/* upf.c Ultrix PacketFilter interface code. */ /* * Copyright (c) 2004,2007,2009,2014 by Internet Systems Consortium, Inc. ("ISC") * Copyright (c) 1996-2003 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 * * https://www.isc.org/ * */ #include "dhcpd.h" #if defined (USE_UPF_SEND) || defined (USE_UPF_RECEIVE) #include #include #include #include #include "includes/netinet/ip.h" #include "includes/netinet/udp.h" #include "includes/netinet/if_ether.h" /* Reinitializes the specified interface after an address change. This is not required for packet-filter APIs. */ #ifdef USE_UPF_SEND void if_reinitialize_send (info) struct interface_info *info; { } #endif #ifdef USE_UPF_RECEIVE void if_reinitialize_receive (info) struct interface_info *info; { } #endif /* Called by get_interface_list for each interface that's discovered. Opens a packet filter for each interface and adds it to the select mask. */ int if_register_upf (info) struct interface_info *info; { int sock; char filename[50]; int b; struct endevp param; /* Open a UPF device */ for (b = 0; 1; b++) { /* %Audit% Cannot exceed 36 bytes. %2004.06.17,Safe% */ sprintf(filename, "/dev/pf/pfilt%d", b); sock = open (filename, O_RDWR, 0); if (sock < 0) { if (errno == EBUSY) { continue; } else { log_fatal ("Can't find free upf: %m"); } } else { break; } } /* Set the UPF device to point at this interface. */ if (ioctl (sock, EIOCSETIF, info -> ifp) < 0) log_fatal ("Can't attach interface %s to upf device %s: %m", info -> name, filename); /* Get the hardware address. */ if (ioctl (sock, EIOCDEVP, ¶m) < 0) log_fatal ("Can't get interface %s hardware address: %m", info -> name); /* We only know how to do ethernet. */ if (param.end_dev_type != ENDT_10MB) log_fatal ("Invalid device type on network interface %s: %d", info -> name, param.end_dev_type); if (param.end_addr_len != 6) log_fatal ("Invalid hardware address length on %s: %d", info -> name, param.end_addr_len); info -> hw_address.hlen = 7; info -> hw_address.hbuf [0] = ARPHRD_ETHER; memcpy (&info -> hw_address.hbuf [1], param.end_addr, 6); return sock; } #endif /* USE_UPF_SEND || USE_UPF_RECEIVE */ #ifdef USE_UPF_SEND void if_register_send (info) struct interface_info *info; { /* If we're using the upf API for sending and receiving, we don't need to register this interface twice. */ #ifndef USE_UPF_RECEIVE info -> wfdesc = if_register_upf (info, interface); #else info -> wfdesc = info -> rfdesc; #endif if (!quiet_interface_discovery) log_info ("Sending on UPF/%s/%s%s%s", info -> name, print_hw_addr (info -> hw_address.hbuf [0], info -> hw_address.hlen - 1, &info -> hw_address.hbuf [1]), (info -> shared_network ? "/" : ""), (info -> shared_network ? info -> shared_network -> name : "")); } void if_deregister_send (info) struct interface_info *info; { #ifndef USE_UPF_RECEIVE close (info -> wfdesc); #endif info -> wfdesc = -1; if (!quiet_interface_discovery) log_info ("Disabling output on UPF/%s/%s%s%s", info -> name, print_hw_addr (info -> hw_address.hbuf [0], info -> hw_address.hlen - 1, &info -> hw_address.hbuf [1]), (info -> shared_network ? "/" : ""), (info -> shared_network ? info -> shared_network -> name : "")); } #endif /* USE_UPF_SEND */ #ifdef USE_UPF_RECEIVE /* Packet filter program... XXX Changes to the filter program may require changes to the constant offsets used in if_register_send to patch the UPF program! XXX */ void if_register_receive (info) struct interface_info *info; { int flag = 1; u_int32_t addr; struct enfilter pf; u_int32_t bits; /* Open a UPF device and hang it on this interface... */ info -> rfdesc = if_register_upf (info); /* Allow the copyall flag to be set... */ if (ioctl(info -> rfdesc, EIOCALLOWCOPYALL, &flag) < 0) log_fatal ("Can't set ALLOWCOPYALL: %m"); /* Clear all the packet filter mode bits first... */ flag = (ENHOLDSIG | ENBATCH | ENTSTAMP | ENPROMISC | ENNONEXCL | ENCOPYALL); if (ioctl (info -> rfdesc, EIOCMBIC, &flag) < 0) log_fatal ("Can't clear pfilt bits: %m"); /* Set the ENBATCH and ENCOPYALL bits... */ bits = ENBATCH | ENCOPYALL; if (ioctl (info -> rfdesc, EIOCMBIS, &bits) < 0) log_fatal ("Can't set ENBATCH|ENCOPYALL: %m"); /* Set up the UPF filter program. */ /* XXX Unlike the BPF filter program, this one won't work if the XXX IP packet is fragmented or if there are options on the IP XXX header. */ pf.enf_Priority = 0; pf.enf_FilterLen = 0; pf.enf_Filter [pf.enf_FilterLen++] = ENF_PUSHWORD + 6; pf.enf_Filter [pf.enf_FilterLen++] = ENF_PUSHLIT + ENF_CAND; pf.enf_Filter [pf.enf_FilterLen++] = htons (ETHERTYPE_IP); pf.enf_Filter [pf.enf_FilterLen++] = ENF_PUSHLIT; pf.enf_Filter [pf.enf_FilterLen++] = htons (IPPROTO_UDP); pf.enf_Filter [pf.enf_FilterLen++] = ENF_PUSHWORD + 11; pf.enf_Filter [pf.enf_FilterLen++] = ENF_PUSHLIT + ENF_AND; pf.enf_Filter [pf.enf_FilterLen++] = htons (0xFF); pf.enf_Filter [pf.enf_FilterLen++] = ENF_CAND; pf.enf_Filter [pf.enf_FilterLen++] = ENF_PUSHWORD + 18; pf.enf_Filter [pf.enf_FilterLen++] = ENF_PUSHLIT + ENF_CAND; pf.enf_Filter [pf.enf_FilterLen++] = local_port; if (ioctl (info -> rfdesc, EIOCSETF, &pf) < 0) log_fatal ("Can't install packet filter program: %m"); if (!quiet_interface_discovery) log_info ("Listening on UPF/%s/%s%s%s", info -> name, print_hw_addr (info -> hw_address.hbuf [0], info -> hw_address.hlen - 1, &info -> hw_address.hbuf [1]), (info -> shared_network ? "/" : ""), (info -> shared_network ? info -> shared_network -> name : "")); } void if_deregister_receive (info) struct interface_info *info; { close (info -> rfdesc); info -> rfdesc = -1; if (!quiet_interface_discovery) log_info ("Disabling input on UPF/%s/%s%s%s", info -> name, print_hw_addr (info -> hw_address.hbuf [0], info -> hw_address.hlen - 1, &info -> hw_address.hbuf [1]), (info -> shared_network ? "/" : ""), (info -> shared_network ? info -> shared_network -> name : "")); } #endif /* USE_UPF_RECEIVE */ #ifdef USE_UPF_SEND ssize_t send_packet (interface, packet, raw, len, from, to, hto) struct interface_info *interface; struct packet *packet; struct dhcp_packet *raw; size_t len; struct in_addr from; struct sockaddr_in *to; struct hardware *hto; { unsigned hbufp = 0, ibufp = 0; double hw [4]; double ip [32]; struct iovec iov [3]; int result; int fudge; if (!strcmp (interface -> name, "fallback")) return send_fallback (interface, packet, raw, len, from, to, hto); if (hto == NULL && interface->anycast_mac_addr.hlen) hto = &interface->anycast_mac_addr; /* Assemble the headers... */ assemble_hw_header (interface, (unsigned char *)hw, &hbufp, hto); assemble_udp_ip_header (interface, (unsigned char *)ip, &ibufp, from.s_addr, to -> sin_addr.s_addr, to -> sin_port, (unsigned char *)raw, len); /* Fire it off */ iov [0].iov_base = ((char *)hw); iov [0].iov_len = hbufp; iov [1].iov_base = ((char *)ip); iov [1].iov_len = ibufp; iov [2].iov_base = (char *)raw; iov [2].iov_len = len; result = writev(interface -> wfdesc, iov, 3); if (result < 0) log_error ("send_packet: %m"); return result; } #endif /* USE_UPF_SEND */ #ifdef USE_UPF_RECEIVE ssize_t receive_packet (interface, buf, len, from, hfrom) struct interface_info *interface; unsigned char *buf; size_t len; struct sockaddr_in *from; struct hardware *hfrom; { int nread; int length = 0; int offset = 0; unsigned char ibuf [1500 + sizeof (struct enstamp)]; int bufix = 0; unsigned paylen; length = read (interface -> rfdesc, ibuf, sizeof ibuf); if (length <= 0) return length; bufix = sizeof (struct enstamp); /* Decode the physical header... */ offset = decode_hw_header (interface, ibuf, bufix, hfrom); /* If a physical layer checksum failed (dunno of any physical layer that supports this, but WTH), skip this packet. */ if (offset < 0) { return 0; } bufix += offset; length -= offset; /* Decode the IP and UDP headers... */ offset = decode_udp_ip_header (interface, ibuf, bufix, from, length, &paylen); /* If the IP or UDP checksum was bad, skip the packet... */ if (offset < 0) return 0; bufix += offset; length -= offset; if (length < paylen) log_fatal("Internal inconsistency at %s:%d.", MDL); /* Copy out the data in the packet... */ memcpy (buf, &ibuf[bufix], paylen); return paylen; } int can_unicast_without_arp (ip) struct interface_info *ip; { return 1; } int can_receive_unicast_unconfigured (ip) struct interface_info *ip; { return 1; } int supports_multiple_interfaces (ip) struct interface_info *ip; { return 1; } void maybe_setup_fallback () { isc_result_t status; struct interface_info *fbi = (struct interface_info *)0; if (setup_fallback (&fbi, MDL)) { if_register_fallback (fbi); status = omapi_register_io_object ((omapi_object_t *)fbi, if_readsocket, 0, fallback_discard, 0, 0); if (status != ISC_R_SUCCESS) log_fatal ("Can't register I/O handle for %s: %s", fbi -> name, isc_result_totext (status)); interface_dereference (&fbi, MDL); } } #endif