/* * netsniff-ng - the packet sniffing beast * Copyright 2009-2013 Daniel Borkmann. * Copyright 2010 Emmanuel Roullit. * Subject to the GPL, version 2. */ #define _GNU_SOURCE #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "ring_rx.h" #include "ring_tx.h" #include "mac80211.h" #include "dev.h" #include "built_in.h" #include "pcap_io.h" #include "privs.h" #include "proc.h" #include "bpf.h" #include "ioops.h" #include "die.h" #include "irq.h" #include "str.h" #include "sig.h" #include "config.h" #include "sock.h" #include "geoip.h" #include "lockme.h" #include "tprintf.h" #include "timer.h" #include "tstamping.h" #include "dissector.h" #include "xmalloc.h" enum dump_mode { DUMP_INTERVAL_TIME, DUMP_INTERVAL_SIZE, }; struct ctx { char *device_in, *device_out, *device_trans, *filter, *prefix; int cpu, rfraw, dump, print_mode, dump_dir, packet_type, lo_ifindex; unsigned long kpull, dump_interval, tx_bytes, tx_packets; size_t reserve_size; bool randomize, promiscuous, enforce, jumbo, dump_bpf, hwtimestamp, verbose; enum pcap_ops_groups pcap; enum dump_mode dump_mode; uid_t uid; gid_t gid; uint32_t link_type, magic; uint32_t fanout_group, fanout_type; uint64_t pkts_seen, pkts_recvd, pkts_drops; uint64_t pkts_recvd_last, pkts_drops_last, pkts_skipd_last; unsigned long overwrite_interval, file_number; }; static volatile sig_atomic_t sigint = 0, sighup = 0; static volatile bool next_dump = false; static volatile sig_atomic_t sighup_time = 0; static const char *short_options = "d:i:o:rf:MNJt:S:k:n:b:HQmcsqXlvhF:RGAO:P:Vu:g:T:DBUC:K:L:w"; static const struct option long_options[] = { {"dev", required_argument, NULL, 'd'}, {"in", required_argument, NULL, 'i'}, {"out", required_argument, NULL, 'o'}, {"filter", required_argument, NULL, 'f'}, {"num", required_argument, NULL, 'n'}, {"type", required_argument, NULL, 't'}, {"interval", required_argument, NULL, 'F'}, {"ring-size", required_argument, NULL, 'S'}, {"kernel-pull", required_argument, NULL, 'k'}, {"bind-cpu", required_argument, NULL, 'b'}, {"overwrite", required_argument, NULL, 'O'}, {"prefix", required_argument, NULL, 'P'}, {"user", required_argument, NULL, 'u'}, {"group", required_argument, NULL, 'g'}, {"magic", required_argument, NULL, 'T'}, {"fanout-group", required_argument, NULL, 'C'}, {"fanout-type", required_argument, NULL, 'K'}, {"fanout-opts", required_argument, NULL, 'L'}, {"rand", no_argument, NULL, 'r'}, {"rfraw", no_argument, NULL, 'R'}, {"mmap", no_argument, NULL, 'm'}, {"sg", no_argument, NULL, 'G'}, {"clrw", no_argument, NULL, 'c'}, {"jumbo-support", no_argument, NULL, 'J'}, {"no-promisc", no_argument, NULL, 'M'}, {"no-hwtimestamp", no_argument, NULL, 'N'}, {"prio-high", no_argument, NULL, 'H'}, {"notouch-irq", no_argument, NULL, 'Q'}, {"dump-pcap-types", no_argument, NULL, 'D'}, {"dump-bpf", no_argument, NULL, 'B'}, {"silent", no_argument, NULL, 's'}, {"less", no_argument, NULL, 'q'}, {"hex", no_argument, NULL, 'X'}, {"ascii", no_argument, NULL, 'l'}, {"no-sock-mem", no_argument, NULL, 'A'}, {"update", no_argument, NULL, 'U'}, {"cooked", no_argument, NULL, 'w'}, {"verbose", no_argument, NULL, 'V'}, {"version", no_argument, NULL, 'v'}, {"help", no_argument, NULL, 'h'}, {NULL, 0, NULL, 0} }; static const char *copyright = "Please report bugs at https://github.com/netsniff-ng/netsniff-ng/issues\n" "Copyright (C) 2009-2013 Daniel Borkmann \n" "Copyright (C) 2009-2012 Emmanuel Roullit \n" "Copyright (C) 2012 Markus Amend \n" "Swiss federal institute of technology (ETH Zurich)\n" "License: GNU GPL version 2.0\n" "This is free software: you are free to change and redistribute it.\n" "There is NO WARRANTY, to the extent permitted by law."; static int tx_sock; static struct itimerval itimer; static unsigned long frame_count_max = 0, interval = TX_KERNEL_PULL_INT; static time_t start_time; #define __pcap_io pcap_ops[ctx->pcap] static void signal_handler(int number) { switch (number) { case SIGINT: case SIGQUIT: case SIGTERM: sigint = 1; break; case SIGHUP: sighup = 1; sighup_time = (sig_atomic_t)(time(NULL) - start_time); break; default: break; } } static void timer_elapsed(int unused __maybe_unused) { int ret; set_itimer_interval_value(&itimer, 0, interval); ret = pull_and_flush_tx_ring(tx_sock); if (unlikely(ret < 0)) { /* We could hit EBADF if the socket has been closed before * the timer was triggered. */ if (errno != EBADF && errno != ENOBUFS) panic("Flushing TX_RING failed: %s!\n", strerror(errno)); } setitimer(ITIMER_REAL, &itimer, NULL); } static void timer_purge(void) { int ret; ret = pull_and_flush_tx_ring_wait(tx_sock); if (unlikely(ret < 0)) { if (errno != EBADF && errno != ENOBUFS) panic("Flushing TX_RING failed: %s!