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|
/* dnsmasq is Copyright (c) 2000-2021 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/>.
*/
#include "dnsmasq.h"
#ifdef HAVE_DHCP
struct iface_param {
struct dhcp_context *current;
struct dhcp_relay *relay;
struct in_addr relay_local;
int ind;
};
struct match_param {
int ind, matched;
struct in_addr netmask, broadcast, addr;
};
static int complete_context(struct in_addr local, int if_index, char *label,
struct in_addr netmask, struct in_addr broadcast, void *vparam);
static int check_listen_addrs(struct in_addr local, int if_index, char *label,
struct in_addr netmask, struct in_addr broadcast, void *vparam);
static int relay_upstream4(struct dhcp_relay *relay, struct dhcp_packet *mess, size_t sz, int iface_index);
static struct dhcp_relay *relay_reply4(struct dhcp_packet *mess, char *arrival_interface);
static int make_fd(int port)
{
int fd = socket(PF_INET, SOCK_DGRAM, IPPROTO_UDP);
struct sockaddr_in saddr;
int oneopt = 1;
#if defined(IP_MTU_DISCOVER) && defined(IP_PMTUDISC_DONT)
int mtu = IP_PMTUDISC_DONT;
#endif
#if defined(IP_TOS) && defined(IPTOS_CLASS_CS6)
int tos = IPTOS_CLASS_CS6;
#endif
if (fd == -1)
die (_("cannot create DHCP socket: %s"), NULL, EC_BADNET);
if (!fix_fd(fd) ||
#if defined(IP_MTU_DISCOVER) && defined(IP_PMTUDISC_DONT)
setsockopt(fd, IPPROTO_IP, IP_MTU_DISCOVER, &mtu, sizeof(mtu)) == -1 ||
#endif
#if defined(IP_TOS) && defined(IPTOS_CLASS_CS6)
setsockopt(fd, IPPROTO_IP, IP_TOS, &tos, sizeof(tos)) == -1 ||
#endif
#if defined(HAVE_LINUX_NETWORK)
setsockopt(fd, IPPROTO_IP, IP_PKTINFO, &oneopt, sizeof(oneopt)) == -1 ||
#else
setsockopt(fd, IPPROTO_IP, IP_RECVIF, &oneopt, sizeof(oneopt)) == -1 ||
#endif
setsockopt(fd, SOL_SOCKET, SO_BROADCAST, &oneopt, sizeof(oneopt)) == -1)
die(_("failed to set options on DHCP socket: %s"), NULL, EC_BADNET);
/* When bind-interfaces is set, there might be more than one dnsmasq
instance binding port 67. That's OK if they serve different networks.
Need to set REUSEADDR|REUSEPORT to make this possible.
Handle the case that REUSEPORT is defined, but the kernel doesn't
support it. This handles the introduction of REUSEPORT on Linux. */
if (option_bool(OPT_NOWILD) || option_bool(OPT_CLEVERBIND))
{
int rc = 0;
#ifdef SO_REUSEPORT
if ((rc = setsockopt(fd, SOL_SOCKET, SO_REUSEPORT, &oneopt, sizeof(oneopt))) == -1 &&
errno == ENOPROTOOPT)
rc = 0;
#endif
if (rc != -1)
rc = setsockopt(fd, SOL_SOCKET, SO_REUSEADDR, &oneopt, sizeof(oneopt));
if (rc == -1)
die(_("failed to set SO_REUSE{ADDR|PORT} on DHCP socket: %s"), NULL, EC_BADNET);
}
memset(&saddr, 0, sizeof(saddr));
saddr.sin_family = AF_INET;
saddr.sin_port = htons(port);
saddr.sin_addr.s_addr = INADDR_ANY;
#ifdef HAVE_SOCKADDR_SA_LEN
saddr.sin_len = sizeof(struct sockaddr_in);
#endif
if (bind(fd, (struct sockaddr *)&saddr, sizeof(struct sockaddr_in)))
die(_("failed to bind DHCP server socket: %s"), NULL, EC_BADNET);
return fd;
}
void dhcp_init(void)
{
#if defined(HAVE_BSD_NETWORK)
int oneopt = 1;
#endif
daemon->dhcpfd = make_fd(daemon->dhcp_server_port);
if (daemon->enable_pxe)
daemon->pxefd = make_fd(PXE_PORT);
else
daemon->pxefd = -1;
#if defined(HAVE_BSD_NETWORK)
/* When we're not using capabilities, we need to do this here before
we drop root. Also, set buffer size small, to avoid wasting
kernel buffers */
if (option_bool(OPT_NO_PING))
daemon->dhcp_icmp_fd = -1;
else if ((daemon->dhcp_icmp_fd = make_icmp_sock()) == -1 ||
setsockopt(daemon->dhcp_icmp_fd, SOL_SOCKET, SO_RCVBUF, &oneopt, sizeof(oneopt)) == -1 )
die(_("cannot create ICMP raw socket: %s."), NULL, EC_BADNET);
/* Make BPF raw send socket */
init_bpf();
#endif
}
void dhcp_packet(time_t now, int pxe_fd)
{
int fd = pxe_fd ? daemon->pxefd : daemon->dhcpfd;
struct dhcp_packet *mess;
struct dhcp_context *context;
struct dhcp_relay *relay;
int is_relay_reply = 0;
struct iname *tmp;
struct ifreq ifr;
