_id_len))
break;
}
/* If we got a match, use it. */
if (ip) {
*out = ip;
return (1);
}
/* If we didn't get a match, the circuit ID was bogus. */
++bad_circuit_id;
return (-1);
}
/*
* Examine a packet to see if it's a candidate to have a Relay
* Agent Information option tacked onto its tail. If it is, tack
* the option on.
*/
static int
add_relay_agent_options(struct interface_info *ip, struct dhcp_packet *packet,
unsigned length, struct in_addr giaddr) {
int is_dhcp = 0, mms;
unsigned optlen;
u_int8_t *op, *nextop, *sp, *max, *end_pad = NULL;
/* If we're not adding agent options to packets, we can skip
this. */
if (!add_agent_options)
return (length);
/* If there's no cookie, it's a bootp packet, so we should just
forward it unchanged. */
if (memcmp(packet->options, DHCP_OPTIONS_COOKIE, 4))
return (length);
max = ((u_int8_t *)packet) + dhcp_max_agent_option_packet_length;
/* Commence processing after the cookie. */
sp = op = &packet->options[4];
while (op < max) {
switch(*op) {
/* Skip padding... */
case DHO_PAD:
/* Remember the first pad byte so we can commandeer
* padded space.
*
* XXX: Is this really a good idea? Sure, we can
* seemingly reduce the packet while we're looking,
* but if the packet was signed by the client then
* this padding is part of the checksum(RFC3118),
* and its nonpresence would break authentication.
*/
if (end_pad == NULL)
end_pad = sp;
if (sp != op)
*sp++ = *op++;
else
sp = ++op;
continue;
/* If we see a message type, it's a DHCP packet. */
case DHO_DHCP_MESSAGE_TYPE:
is_dhcp = 1;
goto skip;
/*
* If there's a maximum message size option, we
* should pay attention to it
*/
case DHO_DHCP_MAX_MESSAGE_SIZE:
mms = ntohs(*(op + 2));
if (mms < dhcp_max_agent_option_packet_length &&
mms >= DHCP_MTU_MIN)
max = ((u_int8_t *)packet) + mms;
goto skip;
/* Quit immediately if we hit an End option. */
case DHO_END:
goto out;
case DHO_DHCP_AGENT_OPTIONS:
/* We shouldn't see a relay agent option in a
packet before we've seen the DHCP packet type,
but if we do, we have to leave it alone. */
if (!is_dhcp)
goto skip;
end_pad = NULL;
/* There's already a Relay Agent Information option
in this packet. How embarrassing. Decide what
to do based on the mode the user specified. */
switch(agent_relay_mode) {
case forward_and_append:
goto skip;
case forward_untouched:
return (length);
case discard:
return (0);
case forward_and_replace:
default:
break;
}
/* Skip over the agent option and start copying
if we aren't copying already. */
op += op[1] + 2;
break;
skip:
/* Skip over other options. */
default:
/* Fail if processing this option will exceed the
* buffer(op[1] is malformed).
*/
nextop = op + op[1] + 2;
if (nextop > max)
return (0);
end_pad = NULL;
if (sp != op) {
memmove(sp, op, op[1] + 2);
sp += op[1] + 2;
op = nextop;
} else
op = sp = nextop;
break;
}
}
out:
/* If it's not a DHCP packet, we're not supposed to touch it. */
if (!is_dhcp)
return (length);
/* If the packet was padded out, we can store the agent option
at the beginning of the padding. */
if (end_pad != NULL)
sp = end_pad;
/* Remember where the end of the packet was after parsing
it. */
op = sp;
/* Sanity check. Had better not ever happen. */
if ((ip->circuit_id_len > 255) ||(ip->circuit_id_len < 1))
log_fatal("Circuit ID length %d out of range [1-255] on "
"%s\n", ip->circuit_id_len, ip->name);
optlen = ip->circuit_id_len + 2; /* RAI_CIRCUIT_ID + len */
if (ip->remote_id) {
if (ip->remote_id_len > 255 || ip->remote_id_len < 1)
log_fatal("Remote ID length %d out of range [1-255] "
"on %s\n", ip->circuit_id_len, ip->name);
optlen += ip->remote_id_len + 2; /* RAI_REMOTE_ID + len */
}
/* We do not support relay option fragmenting(multiple options to
* support an option data exceeding 255 bytes).
*/
if ((optlen < 3) ||(optlen > 255))
log_fatal("Total agent option length(%u) out of range "
"[3 - 255] on %s\n", optlen, ip->name);
/*
* Is there room for the option, its code+len, and DHO_END?
