/* $OpenBSD: dhcp.c,v 1.22 2006/03/16 15:44:40 claudio Exp $ */ /* * Copyright (c) 1995, 1996, 1997, 1998, 1999 * The Internet Software Consortium. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of The Internet Software Consortium nor the names * of its contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE INTERNET SOFTWARE CONSORTIUM AND * CONTRIBUTORS ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, * INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL THE INTERNET SOFTWARE CONSORTIUM OR * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF * USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT * OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * This software has been written for the Internet Software Consortium * by Ted Lemon in cooperation with Vixie * Enterprises. To learn more about the Internet Software Consortium, * see ``http://www.vix.com/isc''. To learn more about Vixie * Enterprises, see ``http://www.vix.com''. */ #include "dhcpd.h" int outstanding_pings; static char dhcp_message[256]; void dhcp(struct packet *packet) { if (!locate_network(packet) && packet->packet_type != DHCPREQUEST) return; switch (packet->packet_type) { case DHCPDISCOVER: dhcpdiscover(packet); break; case DHCPREQUEST: dhcprequest(packet); break; case DHCPRELEASE: dhcprelease(packet); break; case DHCPDECLINE: dhcpdecline(packet); break; case DHCPINFORM: dhcpinform(packet); break; default: break; } } void dhcpdiscover(struct packet *packet) { struct lease *lease = find_lease(packet, packet->shared_network, 0); struct host_decl *hp; note("DHCPDISCOVER from %s via %s", print_hw_addr(packet->raw->htype, packet->raw->hlen, packet->raw->chaddr), packet->raw->giaddr.s_addr ? inet_ntoa(packet->raw->giaddr) : packet->interface->name); /* Sourceless packets don't make sense here. */ if (!packet->shared_network) { note("Packet from unknown subnet: %s", inet_ntoa(packet->raw->giaddr)); return; } /* If we didn't find a lease, try to allocate one... */ if (!lease) { lease = packet->shared_network->last_lease; /* * If there are no leases in that subnet that have * expired, we have nothing to offer this client. */ if (!lease || lease->ends > cur_time) { note("no free leases on subnet %s", packet->shared_network->name); return; } /* * If we find an abandoned lease, take it, but print a * warning message, so that if it continues to lose, * the administrator will eventually investigate. */ if ((lease->flags & ABANDONED_LEASE)) { struct lease *lp; /* See if we can find an unabandoned lease first. */ for (lp = lease; lp; lp = lp->prev) { if (lp->ends > cur_time) break; if (!(lp->flags & ABANDONED_LEASE)) { lease = lp; break; } } /* * If we can't find an unabandoned lease, * reclaim the abandoned lease. */ if ((lease->flags & ABANDONED_LEASE)) { warning("Reclaiming abandoned IP address %s.", piaddr(lease->ip_addr)); lease->flags &= ~ABANDONED_LEASE; } } /* Try to find a host_decl that matches the client identifier or hardware address on the packet, and has no fixed IP address. If there is one, hang it off the lease so that its option definitions can be used. */ if (((packet->options[DHO_DHCP_CLIENT_IDENTIFIER].len != 0) && ((hp = find_hosts_by_uid( packet->options[DHO_DHCP_CLIENT_IDENTIFIER].data, packet->options[DHO_DHCP_CLIENT_IDENTIFIER].len)) != NULL)) || ((hp = find_hosts_by_haddr(packet->raw->htype, packet->raw->chaddr, packet->raw->hlen)) != NULL)) { for (; hp; hp = hp->n_ipaddr) { if (!hp->fixed_addr) { lease->host = hp; break; } } } else lease->host = NULL; } /* If this subnet won't boot unknown clients, ignore the request. */ if (!lease->host && !lease->subnet->group->boot_unknown_clients) { note("Ignoring unknown client %s", print_hw_addr(packet->raw->htype, packet->raw->hlen, packet->raw->chaddr)); } else if (lease->host && !lease->host->group->allow_booting) { note("Declining to boot client %s", lease->host->name ? lease->host->name : print_hw_addr(packet->raw->htype, packet->raw->hlen, packet->raw->chaddr)); } else ack_lease(packet, lease, DHCPOFFER, cur_time + 120); } void dhcprequest(struct packet *packet) { struct lease *lease; struct iaddr cip; struct subnet *subnet; int ours = 0; cip.len = 4; if (packet->options[DHO_DHCP_REQUESTED_ADDRESS].len) memcpy(cip.iabuf, packet->options[DHO_DHCP_REQUESTED_ADDRESS].data, 4); else memcpy(cip.iabuf, &packet->raw->ciaddr.s_addr, 4); subnet = find_subnet(cip); /* Find the lease that matches the address requested by the client. */ if (subnet) lease = find_lease(packet, subnet->shared_network, &ours); else lease = NULL; note("DHCPREQUEST for %s from %s via %s", piaddr(cip), print_hw_addr(packet->raw->htype, packet->raw->hlen, packet->raw->chaddr), packet->raw->giaddr.s_addr ? inet_ntoa(packet->raw->giaddr) : packet->interface->name); /* If a client on a given network REQUESTs a lease on an * address on a different network, NAK it. If the Requested * Address option was used, the protocol says that it must * have been broadcast, so we can trust the source network * information. * * If ciaddr was specified and Requested Address was not, then * we really only know for sure what network a packet came from * if it came through a BOOTP gateway - if it came through an * IP router, we'll just have to assume that it's cool. * * If we don't think we know where the packet came from, it * came through a gateway from an unknown network, so it's not * from a RENEWING client. If we recognize the network it * *thinks* it's on, we can NAK it even though we don't * recognize the network it's *actually* on; otherwise we just * have to ignore it. * * We don't currently try to take advantage of access to the * raw packet, because it's not available on all platforms. * So a packet that was unicast to us through a router from a * RENEWING client is going to look exactly like a packet that * was broadcast to us from an INIT-REBOOT client. * * Since