struct msghdr msg;
struct sockaddr_in dest;
struct cmsghdr *cmptr;
struct iovec iov;
ssize_t sz;
int iface_index = 0, unicast_dest = 0, is_inform = 0, loopback = 0;
int rcvd_iface_index;
struct in_addr iface_addr;
struct iface_param parm;
time_t recvtime = now;
#ifdef HAVE_LINUX_NETWORK
struct arpreq arp_req;
struct timeval tv;
#endif
union {
struct cmsghdr align; /* this ensures alignment */
#if defined(HAVE_LINUX_NETWORK)
char control[CMSG_SPACE(sizeof(struct in_pktinfo))];
#elif defined(HAVE_SOLARIS_NETWORK)
char control[CMSG_SPACE(sizeof(unsigned int))];
#elif defined(HAVE_BSD_NETWORK)
char control[CMSG_SPACE(sizeof(struct sockaddr_dl))];
#endif
} control_u;
struct dhcp_bridge *bridge, *alias;
msg.msg_controllen = sizeof(control_u);
msg.msg_control = control_u.control;
msg.msg_name = &dest;
msg.msg_namelen = sizeof(dest);
msg.msg_iov = &daemon->dhcp_packet;
msg.msg_iovlen = 1;
if ((sz = recv_dhcp_packet(fd, &msg)) == -1 ||
(sz < (ssize_t)(sizeof(*mess) - sizeof(mess->options))))
return;
#if defined (HAVE_LINUX_NETWORK)
if (ioctl(fd, SIOCGSTAMP, &tv) == 0)
recvtime = tv.tv_sec;
if (msg.msg_controllen >= sizeof(struct cmsghdr))
for (cmptr = CMSG_FIRSTHDR(&msg); cmptr; cmptr = CMSG_NXTHDR(&msg, cmptr))
if (cmptr->cmsg_level == IPPROTO_IP && cmptr->cmsg_type == IP_PKTINFO)
{
union {
unsigned char *c;
struct in_pktinfo *p;
} p;
p.c = CMSG_DATA(cmptr);
iface_index = p.p->ipi_ifindex;
if (p.p->ipi_addr.s_addr != INADDR_BROADCAST)
unicast_dest = 1;
}
#elif defined(HAVE_BSD_NETWORK)
if (msg.msg_controllen >= sizeof(struct cmsghdr))
for (cmptr = CMSG_FIRSTHDR(&msg); cmptr; cmptr = CMSG_NXTHDR(&msg, cmptr))
if (cmptr->cmsg_level == IPPROTO_IP && cmptr->cmsg_type == IP_RECVIF)
{
union {
unsigned char *c;
struct sockaddr_dl *s;
} p;
p.c = CMSG_DATA(cmptr);
iface_index = p.s->sdl_index;
}
#elif defined(HAVE_SOLARIS_NETWORK)
if (msg.msg_controllen >= sizeof(struct cmsghdr))
for (cmptr = CMSG_FIRSTHDR(&msg); cmptr; cmptr = CMSG_NXTHDR(&msg, cmptr))
if (cmptr->cmsg_level == IPPROTO_IP && cmptr->cmsg_type == IP_RECVIF)
{
union {
unsigned char *c;
unsigned int *i;
} p;
p.c = CMSG_DATA(cmptr);
iface_index = *(p.i);
}
#endif
if (!indextoname(daemon->dhcpfd, iface_index, ifr.ifr_name) ||
ioctl(daemon->dhcpfd, SIOCGIFFLAGS, &ifr) != 0)
return;
mess = (struct dhcp_packet *)daemon->dhcp_packet.iov_base;
loopback = !mess->giaddr.s_addr && (ifr.ifr_flags & IFF_LOOPBACK);
#ifdef HAVE_LINUX_NETWORK
/* ARP fiddling uses original interface even if we pretend to use a different one. */
safe_strncpy(arp_req.arp_dev, ifr.ifr_name, sizeof(arp_req.arp_dev));
#endif
/* If the interface on which the DHCP request was received is an
alias of some other interface (as specified by the
--bridge-interface option), change ifr.ifr_name so that we look
for DHCP contexts associated with the aliased interface instead
of with the aliasing one. */
rcvd_iface_index = iface_index;
for (bridge = daemon->bridges; bridge; bridge = bridge->next)
{
for (alias = bridge->alias; alias; alias = alias->next)
if (wildcard_matchn(alias->iface, ifr.ifr_name, IF_NAMESIZE))
{
if (!(iface_index = if_nametoindex(bridge->iface)))
{
my_syslog(MS_DHCP | LOG_WARNING,
_("unknown interface %s in bridge-interface"),
bridge->iface);
return;
}
else
{
safe_strncpy(ifr.ifr_name, bridge->iface, sizeof(ifr.ifr_name));
break;
}
}
if (alias)
break;
}
#ifdef MSG_BCAST
/* OpenBSD tells us when a packet was broadcast */
if (!(msg.msg_flags & MSG_BCAST))
unicast_dest = 1;
#endif
if ((relay = relay_reply4((struct dhcp_packet *)daemon->dhcp_packet.iov_base, ifr.ifr_name)))
{
/* Reply from server, using us as relay. */
rcvd_iface_index = relay->iface_index;
if (!indextoname(daemon->dhcpfd, rcvd_iface_index, ifr.ifr_name))
return;
is_relay_reply = 1;
iov.iov_len = sz;
#ifdef HAVE_LINUX_NETWORK
safe_strncpy(arp_req.arp_dev, ifr.ifr_name, sizeof(arp_req.arp_dev));
#endif
}
else
{