* If not, forward without adding the option.
*/
if (max - sp >= optlen + 3) {
log_debug("Adding %d-byte relay agent option", optlen + 3);
/* Okay, cons up *our* Relay Agent Information option. */
*sp++ = DHO_DHCP_AGENT_OPTIONS;
*sp++ = optlen;
/* Copy in the circuit id... */
*sp++ = RAI_CIRCUIT_ID;
*sp++ = ip->circuit_id_len;
memcpy(sp, ip->circuit_id, ip->circuit_id_len);
sp += ip->circuit_id_len;
/* Copy in remote ID... */
if (ip->remote_id) {
*sp++ = RAI_REMOTE_ID;
*sp++ = ip->remote_id_len;
memcpy(sp, ip->remote_id, ip->remote_id_len);
sp += ip->remote_id_len;
}
} else {
++agent_option_errors;
log_error("No room in packet (used %d of %d) "
"for %d-byte relay agent option: omitted",
(int) (sp - ((u_int8_t *) packet)),
(int) (max - ((u_int8_t *) packet)),
optlen + 3);
}
/*
* Deposit an END option unless the packet is full (shouldn't
* be possible).
*/
if (sp < max)
*sp++ = DHO_END;
/* Recalculate total packet length. */
length = sp -((u_int8_t *)packet);
/* Make sure the packet isn't short(this is unlikely, but WTH) */
if (length < BOOTP_MIN_LEN) {
memset(sp, DHO_PAD, BOOTP_MIN_LEN - length);
return (BOOTP_MIN_LEN);
}
return (length);
}
#ifdef DHCPv6
/*
* Parse a downstream argument: [address%]interface[#index].
*/
static struct stream_list *
parse_downstream(char *arg) {
struct stream_list *dp, *up;
struct interface_info *ifp = NULL;
char *ifname, *addr, *iid;
isc_result_t status;
if (!supports_multiple_interfaces(ifp) &&
(downstreams != NULL))
log_fatal("No support for multiple interfaces.");
/* Decode the argument. */
ifname = strchr(arg, '%');
if (ifname == NULL) {
ifname = arg;
addr = NULL;
} else {
*ifname++ = '\0';
addr = arg;
}
iid = strchr(ifname, '#');
if (iid != NULL) {
*iid++ = '\0';
}
if (strlen(ifname) >= sizeof(ifp->name)) {
log_error("Interface name '%s' too long", ifname);
usage();
}
/* Don't declare twice. */
for (dp = downstreams; dp; dp = dp->next) {
if (strcmp(ifname, dp->ifp->name) == 0)
log_fatal("Down interface '%s' declared twice.",
ifname);
}
/* Share with up side? */
for (up = upstreams; up; up = up->next) {
if (strcmp(ifname, up->ifp->name) == 0) {
log_info("Interface '%s' is both down and up.",
ifname);
ifp = up->ifp;
break;
}
}
/* New interface. */
if (ifp == NULL) {
status = interface_allocate(&ifp, MDL);
if (status != ISC_R_SUCCESS)
log_fatal("%s: interface_allocate: %s",
arg, isc_result_totext(status));
strcpy(ifp->name, ifname);
if (interfaces) {
interface_reference(&ifp->next, interfaces, MDL);
interface_dereference(&interfaces, MDL);
}
interface_reference(&interfaces, ifp, MDL);
ifp->flags |= INTERFACE_REQUESTED | INTERFACE_DOWNSTREAM;
}
/* New downstream. */
dp = (struct stream_list *) dmalloc(sizeof(*dp), MDL);
if (!dp)
log_fatal("No memory for downstream.");
dp->ifp = ifp;
if (iid != NULL) {
dp->id = atoi(iid);
} else {
dp->id = -1;
}
/* !addr case handled by setup. */
if (addr && (inet_pton(AF_INET6, addr, &dp->link.sin6_addr) <= 0))
log_fatal("Bad link address '%s'", addr);
return dp;
}
/*
* Parse an upstream argument: [address]%interface.