\n", strerror(errno)); } set_itimer_interval_value(&itimer, 0, 0); setitimer(ITIMER_REAL, &itimer, NULL); } static void timer_next_dump(int unused __maybe_unused) { set_itimer_interval_value(&itimer, interval, 0); next_dump = true; setitimer(ITIMER_REAL, &itimer, NULL); } static inline bool dump_to_pcap(struct ctx *ctx) { return ctx->dump; } static void on_panic_del_rfmon(void *arg) { leave_rfmon_mac80211(arg); } static inline void setup_rfmon_mac80211_dev(struct ctx *ctx, char **rfmon_dev) { ctx->device_trans = xstrdup(*rfmon_dev); xfree(*rfmon_dev); enter_rfmon_mac80211(ctx->device_trans, rfmon_dev); panic_handler_add(on_panic_del_rfmon, *rfmon_dev); } static int update_rx_stats(struct ctx *ctx, int sock, bool is_v3) { uint64_t packets, drops; int ret; ret = get_rx_net_stats(sock, &packets, &drops, is_v3); if (ret) return ret; drops += ctx->pkts_skipd_last; ctx->pkts_seen += ctx->pkts_skipd_last; ctx->pkts_recvd += packets; ctx->pkts_drops += drops; ctx->pkts_recvd_last = packets; ctx->pkts_drops_last = drops; ctx->pkts_skipd_last = 0; return 0; } static void dump_rx_stats(struct ctx *ctx, int sock, bool is_v3) { if (update_rx_stats(ctx, sock, is_v3)) return; printf("\r%12"PRIu64" packets incoming (%"PRIu64" unread on exit)\n", is_v3 ? ctx->pkts_seen : ctx->pkts_recvd, is_v3 ? ctx->pkts_recvd - ctx->pkts_seen : 0); printf("\r%12"PRIu64" packets passed filter\n", ctx->pkts_recvd - ctx->pkts_drops); printf("\r%12"PRIu64" packets failed filter (out of space)\n", ctx->pkts_drops); if (ctx->pkts_recvd > 0) printf("\r%12.4lf%% packet droprate\n", (1.0 * ctx->pkts_drops / ctx->pkts_recvd) * 100.0); } static void pcap_to_xmit(struct ctx *ctx) { uint8_t *out = NULL; int ifindex, fd = 0, ret; size_t size; unsigned int it = 0; unsigned long trunced = 0; struct ring tx_ring; struct frame_map *hdr; struct sock_fprog bpf_ops; struct timeval start, end, diff; pcap_pkthdr_t phdr; if (!device_up_and_running(ctx->device_out) && !ctx->rfraw) panic("Device not up and running!\n"); bug_on(!__pcap_io); tx_sock = pf_socket(); if (!strncmp("-", ctx->device_in, strlen("-"))) { fd = dup_or_die(fileno(stdin)); close(fileno(stdin)); if (ctx->pcap == PCAP_OPS_MM) ctx->pcap = PCAP_OPS_SG; } else { fd = open_or_die(ctx->device_in, O_RDONLY | O_LARGEFILE | O_NOATIME); } if (__pcap_io->init_once_pcap) __pcap_io->init_once_pcap(true); ret = __pcap_io->pull_fhdr_pcap(fd, &ctx->magic, &ctx->link_type); if (ret) panic("Error reading pcap header!\n"); if (__pcap_io->prepare_access_pcap) { ret = __pcap_io->prepare_access_pcap(fd, PCAP_MODE_RD, ctx->jumbo); if (ret) panic("Error prepare reading pcap!\n"); } if (ctx->rfraw) { setup_rfmon_mac80211_dev(ctx, &ctx->device_out); if (ctx->link_type != LINKTYPE_IEEE802_11 && ctx->link_type != LINKTYPE_IEEE802_11_RADIOTAP) panic("Wrong linktype of pcap!\n"); } ifindex = device_ifindex(ctx->device_out); size = ring_size(ctx->device_out, ctx->reserve_size); bpf_parse_rules(ctx->filter, &bpf_ops, ctx->link_type); if (ctx->dump_bpf) bpf_dump_all(&bpf_ops); ring_tx_setup(&tx_ring, tx_sock, size, ifindex, ctx->jumbo, ctx->verbose); dissector_init_all(ctx->print_mode); if (ctx->cpu >= 0 && ifindex > 0) { int irq = device_irq_number(ctx->device_out); device_set_irq_affinity(irq, ctx->cpu); if (ctx->verbose) printf("IRQ: %s:%d > CPU%d\n", ctx->device_out, irq, ctx->cpu); } if (ctx->kpull) interval = ctx->kpull; set_itimer_interval_value(&itimer, 0, interval); setitimer(ITIMER_REAL, &itimer, NULL); drop_privileges(ctx->enforce, ctx->uid, ctx->gid); printf("Running! Hang up with ^C!\n\n"); fflush(stdout); bug_on(gettimeofday(&start, NULL)); while (likely(sigint == 0)) { while (user_may_pull_from_tx(tx_ring.frames[it].iov_base)) { hdr = tx_ring.frames[it].iov_base; out = ((uint8_t *) hdr) + TPACKET2_HDRLEN - sizeof(struct sockaddr_ll); do { ret = __pcap_io->read_pcap(fd, &phdr, ctx->magic, out, ring_frame_size(&tx_ring)); if (unlikely(ret <= 0)) goto out; if (ring_frame_size(&tx_ring) < pcap_get_length(&phdr, ctx->magic)) { pcap_set_length(&phdr, ctx->magic, ring_frame_size(&tx_ring)); trunced++; } } while (ctx->filter && !bpf_run_filter(&bpf_ops, out, pcap_get_length(&phdr, ctx->magic))); pcap_pkthdr_to_tpacket_hdr(&phdr, ctx->magic, &hdr->tp_h, NULL); ctx->tx_bytes += hdr->tp_h.tp_len;; ctx->tx_packets++; show_frame_hdr(out, hdr->tp_h.tp_snaplen, ctx->link_type, hdr, ctx->print_mode, ctx->tx_packets); dissector_entry_point(out, hdr->tp_h.tp_snaplen, ctx->link_type, ctx->print_mode, &hdr->s_ll); kernel_may_pull_from_tx(&hdr->tp_h); it++; if (it >= tx_ring.layout.tp_frame_nr) it = 0; if (unlikely(sigint == 1)) break; if (frame_count_max != 0) { if (ctx->tx_packets >= frame_count_max) { sigint = 1; break; } } } } out: bug_on(gettimeofday(&end, NULL)); timersub(&end, &start, &diff); timer_purge(); bpf_release(&bpf_ops); dissector_cleanup_all(); destroy_tx_ring(tx_sock, &tx_ring); if (ctx->rfraw) leave_rfmon_mac80211(ctx->device_out); if (__pcap_io->prepare_close_pcap) __pcap_io->prepare_close_pcap(fd, PCAP_MODE_RD); if (!strncmp("-", ctx->device_in, strlen("-"))) dup2(fd, fileno(stdin)); close(fd); close(tx_sock); fflush(stdout); printf("\n"); printf("\r%12lu packets outgoing\n", ctx->tx_packets); printf("\r%12lu packets truncated in