ifr.ifr_addr.sa_family = AF_INET;
if (ioctl(daemon->dhcpfd, SIOCGIFADDR, &ifr) != -1 )
iface_addr = ((struct sockaddr_in *) &ifr.ifr_addr)->sin_addr;
else
{
if (iface_check(AF_INET, NULL, ifr.ifr_name, NULL))
my_syslog(MS_DHCP | LOG_WARNING, _("DHCP packet received on %s which has no address"), ifr.ifr_name);
return;
}
for (tmp = daemon->dhcp_except; tmp; tmp = tmp->next)
if (tmp->name && wildcard_match(tmp->name, ifr.ifr_name))
return;
/* unlinked contexts/relays are marked by context->current == context */
for (context = daemon->dhcp; context; context = context->next)
context->current = context;
for (relay = daemon->relay4; relay; relay = relay->next)
relay->current = relay;
parm.current = NULL;
parm.relay = NULL;
parm.relay_local.s_addr = 0;
parm.ind = iface_index;
if (!iface_check(AF_INET, (union all_addr *)&iface_addr, ifr.ifr_name, NULL))
{
/* If we failed to match the primary address of the interface, see if we've got a --listen-address
for a secondary */
struct match_param match;
match.matched = 0;
match.ind = iface_index;
if (!daemon->if_addrs ||
!iface_enumerate(AF_INET, &match, check_listen_addrs) ||
!match.matched)
return;
iface_addr = match.addr;
/* make sure secondary address gets priority in case
there is more than one address on the interface in the same subnet */
complete_context(match.addr, iface_index, NULL, match.netmask, match.broadcast, &parm);
}
if (!iface_enumerate(AF_INET, &parm, complete_context))
return;
/* We're relaying this request */
if (parm.relay_local.s_addr != 0 &&
relay_upstream4(parm.relay, mess, (size_t)sz, iface_index))
return;
/* May have configured relay, but not DHCP server */
if (!daemon->dhcp)
return;
lease_prune(NULL, now); /* lose any expired leases */
iov.iov_len = dhcp_reply(parm.current, ifr.ifr_name, iface_index, (size_t)sz,
now, unicast_dest, loopback, &is_inform, pxe_fd, iface_addr, recvtime);
lease_update_file(now);
lease_update_dns(0);
if (iov.iov_len == 0)
return;
}
msg.msg_name = &dest;
msg.msg_namelen = sizeof(dest);
msg.msg_control = NULL;
msg.msg_controllen = 0;
msg.msg_iov = &iov;
iov.iov_base = daemon->dhcp_packet.iov_base;
/* packet buffer may have moved */
mess = (struct dhcp_packet *)daemon->dhcp_packet.iov_base;
#ifdef HAVE_SOCKADDR_SA_LEN
dest.sin_len = sizeof(struct sockaddr_in);
#endif
if (pxe_fd)
{
if (mess->ciaddr.s_addr != 0)
dest.sin_addr = mess->ciaddr;
}
else if (mess->giaddr.s_addr && !is_relay_reply)
{
/* Send to BOOTP relay */
dest.sin_port = htons(daemon->dhcp_server_port);
dest.sin_addr = mess->giaddr;
}
else if (mess->ciaddr.s_addr)
{
/* If the client's idea of its own address tallys with
the source address in the request packet, we believe the
source port too, and send back to that. If we're replying
to a DHCPINFORM, trust the source address always. */
if ((!is_inform && dest.sin_addr.s_addr != mess->ciaddr.s_addr) ||
dest.sin_port == 0 || dest.sin_addr.s_addr == 0 || is_relay_reply)
{
dest.sin_port = htons(daemon->dhcp_client_port);
dest.sin_addr = mess->ciaddr;
}
}
#if defined(HAVE_LINUX_NETWORK)
else
{
/* fill cmsg for outbound interface (both broadcast & unicast) */
struct in_pktinfo *pkt;
msg.msg_control = control_u.control;
msg.msg_controllen = sizeof(control_u);
cmptr = CMSG_FIRSTHDR(&msg);
pkt = (struct in_pktinfo *)CMSG_DATA(cmptr);
pkt->ipi_ifindex = rcvd_iface_index;
pkt->ipi_spec_dst.s_addr = 0;
msg.msg_controllen = CMSG_SPACE(sizeof(struct in_pktinfo));
cmptr->cmsg_len = CMSG_LEN(sizeof(struct in_pktinfo));
cmptr->cmsg_level = IPPROTO_IP;
cmptr->cmsg_type = IP_PKTINFO;
if ((ntohs(mess->flags) & 0x8000) || mess->hlen == 0 ||
mess->hlen > sizeof(ifr.ifr_addr.sa_data) || mess->htype == 0)
{
/* broadcast to 255.255.255.255 (or mac address invalid) */
dest.sin_addr.s_addr = INADDR_BROADCAST;
dest.sin_port = htons(daemon->dhcp_client_port);
}
else
{
/* unicast to unconfigured client. Inject mac address direct into ARP cache.
