/* 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/ETHInterface.h" #include "exception/Except.h" #include "wire/Message.h" #include "wire/Ethernet.h" #include "util/Assert.h" #include "util/platform/Socket.h" #include "util/events/Event.h" #include "util/Identity.h" #include "util/version/Version.h" #include #include #include #include #include #include #include #include #include #include #include #define MAX_PACKET_SIZE 1496 #define MIN_PACKET_SIZE 46 #define PADDING 512 // single ethernet_frame struct ethernet_frame { uint8_t dest[6]; uint8_t src[6]; uint16_t type; } Gcc_PACKED; #define ethernet_frame_SIZE 14 Assert_compileTime(ethernet_frame_SIZE == sizeof(struct ethernet_frame)); struct ETHInterface_pvt { struct ETHInterface pub; Socket socket; struct Log* logger; uint8_t myMac[6]; String* ifName; uint8_t* buffer; int bufLen; Identity }; static Iface_DEFUN sendMessage(struct Message* msg, struct Iface* iface) { struct ETHInterface_pvt* ctx = Identity_containerOf(iface, struct ETHInterface_pvt, pub.generic.iface); struct Sockaddr* sa = (struct Sockaddr*) msg->bytes; Assert_true(msg->length >= Sockaddr_OVERHEAD); Assert_true(sa->addrLen <= ETHInterface_Sockaddr_SIZE); struct ETHInterface_Sockaddr sockaddr = { .generic = { .addrLen = 0 } }; Er_assert(Message_epop(msg, &sockaddr, sa->addrLen)); struct ETHInterface_Header hdr = { .version = ETHInterface_CURRENT_VERSION, .zero = 0, .length_be = Endian_hostToBigEndian16(msg->length + ETHInterface_Header_SIZE), .fc00_be = Endian_hostToBigEndian16(0xfc00) }; Er_assert(Message_epush(msg, &hdr, ETHInterface_Header_SIZE)); struct ethernet_frame ethFr = { .type = Ethernet_TYPE_CJDNS }; if (sockaddr.generic.flags & Sockaddr_flags_BCAST) { Bits_memset(ethFr.dest, 0xff, 6); } else { Bits_memcpy(ethFr.dest, sockaddr.mac, 6); } Bits_memcpy(ethFr.src, ctx->myMac, 6); Er_assert(Message_epush(msg, ðFr, ethernet_frame_SIZE)); /* struct bpf_hdr bpfPkt = { .bh_caplen = msg->length, .bh_datalen = msg->length, .bh_hdrlen = BPF_WORDALIGN(sizeof(struct bpf_hdr)) }; Er_assert(Message_epush(msg, &bpfPkt, bpfPkt.bh_hdrlen)); */ if (msg->length != write(ctx->socket, msg->bytes, msg->length)) { Log_debug(ctx->logger, "Error writing to eth device [%s]", strerror(errno)); } return Error(NONE); } static void handleEvent2(struct ETHInterface_pvt* context, uint8_t src[6], uint8_t dst[6], int length, uint8_t* data, struct Allocator* alloc) { if (length < ETHInterface_Header_SIZE) { Log_debug(context->logger, "runt"); return; } uint32_t contentLength = BPF_WORDALIGN(length - ETHInterface_Header_SIZE); struct Message* msg = Message_new(contentLength, PADDING, alloc); struct ETHInterface_Header hdr; Bits_memcpy(&hdr, data, ETHInterface_Header_SIZE); Bits_memcpy(msg->bytes, &data[ETHInterface_Header_SIZE], contentLength); // here we could put a switch statement to handle different versions differently. if (hdr.version != ETHInterface_CURRENT_VERSION) { Log_debug(context->logger, "DROP unknown version"); return; } uint16_t reportedLength = Endian_bigEndianToHost16(hdr.length_be); reportedLength -= ETHInterface_Header_SIZE; if (msg->length != reportedLength) { if (msg->length < reportedLength) { Log_debug(context->logger, "DROP size field is larger than frame"); return; } msg->length = reportedLength; } if (hdr.fc00_be != Endian_hostToBigEndian16(0xfc00)) { Log_debug(context->logger, "DROP bad magic"); return; } struct ETHInterface_Sockaddr sockaddr = { .zero = 0 }; Bits_memcpy(sockaddr.mac, src, 6); sockaddr.generic.addrLen = ETHInterface_Sockaddr_SIZE; if (dst[0] == 0xff) { sockaddr.generic.flags |= Sockaddr_flags_BCAST; } Er_assert(Message_epush(msg, &sockaddr, ETHInterface_Sockaddr_SIZE)); Assert_true(!