we can't tell the difference between these two kinds * of packets, if the packet appears to have come in off the * local wire, we have to treat it as if it's a RENEWING * client. This means that we can't NAK a RENEWING client on * the local wire that has a bogus address. The good news is * that we won't ACK it either, so it should revert to INIT * state and send us a DHCPDISCOVER, which we *can* work with. * * Because we can't detect that a RENEWING client is on the * wrong wire, it's going to sit there trying to renew until * it gets to the REBIND state, when we *can* NAK it because * the packet will get to us through a BOOTP gateway. We * shouldn't actually see DHCPREQUEST packets from RENEWING * clients on the wrong wire anyway, since their idea of their * local router will be wrong. In any case, the protocol * doesn't really allow us to NAK a DHCPREQUEST from a * RENEWING client, so we can punt on this issue. */ if (!packet->shared_network || (packet->raw->ciaddr.s_addr && packet->raw->giaddr.s_addr) || (packet->options[DHO_DHCP_REQUESTED_ADDRESS].len && !packet->raw->ciaddr.s_addr)) { /* * If we don't know where it came from but we do know * where it claims to have come from, it didn't come * from there. Fry it. */ if (!packet->shared_network) { if (subnet && subnet->shared_network->group->authoritative) { nak_lease(packet, &cip); return; } /* Otherwise, ignore it. */ return; } /* * If we do know where it came from and it asked for an * address that is not on that shared network, nak it. */ subnet = find_grouped_subnet(packet->shared_network, cip); if (!subnet) { if (packet->shared_network->group->authoritative) nak_lease(packet, &cip); return; } } /* * If we found a lease for the client but it's not the one the * client asked for, don't send it - some other server probably * made the cut. */ if (lease && !addr_eq(lease->ip_addr, cip)) { /* * If we found the address the client asked for, but * it wasn't what got picked, the lease belongs to us, * so we should NAK it. */ if (ours) nak_lease(packet, &cip); return; } /* * If the address the client asked for is ours, but it wasn't * available for the client, NAK it. */ if (!lease && ours) { nak_lease(packet, &cip); return; } /* If we're not allowed to serve this client anymore, don't. */ if (lease && !lease->host && !lease->subnet->group->boot_unknown_clients) { note("Ignoring unknown client %s", print_hw_addr(packet->raw->htype, packet->raw->hlen, packet->raw->chaddr)); return; } else if (lease && lease->host && !lease->host->group->allow_booting) { note("Declining to renew client %s", lease->host->name ? lease->host->name : print_hw_addr(packet->raw->htype, packet->raw->hlen, packet->raw->chaddr)); return; } /* * If we own the lease that the client is asking for, * and it's already been assigned to the client, ack it. */ if (lease && ((lease->uid_len && lease->uid_len == packet->options[DHO_DHCP_CLIENT_IDENTIFIER].len && !memcmp(packet->options[DHO_DHCP_CLIENT_IDENTIFIER].data, lease->uid, lease->uid_len)) || (lease->hardware_addr.hlen == packet->raw->hlen && lease->hardware_addr.htype == packet->raw->htype && !memcmp(lease->hardware_addr.haddr, packet->raw->chaddr, packet->raw->hlen)))) { ack_lease(packet, lease, DHCPACK, 0); return; } /* * At this point, the client has requested a lease, and it's * available, but it wasn't assigned to the client, which * means that the client probably hasn't gone through the * DHCPDISCOVER part of the protocol. We are within our * rights to send a DHCPNAK. We can also send a DHCPACK. * The thing we probably should not do is to remain silent. * For now, we'll just assign the lease to the client anyway. */ if (lease) ack_lease(packet, lease, DHCPACK, 0); } void dhcprelease(struct packet *packet) { struct lease *lease; struct iaddr cip; int i; /* * DHCPRELEASE must not specify address in requested-address * option, but old protocol specs weren't explicit about this, * so let it go. */ if (packet->options[DHO_DHCP_REQUESTED_ADDRESS].len) { note("DHCPRELEASE from %s specified requested-address.", print_hw_addr(packet->raw->htype, packet->raw->hlen, packet->raw->chaddr)); } i = DHO_DHCP_CLIENT_IDENTIFIER; if (packet->options[i].len) { lease = find_lease_by_uid(packet->options[i].data, packet->options[i].len); /* * See if we can find a lease that matches the * IP address the client is claiming. */ for (; lease; lease = lease->n_uid) { if (!memcmp(&packet->raw->ciaddr, lease->ip_addr.iabuf, 4)) { break; } } } else { /* * The client is supposed to pass a valid client-identifier, * but the spec on this has changed historically, so try the * IP address in ciaddr if the client-identifier fails. */ cip.len = 4; memcpy(cip.iabuf, &packet->raw->ciaddr, 4); lease = find_lease_by_ip_addr(cip); } note("DHCPRELEASE of %s from %s via %s (%sfound)", inet_ntoa(packet->raw->ciaddr), print_hw_addr(packet->raw->htype, packet->raw->hlen, packet->raw->chaddr), packet->raw->giaddr.s_addr ? inet_ntoa(packet->raw->giaddr) : packet->interface->name, lease ? "" : "not "); /* If we're already acking this lease, don't do it again. */ if (lease && lease->state) { note("DHCPRELEASE already acking lease %s", piaddr(lease->ip_addr)); return; } /* If we found a lease, release it. */ if (lease && lease->ends > cur_time) { /* * First, we ping this lease to see if it's still * there. if it is, we don't release it. This avoids * the problem of spoofed releases being used to liberate * addresses from the server. */ if (!lease->releasing) { note("DHCPRELEASE of %s from %s via %s (found)", inet_ntoa(packet->raw->ciaddr), print_hw_addr(packet->raw->htype, packet->raw->hlen, packet->raw->chaddr), packet->raw->giaddr.s_addr ? inet_ntoa(packet->raw->giaddr) : packet->interface->name); lease->releasing = 1; add_timeout(cur_time + 1, lease_ping_timeout, lease); icmp_echorequest(&(lease->ip_addr)); ++outstanding_pings; } else { note("DHCPRELEASE of %s from %s via %s ignored " "(release already pending)", inet_ntoa(packet->raw->ciaddr), print_hw_addr(packet->raw->htype, packet->raw->hlen, packet->raw->chaddr), packet->raw->giaddr.s_addr ? inet_ntoa(packet->raw->giaddr) : packet->interface->name); } } else { note("DHCPRELEASE of %s from %s via %s for nonexistent lease", inet_ntoa(packet->raw->ciaddr), print_hw_addr(packet->raw->htype, packet->raw->hlen, packet->raw->chaddr), packet->raw->giaddr.s_addr ? inet_ntoa(packet->raw->giaddr) : packet->interface->name); } } void dhcpdecline(struct packet *packet) { struct lease *lease; struct iaddr cip; /* DHCPDECLINE must specify address. */ if (!packet->options[DHO_DHCP_REQUESTED_ADDRESS].len) return; cip.len = 4; memcpy(cip.iabuf, packet->options[DHO_DHCP_REQUESTED_ADDRESS].data, 4); lease = find_lease_by_ip_addr(cip); note("DHCPDECLINE on %s from %s via %s", piaddr(cip), print_hw_addr(packet->raw->htype, packet->raw->hlen, packet->raw->chaddr), packet->raw->giaddr.s_addr ? inet_ntoa(packet->raw->giaddr) : packet->interface->name); /* If we're already acking this lease, don't do it again. */ if (lease && lease->state) { note("DHCPDECLINE already acking lease %s", piaddr(lease->ip_addr)); return; } /* If we found a lease, mark it as unusable and complain. */ if (lease) abandon_lease(lease, "declined."); } void dhcpinform(struct packet *packet) { note("DHCPINFORM from %s", inet_ntoa(packet->raw->ciaddr)); } void nak_lease(struct packet *packet, struct iaddr *cip) { struct sockaddr_in to; struct in_addr from; int result, i; struct dhcp_packet raw; unsigned char nak = DHCPNAK; struct packet outgoing; struct tree_cache *options[256], dhcpnak_tree, dhcpmsg_tree; memset(options, 0, sizeof options); memset(&outgoing, 0, sizeof outgoing); memset(&raw, 0, sizeof raw); outgoing.raw = &raw; /* Set DHCP_MESSAGE_TYPE to DHCPNAK */ options[DHO_DHCP_MESSAGE_TYPE] = &dhcpnak_tree; options[DHO_DHCP_MESSAGE_TYPE]->value = &nak; options[DHO_DHCP_MESSAGE_TYPE]->len = sizeof nak; options[DHO_DHCP_MESSAGE_TYPE]->buf_size = sizeof nak; options[DHO_DHCP_MESSAGE_TYPE]->timeout = -1; options[DHO_DHCP_MESSAGE_TYPE]->tree = NULL; /* Set DHCP_MESSAGE to whatever the message is */ options[DHO_DHCP_MESSAGE] = &dhcpmsg_tree; options[DHO_DHCP_MESSAGE]->value = (unsigned char *)dhcp_message; options[DHO_DHCP_MESSAGE]->len = strlen(dhcp_message); options[DHO_DHCP_MESSAGE]->buf_size = strlen(dhcp_message); options[DHO_DHCP_MESSAGE]->timeout = -1; options[DHO_DHCP_MESSAGE]->tree = NULL; /* Do not use the client's requested parameter list. */ i = DHO_DHCP_PARAMETER_REQUEST_LIST; if (packet->options[i].data) { packet->options[i].len = 0; dfree(packet->options[i].data, "nak_lease"); packet->options[i].data = NULL; } /* Set up the option buffer... */ outgoing.packet_length = cons_options(packet, outgoing.raw, 0, options, 0, 0, 0, NULL, 0); /* memset(&raw.ciaddr, 0, sizeof raw.ciaddr);*/ raw.siaddr = packet->interface->primary_address; raw.giaddr = packet->raw->giaddr; memcpy(raw.chaddr, packet->raw->chaddr, sizeof raw.chaddr); raw.hlen = packet->raw->hlen; raw.htype = packet->raw->htype; raw.xid = packet->raw->xid; raw.secs = packet->raw->secs; raw.flags = packet->raw->flags | htons(BOOTP_BROADCAST); raw.hops = packet->raw->hops; raw.op = BOOTREPLY; /* Report what we're sending... */ note("DHCPNAK on %s to %s via %s", piaddr(*cip), print_hw_addr(packet->raw->htype, packet->raw->hlen, packet->raw->chaddr), packet->raw->giaddr.s_addr ? inet_ntoa(packet->raw->giaddr) : packet->interface->name); /* Set up the common stuff... */ memset(&to, 0, sizeof to); to.sin_family = AF_INET; to.sin_len = sizeof to; from = packet->interface->primary_address; /* Make sure that the packet is at least as big as a BOOTP packet. */ if (outgoing.packet_length < BOOTP_MIN_LEN) outgoing.packet_length = BOOTP_MIN_LEN; /* * If this was gatewayed, send it back to the gateway. * Otherwise, broadcast it on the local network. */ if (raw.giaddr.s_addr) { to.sin_addr = raw.giaddr; to.sin_port = server_port; result = send_packet(packet->interface, &raw, outgoing.packet_length, from, &to, packet->haddr); if (result == -1) warning("send_fallback: %m"); return; } else { to.sin_addr.s_addr = htonl(INADDR_BROADCAST); to.sin_port = client_port; } errno = 0; result = send_packet(packet->interface, &raw, outgoing.packet_length, from, &to, NULL); } void ack_lease(struct packet *packet, struct lease *lease, unsigned int offer, time_t when) { struct lease lt; struct lease_state *state; time_t lease_time, offered_lease_time, max_lease_time, default_lease_time; struct class *vendor_class, *user_class; int ulafdr, i; /* If we're already acking this lease, don't do it again. */ if (lease->state) { if ((lease->flags & STATIC_LEASE) || cur_time - lease->timestamp < 60) { note("already acking lease %s", piaddr(lease->ip_addr)); return; } free_lease_state(lease->state, "ACK timed out"); lease->state = NULL; } if (packet->options[DHO_DHCP_CLASS_IDENTIFIER].len) { vendor_class =find_class(0, packet->options[DHO_DHCP_CLASS_IDENTIFIER].data, packet->options[DHO_DHCP_CLASS_IDENTIFIER].len); } else vendor_class = NULL; if (packet->options[DHO_DHCP_USER_CLASS_ID].len) { user_class = find_class(1, packet->options[DHO_DHCP_USER_CLASS_ID].data, packet->options[DHO_DHCP_USER_CLASS_ID].len); } else user_class = NULL; /* * If there is not a specific host entry, and either the * vendor class or user class (if they exist) deny booting, * then bug out. */ if (!lease->host) { if (vendor_class && !vendor_class->group->allow_booting) { debug("Booting denied by vendor class"); return; } if (user_class && !user_class->group->allow_booting) { debug("Booting denied by user class"); return; } } /* Allocate a lease state structure... */ state = new_lease_state("ack_lease"); if (!state) error("unable to allocate lease state!"); memset(state, 0, sizeof *state); state->got_requested_address = packet->got_requested_address; state->shared_network = packet->interface->shared_network; /* Remember if we got a server identifier option. */ if (packet->options[DHO_DHCP_SERVER_IDENTIFIER].len) state->got_server_identifier = 1; /* Replace the old lease hostname with the new one, if it's changed. */ if (packet->options[DHO_HOST_NAME].len && lease->client_hostname && (strlen(lease->client_hostname) == packet->options[DHO_HOST_NAME].len) && !memcmp(lease->client_hostname, packet->options[DHO_HOST_NAME].data, packet->options[DHO_HOST_NAME].len)) { } else if (packet->options[DHO_HOST_NAME].len) { if (lease->client_hostname) free(lease->client_hostname); lease->client_hostname = malloc( packet->options[DHO_HOST_NAME].len + 1); if (!lease->client_hostname) error("no memory for client hostname.