struct sockaddr limits size to 14 bytes. */
dest.sin_addr = mess->yiaddr;
dest.sin_port = htons(daemon->dhcp_client_port);
memcpy(&arp_req.arp_pa, &dest, sizeof(struct sockaddr_in));
arp_req.arp_ha.sa_family = mess->htype;
memcpy(arp_req.arp_ha.sa_data, mess->chaddr, mess->hlen);
/* interface name already copied in */
arp_req.arp_flags = ATF_COM;
if (ioctl(daemon->dhcpfd, SIOCSARP, &arp_req) == -1)
my_syslog(MS_DHCP | LOG_ERR, _("ARP-cache injection failed: %s"), strerror(errno));
}
}
#elif defined(HAVE_SOLARIS_NETWORK)
else if ((ntohs(mess->flags) & 0x8000) || mess->hlen != ETHER_ADDR_LEN || mess->htype != ARPHRD_ETHER)
{
/* broadcast to 255.255.255.255 (or mac address invalid) */
dest.sin_addr.s_addr = INADDR_BROADCAST;
dest.sin_port = htons(daemon->dhcp_client_port);
/* note that we don't specify the interface here: that's done by the
IP_BOUND_IF sockopt lower down. */
}
else
{
/* unicast to unconfigured client. Inject mac address direct into ARP cache.
Note that this only works for ethernet on solaris, because we use SIOCSARP
and not SIOCSXARP, which would be perfect, except that it returns ENXIO
mysteriously. Bah. Fall back to broadcast for other net types. */
struct arpreq req;
dest.sin_addr = mess->yiaddr;
dest.sin_port = htons(daemon->dhcp_client_port);
*((struct sockaddr_in *)&req.arp_pa) = dest;
req.arp_ha.sa_family = AF_UNSPEC;
memcpy(req.arp_ha.sa_data, mess->chaddr, mess->hlen);
req.arp_flags = ATF_COM;
ioctl(daemon->dhcpfd, SIOCSARP, &req);
}
#elif defined(HAVE_BSD_NETWORK)
else
{
send_via_bpf(mess, iov.iov_len, iface_addr, &ifr);
return;
}
#endif
#ifdef HAVE_SOLARIS_NETWORK
setsockopt(fd, IPPROTO_IP, IP_BOUND_IF, &iface_index, sizeof(iface_index));
#endif
while(retry_send(sendmsg(fd, &msg, 0)));
/* This can fail when, eg, iptables DROPS destination 255.255.255.255 */
if (errno != 0)
{
inet_ntop(AF_INET, &dest.sin_addr, daemon->addrbuff, ADDRSTRLEN);
my_syslog(MS_DHCP | LOG_WARNING, _("Error sending DHCP packet to %s: %s"),
daemon->addrbuff, strerror(errno));
}
}
/* check against secondary interface addresses */
static int check_listen_addrs(struct in_addr local, int if_index, char *label,
struct in_addr netmask, struct in_addr broadcast, void *vparam)
{
struct match_param *param = vparam;
struct iname *tmp;
(void) label;
if (if_index == param->ind)
{
for (tmp = daemon->if_addrs; tmp; tmp = tmp->next)
if ( tmp->addr.sa.sa_family == AF_INET &&
tmp->addr.in.sin_addr.s_addr == local.s_addr)
{
param->matched = 1;
param->addr = local;
param->netmask = netmask;
param->broadcast = broadcast;
break;
}
}
return 1;
}
/* This is a complex routine: it gets called with each (address,netmask,broadcast) triple
of each interface (and any relay address) and does the following things:
1) Discards stuff for interfaces other than the one on which a DHCP packet just arrived.