file\n", trunced); printf("\r%12lu bytes outgoing\n", ctx->tx_bytes); printf("\r%12lu sec, %lu usec in total\n", diff.tv_sec, diff.tv_usec); } static inline bool __skip_packet(struct ctx *ctx, struct sockaddr_ll *sll) { if (ctx->packet_type != -1) return ctx->packet_type != sll->sll_pkttype; /* when receving from the loopback device, each packet is seen twice, * so drop the outgoing ones to avoid duplicates */ return (sll->sll_ifindex == ctx->lo_ifindex) && (sll->sll_pkttype == PACKET_OUTGOING); } static inline bool skip_packet(struct ctx *ctx, struct sockaddr_ll *sll) { bool skip = __skip_packet(ctx, sll); if (skip) ctx->pkts_skipd_last++; return skip; } static void receive_to_xmit(struct ctx *ctx) { short ifflags = 0; uint8_t *in, *out; int rx_sock, ifindex_in, ifindex_out, ret; size_t size_in, size_out; unsigned int it_in = 0, it_out = 0; struct frame_map *hdr_in, *hdr_out; struct ring tx_ring, rx_ring; struct pollfd rx_poll; struct sock_fprog bpf_ops; if (!strncmp(ctx->device_in, ctx->device_out, IFNAMSIZ)) panic("Ingress/egress devices must be different!\n"); if (!device_up_and_running(ctx->device_out)) panic("Egress device not up and running!\n"); rx_sock = pf_socket(); tx_sock = pf_socket(); ifindex_in = device_ifindex(ctx->device_in); ifindex_out = device_ifindex(ctx->device_out); size_in = ring_size(ctx->device_in, ctx->reserve_size); size_out = ring_size(ctx->device_out, ctx->reserve_size); enable_kernel_bpf_jit_compiler(); bpf_parse_rules(ctx->filter, &bpf_ops, ctx->link_type); if (ctx->dump_bpf) bpf_dump_all(&bpf_ops); bpf_attach_to_sock(rx_sock, &bpf_ops); ring_rx_setup(&rx_ring, rx_sock, size_in, ifindex_in, &rx_poll, false, ctx->jumbo, ctx->verbose, ctx->fanout_group, ctx->fanout_type); ring_tx_setup(&tx_ring, tx_sock, size_out, ifindex_out, ctx->jumbo, ctx->verbose); dissector_init_all(ctx->print_mode); if (ctx->promiscuous) ifflags = device_enter_promiscuous_mode(ctx->device_in); if (ctx->kpull) interval = ctx->kpull; set_itimer_interval_value(&itimer, 0, interval); setitimer(ITIMER_REAL, &itimer, NULL); drop_privileges(ctx->enforce, ctx->uid, ctx->gid); printf("Running! Hang up with ^C!\n\n"); fflush(stdout); while (likely(sigint == 0)) { while (user_may_pull_from_rx(rx_ring.frames[it_in].iov_base)) { hdr_in = rx_ring.frames[it_in].iov_base; in = ((uint8_t *) hdr_in) + hdr_in->tp_h.tp_mac; if (skip_packet(ctx, &hdr_in->s_ll)) goto next; ctx->pkts_seen++; hdr_out = tx_ring.frames[it_out].iov_base; out = ((uint8_t *) hdr_out) + TPACKET2_HDRLEN - sizeof(struct sockaddr_ll); while (!user_may_pull_from_tx(tx_ring.frames[it_out].iov_base) && likely(!sigint)) { if (ctx->randomize) next_rnd_slot(&it_out, &tx_ring); else { it_out++; if (it_out >= tx_ring.layout.tp_frame_nr) it_out = 0; } hdr_out = tx_ring.frames[it_out].iov_base; out = ((uint8_t *) hdr_out) + TPACKET2_HDRLEN - sizeof(struct sockaddr_ll); } tpacket_hdr_clone(&hdr_out->tp_h, &hdr_in->tp_h); memcpy(out, in, hdr_in->tp_h.tp_len); kernel_may_pull_from_tx(&hdr_out->tp_h); if (ctx->randomize) next_rnd_slot(&it_out, &tx_ring); else { it_out++; if (it_out >= tx_ring.layout.tp_frame_nr) it_out = 0; } show_frame_hdr(in, hdr_in->tp_h.tp_snaplen, ctx->link_type, hdr_in, ctx->print_mode, ctx->pkts_seen); dissector_entry_point(in, hdr_in->tp_h.tp_snaplen, ctx->link_type, ctx->print_mode, &hdr_in->s_ll); if (frame_count_max != 0) { if (ctx->pkts_seen >= frame_count_max) { sigint = 1; break; } } next: kernel_may_pull_from_rx(&hdr_in->tp_h); it_in++; if (it_in >= rx_ring.layout.tp_frame_nr) it_in = 0; if (unlikely(sigint == 1)) goto out; } ret = poll(&rx_poll, 1, -1); if (unlikely(ret < 0)) { if (errno != EINTR) panic("Poll failed!\n"); } } out: timer_purge(); dump_rx_stats(ctx, rx_sock, false); bpf_release(&bpf_ops); dissector_cleanup_all(); destroy_tx_ring(tx_sock, &tx_ring); destroy_rx_ring(rx_sock, &rx_ring); if (ctx->promiscuous) device_leave_promiscuous_mode(ctx->device_in, ifflags); close(tx_sock); close(rx_sock); } static void translate_pcap_to_txf(int fdo, uint8_t *out, size_t len) { size_t bytes_done = 0; char bout[80]; slprintf(bout, sizeof(bout), "{\n "); write_or_die(fdo, bout, strlen(bout)); while (bytes_done < len) { slprintf(bout, sizeof(bout), "0x%02x,", out[bytes_done]); write_or_die(fdo, bout, strlen(bout)); bytes_done++; if (bytes_done % 10 == 0) { slprintf(bout, sizeof(bout), "\n"); write_or_die(fdo, bout, strlen(bout)); if (bytes_done < len) { slprintf(bout, sizeof(bout), " "); write_or_die(fdo, bout, strlen(bout)); } } else if (bytes_done < len) { slprintf(bout, sizeof(bout), " "); write_or_die(fdo, bout, strlen(bout)); } } if (bytes_done % 10 != 0) { slprintf(bout, sizeof(bout), "\n"); write_or_die(fdo, bout, strlen(bout)); } slprintf(bout, sizeof(bout), "}\n\n"); write_or_die(fdo, bout, strlen(bout)); } static void read_pcap(struct ctx *ctx) { uint8_t *out; int ret, fd, fdo = 0; unsigned long trunced = 0; size_t out_len; pcap_pkthdr_t phdr; struct sock_fprog bpf_ops; struct frame_map fm; struct timeval start, end, diff; bool is_out_pcap = ctx->device_out && strstr(ctx->device_out, ".pcap"); const struct pcap_file_ops *pcap_out_ops = pcap_ops[PCAP_OPS_RW]; bug_on(!