*/
static struct stream_list *
parse_upstream(char *arg) {
struct stream_list *up, *dp;
struct interface_info *ifp = NULL;
char *ifname, *addr;
isc_result_t status;
/* Decode the argument. */
ifname = strchr(arg, '%');
if (ifname == NULL) {
ifname = arg;
addr = All_DHCP_Servers;
} else {
*ifname++ = '\0';
addr = arg;
}
if (strlen(ifname) >= sizeof(ifp->name)) {
log_fatal("Interface name '%s' too long", ifname);
}
/* Shared up interface? */
for (up = upstreams; up; up = up->next) {
if (strcmp(ifname, up->ifp->name) == 0) {
ifp = up->ifp;
break;
}
}
for (dp = downstreams; dp; dp = dp->next) {
if (strcmp(ifname, dp->ifp->name) == 0) {
ifp = dp->ifp;
break;
}
}
/* New interface. */
if (ifp == NULL) {
status = interface_allocate(&ifp, MDL);
if (status != ISC_R_SUCCESS)
log_fatal("%s: interface_allocate: %s",
arg, isc_result_totext(status));
strcpy(ifp->name, ifname);
if (interfaces) {
interface_reference(&ifp->next, interfaces, MDL);
interface_dereference(&interfaces, MDL);
}
interface_reference(&interfaces, ifp, MDL);
ifp->flags |= INTERFACE_REQUESTED | INTERFACE_UPSTREAM;
}
/* New upstream. */
up = (struct stream_list *) dmalloc(sizeof(*up), MDL);
if (up == NULL)
log_fatal("No memory for upstream.");
up->ifp = ifp;
if (inet_pton(AF_INET6, addr, &up->link.sin6_addr) <= 0)
log_fatal("Bad address %s", addr);
return up;
}
/*
* Setup downstream interfaces.
*/
static void
setup_streams(void) {
struct stream_list *dp, *up;
int i;
isc_boolean_t link_is_set;
for (dp = downstreams; dp; dp = dp->next) {
/* Check interface */
if (dp->ifp->v6address_count == 0)
log_fatal("Interface '%s' has no IPv6 addresses.",
dp->ifp->name);
/* Check/set link. */
if (IN6_IS_ADDR_UNSPECIFIED(&dp->link.sin6_addr))
link_is_set = ISC_FALSE;
else
link_is_set = ISC_TRUE;
for (i = 0; i < dp->ifp->v6address_count; i++) {
if (IN6_IS_ADDR_LINKLOCAL(&dp->ifp->v6addresses[i]))
continue;
if (!link_is_set)
break;
if (!memcmp(&dp->ifp->v6addresses[i],
&dp->link.sin6_addr,
sizeof(dp->link.sin6_addr)))
break;
}
if (i == dp->ifp->v6address_count)
log_fatal("Can't find link address for interface '%s'.",
dp->ifp->name);
if (!link_is_set)
memcpy(&dp->link.sin6_addr,
&dp->ifp->v6addresses[i],
sizeof(dp->link.sin6_addr));
/* Set interface-id. */
if (dp->id == -1)
dp->id = dp->ifp->index;
}
for (up = upstreams; up; up = up->next) {
up->link.sin6_port = local_port;
up->link.sin6_family = AF_INET6;
#ifdef HAVE_SA_LEN
up->link.sin6_len = sizeof(up->link);
#endif
if (up->ifp->v6address_count == 0)
log_fatal("Interface '%s' has no IPv6 addresses.",
up->ifp->name);
}
}
/*
* Add DHCPv6 agent options here.
*/
static const int required_forw_opts[] = {
D6O_INTERFACE_ID,
D6O_RELAY_MSG,
0
};
/*
* Process a packet upwards, i.e., from client to server.