\n"); memcpy(lease->client_hostname, packet->options[DHO_HOST_NAME].data, packet->options[DHO_HOST_NAME].len); lease->client_hostname[packet->options[DHO_HOST_NAME].len] = 0; } else if (lease->client_hostname) { free(lease->client_hostname); lease->client_hostname = 0; } /* * Choose a filename; first from the host_decl, if any, then from * the user class, then from the vendor class. */ if (lease->host && lease->host->group->filename) strlcpy(state->filename, lease->host->group->filename, sizeof state->filename); else if (user_class && user_class->group->filename) strlcpy(state->filename, user_class->group->filename, sizeof state->filename); else if (vendor_class && vendor_class->group->filename) strlcpy(state->filename, vendor_class->group->filename, sizeof state->filename); else if (packet->raw->file[0]) strlcpy(state->filename, packet->raw->file, sizeof state->filename); else if (lease->subnet->group->filename) strlcpy(state->filename, lease->subnet->group->filename, sizeof state->filename); else strlcpy(state->filename, "", sizeof state->filename); /* Choose a server name as above. */ if (lease->host && lease->host->group->server_name) state->server_name = lease->host->group->server_name; else if (user_class && user_class->group->server_name) state->server_name = user_class->group->server_name; else if (vendor_class && vendor_class->group->server_name) state->server_name = vendor_class->group->server_name; else if (lease->subnet->group->server_name) state->server_name = lease->subnet->group->server_name; else state->server_name = NULL; /* * At this point, we have a lease that we can offer the client. * Now we construct a lease structure that contains what we want, * and call supersede_lease to do the right thing with it. */ memset(<, 0, sizeof lt); /* * Use the ip address of the lease that we finally found in * the database. */ lt.ip_addr = lease->ip_addr; /* Start now. */ lt.starts = cur_time; /* Figure out maximum lease time. */ if (lease->host && lease->host->group->max_lease_time) max_lease_time = lease->host->group->max_lease_time; else max_lease_time = lease->subnet->group->max_lease_time; /* Figure out default lease time. */ if (lease->host && lease->host->group->default_lease_time) default_lease_time = lease->host->group->default_lease_time; else default_lease_time = lease->subnet->group->default_lease_time; /* * Figure out how long a lease to assign. If this is a * dynamic BOOTP lease, its duration must be infinite. */ if (offer) { if (packet->options[DHO_DHCP_LEASE_TIME].len == 4) { lease_time = getULong( packet->options[DHO_DHCP_LEASE_TIME].data); /* * Don't let the client ask for a longer lease than * is supported for this subnet or host. * * time_t is signed, so really large numbers come * back as negative. Don't allow lease_time of 0, * either. */ if (lease_time < 1 || lease_time > max_lease_time) lease_time = max_lease_time; } else lease_time = default_lease_time; state->offered_expiry = cur_time + lease_time; if (when) lt.ends = when; else lt.ends = state->offered_expiry; } else { if (lease->host && lease->host->group->bootp_lease_length) lt.ends = (cur_time + lease->host->group->bootp_lease_length); else if (lease->subnet->group->bootp_lease_length) lt.ends = (cur_time + lease->subnet->group->bootp_lease_length); else if (lease->host && lease->host->group->bootp_lease_cutoff) lt.ends = lease->host->group->bootp_lease_cutoff; else lt.ends = lease->subnet->group->bootp_lease_cutoff; state->offered_expiry = lt.ends; lt.flags = BOOTP_LEASE; } /* Record the uid, if given... */ i = DHO_DHCP_CLIENT_IDENTIFIER; if (packet->options[i].len) { if (packet->options[i].len <= sizeof lt.uid_buf) { memcpy(lt.uid_buf, packet->options[i].data, packet->options[i].len); lt.uid = lt.uid_buf; lt.uid_max = sizeof lt.uid_buf; lt.uid_len = packet->options[i].len; } else { lt.uid_max = lt.uid_len = packet->options[i].len; lt.uid = (unsigned char *)malloc(lt.uid_max); if (!lt.uid) error("can't allocate memory for large uid."); memcpy(lt.uid, packet->options[i].data, lt.uid_len); } } lt.host = lease->host; lt.subnet = lease->subnet; lt.shared_network = lease->shared_network; /* Don't call supersede_lease on a mocked-up lease. */ if (lease->flags & STATIC_LEASE) { /* Copy the hardware address into the static lease structure. */ lease->hardware_addr.hlen = packet->raw->hlen; lease->hardware_addr.htype = packet->raw->htype; memcpy(lease->hardware_addr.haddr, packet->raw->chaddr, sizeof packet->raw->chaddr); /* XXX */ } else { /* Record the hardware address, if given... */ lt.hardware_addr.hlen = packet->raw->hlen; lt.hardware_addr.htype = packet->raw->htype; memcpy(lt.hardware_addr.haddr, packet->raw->chaddr, sizeof packet->raw->chaddr); /* Install the new information about this lease in the database. If this is a DHCPACK or a dynamic BOOTREPLY and we can't write the lease, don't ACK it (or BOOTREPLY it) either. */ if (!