2) Fills in any netmask and broadcast addresses which have not been explicitly configured.
3) Fills in local (this host) and router (this host or relay) addresses.
4) Links contexts which are valid for hosts directly connected to the arrival interface on ->current.
Note that the current chain may be superseded later for configured hosts or those coming via gateways. */
static void guess_range_netmask(struct in_addr addr, struct in_addr netmask)
{
struct dhcp_context *context;
for (context = daemon->dhcp; context; context = context->next)
if (!(context->flags & CONTEXT_NETMASK) &&
(is_same_net(addr, context->start, netmask) ||
is_same_net(addr, context->end, netmask)))
{
if (context->netmask.s_addr != netmask.s_addr &&
!(is_same_net(addr, context->start, netmask) &&
is_same_net(addr, context->end, netmask)))
{
inet_ntop(AF_INET, &context->start, daemon->dhcp_buff, DHCP_BUFF_SZ);
inet_ntop(AF_INET, &context->end, daemon->dhcp_buff2, DHCP_BUFF_SZ);
inet_ntop(AF_INET, &netmask, daemon->addrbuff, ADDRSTRLEN);
my_syslog(MS_DHCP | LOG_WARNING, _("DHCP range %s -- %s is not consistent with netmask %s"),
daemon->dhcp_buff, daemon->dhcp_buff2, daemon->addrbuff);
}
context->netmask = netmask;
}
}
static int complete_context(struct in_addr local, int if_index, char *label,
struct in_addr netmask, struct in_addr broadcast, void *vparam)
{
struct dhcp_context *context;
struct dhcp_relay *relay;
struct iface_param *param = vparam;
struct shared_network *share;
(void)label;
for (share = daemon->shared_networks; share; share = share->next)
{
#ifdef HAVE_DHCP6
if (share->shared_addr.s_addr == 0)
continue;
#endif
if (share->if_index != 0)
{
if (share->if_index != if_index)
continue;
}
else
{
if (share->match_addr.s_addr != local.s_addr)
continue;
}
for (context = daemon->dhcp; context; context = context->next)
{
if (context->netmask.s_addr != 0 &&
is_same_net(share->shared_addr, context->start, context->netmask) &&
is_same_net(share->shared_addr, context->end, context->netmask))
{
/* link it onto the current chain if we've not seen it before */
if (context->current == context)
{
/* For a shared network, we have no way to guess what the default route should be. */
context->router.s_addr = 0;
context->local = local; /* Use configured address for Server Identifier */
context->current = param->current;
param->current = context;
}
if (!(context->flags & CONTEXT_BRDCAST))
context->broadcast.s_addr = context->start.s_addr | ~context->netmask.s_addr;
}
}
}
guess_range_netmask(local, netmask);
for (context = daemon->dhcp; context; context = context->next)
{
if (context->netmask.s_addr != 0 &&
is_same_net(local, context->start, context->netmask) &&
is_same_net(local, context->end, context->netmask))
{
/* link it onto the current chain if we've not seen it before */
if (if_index == param->ind && context->current == context)
{
context->router = local;
context->local = local;
context->current = param->current;
param->current = context;
}
if (!(context->flags & CONTEXT_BRDCAST))
{
if (is_same_net(broadcast, context->start, context->netmask))
context->broadcast = broadcast;
else
context->broadcast.s_addr = context->start.s_addr | ~context->netmask.s_addr;
}
}
}
for (relay = daemon->relay4; relay; relay = relay->next)
if (if_index == param->ind && relay->local.addr4.s_addr == local.s_addr && relay->current == relay &&
(param->relay_local.s_addr == 0 || param->relay_local.s_addr == local.s_addr))
{
relay->current = param->relay;
param->relay = relay;
param->relay_local = local;
}
return 1;
}
struct dhcp_context *address_available(struct dhcp_context *context,
struct in_addr taddr,
struct dhcp_netid *netids)
{
/* Check is an address is OK for this network, check all
possible ranges. Make sure that the address isn't in use
by the server itself. */
unsigned int start, end, addr = ntohl(taddr.s_addr);
struct dhcp_context *tmp;
for (tmp = context; tmp; tmp = tmp->current)
if (taddr.s_addr == context->router.s_addr)
return NULL;
for (tmp = context; tmp; tmp = tmp->current)
{
start = ntohl(tmp->start.s_addr);
end = ntohl(tmp->end.s_addr);
if (!(tmp->flags & (CONTEXT_STATIC | CONTEXT_PROXY)) &&
addr >= start &&
addr <= end &&
match_netid(tmp->filter, netids, 1))
return tmp;
}
return NULL;
}
struct dhcp_context *narrow_context(struct dhcp_context *context,
struct in_addr taddr,
struct dhcp_netid *netids)
{
/* We start of with a set of possible contexts, all on the current physical interface.