((uintptr_t)msg->bytes % 4) && "Alignment fault"); Iface_send(&context->pub.generic.iface, msg); } static void handleEvent(void* vcontext) { struct ETHInterface_pvt* context = Identity_check((struct ETHInterface_pvt*) vcontext); ssize_t bytes = read(context->socket, context->buffer, context->bufLen); if (bytes < 0) { Log_debug(context->logger, "read(bpf, bpf_buf, buf_len) -> [%s]", strerror(errno)); } if (bytes < 1) { return; } if (bytes < (ssize_t)sizeof(struct bpf_hdr)) { Log_debug(context->logger, "runt [%lld]", (long long) bytes); return; } int offset = 0; while (offset < bytes) { struct bpf_hdr* bpfPkt = (struct bpf_hdr*) &context->buffer[offset]; struct ethernet_frame* ethFr = (struct ethernet_frame*) &context->buffer[offset + bpfPkt->bh_hdrlen]; int frameLength = bpfPkt->bh_datalen; uint8_t* frameContent = (uint8_t*) &context->buffer[offset + bpfPkt->bh_hdrlen + ethernet_frame_SIZE]; int contentLength = frameLength - ethernet_frame_SIZE; Assert_true(offset + bpfPkt->bh_hdrlen + frameLength <= bytes); Assert_true(Ethernet_TYPE_CJDNS == ethFr->type); struct Allocator* messageAlloc = Allocator_child(context->pub.generic.alloc); handleEvent2(context, ethFr->src, ethFr->dest, contentLength, frameContent, messageAlloc); Allocator_free(messageAlloc); offset += BPF_WORDALIGN(bpfPkt->bh_hdrlen + bpfPkt->bh_caplen); } } Er_DEFUN(List* ETHInterface_listDevices(struct Allocator* alloc)) { List* out = List_new(alloc); struct ifaddrs* ifaddr = NULL; if (getifaddrs(&ifaddr) || ifaddr == NULL) { Er_raise(alloc, "getifaddrs() -> errno:%d [%s]", errno, strerror(errno)); } for (struct ifaddrs* ifa = ifaddr; ifa; ifa = ifa->ifa_next) { if (!ifa->ifa_addr) { } else if (ifa->ifa_addr->sa_family != AF_LINK) { } else if (!(ifa->ifa_flags & IFF_UP)) { } else if (ifa->ifa_flags & IFF_LOOPBACK) { } else { List_addString(out, String_new(ifa->ifa_name, alloc), alloc); } } freeifaddrs(ifaddr); Er_ret(out); } static int closeSocket(struct Allocator_OnFreeJob* j) { struct ETHInterface_pvt* ctx = Identity_check((struct ETHInterface_pvt*) j->userData); close(ctx->socket); return 0; } static Er_DEFUN(int openBPF(struct Allocator* alloc)) { for (int retry = 0; retry < 100; retry++) { for (int i = 0; i < 256; i++) { char buf[11] = { 0 }; snprintf(buf, 10, "/dev/bpf%i", i); int bpf = open(buf, O_RDWR); if (bpf != -1) { Er_ret(bpf); } } // sleep for 0.1 seconds usleep(1000 * 100); } Er_raise(alloc, "Could not find available /dev/bpf device"); } static Er_DEFUN(void macaddr(const char* ifname, uint8_t addrOut[6], struct Allocator* alloc)) { struct ifaddrs* ifa; if (getifaddrs(&ifa)) { Er_raise(alloc, "getifaddrs() -> [%s]", strerror(errno)); } else { for (struct ifaddrs* ifap = ifa; ifap; ifap = ifap->ifa_next) { if (!strcmp(ifap->ifa_name, ifname) && ifap->ifa_addr->sa_family == AF_LINK) { Bits_memcpy(addrOut, LLADDR((struct sockaddr_dl*) ifap->ifa_addr), 6); freeifaddrs(ifa); Er_ret(); } } } freeifaddrs(ifa); Er_raise(alloc, "Could not find mac address for [%s]", ifname); Er_ret(); } Er_DEFUN(struct ETHInterface* ETHInterface_new(struct EventBase* eventBase, const char* bindDevice, struct Allocator* alloc, struct Log* logger)) { struct ETHInterface_pvt* ctx = Allocator_calloc(alloc, sizeof(struct ETHInterface_pvt), 1); Identity_set(ctx); ctx->pub.generic.iface.send = sendMessage; ctx->pub.generic.alloc = alloc; ctx->logger = logger; ctx->socket = Er(openBPF(alloc)); Er(macaddr(bindDevice, ctx->myMac, alloc)); struct ifreq ifr = { .ifr_name = { 0 } }; CString_strcpy(ifr.ifr_name, bindDevice); if (ioctl(ctx->socket, BIOCSETIF, &ifr) > 0) { Er_raise(alloc, "ioctl(BIOCSETIF, [%s]) [%s]", bindDevice, strerror(errno)); } // activate immediate mode (therefore, bufLen is initially set to "1") int bufLen = 1; if (ioctl(ctx->socket, BIOCIMMEDIATE, &bufLen) == -1) { Er_raise(alloc, "ioctl(BIOCIMMEDIATE) [%s]", strerror(errno)); } // request buffer length if (ioctl(ctx->socket, BIOCGBLEN, &bufLen) == -1) { Er_raise(alloc, "ioctl(BIOCGBLEN) [%s]", strerror(errno)); } Log_debug(logger, "ioctl(BIOCGBLEN) -> bufLen=%i", bufLen); ctx->buffer = Allocator_malloc(alloc, bufLen); ctx->bufLen = bufLen; // filter for cjdns ethertype (0xfc00) static struct bpf_insn cjdnsFilter[] = { BPF_STMT(BPF_LD+BPF_H+BPF_ABS, 12), BPF_JUMP(BPF_JMP+BPF_JEQ+BPF_K, /* Ethernet_TYPE_CJDNS */ 0xfc00, 1, 0), // drop BPF_STMT(BPF_RET+BPF_K, 0), // How much of the packet to ask for... BPF_STMT(BPF_RET+BPF_K, ~0u) }; struct bpf_program cjdnsFilterProgram = { .bf_len = (sizeof(cjdnsFilter) / sizeof(struct bpf_insn)), .bf_insns = cjdnsFilter, }; if (ioctl(ctx->socket, BIOCSETF, &cjdnsFilterProgram) == -1) { Er_raise(alloc, "ioctl(BIOCSETF) [%s]", strerror(errno)); } Socket_makeNonBlocking(ctx->socket); Event_socketRead(handleEvent, ctx, ctx->socket, eventBase, alloc); Allocator_onFree(alloc, closeSocket, ctx); Er_ret(&ctx->pub); }