(supersede_lease(lease, <, !offer || offer == DHCPACK) || (offer && offer != DHCPACK))) { free_lease_state(state, "ack_lease: !supersede_lease"); return; } } /* Remember the interface on which the packet arrived. */ state->ip = packet->interface; /* Set a flag if this client is a lame Microsoft client that NUL terminates string options and expects us to do likewise. */ if (packet->options[DHO_HOST_NAME].data && packet->options[DHO_HOST_NAME].data[ packet->options[DHO_HOST_NAME].len - 1] == '\0') lease->flags |= MS_NULL_TERMINATION; else lease->flags &= ~MS_NULL_TERMINATION; /* Remember the giaddr, xid, secs, flags and hops. */ state->giaddr = packet->raw->giaddr; state->ciaddr = packet->raw->ciaddr; state->xid = packet->raw->xid; state->secs = packet->raw->secs; state->bootp_flags = packet->raw->flags; state->hops = packet->raw->hops; state->offer = offer; memcpy(&state->haddr, packet->haddr, sizeof state->haddr); /* Figure out what options to send to the client: */ /* Start out with the subnet options... */ memcpy(state->options, lease->subnet->group->options, sizeof state->options); /* Vendor and user classes are only supported for DHCP clients. */ if (state->offer) { /* If we have a vendor class, install those options, superseding any subnet options. */ if (vendor_class) { for (i = 0; i < 256; i++) if (vendor_class->group->options[i]) state->options[i] = vendor_class->group->options[i]; } /* If we have a user class, install those options, superseding any subnet and vendor class options. */ if (user_class) { for (i = 0; i < 256; i++) if (user_class->group->options[i]) state->options[i] = user_class->group->options[i]; } } /* If we have a host_decl structure, install the associated options, superseding anything that's in the way. */ if (lease->host) { for (i = 0; i < 256; i++) if (lease->host->group->options[i]) state->options[i] = lease->host->group->options[i]; } /* Get the Maximum Message Size option from the packet, if one was sent. */ i = DHO_DHCP_MAX_MESSAGE_SIZE; if (packet->options[i].data && packet->options[i].len == sizeof(u_int16_t)) state->max_message_size = getUShort(packet->options[i].data); /* Otherwise, if a maximum message size was specified, use that. */ else if (state->options[i] && state->options[i]->value) state->max_message_size = getUShort(state->options[i]->value); /* Save the parameter request list if there is one. */ i = DHO_DHCP_PARAMETER_REQUEST_LIST; if (packet->options[i].data) { state->prl = dmalloc(packet->options[i].len, "ack_lease: prl"); if (!state->prl) warning("no memory for parameter request list"); else { memcpy(state->prl, packet->options[i].data, packet->options[i].len); state->prl_len = packet->options[i].len; } } /* If we didn't get a hostname from an option somewhere, see if we can get one from the lease. */ i = DHO_HOST_NAME; if (!state->options[i] && lease->hostname) { state->options[i] = new_tree_cache("hostname"); state->options[i]->flags = TC_TEMPORARY; state->options[i]->value = (unsigned char *)lease->hostname; state->options[i]->len = strlen(lease->hostname); state->options[i]->buf_size = state->options[i]->len; state->options[i]->timeout = -1; state->options[i]->tree = NULL; } /* * Now, if appropriate, put in DHCP-specific options that * override those. */ if (state->offer) { i = DHO_DHCP_MESSAGE_TYPE; state->options[i] = new_tree_cache("message-type"); state->options[i]->flags = TC_TEMPORARY; state->options[i]->value = &state->offer; state->options[i]->len = sizeof state->offer; state->options[i]->buf_size = sizeof state->offer; state->options[i]->timeout = -1; state->options[i]->tree = NULL; i = DHO_DHCP_SERVER_IDENTIFIER; if (!state->options[i]) { use_primary: state->options[i] = new_tree_cache("server-id"); state->options[i]->value = (unsigned char *)&state->ip->primary_address; state->options[i]->len = sizeof state->ip->primary_address; state->options[i]->buf_size = state->options[i]->len; state->options[i]->timeout = -1; state->options[i]->tree = NULL; state->from.len = sizeof state->ip->primary_address; memcpy(state->from.iabuf, &state->ip->primary_address, state->from.len); } else { /* Find the value of the server identifier... */ if (!tree_evaluate(state->options[i])) goto use_primary; if (!state->options[i]->value || (state->options[i]->len > sizeof state->from.iabuf)) goto use_primary; state->from.len = state->options[i]->len; memcpy(state->from.iabuf, state->options[i]->value, state->from.len); } /* Sanity check the lease time. */ if ((state->offered_expiry - cur_time) < 15) offered_lease_time = default_lease_time; else if (state->offered_expiry - cur_time > max_lease_time) offered_lease_time = max_lease_time; else offered_lease_time = state->offered_expiry - cur_time; putULong((unsigned char *)&state->expiry, offered_lease_time); i = DHO_DHCP_LEASE_TIME; state->options[i] = new_tree_cache("lease-expiry"); state->options[i]->flags = TC_TEMPORARY; state->options[i]->value = (unsigned char *)&state->expiry; state->options[i]->len = sizeof state->expiry; state->options[i]->buf_size = sizeof state->expiry; state->options[i]->timeout = -1; state->options[i]->tree = NULL; /* Renewal time is lease time * 0.5. */ offered_lease_time /= 2; putULong((unsigned char *)&state->renewal, offered_lease_time); i = DHO_DHCP_RENEWAL_TIME; state->options[i] = new_tree_cache("renewal-time"); state->options[i]->flags = TC_TEMPORARY; state->options[i]->value = (unsigned char *)&state->renewal; state->options[i]->len = sizeof state->renewal; state->options[i]->buf_size = sizeof state->renewal; state->options[i]->timeout = -1; state->options[i]->tree = NULL; /* Rebinding time is lease time * 0.875. */ offered_lease_time += (offered_lease_time / 2 + offered_lease_time / 4); putULong((unsigned char *)&state->rebind, offered_lease_time); i = DHO_DHCP_REBINDING_TIME; state->options[i] = new_tree_cache("rebind-time"); state->options[i]->flags = TC_TEMPORARY; state->options[i]->value = (unsigned char *)&state->rebind; state->options[i]->len = sizeof