/* vim: set expandtab ts=4 sw=4: */ /* * You may redistribute this program and/or modify it under the terms of * the GNU General Public License as published by the Free Software Foundation, * either version 3 of the License, or (at your option) any later version. * * 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 . */ #include "interface/Iface.h" #include "memory/Allocator.h" #include "util/Identity.h" #include "net/TUNAdapter.h" #include "wire/DataHeader.h" #include "wire/RouteHeader.h" #include "wire/Headers.h" #include "interface/tuntap/TUNMessageType.h" #include "wire/Ethernet.h" #include "crypto/AddressCalc.h" #include "util/Defined.h" #include "util/AddrTools.h" struct TUNAdapter_pvt { struct TUNAdapter pub; struct Log* log; uint8_t myIp6[16]; Identity }; static Iface_DEFUN incomingFromTunIf(struct Message* msg, struct Iface* tunIf) { struct TUNAdapter_pvt* ud = Identity_containerOf(tunIf, struct TUNAdapter_pvt, pub.tunIf); uint16_t ethertype = TUNMessageType_pop(msg, NULL); int version = Headers_getIpVersion(msg->bytes); if ((ethertype == Ethernet_TYPE_IP4 && version != 4) || (ethertype == Ethernet_TYPE_IP6 && version != 6)) { Log_debug(ud->log, "DROP packet because ip version [%d] " "doesn't match ethertype [%u].", version, Endian_bigEndianToHost16(ethertype)); return NULL; } if (ethertype == Ethernet_TYPE_IP4) { return Iface_next(&ud->pub.ipTunnelIf, msg); } if (ethertype != Ethernet_TYPE_IP6) { Log_debug(ud->log, "DROP packet unknown ethertype [%u]", Endian_bigEndianToHost16(ethertype)); return NULL; } if (msg->length < Headers_IP6Header_SIZE) { Log_debug(ud->log, "DROP runt"); return NULL; } struct Headers_IP6Header* header = (struct Headers_IP6Header*) msg->bytes; if (!AddressCalc_validAddress(header->destinationAddr)) { return Iface_next(&ud->pub.ipTunnelIf, msg); } if (Bits_memcmp(header->sourceAddr, ud->myIp6, 16)) { if (Defined(Log_DEBUG)) { uint8_t expectedSource[40]; AddrTools_printIp(expectedSource, ud->myIp6); uint8_t packetSource[40]; AddrTools_printIp(packetSource, header->sourceAddr); Log_debug(ud->log, "DROP packet from [%s] because all messages must have source address [%s]", packetSource, expectedSource); } return NULL; } if (!Bits_memcmp(header->destinationAddr, ud->myIp6, 16)) { // I'm Gonna Sit Right Down and Write Myself a Letter TUNMessageType_push(msg, ethertype, NULL); return Iface_next(tunIf, msg); } // first move the dest addr to the right place. Bits_memmove(header->destinationAddr - DataHeader_SIZE, header->destinationAddr, 16); Message_shift(msg, DataHeader_SIZE + RouteHeader_SIZE - Headers_IP6Header_SIZE, NULL); struct RouteHeader* rh = (struct RouteHeader*) msg->bytes; struct DataHeader* dh = (struct DataHeader*) &rh[1]; Bits_memset(dh, 0, DataHeader_SIZE); DataHeader_setContentType(dh, header->nextHeader); DataHeader_setVersion(dh, DataHeader_CURRENT_VERSION); // Other than the ipv6 addr at the end, everything is zeros right down the line. Bits_memset(rh, 0, RouteHeader_SIZE - 16); return Iface_next(&ud->pub.upperDistributorIf, msg); } static Iface_DEFUN sendToTunIf(struct Message* msg, struct TUNAdapter_pvt* ud) { if (!ud->pub.tunIf.connectedIf) { Log_debug(ud->log, "DROP message for tun because no device is defined"); return NULL; } return Iface_next(&ud->pub.tunIf, msg); } static Iface_DEFUN incomingFromIpTunnelIf(struct Message* msg, struct Iface* ipTunnelIf) { struct TUNAdapter_pvt* ud = Identity_containerOf(ipTunnelIf, struct TUNAdapter_pvt, pub.ipTunnelIf); return sendToTunIf(msg, ud); } static Iface_DEFUN incomingFromUpperDistributorIf(struct Message* msg, struct Iface* upperDistributorIf) { struct TUNAdapter_pvt* ud = Identity_containerOf(upperDistributorIf, struct TUNAdapter_pvt, pub.upperDistributorIf); Assert_true(msg->length >= RouteHeader_SIZE + DataHeader_SIZE); struct RouteHeader* hdr = (struct RouteHeader*) msg->bytes; struct DataHeader* dh = (struct DataHeader*) &hdr[1]; enum ContentType type = DataHeader_getContentType(dh); Assert_true(type <= ContentType_IP6_MAX); // Shift ip address into destination slot. Bits_memmove(hdr->ip6 + DataHeader_SIZE - 16, hdr->ip6, 16); // put my address as destination. Bits_memcpy(&hdr->ip6[DataHeader_SIZE], ud->myIp6, 16); Message_shift(msg, Headers_IP6Header_SIZE - DataHeader_SIZE - RouteHeader_SIZE, NULL); struct Headers_IP6Header* ip6 = (struct Headers_IP6Header*) msg->bytes; Bits_memset(ip6, 0, Headers_IP6Header_SIZE - 32); Headers_setIpVersion(ip6); ip6->payloadLength_be = Endian_bigEndianToHost16(msg->length - Headers_IP6Header_SIZE); ip6->nextHeader = type; ip6->hopLimit = 42; TUNMessageType_push(msg, Ethernet_TYPE_IP6, NULL); return sendToTunIf(msg, ud); } struct TUNAdapter* TUNAdapter_new(struct Allocator* allocator, struct Log* log, uint8_t myIp6[16]) { struct Allocator* alloc = Allocator_child(allocator); struct TUNAdapter_pvt* out = Allocator_calloc(alloc, sizeof(struct TUNAdapter_pvt), 1); out->pub.tunIf.send = incomingFromTunIf; out->pub.ipTunnelIf.send = incomingFromIpTunnelIf; out->pub.upperDistributorIf.send = incomingFromUpperDistributorIf; out->log = log; Identity_set(out); Bits_memcpy(out->myIp6, myIp6, 16); return &out->pub; }