*/
static void
process_up6(struct packet *packet, struct stream_list *dp) {
char forw_data[65535];
unsigned cursor;
struct dhcpv6_relay_packet *relay;
struct option_state *opts;
struct stream_list *up;
/* Check if the message should be relayed to the server. */
switch (packet->dhcpv6_msg_type) {
case DHCPV6_SOLICIT:
case DHCPV6_REQUEST:
case DHCPV6_CONFIRM:
case DHCPV6_RENEW:
case DHCPV6_REBIND:
case DHCPV6_RELEASE:
case DHCPV6_DECLINE:
case DHCPV6_INFORMATION_REQUEST:
case DHCPV6_RELAY_FORW:
case DHCPV6_LEASEQUERY:
log_info("Relaying %s from %s port %d going up.",
dhcpv6_type_names[packet->dhcpv6_msg_type],
piaddr(packet->client_addr),
ntohs(packet->client_port));
break;
case DHCPV6_ADVERTISE:
case DHCPV6_REPLY:
case DHCPV6_RECONFIGURE:
case DHCPV6_RELAY_REPL:
case DHCPV6_LEASEQUERY_REPLY:
log_info("Discarding %s from %s port %d going up.",
dhcpv6_type_names[packet->dhcpv6_msg_type],
piaddr(packet->client_addr),
ntohs(packet->client_port));
return;
default:
log_info("Unknown %d type from %s port %d going up.",
packet->dhcpv6_msg_type,
piaddr(packet->client_addr),
ntohs(packet->client_port));
return;
}
/* Build the relay-forward header. */
relay = (struct dhcpv6_relay_packet *) forw_data;
cursor = offsetof(struct dhcpv6_relay_packet, options);
relay->msg_type = DHCPV6_RELAY_FORW;
if (packet->dhcpv6_msg_type == DHCPV6_RELAY_FORW) {
if (packet->dhcpv6_hop_count >= max_hop_count) {
log_info("Hop count exceeded,");
return;
}
relay->hop_count = packet->dhcpv6_hop_count + 1;
if (dp) {
memcpy(&relay->link_address, &dp->link.sin6_addr, 16);
} else {
/* On smart relay add: && !global. */
if (!use_if_id && downstreams->next) {
log_info("Shan't get back the interface.");
return;
}
memset(&relay->link_address, 0, 16);
}
} else {
relay->hop_count = 0;
if (!dp)
return;
memcpy(&relay->link_address, &dp->link.sin6_addr, 16);
}
memcpy(&relay->peer_address, packet->client_addr.iabuf, 16);
/* Get an option state. */
opts = NULL;
if (!option_state_allocate(&opts, MDL)) {
log_fatal("No memory for upwards options.");
}
/* Add an interface-id (if used). */
if (use_if_id) {
int if_id;
if (dp) {
if_id = dp->id;
} else if (!downstreams->next) {
if_id = downstreams->id;
} else {
log_info("Don't know the interface.");
option_state_dereference(&opts, MDL);
return;
}
if (!save_option_buffer(&dhcpv6_universe, opts,
NULL, (unsigned char *) &if_id,
sizeof(int),
D6O_INTERFACE_ID, 0)) {
log_error("Can't save interface-id.");
option_state_dereference(&opts, MDL);
return;
}
}
/* Add the relay-msg carrying the packet. */
if (!save_option_buffer(&dhcpv6_universe, opts,
NULL, (unsigned char *) packet->raw,
packet->packet_length,
D6O_RELAY_MSG, 0)) {
log_error("Can't save relay-msg.");
option_state_dereference(&opts, MDL);
return;
}
/* Finish the relay-forward message. */
cursor += store_options6(forw_data + cursor,
sizeof(forw_data) - cursor,
opts, packet,
required_forw_opts, NULL);
option_state_dereference(&opts, MDL);
/* Send it to all upstreams. */
for (up = upstreams; up; up = up->next) {
send_packet6(up->ifp, (unsigned char *) forw_data,
(size_t) cursor, &up->link);
}
}
/*
* Process a packet downwards, i.e., from server to client.
*/
static void
process_down6(struct packet *packet) {
struct stream_list *dp;
struct option_cache *oc;
struct data_string relay_msg;
const struct dhcpv6_packet *msg;
struct data_string if_id;
struct sockaddr_in6 to;
struct iaddr peer;
/* The packet must be a relay-reply message. */
if (packet->dhcpv6_msg_type != DHCPV6_RELAY_REPL) {
if (packet->dhcpv6_msg_type < dhcpv6_type_name_max)
log_info("Discarding %s from %s port %d going down.",
dhcpv6_type_names[packet->dhcpv6_msg_type],
piaddr(packet->client_addr),
ntohs(packet->client_port));
else
log_info("Unknown %d type from %s port %d going down.",
packet->dhcpv6_msg_type,
piaddr(packet->client_addr),
ntohs(packet->client_port));
return;
}
/* Inits. */
memset(&relay_msg, 0, sizeof(relay_msg));
memset(&if_id, 0, sizeof(if_id));
memset(&to, 0, sizeof(to));
to.sin6_family = AF_INET6;
#ifdef HAVE_SA_LEN
to.sin6_len = sizeof(to);
#endif