state->rebind; state->options[i]->buf_size = sizeof state->rebind; state->options[i]->timeout = -1; state->options[i]->tree = NULL; /* If we used the vendor class the client specified, we have to return it. */ if (vendor_class) { i = DHO_DHCP_CLASS_IDENTIFIER; state->options[i] = new_tree_cache("class-identifier"); state->options[i]->flags = TC_TEMPORARY; state->options[i]->value = (unsigned char *)vendor_class->name; state->options[i]->len = strlen(vendor_class->name); state->options[i]->buf_size = state->options[i]->len; state->options[i]->timeout = -1; state->options[i]->tree = NULL; } /* If we used the user class the client specified, we have to return it. */ if (user_class) { i = DHO_DHCP_USER_CLASS_ID; state->options[i] = new_tree_cache("user-class"); state->options[i]->flags = TC_TEMPORARY; state->options[i]->value = (unsigned char *)user_class->name; state->options[i]->len = strlen(user_class->name); state->options[i]->buf_size = state->options[i]->len; state->options[i]->timeout = -1; state->options[i]->tree = NULL; } } /* Use the subnet mask from the subnet declaration if no other mask has been provided. */ i = DHO_SUBNET_MASK; if (!state->options[i]) { state->options[i] = new_tree_cache("subnet-mask"); state->options[i]->flags = TC_TEMPORARY; state->options[i]->value = lease->subnet->netmask.iabuf; state->options[i]->len = lease->subnet->netmask.len; state->options[i]->buf_size = lease->subnet->netmask.len; state->options[i]->timeout = -1; state->options[i]->tree = NULL; } /* If so directed, use the leased IP address as the router address. This supposedly makes Win95 machines ARP for all IP addresses, so if the local router does proxy arp, you win. */ ulafdr = 0; if (lease->host) { if (lease->host->group->use_lease_addr_for_default_route) ulafdr = 1; } else if (user_class) { if (user_class->group->use_lease_addr_for_default_route) ulafdr = 1; } else if (vendor_class) { if (vendor_class->group->use_lease_addr_for_default_route) ulafdr = 1; } else if (lease->subnet->group->use_lease_addr_for_default_route) ulafdr = 1; else ulafdr = 0; i = DHO_ROUTERS; if (ulafdr && !state->options[i]) { state->options[i] = new_tree_cache("routers"); state->options[i]->flags = TC_TEMPORARY; state->options[i]->value = lease->ip_addr.iabuf; state->options[i]->len = lease->ip_addr.len; state->options[i]->buf_size = lease->ip_addr.len; state->options[i]->timeout = -1; state->options[i]->tree = NULL; } lease->state = state; /* If this is a DHCPOFFER, ping the lease address before actually sending the offer. */ if (offer == DHCPOFFER && !(lease->flags & STATIC_LEASE) && cur_time - lease->timestamp > 60) { lease->timestamp = cur_time; icmp_echorequest(&lease->ip_addr); add_timeout(cur_time + 1, lease_ping_timeout, lease); ++outstanding_pings; } else { lease->timestamp = cur_time; dhcp_reply(lease); } } void dhcp_reply(struct lease *lease) { int bufs = 0, packet_length, i; struct dhcp_packet raw; struct sockaddr_in to; struct in_addr from; struct lease_state *state = lease->state; int nulltp, bootpp; u_int8_t *prl; int prl_len; if (!state) error("dhcp_reply was supplied lease with no state!"); /* Compose a response for the client... */ memset(&raw, 0, sizeof raw); /* Copy in the filename if given; otherwise, flag the filename buffer as available for options. */ if (state->filename[0]) strlcpy(raw.file, state->filename, sizeof raw.file); else bufs |= 1; /* Copy in the server name if given; otherwise, flag the server_name buffer as available for options. */ if (state->server_name) strlcpy(raw.sname, state->server_name, sizeof raw.sname); else bufs |= 2; /* XXX */ memcpy(raw.chaddr, lease->hardware_addr.haddr, sizeof raw.chaddr); raw.hlen = lease->hardware_addr.hlen; raw.htype = lease->hardware_addr.htype; /* See if this is a Microsoft client that NUL-terminates its strings and expects us to do likewise... */ if (lease->flags & MS_NULL_TERMINATION) nulltp = 1; else nulltp = 0; /* See if this is a bootp client... */ if (state->offer) bootpp = 0; else bootpp = 1; if (state->options[DHO_DHCP_PARAMETER_REQUEST_LIST] && state->options[DHO_DHCP_PARAMETER_REQUEST_LIST]->value) { prl = state->options[DHO_DHCP_PARAMETER_REQUEST_LIST]->value; prl_len = state->options[DHO_DHCP_PARAMETER_REQUEST_LIST]->len; } else if (state->prl) { prl = state->prl; prl_len = state->prl_len; } else { prl = NULL; prl_len = 0; } /* Insert such options as will fit into the buffer. */ packet_length = cons_options(NULL, &raw, state->max_message_size, state->options, bufs, nulltp, bootpp, prl, prl_len); /* Having done the cons_options(), we can release the tree_cache entries. */ for (i = 0; i < 256; i++) { if (state->options[i] && state->options[i]->flags & TC_TEMPORARY) free_tree_cache(state->options[i]); } memcpy(&raw.ciaddr, &state->ciaddr, sizeof raw.ciaddr); memcpy(&raw.yiaddr, lease->ip_addr.iabuf, 4); /* Figure out the address of the next server. */ if (lease->host && lease->host->group->next_server.len) memcpy(&raw.siaddr, lease->host->group->next_server.iabuf, 4); else if (lease->subnet->group->next_server.len) memcpy(&raw.siaddr, lease->subnet->group->next_server.iabuf, 4); else if (lease->subnet->interface_address.len) memcpy(&raw.siaddr, lease->subnet->interface_address.iabuf, 4); else raw.siaddr = state->ip->primary_address; raw.giaddr = state->giaddr; raw.xid = state->xid; raw.secs = state->secs; raw.flags = state->bootp_flags; raw.hops = state->hops; raw.op = BOOTREPLY; /* Say what we're doing... */ note("%s on %s to %s via %s", (state->offer ? (state->offer == DHCPACK ? "DHCPACK" : "DHCPOFFER") : "BOOTREPLY"), piaddr(lease->ip_addr), print_hw_addr(lease->hardware_addr.htype, lease->hardware_addr.hlen, lease->hardware_addr.haddr), state->giaddr.s_addr ? inet_ntoa(state->giaddr) : state->ip->name); memset(&to, 0, sizeof to); to.sin_family = AF_INET; #ifdef HAVE_SA_LEN to.sin_len = sizeof to; #endif /* Make sure