__pcap_io); if (!strncmp("-", ctx->device_in, strlen("-"))) { fd = dup_or_die(fileno(stdin)); close(fileno(stdin)); if (ctx->pcap == PCAP_OPS_MM) ctx->pcap = PCAP_OPS_SG; } else { /* O_NOATIME requires privileges, in case we don't have * them, retry without them at a minor cost of updating * atime in case the fs has been mounted as such. */ fd = open(ctx->device_in, O_RDONLY | O_LARGEFILE | O_NOATIME); if (fd < 0 && errno == EPERM) fd = open_or_die(ctx->device_in, O_RDONLY | O_LARGEFILE); if (fd < 0) panic("Cannot open file %s! %s.\n", ctx->device_in, strerror(errno)); } if (__pcap_io->init_once_pcap) __pcap_io->init_once_pcap(false); ret = __pcap_io->pull_fhdr_pcap(fd, &ctx->magic, &ctx->link_type); if (ret) panic("Error reading pcap header!\n"); if (__pcap_io->prepare_access_pcap) { ret = __pcap_io->prepare_access_pcap(fd, PCAP_MODE_RD, ctx->jumbo); if (ret) panic("Error prepare reading pcap!\n"); } memset(&fm, 0, sizeof(fm)); bpf_parse_rules(ctx->filter, &bpf_ops, ctx->link_type); if (ctx->dump_bpf) bpf_dump_all(&bpf_ops); dissector_init_all(ctx->print_mode); out_len = round_up(1024 * 1024, RUNTIME_PAGE_SIZE); out = xmalloc_aligned(out_len, CO_CACHE_LINE_SIZE); if (ctx->device_out) { if (!strncmp("-", ctx->device_out, strlen("-"))) { fdo = dup_or_die(fileno(stdout)); close(fileno(stdout)); } else { fdo = open_or_die_m(ctx->device_out, O_RDWR | O_CREAT | O_TRUNC | O_LARGEFILE, DEFFILEMODE); } } if (is_out_pcap) { ret = pcap_out_ops->push_fhdr_pcap(fdo, ctx->magic, ctx->link_type); if (ret) panic("Error writing pcap header!\n"); } drop_privileges(ctx->enforce, ctx->uid, ctx->gid); printf("Running! Hang up with ^C!\n\n"); fflush(stdout); bug_on(gettimeofday(&start, NULL)); while (likely(sigint == 0)) { do { ret = __pcap_io->read_pcap(fd, &phdr, ctx->magic, out, out_len); if (unlikely(ret < 0)) goto out; if (unlikely(pcap_get_length(&phdr, ctx->magic) == 0)) { trunced++; continue; } if (unlikely(pcap_get_length(&phdr, ctx->magic) > out_len)) { pcap_set_length(&phdr, ctx->magic, out_len); trunced++; } } while (ctx->filter && !bpf_run_filter(&bpf_ops, out, pcap_get_length(&phdr, ctx->magic))); pcap_pkthdr_to_tpacket_hdr(&phdr, ctx->magic, &fm.tp_h, &fm.s_ll); ctx->tx_bytes += fm.tp_h.tp_len; ctx->tx_packets++; show_frame_hdr(out, fm.tp_h.tp_snaplen, ctx->link_type, &fm, ctx->print_mode, ctx->tx_packets); dissector_entry_point(out, fm.tp_h.tp_snaplen, ctx->link_type, ctx->print_mode, &fm.s_ll); if (is_out_pcap) { size_t pcap_len = pcap_get_length(&phdr, ctx->magic); int wlen = pcap_out_ops->write_pcap(fdo, &phdr, ctx->magic, out, pcap_len); if (unlikely(wlen != (int)pcap_get_total_length(&phdr, ctx->magic))) panic("Error writing to pcap!\n"); } else if (ctx->device_out) { translate_pcap_to_txf(fdo, out, fm.tp_h.tp_snaplen); } if (frame_count_max != 0) { if (ctx->tx_packets >= frame_count_max) { sigint = 1; break; } } } out: bug_on(gettimeofday(&end, NULL)); timersub(&end, &start, &diff); bpf_release(&bpf_ops); dissector_cleanup_all(); if (__pcap_io->prepare_close_pcap) __pcap_io->prepare_close_pcap(fd, PCAP_MODE_RD); xfree(out); fflush(stdout); printf("\n"); printf("\r%12lu packets outgoing\n", ctx->tx_packets); printf("\r%12lu packets truncated in file\n", trunced); printf("\r%12lu bytes outgoing\n", ctx->tx_bytes); printf("\r%12lu sec, %lu usec in total\n", diff.tv_sec, diff.tv_usec); if (!strncmp("-", ctx->device_in, strlen("-"))) dup2(fd, fileno(stdin)); close(fd); if (ctx->device_out) { if (!strncmp("-", ctx->device_out, strlen("-"))) dup2(fdo, fileno(stdout)); close(fdo); } } static void generate_multi_pcap_filename(struct ctx *ctx, char *fname, size_t size, time_t ftime) { if (ctx->overwrite_interval > 0) { slprintf(fname, size, "%s/%s%010lu.pcap", ctx->device_out, ctx->prefix, ctx->file_number); ctx->file_number++; if (ctx->file_number >= ctx->overwrite_interval) ctx->file_number = 0; } else { slprintf(fname, size, "%s/%s%lu.pcap", ctx->device_out, ctx->prefix, ftime); } } static void finish_multi_pcap_file(struct ctx *ctx, int fd) { __pcap_io->fsync_pcap(fd); if (__pcap_io->prepare_close_pcap) __pcap_io->prepare_close_pcap(fd, PCAP_MODE_WR); close(fd); memset(&itimer, 0, sizeof(itimer)); setitimer(ITIMER_REAL, &itimer, NULL); } static int next_multi_pcap_file(struct ctx *ctx, int fd) { int ret; char fname[PATH_MAX] = {0}; time_t ftime; __pcap_io->fsync_pcap(fd); if (__pcap_io->prepare_close_pcap) __pcap_io->prepare_close_pcap(fd, PCAP_MODE_WR); close(fd); if (sighup_time > 0) { ftime = (time_t)(start_time + sighup_time); sighup_time = 0; } else ftime = time(NULL); generate_multi_pcap_filename(ctx, fname, sizeof(fname), ftime); fd = open_or_die_m(fname, O_RDWR | O_CREAT | O_TRUNC | O_LARGEFILE, DEFFILEMODE); ret = __pcap_io->push_fhdr_pcap(fd, ctx->magic, ctx->link_type); if (ret) panic("Error writing pcap header!