These are chained on ->current.
Here we have an address, and return the actual context corresponding to that
address. Note that none may fit, if the address came a dhcp-host and is outside
any dhcp-range. In that case we return a static range if possible, or failing that,
any context on the correct subnet. (If there's more than one, this is a dodgy
configuration: maybe there should be a warning.) */
struct dhcp_context *tmp;
if (!(tmp = address_available(context, taddr, netids)))
{
for (tmp = context; tmp; tmp = tmp->current)
if (match_netid(tmp->filter, netids, 1) &&
is_same_net(taddr, tmp->start, tmp->netmask) &&
(tmp->flags & CONTEXT_STATIC))
break;
if (!tmp)
for (tmp = context; tmp; tmp = tmp->current)
if (match_netid(tmp->filter, netids, 1) &&
is_same_net(taddr, tmp->start, tmp->netmask) &&
!(tmp->flags & CONTEXT_PROXY))
break;
}
/* Only one context allowed now */
if (tmp)
tmp->current = NULL;
return tmp;
}
struct dhcp_config *config_find_by_address(struct dhcp_config *configs, struct in_addr addr)
{
struct dhcp_config *config;
for (config = configs; config; config = config->next)
if ((config->flags & CONFIG_ADDR) && config->addr.s_addr == addr.s_addr)
return config;
return NULL;
}
/* Check if and address is in use by sending ICMP ping.
This wrapper handles a cache and load-limiting.
Return is NULL is address in use, or a pointer to a cache entry
recording that it isn't. */
struct ping_result *do_icmp_ping(time_t now, struct in_addr addr, unsigned int hash, int loopback)
{
static struct ping_result dummy;
struct ping_result *r, *victim = NULL;
int count, max = (int)(0.6 * (((float)PING_CACHE_TIME)/
((float)PING_WAIT)));
/* check if we failed to ping addr sometime in the last
PING_CACHE_TIME seconds. If so, assume the same situation still exists.
This avoids problems when a stupid client bangs
on us repeatedly. As a final check, if we did more
than 60% of the possible ping checks in the last
PING_CACHE_TIME, we are in high-load mode, so don't do any more. */
for (count = 0, r = daemon->ping_results; r; r = r->next)
if (difftime(now, r->time) > (float)PING_CACHE_TIME)
victim = r; /* old record */
else
{
count++;
if (r->addr.s_addr == addr.s_addr)
return r;
}
/* didn't find cached entry */
if ((count >= max) || option_bool(OPT_NO_PING) || loopback)
{
/* overloaded, or configured not to check, loopback interface, return "not in use" */
dummy.hash = hash;
return &dummy;
}
else if (icmp_ping(addr))
return NULL; /* address in use. */
else
{
/* at this point victim may hold an expired record */
if (!victim)
{
if ((victim = whine_malloc(sizeof(struct ping_result))))
{
victim->next = daemon->ping_results;
daemon->ping_results = victim;
}
}
/* record that this address is OK for 30s
without more ping checks */
if (victim)
{
victim->addr = addr;
victim->time = now;
victim->hash = hash;
}
return victim;
}
}
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)
{
/* Find a free address: exclude anything in use and anything allocated to
a particular hwaddr/clientid/hostname in our configuration.
Try to return from contexts which match netids first. */
struct in_addr start, addr;
struct dhcp_context *c, *d;
int i, pass;
unsigned int j;
/* hash hwaddr: use the SDBM hashing algorithm. Seems to give good
dispersal even with similarly-valued "strings". */
for (j = 0, i = 0; i < hw_len; i++)
j = hwaddr[i] + (j << 6) + (j << 16) - j;
/* j == 0 is marker */
if (j == 0)
j = 1;
for (pass = 0; pass <= 1; pass++)
for (c = context; c; c = c->current)
if (c->flags & (CONTEXT_STATIC | CONTEXT_PROXY))
continue;
else if (!match_netid(c->filter, netids, pass))
continue;
else
{
if (option_bool(OPT_CONSEC_ADDR))
/* seed is largest extant lease addr in this context */
start = lease_find_max_addr(c);
else
/* pick a seed based on hwaddr */
start.s_addr = htonl(ntohl(c->start.s_addr) +
((j + c->addr_epoch) % (1 + ntohl(c->end.s_addr) - ntohl(c->start.s_addr))));
