static void destroyethtab(struct ethtab *table) { struct ethtabent *ptemp = table->head; struct ethtabent *cnext = NULL; if (table->head != NULL) cnext = table->head->next_entry; while (ptemp != NULL) { if (ptemp->type == 1) { rate_destroy(&ptemp->un.figs.outrate); rate_destroy(&ptemp->un.figs.inrate); } free(ptemp); ptemp = cnext; if (cnext != NULL) cnext = cnext->next_entry; } }
/* * Kill the entire TCP table */ void destroytcptable(struct tcptable *table) { struct tcptableent *ctemp; struct tcptableent *c_next_entry; struct tcp_hashentry *hashtemp; struct tcp_hashentry *hashtemp_next; unsigned int i; /* * Destroy main TCP table */ if (table->head != NULL) { ctemp = table->head; c_next_entry = table->head->next_entry; while (ctemp != NULL) { rate_destroy(&ctemp->rate); free(ctemp); ctemp = c_next_entry; if (c_next_entry != NULL) c_next_entry = c_next_entry->next_entry; } } /* * Destroy list of closed entries */ destroy_closed_entries(table); /* * Destroy hash table */ for (i = 0; i <= ENTRIES_IN_HASH_TABLE - 1; i++) { if (table->hash_table[i] != NULL) { hashtemp = table->hash_table[i]; hashtemp_next = table->hash_table[i]->next_entry; while (hashtemp != NULL) { free(hashtemp); hashtemp = hashtemp_next; if (hashtemp_next != NULL) hashtemp_next = hashtemp_next->next_entry; } } } }
static void destroyiflist(struct iflist *list) { struct iflist *ctmp; struct iflist *ptmp; if (list != NULL) { ptmp = list; ctmp = ptmp->next_entry; do { rate_destroy(&ptmp->rate); free(ptmp); ptmp = ctmp; if (ctmp != NULL) ctmp = ctmp->next_entry; } while (ptmp != NULL); } }
static void destroy_tcp_entry(struct tcptable *table, struct tcptableent *ptmp) { if (ptmp->prev_entry != NULL) ptmp->prev_entry->next_entry = ptmp->next_entry; else table->head = ptmp->next_entry; if (ptmp->next_entry != NULL) ptmp->next_entry->prev_entry = ptmp->prev_entry; else table->tail = ptmp->prev_entry; rate_destroy(&ptmp->rate); free(ptmp); if (table->head == NULL) { table->firstvisible = NULL; table->lastvisible = NULL; } }
/* * The detailed interface statistics function */ void detstats(char *iface, time_t facilitytime) { int logging = options.logging; WINDOW *statwin; PANEL *statpanel; int pkt_result = 0; FILE *logfile = NULL; unsigned int iplen = 0; struct ifcounts ifcounts; int ch; struct timeval tv; struct timeval start_tv; struct timeval updtime; time_t starttime; time_t now; time_t statbegin; time_t startlog; struct proto_counter span; struct rate rate; struct rate rate_in; struct rate rate_out; unsigned long peakactivity = 0; unsigned long peakactivity_in = 0; unsigned long peakactivity_out = 0; struct rate pps_rate; struct rate pps_rate_in; struct rate pps_rate_out; unsigned long peakpps = 0; unsigned long peakpps_in = 0; unsigned long peakpps_out = 0; int fd; if (!dev_up(iface)) { err_iface_down(); return; } LIST_HEAD(promisc); if (options.promisc) { promisc_init(&promisc, iface); promisc_set_list(&promisc); } move(LINES - 1, 1); stdexitkeyhelp(); statwin = newwin(LINES - 2, COLS, 1, 0); statpanel = new_panel(statwin); tx_stdwinset(statwin); wtimeout(statwin, -1); wattrset(statwin, BOXATTR); tx_colorwin(statwin); tx_box(statwin, ACS_VLINE, ACS_HLINE); wmove(statwin, 0, 1); wprintw(statwin, " Statistics for %s ", iface); wattrset(statwin, STDATTR); update_panels(); doupdate(); memset(&ifcounts, 0, sizeof(struct ifcounts)); if (logging) { if (strcmp(current_logfile, "") == 0) { snprintf(current_logfile, 64, "%s-%s.log", DSTATLOG, iface); if (!daemonized) input_logfile(current_logfile, &logging); } } if (logging) { opentlog(&logfile, current_logfile); if (logfile == NULL) logging = 0; } if (logging) { signal(SIGUSR1, rotate_dstat_log); rotate_flag = 0; writelog(logging, logfile, "******** Detailed interface statistics started ********"); } printdetlabels(statwin); printdetails(&ifcounts, statwin); update_panels(); doupdate(); memset(&span, 0, sizeof(span)); rate_alloc(&rate, 5); rate_alloc(&rate_in, 5); rate_alloc(&rate_out, 5); rate_alloc(&pps_rate, 5); rate_alloc(&pps_rate_in, 5); rate_alloc(&pps_rate_out, 5); gettimeofday(&tv, NULL); start_tv = tv; updtime = tv; starttime = startlog = statbegin = tv.tv_sec; leaveok(statwin, TRUE); fd = socket(PF_PACKET, SOCK_RAW, htons(ETH_P_ALL)); if(fd == -1) { write_error("Unable to obtain monitoring socket"); goto err; } if(dev_bind_ifname(fd, iface) == -1) { write_error("Unable to bind interface on the socket"); goto err_close; } exitloop = 0; PACKET_INIT(pkt); /* * Data-gathering loop */ while (!exitloop) { gettimeofday(&tv, NULL); now = tv.tv_sec; if ((now - starttime) >= 1) { char