\n"); if (__pcap_io->prepare_access_pcap) { ret = __pcap_io->prepare_access_pcap(fd, PCAP_MODE_WR, true); if (ret) panic("Error prepare writing pcap!\n"); } return fd; } static void reset_interval(struct ctx *ctx) { if (ctx->dump_mode == DUMP_INTERVAL_TIME) { interval = ctx->dump_interval; set_itimer_interval_value(&itimer, interval, 0); setitimer(ITIMER_REAL, &itimer, NULL); } else { interval = 0; } } static int begin_multi_pcap_file(struct ctx *ctx) { int fd, ret; char fname[PATH_MAX] = {0}; bug_on(!__pcap_io); if (ctx->device_out[strlen(ctx->device_out) - 1] == '/') ctx->device_out[strlen(ctx->device_out) - 1] = 0; generate_multi_pcap_filename(ctx, fname, sizeof(fname), time(NULL)); fd = open_or_die_m(fname, O_RDWR | O_CREAT | O_TRUNC | O_LARGEFILE, DEFFILEMODE); ret = __pcap_io->push_fhdr_pcap(fd, ctx->magic, ctx->link_type); if (ret) panic("Error writing pcap header!\n"); if (__pcap_io->prepare_access_pcap) { ret = __pcap_io->prepare_access_pcap(fd, PCAP_MODE_WR, true); if (ret) panic("Error prepare writing pcap!\n"); } reset_interval(ctx); return fd; } static void finish_single_pcap_file(struct ctx *ctx, int fd) { __pcap_io->fsync_pcap(fd); if (__pcap_io->prepare_close_pcap) __pcap_io->prepare_close_pcap(fd, PCAP_MODE_WR); if (strncmp("-", ctx->device_out, strlen("-"))) close(fd); else dup2(fd, fileno(stdout)); } static int begin_single_pcap_file(struct ctx *ctx) { int fd, ret; char fname[PATH_MAX]; bug_on(!__pcap_io); if (!strncmp("-", ctx->device_out, strlen("-"))) { fd = dup_or_die(fileno(stdout)); close(fileno(stdout)); if (ctx->pcap == PCAP_OPS_MM) ctx->pcap = PCAP_OPS_SG; } else { time_t t; struct tm *ltm; t = time(NULL); if (t == -1) panic("time() failed\n"); ltm = localtime(&t); if (ltm == NULL) panic("localtime() failed\n"); strftime(fname, sizeof(fname), ctx->device_out, ltm); fd = open_or_die_m(fname, O_RDWR | O_CREAT | O_TRUNC | O_LARGEFILE, DEFFILEMODE); } ret = __pcap_io->push_fhdr_pcap(fd, ctx->magic, ctx->link_type); if (ret) panic("Error writing pcap header!\n"); if (__pcap_io->prepare_access_pcap) { ret = __pcap_io->prepare_access_pcap(fd, PCAP_MODE_WR, true); if (ret) panic("Error prepare writing pcap!\n"); } return fd; } static void update_pcap_next_dump(struct ctx *ctx, unsigned long snaplen, int *fd, int sock, bool is_v3) { if (!dump_to_pcap(ctx)) return; if (ctx->dump_mode == DUMP_INTERVAL_SIZE) { interval += snaplen; if (interval > ctx->dump_interval) { next_dump = true; interval = 0; } } if (sighup) { if (ctx->verbose) printf("SIGHUP received, prematurely rotating pcap\n"); sighup = 0; next_dump = true; reset_interval(ctx); } if (next_dump) { *fd = next_multi_pcap_file(ctx, *fd); next_dump = false; if (update_rx_stats(ctx, sock, is_v3)) return; if (ctx->verbose && ctx->print_mode == PRINT_NONE) printf(".(+%"PRIu64"/-%"PRIu64")", ctx->pkts_recvd_last - ctx->pkts_drops_last, ctx->pkts_drops_last); } } #ifdef HAVE_TPACKET3 static void walk_t3_block(struct block_desc *pbd, struct ctx *ctx, int sock, int *fd) { int num_pkts = pbd->h1.num_pkts, i; struct tpacket3_hdr *hdr; struct sockaddr_ll *sll; hdr = (void *) ((uint8_t *) pbd + pbd->h1.offset_to_first_pkt); sll = (void *) ((uint8_t *) hdr + TPACKET_ALIGN(sizeof(*hdr))); for (i = 0; i < num_pkts && likely(sigint == 0); ++i) { uint8_t *packet = ((uint8_t *) hdr + hdr->tp_mac); pcap_pkthdr_t phdr; if (skip_packet(ctx, sll)) goto next; ctx->pkts_seen++; if (dump_to_pcap(ctx)) { int ret; tpacket3_hdr_to_pcap_pkthdr(hdr, sll, &phdr, ctx->magic); ret = __pcap_io->write_pcap(*fd, &phdr, ctx->magic, packet, pcap_get_length(&phdr, ctx->magic)); if (unlikely(ret != (int) pcap_get_total_length(&phdr, ctx->magic))) panic("Write error to pcap!\n"); } __show_frame_hdr(packet, hdr->tp_snaplen, ctx->link_type, sll, hdr, ctx->print_mode, true, ctx->pkts_seen); dissector_entry_point(packet, hdr->tp_snaplen, ctx->link_type, ctx->print_mode, sll); next: hdr = (void *) ((uint8_t *) hdr + hdr->tp_next_offset); sll = (void *) ((uint8_t *) hdr + TPACKET_ALIGN(sizeof(*hdr))); if (frame_count_max != 0) { if (unlikely(ctx->pkts_seen >= frame_count_max)) { sigint = 1; break; } } update_pcap_next_dump(ctx, hdr->tp_snaplen, fd, sock, true); } } #endif /* HAVE_TPACKET3 */ static void recv_only_or_dump(struct ctx *ctx) { short ifflags = 0; int sock, ifindex, fd = 0, ret; size_t size; unsigned int it = 0; struct ring rx_ring; struct pollfd rx_poll; struct sock_fprog bpf_ops; struct timeval start, end, diff; bool is_v3 = is_defined(HAVE_TPACKET3); sock = pf_socket_type(ctx->link_type); ifindex = device_ifindex(ctx->device_in); size = ring_size(ctx->device_in, ctx->reserve_size); enable_kernel_bpf_jit_compiler(); bpf_parse_rules(ctx->filter, &bpf_ops, ctx->link_type); if (ctx->dump_bpf) bpf_dump_all(&bpf_ops); bpf_attach_to_sock(sock, &bpf_ops); if (ctx->hwtimestamp) { ret = set_sockopt_hwtimestamp(sock, ctx->device_in); if (ret == 0 && ctx->verbose) printf("HW timestamping