to.sin6_port = remote_port;
peer.len = 16;
/* Get the relay-msg option (carrying the message to relay). */
oc = lookup_option(&dhcpv6_universe, packet->options, D6O_RELAY_MSG);
if (oc == NULL) {
log_info("No relay-msg.");
return;
}
if (!evaluate_option_cache(&relay_msg, packet, NULL, NULL,
packet->options, NULL,
&global_scope, oc, MDL) ||
(relay_msg.len < offsetof(struct dhcpv6_packet, options))) {
log_error("Can't evaluate relay-msg.");
return;
}
msg = (const struct dhcpv6_packet *) relay_msg.data;
/* Get the interface-id (if exists) and the downstream. */
oc = lookup_option(&dhcpv6_universe, packet->options,
D6O_INTERFACE_ID);
if (oc != NULL) {
int if_index;
if (!evaluate_option_cache(&if_id, packet, NULL, NULL,
packet->options, NULL,
&global_scope, oc, MDL) ||
(if_id.len != sizeof(int))) {
log_info("Can't evaluate interface-id.");
goto cleanup;
}
memcpy(&if_index, if_id.data, sizeof(int));
for (dp = downstreams; dp; dp = dp->next) {
if (dp->id == if_index)
break;
}
} else {
if (use_if_id) {
/* Require an interface-id. */
log_info("No interface-id.");
goto cleanup;
}
for (dp = downstreams; dp; dp = dp->next) {
/* Get the first matching one. */
if (!memcmp(&dp->link.sin6_addr,
&packet->dhcpv6_link_address,
sizeof(struct in6_addr)))
break;
}
}
/* Why bother when there is no choice. */
if (!dp && !downstreams->next)
dp = downstreams;
if (!dp) {
log_info("Can't find the down interface.");
goto cleanup;
}
memcpy(peer.iabuf, &packet->dhcpv6_peer_address, peer.len);
to.sin6_addr = packet->dhcpv6_peer_address;
/* Check if we should relay the carried message. */
switch (msg->msg_type) {
/* Relay-Reply of for another relay, not a client. */
case DHCPV6_RELAY_REPL:
to.sin6_port = local_port;
/* Fall into: */
case DHCPV6_ADVERTISE:
case DHCPV6_REPLY:
case DHCPV6_RECONFIGURE:
case DHCPV6_RELAY_FORW:
case DHCPV6_LEASEQUERY_REPLY:
log_info("Relaying %s to %s port %d down.",
dhcpv6_type_names[msg->msg_type],
piaddr(peer),
ntohs(to.sin6_port));
break;
case DHCPV6_SOLICIT:
case DHCPV6_REQUEST:
case DHCPV6_CONFIRM:
case DHCPV6_RENEW:
case DHCPV6_REBIND:
case DHCPV6_RELEASE:
case DHCPV6_DECLINE:
case DHCPV6_INFORMATION_REQUEST:
case DHCPV6_LEASEQUERY:
log_info("Discarding %s to %s port %d down.",
dhcpv6_type_names[msg->msg_type],
piaddr(peer),
ntohs(to.sin6_port));
goto cleanup;
default:
log_info("Unknown %d type to %s port %d down.",
msg->msg_type,
piaddr(peer),
ntohs(to.sin6_port));
goto cleanup;
}
/* Send the message to the downstream. */
send_packet6(dp->ifp, (unsigned char *) relay_msg.data,
(size_t) relay_msg.len, &to);
cleanup:
if (relay_msg.data != NULL)
data_string_forget(&relay_msg, MDL);
if (if_id.data != NULL)
data_string_forget(&if_id, MDL);
}
/*
* Called by the dispatch packet handler with a decoded packet.
*/
void
dhcpv6(struct packet *packet) {
struct stream_list *dp;
/* Try all relay-replies downwards. */
if (packet->dhcpv6_msg_type == DHCPV6_RELAY_REPL) {
process_down6(packet);
return;
}
/* Others are candidates to go up if they come from down. */
for (dp = downstreams; dp; dp = dp->next) {
if (packet->interface != dp->ifp)
continue;
process_up6(packet, dp);
return;
}
/* Relay-forward could work from an unknown interface. */
if (packet->dhcpv6_msg_type == DHCPV6_RELAY_FORW) {
process_up6(packet, NULL);
return;
}
log_info("Can't process packet from interface '%s'.",
packet->interface->name);
}
#endif
/* Stub routines needed for linking with DHCP libraries. */
void
bootp(struct packet *packet) {
return;
}
void
dhcp(struct packet *packet) {
return;
}
void
classify(struct packet *p, struct class *c) {
return;
}
int
check_collection(struct packet *p, struct lease *l, struct collection *c) {
return 0;
}
isc_result_t
find_class(struct class **class, const char *c1, const char *c2, int i) {
return ISC_R_NOTFOUND;
}
int
parse_allow_deny(struct option_cache **oc, struct parse *p, int i) {
return 0;
}
isc_result_t
dhcp_set_control_state(control_object_state_t oldstate,
control_object_state_t newstate) {
return ISC_R_SUCCESS;
}
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