outgoing packets are at least as big as a BOOTP packet. */ if (packet_length < BOOTP_MIN_LEN) packet_length = BOOTP_MIN_LEN; /* If this was gatewayed, send it back to the gateway... */ if (raw.giaddr.s_addr) { to.sin_addr = raw.giaddr; to.sin_port = server_port; memcpy(&from, state->from.iabuf, sizeof from); (void) send_packet(state->ip, &raw, packet_length, from, &to, &state->haddr); free_lease_state(state, "dhcp_reply gateway"); lease->state = NULL; return; /* If the client is RENEWING, unicast to the client using the regular IP stack. Some clients, particularly those that follow RFC1541, are buggy, and send both ciaddr and server-identifier. We deal with this situation by assuming that if we got both dhcp-server-identifier and ciaddr, and giaddr was not set, then the client is on the local network, and we can therefore unicast or broadcast to it successfully. A client in REQUESTING state on another network that's making this mistake will have set giaddr, and will therefore get a relayed response from the above code. */ } else if (raw.ciaddr.s_addr && !((state->got_server_identifier || (raw.flags & htons(BOOTP_BROADCAST))) && /* XXX This won't work if giaddr isn't zero, but it is: */ (state->shared_network == lease->shared_network)) && state->offer == DHCPACK) { to.sin_addr = raw.ciaddr; to.sin_port = client_port; /* If it comes from a client that already knows its address and is not requesting a broadcast response, and we can unicast to a client without using the ARP protocol, sent it directly to that client. */ } else if (!(raw.flags & htons(BOOTP_BROADCAST))) { to.sin_addr = raw.yiaddr; to.sin_port = client_port; /* Otherwise, broadcast it on the local network. */ } else { to.sin_addr.s_addr = htonl(INADDR_BROADCAST); to.sin_port = client_port; } memcpy(&from, state->from.iabuf, sizeof from); (void) send_packet(state->ip, &raw, packet_length, from, &to, &state->haddr); free_lease_state(state, "dhcp_reply"); lease->state = NULL; } struct lease * find_lease(struct packet *packet, struct shared_network *share, int *ours) { struct lease *uid_lease, *ip_lease, *hw_lease; struct lease *lease = NULL; struct iaddr cip; struct host_decl *hp, *host = NULL; struct lease *fixed_lease; /* Figure out what IP address the client is requesting, if any. */ if (packet->options[DHO_DHCP_REQUESTED_ADDRESS].len && packet->options[DHO_DHCP_REQUESTED_ADDRESS].len == 4) { packet->got_requested_address = 1; cip.len = 4; memcpy(cip.iabuf, packet->options[DHO_DHCP_REQUESTED_ADDRESS].data, cip.len); } else if (packet->raw->ciaddr.s_addr) { cip.len = 4; memcpy(cip.iabuf, &packet->raw->ciaddr, 4); } else cip.len = 0; /* Try to find a host or lease that's been assigned to the specified unique client identifier. */ if (packet->options[DHO_DHCP_CLIENT_IDENTIFIER].len) { /* First, try to find a fixed host entry for the specified client identifier... */ hp = find_hosts_by_uid( packet->options[DHO_DHCP_CLIENT_IDENTIFIER].data, packet->options[DHO_DHCP_CLIENT_IDENTIFIER].len); if (hp) { host = hp; fixed_lease = mockup_lease(packet, share, hp); uid_lease = NULL; } else { uid_lease = find_lease_by_uid( packet->options[DHO_DHCP_CLIENT_IDENTIFIER].data, packet->options[DHO_DHCP_CLIENT_IDENTIFIER].len); /* Find the lease matching this uid that's on the network the packet came from (if any). */ for (; uid_lease; uid_lease = uid_lease->n_uid) if (uid_lease->shared_network == share) break; fixed_lease = NULL; if (uid_lease && (uid_lease->flags & ABANDONED_LEASE)) uid_lease = NULL; } } else { uid_lease = NULL; fixed_lease = NULL; } /* If we didn't find a fixed lease using the uid, try doing it with the hardware address... */ if (!fixed_lease) { hp = find_hosts_by_haddr(packet->raw->htype, packet->raw->chaddr, packet->raw->hlen); if (hp) { host = hp; /* Save it for later. */ fixed_lease = mockup_lease(packet, share, hp); } } /* If fixed_lease is present but does not match the requested IP address, and this is a DHCPREQUEST, then we can't return any other lease, so we might as well return now. */ if (packet->packet_type == DHCPREQUEST && fixed_lease && (fixed_lease->ip_addr.len != cip.len || memcmp(fixed_lease->ip_addr.iabuf, cip.iabuf, cip.len))) { if (ours) *ours = 1; strlcpy(dhcp_message, "requested address is incorrect", sizeof(dhcp_message)); return NULL; } /* Try to find a lease that's been attached to the client's hardware address... */ hw_lease = find_lease_by_hw_addr(packet->raw->chaddr, packet->raw->hlen); /* Find the lease that's on the network the packet came from (if any). */ for (; hw_lease; hw_lease = hw_lease->n_hw) { if (hw_lease->shared_network == share) { if ((hw_lease->flags & ABANDONED_LEASE)) continue; if (packet->packet_type) break; if (hw_lease->flags & (BOOTP_LEASE | DYNAMIC_BOOTP_OK)) break; } } /* Try to find a lease that's been allocated to the client's IP address. */ if (cip.len) ip_lease = find_lease_by_ip_addr(cip); else ip_lease = NULL; /* If ip_lease is valid at this point, set ours to one, so that even if we choose a different lease, we know that the address the client was requesting was ours, and thus we can NAK it. */ if (ip_lease && ours) *ours = 1; /* If the requested IP address isn't on the network the packet came from, don't use it. Allow abandoned leases to be matched here - if the client is requesting it, there's a decent chance that it's because the lease database got trashed and a client that thought it had this lease answered an ARP or PING, causing the lease to be abandoned. If so, this request probably came from that client. */ if (ip_lease && (ip_lease->shared_network != share)) { ip_lease = NULL; strlcpy(dhcp_message, "requested address on bad subnet", sizeof(dhcp_message)); } /* Toss ip_lease if it hasn't yet expired and isn't owned by the client. */ if (ip_lease && ip_lease->ends >= cur_time && ip_lease != uid_lease) { int i = DHO_DHCP_CLIENT_IDENTIFIER; /* Make