enabled\n"); } ring_rx_setup(&rx_ring, sock, size, ifindex, &rx_poll, is_v3, true, ctx->verbose, ctx->fanout_group, ctx->fanout_type); dissector_init_all(ctx->print_mode); if (ctx->cpu >= 0 && ifindex > 0) { int irq = device_irq_number(ctx->device_in); device_set_irq_affinity(irq, ctx->cpu); if (ctx->verbose) printf("IRQ: %s:%d > CPU%d\n", ctx->device_in, irq, ctx->cpu); } if (ctx->promiscuous) ifflags = device_enter_promiscuous_mode(ctx->device_in); if (dump_to_pcap(ctx) && __pcap_io->init_once_pcap) __pcap_io->init_once_pcap(true); drop_privileges(ctx->enforce, ctx->uid, ctx->gid); if (dump_to_pcap(ctx)) { struct stat stats; ret = stat(ctx->device_out, &stats); if (ret < 0) ctx->dump_dir = 0; else ctx->dump_dir = S_ISDIR(stats.st_mode); if (ctx->dump_dir) fd = begin_multi_pcap_file(ctx); else fd = begin_single_pcap_file(ctx); } printf("Running! Hang up with ^C!\n\n"); fflush(stdout); bug_on(gettimeofday(&start, NULL)); while (likely(sigint == 0)) { #ifdef HAVE_TPACKET3 struct block_desc *pbd; while (user_may_pull_from_rx_block((pbd = rx_ring.frames[it].iov_base))) { walk_t3_block(pbd, ctx, sock, &fd); kernel_may_pull_from_rx_block(pbd); it = (it + 1) % rx_ring.layout3.tp_block_nr; if (unlikely(sigint == 1)) break; } #else while (user_may_pull_from_rx(rx_ring.frames[it].iov_base)) { struct frame_map *hdr = rx_ring.frames[it].iov_base; uint8_t *packet = ((uint8_t *) hdr) + hdr->tp_h.tp_mac; pcap_pkthdr_t phdr; if (skip_packet(ctx, &hdr->s_ll)) goto next; ctx->pkts_seen++; if (unlikely(ring_frame_size(&rx_ring) < hdr->tp_h.tp_snaplen)) { /* XXX: silently ignore for now. We used to * report them with dump_rx_stats() */ goto next; } if (dump_to_pcap(ctx)) { tpacket_hdr_to_pcap_pkthdr(&hdr->tp_h, &hdr->s_ll, &phdr, ctx->magic); ret = __pcap_io->write_pcap(fd, &phdr, ctx->magic, packet, pcap_get_length(&phdr, ctx->magic)); if (unlikely(ret != (int) pcap_get_total_length(&phdr, ctx->magic))) panic("Write error to pcap!\n"); } show_frame_hdr(packet, hdr->tp_h.tp_snaplen, ctx->link_type, hdr, ctx->print_mode, ctx->pkts_seen); dissector_entry_point(packet, hdr->tp_h.tp_snaplen, ctx->link_type, ctx->print_mode, &hdr->s_ll); if (frame_count_max != 0) { if (unlikely(ctx->pkts_seen >= frame_count_max)) { sigint = 1; break; } } next: kernel_may_pull_from_rx(&hdr->tp_h); it = (it + 1) % rx_ring.layout.tp_frame_nr; if (unlikely(sigint == 1)) break; update_pcap_next_dump(ctx, hdr->tp_h.tp_snaplen, &fd, sock, is_v3); } #endif /* HAVE_TPACKET3 */ ret = poll(&rx_poll, 1, -1); if (unlikely(ret < 0)) { if (errno != EINTR) panic("Poll failed!\n"); } } bug_on(gettimeofday(&end, NULL)); timersub(&end, &start, &diff); dump_rx_stats(ctx, sock, is_v3); printf("\r%12lu sec, %lu usec in total\n", diff.tv_sec, diff.tv_usec); bpf_release(&bpf_ops); dissector_cleanup_all(); destroy_rx_ring(sock, &rx_ring); if (ctx->promiscuous) device_leave_promiscuous_mode(ctx->device_in, ifflags); if (ctx->rfraw) leave_rfmon_mac80211(ctx->device_in); if (dump_to_pcap(ctx)) { if (ctx->dump_dir) finish_multi_pcap_file(ctx, fd); else finish_single_pcap_file(ctx, fd); } close(sock); } static void init_ctx(struct ctx *ctx) { memset(ctx, 0, sizeof(*ctx)); ctx->uid = getuid(); ctx->gid = getgid(); ctx->cpu = -1; ctx->packet_type = -1; ctx->fanout_type = PACKET_FANOUT_ROLLOVER; ctx->magic = ORIGINAL_TCPDUMP_MAGIC; ctx->print_mode = PRINT_NORM; ctx->pcap = PCAP_OPS_SG; ctx->dump_mode = DUMP_INTERVAL_TIME; ctx->dump_interval = 60; ctx->promiscuous = true; ctx->randomize = false; ctx->hwtimestamp = true; } static void destroy_ctx(struct ctx *ctx) { free(ctx->device_in); free(ctx->device_out); free(ctx->device_trans); free(ctx->prefix); } static void __noreturn help(void) { printf("netsniff-ng %s, the packet sniffing beast\n", VERSION_STRING); puts("http://www.netsniff-ng.org\n\n" "Usage: netsniff-ng [options] [filter-expression]\n" "Options:\n" " -i|-d|--dev|--in Input source as netdev, pcap or pcap stdin\n" " -o|--out Output sink as netdev, pcap, directory, trafgen, or stdout\n" " -C|--fanout-group Join packet fanout group\n" " -K|--fanout-type Apply fanout discipline: hash|lb|cpu|rnd|roll|qm\n" " -L|--fanout-opts Additional fanout options: defrag|roll\n" " -f|--filter Use BPF filter from bpfc file/stdin or tcpdump-like expression\n" " -t|--type Filter for: host|broadcast|multicast|others|outgoing\n" " -F|--interval Dump interval if -o is a dir: KiB/MiB/GiB/s/sec/min/hrs\n" " -R|--rfraw Capture or inject raw 802.11 frames\n" " -n|--num <0|uint> Number of packets until exit (def: 0)\n" " -P|--prefix Prefix for pcaps stored in directory\n" " -O|--overwrite Limit the number of pcaps to N (file names use numbers 0 to N-1)\n" " -T|--magic Pcap magic number/pcap format to store, see -D\n" " -w|--cooked Use Linux \"cooked\" header instead of link header\n" " -D|--dump-pcap-types Dump pcap types and magic numbers and quit\n" " -B|--dump-bpf Dump generated BPF assembly\n" " -r|--rand Randomize packet forwarding order (dev->dev)\n" " -M|--no-promisc No promiscuous mode for netdev\n" " -A|--no-sock-mem Don't tune core socket memory\n" " -N|--no-hwtimestamp Disable hardware time stamping\n" " -m|--mmap Mmap(2) pcap file I/O, e.g. for replaying pcaps\n" " -G|--sg Scatter/gather pcap file I/O\n" " -c|--clrw Use slower read(2)/write(2) I/O\n" " -S|--ring-size Specify ring size to: KiB/MiB/GiB\n" " -k|--kernel-pull Kernel pull from user interval in us (def: 10us)\n" " -J|--jumbo-support Support replay/fwd 64KB Super Jumbo Frames (def: 2048B)\n" " -b|--bind-cpu Bind to specific CPU\n" " -u|--user Drop privileges and change to userid\n" " -g|--group Drop privileges and change to groupid\n" " -H|--prio-high Make this high priority process\n" " -Q|--notouch-irq Do not touch IRQ CPU affinity of NIC\n" " -s|--silent Do not print captured packets\n" " -q|--less Print less-verbose packet information\n" " -X|--hex Print packet data in hex format\n" " -l|--ascii Print human-readable packet data\n" " -U|--update Update GeoIP databases\n" " -V|--verbose Be more verbose\n" " -v|--version Show version and exit\n" " -h|--help Guess what?!\n\n" "Examples:\n" " netsniff-ng --in eth0 --out dump.pcap -s -T 0xa1b2c3d4 --bind-cpu 0 tcp or udp\n" " netsniff-ng --in wlan0 --rfraw --out dump.pcap --silent --bind-cpu 0\n" " netsniff-ng --in dump.pcap --mmap --out eth0 -k1000 --silent --bind-cpu 0\n" " netsniff-ng --in dump.pcap --out dump.cfg --silent --bind-cpu 0\n" " netsniff-ng --in dump.pcap --out dump2.pcap --silent tcp\n" " netsniff-ng --in eth0 --out eth1 --silent --bind-cpu 0 -J --type host\n" " netsniff-ng --in eth1 --out /opt/probe/ -s -m --interval 100MiB -b 0\n" " netsniff-ng --in vlan0 --out dump.pcap -c -u `id -u bob` -g `id -g bob`\n" " netsniff-ng --in any --filter http.bpf --jumbo-support --ascii -V\n\n" "Note:\n" " For introducing bit errors, delays with random variation and more\n" " while replaying pcaps, make use of tc(8) with its disciplines (e.g. netem).\n"); puts(copyright); die(); } static void __noreturn version(void) { printf("netsniff-ng %s, Git id: %s\n", VERSION_LONG, GITVERSION); puts("the packet sniffing beast\n" "http://www.netsniff-ng.org\n"); puts(copyright); die(); } int main(int argc, char **argv) { char *ptr; int c, i, j, cpu_tmp, ops_touched = 0, vals[4] = {0}; bool prio_high = false, setsockmem = true; void (*main_loop)(struct ctx *ctx) = NULL; struct ctx ctx; init_ctx(&ctx); start_time = time(NULL); srand(start_time); while ((c = getopt_long(argc, argv, short_options, long_options, NULL)) != EOF) { switch (c) { case 'd': case 'i': ctx.device_in = xstrdup(optarg); break; case 'o': ctx.device_out = xstrdup(optarg); break; case 'P': ctx.prefix = xstrdup(optarg); break; case 'O': ctx.overwrite_interval = strtoul(optarg, NULL, 0); break; case 'R': ctx.rfraw = 1; break; case 'r': ctx.randomize = true; break; case 'J': ctx.jumbo = true; break; case 'T': ctx.magic = (uint32_t) strtoul(optarg, NULL, 0); pcap_check_magic(ctx.magic); break; case 'f': ctx.filter = xstrdup(optarg); break; case 'M': ctx.promiscuous = false; break; case 'N': ctx.hwtimestamp = false; break; case 'A': setsockmem = false; break; case 'u': ctx.uid = strtoul(optarg, NULL, 0); ctx.enforce = true; break; case 'g': ctx.gid = strtoul(optarg, NULL, 0); ctx.enforce = true; break; case 'C': ctx.fanout_group = strtoul(optarg, NULL, 0); if (ctx.fanout_group == 0) panic("Non-zero fanout group id required!\n"); break; case 'K': if (!strncmp(optarg, "hash", strlen("hash"))) ctx.fanout_type = PACKET_FANOUT_HASH; else if (!strncmp(optarg, "lb", strlen("lb")) || !strncmp(optarg, "rr", strlen("rr"))) ctx.fanout_type = PACKET_FANOUT_LB; else if (!strncmp(optarg, "cpu", strlen("cpu"))) ctx.fanout_type = PACKET_FANOUT_CPU; else if (!strncmp(optarg, "rnd", strlen("rnd"))) ctx.fanout_type = PACKET_FANOUT_RND; else if (!strncmp(optarg, "roll", strlen("roll"))) ctx.fanout_type = PACKET_FANOUT_ROLLOVER; else if (!strncmp(optarg, "qm", strlen("qm"))) ctx.fanout_type = PACKET_FANOUT_QM; else panic("Unknown fanout type!\n"); break; case 'L': if (!strncmp(optarg, "defrag", strlen("defrag"))) ctx.fanout_type |= PACKET_FANOUT_FLAG_DEFRAG; else if (!strncmp(optarg, "roll", strlen("roll"))) ctx.fanout_type |= PACKET_FANOUT_FLAG_ROLLOVER; else panic("Unknown fanout option!\n"); break; case 't': if (!strncmp(optarg, "host", strlen("host"))) ctx.packet_type = PACKET_HOST; else if (!strncmp(optarg, "broadcast", strlen("broadcast"))) ctx.packet_type = PACKET_BROADCAST; else if (!strncmp(optarg, "multicast", strlen("multicast"))) ctx.packet_type = PACKET_MULTICAST; else if (!strncmp(optarg, "others", strlen("others"))) ctx.packet_type = PACKET_OTHERHOST; else if (!strncmp(optarg, "outgoing", strlen("outgoing"))) ctx.packet_type = PACKET_OUTGOING; else ctx.packet_type = -1; break; case 'S': ptr = optarg; for (j = i = strlen(optarg); i > 0; --i) { if (!isdigit(optarg[j - i])) break; ptr++; } if (!strncmp(ptr, "KiB", strlen("KiB"))) ctx.reserve_size = 1 << 10; else if (!strncmp(ptr, "MiB", strlen("MiB"))) ctx.reserve_size = 1 << 20; else if (!strncmp(ptr, "GiB", strlen("GiB"))) ctx.reserve_size = 1 << 30; else panic("Syntax error in ring size param!