/* iterate until we find a free address. */
addr = start;
do {
/* eliminate addresses in use by the server. */
for (d = context; d; d = d->current)
if (addr.s_addr == d->router.s_addr)
break;
/* Addresses which end in .255 and .0 are broken in Windows even when using
supernetting. ie dhcp-range=192.168.0.1,192.168.1.254,255,255,254.0
then 192.168.0.255 is a valid IP address, but not for Windows as it's
in the class C range. See KB281579. We therefore don't allocate these
addresses to avoid hard-to-diagnose problems. Thanks Bill. */
if (!d &&
!lease_find_by_addr(addr) &&
!config_find_by_address(daemon->dhcp_conf, addr) &&
(!IN_CLASSC(ntohl(addr.s_addr)) ||
((ntohl(addr.s_addr) & 0xff) != 0xff && ((ntohl(addr.s_addr) & 0xff) != 0x0))))
{
/* in consec-ip mode, skip addresses equal to
the number of addresses rejected by clients. This
should avoid the same client being offered the same
address after it has rjected it. */
if (option_bool(OPT_CONSEC_ADDR) && c->addr_epoch)
c->addr_epoch--;
else
{
struct ping_result *r;
if ((r = do_icmp_ping(now, addr, j, loopback)))
{
/* consec-ip mode: we offered this address for another client
(different hash) recently, don't offer it to this one. */
if (!option_bool(OPT_CONSEC_ADDR) || r->hash == j)
{
*addrp = addr;
return 1;
}
}
else
{
/* address in use: perturb address selection so that we are
less likely to try this address again. */
if (!option_bool(OPT_CONSEC_ADDR))
c->addr_epoch++;
}
}
}
addr.s_addr = htonl(ntohl(addr.s_addr) + 1);
if (addr.s_addr == htonl(ntohl(c->end.s_addr) + 1))
addr = c->start;
} while (addr.s_addr != start.s_addr);
}
return 0;
}
void dhcp_read_ethers(void)
{
FILE *f = fopen(ETHERSFILE, "r");
unsigned int flags;
char *buff = daemon->namebuff;
char *ip, *cp;
struct in_addr addr;
unsigned char hwaddr[ETHER_ADDR_LEN];
struct dhcp_config **up, *tmp;
struct dhcp_config *config;
int count = 0, lineno = 0;
addr.s_addr = 0; /* eliminate warning */
if (!f)
{
my_syslog(MS_DHCP | LOG_ERR, _("failed to read %s: %s"), ETHERSFILE, strerror(errno));
return;
}
/* This can be called again on SIGHUP, so remove entries created last time round. */
for (up = &daemon->dhcp_conf, config = daemon->dhcp_conf; config; config = tmp)
{
tmp = config->next;
if (config->flags & CONFIG_FROM_ETHERS)
{
*up = tmp;
/* cannot have a clid */
if (config->flags & CONFIG_NAME)
free(config->hostname);
free(config->hwaddr);
free(config);
}
else
up = &config->next;
}
while (fgets(buff, MAXDNAME, f))
{
char *host = NULL;
lineno++;
while (strlen(buff) > 0 && isspace((int)buff[strlen(buff)-1]))
buff[strlen(buff)-1] = 0;
if ((*buff == '#') || (*buff == '+') || (*buff == 0))
continue;
for (ip = buff; *ip && !isspace((int)*ip); ip++);
for(; *ip && isspace((int)*ip); ip++)
*ip = 0;
if (!*ip || parse_hex(buff, hwaddr, ETHER_ADDR_LEN, NULL, NULL) != ETHER_ADDR_LEN)
{
my_syslog(MS_DHCP | LOG_ERR, _("bad line at %s line %d"), ETHERSFILE, lineno);
continue;
}
/* check for name or dotted-quad */
for (cp = ip; *cp; cp++)
if (!(*cp == '.' || (*cp >='0' && *cp <= '9')))
break;
if (!*cp)
{
if (inet_pton(AF_INET, ip, &addr.s_addr) < 1)
{
my_syslog(MS_DHCP | LOG_ERR, _("bad address at %s line %d"), ETHERSFILE, lineno);
continue;
}
flags = CONFIG_ADDR;
for (config = daemon->dhcp_conf; config; config = config->next)
if ((config->flags & CONFIG_ADDR) && config->addr.s_addr == addr.s_addr)
break;
}
else
{
int nomem;
if (!(host = canonicalise(ip, &nomem)) || !legal_hostname(host))
{
if (!nomem)
my_syslog(MS_DHCP | LOG_ERR, _("bad name at %s line %d"), ETHERSFILE, lineno);
free(host);
continue;
}
flags = CONFIG_NAME;
for (config = daemon->dhcp_conf; config; config = config->next)
if ((config->flags & CONFIG_NAME) && hostname_isequal(config->hostname, host))
break;
}
if (config && (config->flags & CONFIG_FROM_ETHERS))
{
my_syslog(MS_DHCP | LOG_ERR, _("ignoring %s line %d, duplicate name or IP address"), ETHERSFILE, lineno);
continue;
}
if (!config)
{