buf[64]; unsigned long activity, activity_in, activity_out; unsigned long pps, pps_in, pps_out; unsigned long msecs; wattrset(statwin, BOXATTR); printelapsedtime(statbegin, now, LINES - 3, 1, statwin); msecs = timeval_diff_msec(&tv, &start_tv); rate_add_rate(&rate, span.proto_total.pc_bytes, msecs); activity = rate_get_average(&rate); rate_add_rate(&rate_in, span.proto_in.pc_bytes, msecs); activity_in = rate_get_average(&rate_in); rate_add_rate(&rate_out, span.proto_out.pc_bytes, msecs); activity_out = rate_get_average(&rate_out); rate_add_rate(&pps_rate, span.proto_total.pc_packets, msecs); pps = rate_get_average(&pps_rate); rate_add_rate(&pps_rate_in, span.proto_in.pc_packets, msecs); pps_in = rate_get_average(&pps_rate_in); rate_add_rate(&pps_rate_out, span.proto_out.pc_packets, msecs); pps_out = rate_get_average(&pps_rate_out); memset(&span, 0, sizeof(span)); starttime = now; start_tv = tv; wattrset(statwin, HIGHATTR); rate_print(activity, buf, sizeof(buf)); mvwprintw(statwin, 14, 19, "%s", buf); rate_print_pps(pps, buf, sizeof(buf)); mvwprintw(statwin, 15, 19, "%s", buf); rate_print(activity_in, buf, sizeof(buf)); mvwprintw(statwin, 17, 19, "%s", buf); rate_print_pps(pps_in, buf, sizeof(buf)); mvwprintw(statwin, 18, 19, "%s", buf); rate_print(activity_out, buf, sizeof(buf)); mvwprintw(statwin, 20, 19, "%s", buf); rate_print_pps(pps_out, buf, sizeof(buf)); mvwprintw(statwin, 21, 19, "%s", buf); if (activity > peakactivity) peakactivity = activity; if (activity_in > peakactivity_in) peakactivity_in = activity_in; if (activity_out > peakactivity_out) peakactivity_out = activity_out; if (pps > peakpps) peakpps = pps; if (pps_in > peakpps_in) peakpps_in = pps_in; if (pps_out > peakpps_out) peakpps_out = pps_out; } if (logging) { check_rotate_flag(&logfile); if ((now - startlog) >= options.logspan) { writedstatlog(iface, peakactivity, peakpps, peakactivity_in, peakpps_in, peakactivity_out, peakpps_out, &ifcounts, time(NULL) - statbegin, logfile); startlog = now; } } if (screen_update_needed(&tv, &updtime)) { printdetails(&ifcounts, statwin); update_panels(); doupdate(); updtime = tv; } if ((facilitytime != 0) && (((now - statbegin) / 60) >= facilitytime)) exitloop = 1; if (packet_get(fd, &pkt, &ch, statwin) == -1) { write_error("Packet receive failed"); exitloop = 1; break; } switch (ch) { case ERR: /* no key ready, do nothing */ break; case 12: case 'l': case 'L': tx_refresh_screen(); break; case 'Q': case 'q': case 'X': case 'x': case 24: case 27: exitloop = 1; break; } if (pkt.pkt_len <= 0) continue; int outgoing; pkt_result = packet_process(&pkt, NULL, NULL, NULL, MATCH_OPPOSITE_USECONFIG, options.v6inv4asv6); if (pkt_result != PACKET_OK && pkt_result != MORE_FRAGMENTS) continue; outgoing = (pkt.pkt_pkttype == PACKET_OUTGOING); update_proto_counter(&ifcounts.total, outgoing, pkt.pkt_len); if (pkt.pkt_pkttype == PACKET_BROADCAST) { update_pkt_counter(&ifcounts.bcast, pkt.pkt_len); } update_proto_counter(&span, outgoing, pkt.pkt_len); /* account network layer protocol */ switch(pkt.pkt_protocol) { case ETH_P_IP: if (pkt_result == CHECKSUM_ERROR) { update_pkt_counter(&ifcounts.bad, pkt.pkt_len); continue; } iplen = ntohs(pkt.iphdr->tot_len); update_proto_counter(&ifcounts.ipv4, outgoing, iplen); break; case ETH_P_IPV6: iplen = ntohs(pkt.ip6_hdr->ip6_plen) + 40; update_proto_counter(&ifcounts.ipv6, outgoing, iplen); break; default: update_proto_counter(&ifcounts.nonip, outgoing, iplen); continue; } __u8 ip_protocol = pkt_ip_protocol(&pkt); /* account transport layer protocol */ switch (ip_protocol) { case IPPROTO_TCP: update_proto_counter(&ifcounts.tcp, outgoing, iplen); break; case IPPROTO_UDP: update_proto_counter(&ifcounts.udp, outgoing, iplen); break; case IPPROTO_ICMP: case IPPROTO_ICMPV6: update_proto_counter(&ifcounts.icmp, outgoing, iplen); break; default: update_proto_counter(&ifcounts.other, outgoing, iplen); break; } } err_close: close(fd); err: rate_destroy(&pps_rate_out); rate_destroy(&pps_rate_in); rate_destroy(&pps_rate); rate_destroy(&rate_out); rate_destroy(&rate_in); rate_destroy(&rate); if (options.promisc) { promisc_restore_list(&promisc); promisc_destroy(&promisc); } if (logging) { signal(SIGUSR1, SIG_DFL); writedstatlog(iface, peakactivity, peakpps, peakactivity_in, peakpps_in, peakactivity_out, peakpps_out, &ifcounts, time(NULL) - statbegin, logfile); writelog(logging, logfile, "******** Detailed interface statistics stopped ********"); fclose(logfile); } del_panel(statpanel); delwin(statwin); strcpy(current_logfile, ""); pkt_cleanup(); update_panels(); doupdate(); }