\n"); ctx.reserve_size *= strtoul(optarg, NULL, 0); break; case 'b': cpu_tmp = strtol(optarg, NULL, 0); cpu_affinity(cpu_tmp); if (ctx.cpu != -2) ctx.cpu = cpu_tmp; break; case 'H': prio_high = true; break; case 'c': ctx.pcap = PCAP_OPS_RW; ops_touched = 1; break; case 'm': ctx.pcap = PCAP_OPS_MM; ops_touched = 1; break; case 'G': ctx.pcap = PCAP_OPS_SG; ops_touched = 1; break; case 'Q': ctx.cpu = -2; break; case 's': ctx.print_mode = PRINT_NONE; break; case 'q': ctx.print_mode = PRINT_LESS; break; case 'X': ctx.print_mode = (ctx.print_mode == PRINT_ASCII) ? PRINT_HEX_ASCII : PRINT_HEX; break; case 'l': ctx.print_mode = (ctx.print_mode == PRINT_HEX) ? PRINT_HEX_ASCII : PRINT_ASCII; break; case 'k': ctx.kpull = strtoul(optarg, NULL, 0); break; case 'n': frame_count_max = strtoul(optarg, NULL, 0); break; case 'F': ptr = optarg; for (j = i = strlen(optarg); i > 0; --i) { if (!isdigit(optarg[j - i])) break; ptr++; } if (!strncmp(ptr, "KiB", strlen("KiB"))) { ctx.dump_interval = 1 << 10; ctx.dump_mode = DUMP_INTERVAL_SIZE; } else if (!strncmp(ptr, "MiB", strlen("MiB"))) { ctx.dump_interval = 1 << 20; ctx.dump_mode = DUMP_INTERVAL_SIZE; } else if (!strncmp(ptr, "GiB", strlen("GiB"))) { ctx.dump_interval = 1 << 30; ctx.dump_mode = DUMP_INTERVAL_SIZE; } else if (!strncmp(ptr, "sec", strlen("sec"))) { ctx.dump_interval = 1; ctx.dump_mode = DUMP_INTERVAL_TIME; } else if (!strncmp(ptr, "min", strlen("min"))) { ctx.dump_interval = 60; ctx.dump_mode = DUMP_INTERVAL_TIME; } else if (!strncmp(ptr, "hrs", strlen("hrs"))) { ctx.dump_interval = 60 * 60; ctx.dump_mode = DUMP_INTERVAL_TIME; } else if (!strncmp(ptr, "s", strlen("s"))) { ctx.dump_interval = 1; ctx.dump_mode = DUMP_INTERVAL_TIME; } else { panic("Syntax error in time/size param!\n"); } ctx.dump_interval *= strtoul(optarg, NULL, 0); break; case 'V': ctx.verbose = true; break; case 'B': ctx.dump_bpf = true; break; case 'D': pcap_dump_type_features(); die(); break; case 'U': update_geoip(); die(); break; case 'w': ctx.link_type = LINKTYPE_LINUX_SLL; break; case 'v': version(); break; case 'h': help(); break; case '?': switch (optopt) { case 'd': case 'i': case 'o': case 'f': case 't': case 'P': case 'O': case 'F': case 'n': case 'S': case 'b': case 'k': case 'T': case 'u': case 'g': case 'e': panic("Option -%c requires an argument!\n", optopt); default: if (isprint(optopt)) printf("Unknown option character `0x%X\'!\n", optopt); die(); } default: break; } } if (!ctx.filter && optind != argc) ctx.filter = argv2str(optind, argc, argv); if (!ctx.device_in) ctx.device_in = xstrdup("any"); if (!strcmp(ctx.device_in, "any") || !strcmp(ctx.device_in, "lo")) ctx.lo_ifindex = device_ifindex("lo"); if (!ctx.prefix) ctx.prefix = xstrdup("dump-"); register_signal(SIGINT, signal_handler); register_signal(SIGQUIT, signal_handler); register_signal(SIGTERM, signal_handler); register_signal(SIGHUP, signal_handler); tprintf_init(); if (prio_high) { set_proc_prio(-20); set_sched_status(SCHED_FIFO, sched_get_priority_max(SCHED_FIFO)); } if (device_mtu(ctx.device_in) || !strncmp("any", ctx.device_in, strlen(ctx.device_in))) { if (ctx.rfraw) setup_rfmon_mac80211_dev(&ctx, &ctx.device_in); if (!ctx.link_type) ctx.link_type = pcap_dev_to_linktype(ctx.device_in); if (link_has_sll_hdr(ctx.link_type)) { switch (ctx.magic) { case ORIGINAL_TCPDUMP_MAGIC: ctx.magic = ORIGINAL_TCPDUMP_MAGIC_LL; break; case NSEC_TCPDUMP_MAGIC: ctx.magic = NSEC_TCPDUMP_MAGIC_LL; break; case ___constant_swab32(ORIGINAL_TCPDUMP_MAGIC): ctx.magic = ___constant_swab32(ORIGINAL_TCPDUMP_MAGIC_LL); break; case ___constant_swab32(NSEC_TCPDUMP_MAGIC): ctx.magic = ___constant_swab32(NSEC_TCPDUMP_MAGIC_LL); break; } } if (!ctx.device_out) { ctx.dump = 0; main_loop = recv_only_or_dump; } else if (device_mtu(ctx.device_out)) { register_signal_f(SIGALRM, timer_elapsed, SA_SIGINFO); main_loop = receive_to_xmit; } else { ctx.dump = 1; register_signal_f(SIGALRM, timer_next_dump, SA_SIGINFO); main_loop = recv_only_or_dump; if (!ops_touched) ctx.pcap = PCAP_OPS_SG; } } else { if (ctx.device_out && device_mtu(ctx.device_out)) { register_signal_f(SIGALRM, timer_elapsed, SA_SIGINFO); main_loop = pcap_to_xmit; if (!ops_touched) ctx.pcap = PCAP_OPS_MM; } else { setsockmem = false; main_loop = read_pcap; if (!ops_touched) ctx.pcap = PCAP_OPS_SG; } } bug_on(!main_loop); init_geoip(0); if (setsockmem) set_system_socket_memory(vals, array_size(vals)); if (!ctx.enforce) xlockme(); if (ctx.verbose) printf("pcap file I/O method: %s\n", pcap_ops_group_to_str[ctx.pcap]); main_loop(&ctx); if (!ctx.enforce) xunlockme(); if (setsockmem) reset_system_socket_memory(vals, array_size(vals)); destroy_geoip(); device_restore_irq_affinity_list(); tprintf_cleanup(); destroy_ctx(&ctx); return 0; }