for (config = daemon->dhcp_conf; config; config = config->next)
{
struct hwaddr_config *conf_addr = config->hwaddr;
if (conf_addr &&
conf_addr->next == NULL &&
conf_addr->wildcard_mask == 0 &&
conf_addr->hwaddr_len == ETHER_ADDR_LEN &&
(conf_addr->hwaddr_type == ARPHRD_ETHER || conf_addr->hwaddr_type == 0) &&
memcmp(conf_addr->hwaddr, hwaddr, ETHER_ADDR_LEN) == 0)
break;
}
if (!config)
{
if (!(config = whine_malloc(sizeof(struct dhcp_config))))
continue;
config->flags = CONFIG_FROM_ETHERS;
config->hwaddr = NULL;
config->domain = NULL;
config->netid = NULL;
config->next = daemon->dhcp_conf;
daemon->dhcp_conf = config;
}
config->flags |= flags;
if (flags & CONFIG_NAME)
{
config->hostname = host;
host = NULL;
}
if (flags & CONFIG_ADDR)
config->addr = addr;
}
config->flags |= CONFIG_NOCLID;
if (!config->hwaddr)
config->hwaddr = whine_malloc(sizeof(struct hwaddr_config));
if (config->hwaddr)
{
memcpy(config->hwaddr->hwaddr, hwaddr, ETHER_ADDR_LEN);
config->hwaddr->hwaddr_len = ETHER_ADDR_LEN;
config->hwaddr->hwaddr_type = ARPHRD_ETHER;
config->hwaddr->wildcard_mask = 0;
config->hwaddr->next = NULL;
}
count++;
free(host);
}
fclose(f);
my_syslog(MS_DHCP | LOG_INFO, _("read %s - %d addresses"), ETHERSFILE, count);
}
/* If we've not found a hostname any other way, try and see if there's one in /etc/hosts
for this address. If it has a domain part, that must match the set domain and
it gets stripped. The set of legal domain names is bigger than the set of legal hostnames
so check here that the domain name is legal as a hostname.
NOTE: we're only allowed to overwrite daemon->dhcp_buff if we succeed. */
char *host_from_dns(struct in_addr addr)
{
struct crec *lookup;
if (daemon->port == 0)
return NULL; /* DNS disabled. */
lookup = cache_find_by_addr(NULL, (union all_addr *)&addr, 0, F_IPV4);
if (lookup && (lookup->flags & F_HOSTS))
{
char *dot, *hostname = cache_get_name(lookup);
dot = strchr(hostname, '.');
if (dot && strlen(dot+1) != 0)
{
char *d2 = get_domain(addr);
if (!d2 || !hostname_isequal(dot+1, d2))
return NULL; /* wrong domain */
}
if (!legal_hostname(hostname))
return NULL;
safe_strncpy(daemon->dhcp_buff, hostname, 256);
strip_hostname(daemon->dhcp_buff);
return daemon->dhcp_buff;
}
return NULL;
}
static int relay_upstream4(struct dhcp_relay *relay, struct dhcp_packet *mess, size_t sz, int iface_index)
{
/* ->local is same value for all relays on ->current chain */
union all_addr from;
if (mess->op != BOOTREQUEST)
return 0;
/* source address == relay address */
from.addr4 = relay->local.addr4;
/* already gatewayed ? */
if (mess->giaddr.s_addr)
{
/* if so check if by us, to stomp on loops. */
if (mess->giaddr.s_addr == relay->local.addr4.s_addr)
return 1;
}
else
{
/* plug in our address */
mess->giaddr.s_addr = relay->local.addr4.s_addr;
}
if ((mess->hops++) > 20)
return 1;
for (; relay; relay = relay->current)
{
union mysockaddr to;
to.sa.sa_family = AF_INET;
to.in.sin_addr = relay->server.addr4;
to.in.sin_port = htons(daemon->dhcp_server_port);
send_from(daemon->dhcpfd, 0, (char *)mess, sz, &to, &from, 0);
if (option_bool(OPT_LOG_OPTS))
{
inet_ntop(AF_INET, &relay->local, daemon->addrbuff, ADDRSTRLEN);
inet_ntop(AF_INET, &relay->server.addr4, daemon->dhcp_buff2, DHCP_BUFF_SZ);
my_syslog(MS_DHCP | LOG_INFO, _("DHCP relay %s -> %s"), daemon->addrbuff, daemon->dhcp_buff2);
}
/* Save this for replies */
relay->iface_index = iface_index;
}
return 1;
}
static struct dhcp_relay *relay_reply4(struct dhcp_packet *mess, char *arrival_interface)
{
struct dhcp_relay *relay;
if (mess->giaddr.s_addr == 0 || mess->op != BOOTREPLY)
return NULL;
for (relay = daemon->relay4; relay; relay = relay->next)
{
if (mess->giaddr.s_addr == relay->local.addr4.s_addr)
{
if (!relay->interface || wildcard_match(relay->interface, arrival_interface))
return relay->iface_index != 0 ? relay : NULL;
}
}
return NULL;
}
#endif
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