sure that ip_lease actually belongs to the client, and toss it if not. */ if ((ip_lease->uid_len && packet->options[i].data && ip_lease->uid_len == packet->options[i].len && !memcmp(packet->options[i].data, ip_lease->uid, ip_lease->uid_len)) || (!ip_lease->uid_len && ip_lease->hardware_addr.htype == packet->raw->htype && ip_lease->hardware_addr.hlen == packet->raw->hlen && !memcmp(ip_lease->hardware_addr.haddr, packet->raw->chaddr, ip_lease->hardware_addr.hlen))) { if (uid_lease) { if (uid_lease->ends > cur_time) { warning("client %s has duplicate leases on %s", print_hw_addr(packet->raw->htype, packet->raw->hlen, packet->raw->chaddr), ip_lease->shared_network->name); if (uid_lease && !packet->raw->ciaddr.s_addr) release_lease(uid_lease); } uid_lease = ip_lease; } } else { strlcpy(dhcp_message, "requested address is not available", sizeof(dhcp_message)); ip_lease = NULL; } /* If we get to here and fixed_lease is not null, that means that there are both a dynamic lease and a fixed-address declaration for the same IP address. */ if (packet->packet_type == DHCPREQUEST && fixed_lease) { fixed_lease = NULL; db_conflict: warning("Both dynamic and static leases present for %s.", piaddr(cip)); warning("Either remove host declaration %s or remove %s", (fixed_lease && fixed_lease->host ? (fixed_lease->host->name ? fixed_lease->host->name : piaddr(cip)) : piaddr(cip)), piaddr(cip)); warning("from the dynamic address pool for %s", share->name); if (fixed_lease) ip_lease = NULL; strlcpy(dhcp_message, "database conflict - call for help!", sizeof(dhcp_message)); } } /* If we get to here with both fixed_lease and ip_lease not null, then we have a configuration file bug. */ if (packet->packet_type == DHCPREQUEST && fixed_lease && ip_lease) goto db_conflict; /* Toss hw_lease if it hasn't yet expired and the uid doesn't match, except that if the hardware address matches and the client is now doing dynamic BOOTP (and thus hasn't provided a uid) we let the client get away with it. */ if (hw_lease && hw_lease->ends >= cur_time && hw_lease->uid && packet->options[DHO_DHCP_CLIENT_IDENTIFIER].len && hw_lease != uid_lease) hw_lease = NULL; /* Toss extra pointers to the same lease... */ if (hw_lease == uid_lease) hw_lease = NULL; if (ip_lease == hw_lease) hw_lease = NULL; if (ip_lease == uid_lease) uid_lease = NULL; /* If we've already eliminated the lease, it wasn't there to begin with. If we have come up with a matching lease, set the message to bad network in case we have to throw it out. */ if (!ip_lease) { strlcpy(dhcp_message, "requested address not available", sizeof(dhcp_message)); } /* Now eliminate leases that are on the wrong network... */ if (ip_lease && share != ip_lease->shared_network) { if (packet->packet_type == DHCPREQUEST) release_lease(ip_lease); ip_lease = NULL; } if (uid_lease && share != uid_lease->shared_network) { if (packet->packet_type == DHCPREQUEST) release_lease(uid_lease); uid_lease = NULL; } if (hw_lease && share != hw_lease->shared_network) { if (packet->packet_type == DHCPREQUEST) release_lease(hw_lease); hw_lease = NULL; } /* If this is a DHCPREQUEST, make sure the lease we're going to return matches the requested IP address. If it doesn't, don't return a lease at all. */ if (packet->packet_type == DHCPREQUEST && !ip_lease && !fixed_lease) return NULL; /* At this point, if fixed_lease is nonzero, we can assign it to this client. */ if (fixed_lease) lease = fixed_lease; /* If we got a lease that matched the ip address and don't have a better offer, use that; otherwise, release it. */ if (ip_lease) { if (lease) { if (packet->packet_type == DHCPREQUEST) release_lease(ip_lease); } else { lease = ip_lease; lease->host = NULL; } } /* If we got a lease that matched the client identifier, we may want to use it, but if we already have a lease we like, we must free the lease that matched the client identifier. */ if (uid_lease) { if (lease) { if (packet->packet_type == DHCPREQUEST) release_lease(uid_lease); } else { lease = uid_lease; lease->host = NULL; } } /* The lease that matched the hardware address is treated likewise. */ if (hw_lease) { if (lease) { if (packet->packet_type == DHCPREQUEST) release_lease(hw_lease); } else { lease = hw_lease; lease->host = NULL; } } /* If we found a host_decl but no matching address, try to find a host_decl that has no address, and if there is one, hang it off the lease so that we can use the supplied options. */ if (lease && host && !lease->host) { for (; host; host = host->n_ipaddr) { if (!host->fixed_addr) { lease->host = host; break; } } } /* If we find an abandoned lease, take it, but print a warning message, so that if it continues to lose, the administrator will eventually investigate. */ if (lease && (lease->flags & ABANDONED_LEASE)) { if (packet->packet_type == DHCPREQUEST) { warning("Reclaiming REQUESTed abandoned IP address %s.", piaddr(lease->ip_addr)); lease->flags &= ~ABANDONED_LEASE; } else lease = NULL; } return lease; } /* * Search the provided host_decl structure list for an address that's on * the specified shared network. If one is found, mock up and return a * lease structure for it; otherwise return the null pointer. */ struct lease * mockup_lease(struct packet *packet, struct shared_network *share, struct host_decl *hp) { static struct lease mock; mock.subnet = find_host_for_network(&hp, &mock.ip_addr, share); if (!mock.subnet) return (NULL); mock.next = mock.prev = NULL; mock.shared_network = mock.subnet->shared_network; mock.host = hp; if (hp->group->options[DHO_DHCP_CLIENT_IDENTIFIER]) { mock.uid = hp->group->options[DHO_DHCP_CLIENT_IDENTIFIER]->value; mock.uid_len = hp->group->options[DHO_DHCP_CLIENT_IDENTIFIER]->len; } else { mock.uid = NULL; mock.uid_len = 0; } mock.hardware_addr = hp->interface; mock.starts = mock.timestamp = mock.ends = MIN_TIME; mock.flags = STATIC_LEASE; return &mock; }