lcd4linux.git - lcd4linux Debian packaging

Age	Commit message (Collapse)	Author	Files	Lines
2004-01-13	[lcd4linux @ 2004-01-13 08:18:07 by reinelt]	reinelt	1	-0/+178
	timer queues added liblcd4linux deactivated turing transformation to new layout

/* * wavemon - a wireless network monitoring aplication * * Copyright (c) 2001-2002 Jan Morgenstern <jan@jm-music.de> * * wavemon is free software; you can redistribute it and/or modify it under * the terms of the GNU General Public License as published by the Free * Software Foundation; either version 2, or (at your option) any later * version. * * wavemon 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 wavemon; see the file COPYING. If not, write to the Free Software * Foundation, 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #include "iw_if.h" /* GLOBALS */ static WINDOW *w_levels, *w_stats, *w_if, *w_info, *w_net; static struct timer dyn_updates; static struct iw_stat cur; void sampling_init(void (*sampling_handler)(int)) { struct itimerval i; div_t d = div(conf.stat_iv, 1000); /* conf.stat_iv in msec */ xsignal(SIGALRM, SIG_IGN); iw_getinf_range(conf_ifname(), &cur.range); i.it_interval.tv_sec = i.it_value.tv_sec = d.quot; i.it_interval.tv_usec = i.it_value.tv_usec = d.rem * 1000; xsignal(SIGALRM, sampling_handler); (*sampling_handler)(0); setitimer(ITIMER_REAL, &i, NULL); } void sampling_do_poll(void) { iw_getstat(&cur); iw_cache_update(&cur); } static void display_levels(void) { char nscale[2] = { cur.dbm.signal - 20, cur.dbm.signal }, lvlscale[2] = { -40, -20}, snrscale[2] = { 6, 12 }; char tmp[0x100]; static float qual, signal, noise, ssnr; int line; for (line = 1; line <= WH_LEVEL; line++) mvwclrtoborder(w_levels, line, 1); if ((cur.stat.qual.updated & IW_QUAL_ALL_INVALID) == IW_QUAL_ALL_INVALID) { wattron(w_levels, A_BOLD); waddstr_center(w_levels, (WH_LEVEL + 1)/2, "NO INTERFACE DATA"); goto done_levels; } line = 1; /* Noise data is rare. Use the space for spreading out. */ if (cur.stat.qual.updated & IW_QUAL_NOISE_INVALID) line++; if (cur.stat.qual.updated & IW_QUAL_QUAL_INVALID) { line++; } else { qual = ewma(qual, cur.stat.qual.qual, conf.meter_decay / 100.0); mvwaddstr(w_levels, line++, 1, "link quality: "); sprintf(tmp, "%0.f%% ", (1e2 * qual)/cur.range.max_qual.qual); waddstr_b(w_levels, tmp); sprintf(tmp, "(%0.f/%d) ", qual, cur.range.max_qual.qual); waddstr(w_levels, tmp); waddbar(w_levels, line++, qual, 0, cur.range.max_qual.qual, lvlscale, true); } if (cur.stat.qual.updated & IW_QUAL_NOISE_INVALID) line++; if (cur.stat.qual.updated & IW_QUAL_LEVEL_INVALID) { line++; } else { signal = ewma(signal, cur.dbm.signal, conf.meter_decay / 100.0); mvwaddstr(w_levels, line++, 1, "signal level: "); sprintf(tmp, "%.0f dBm (%s) ", signal, dbm2units(signal)); waddstr_b(w_levels, tmp); waddbar(w_levels, line, signal, conf.sig_min, conf.sig_max, lvlscale, true); if (conf.lthreshold_action) waddthreshold(w_levels, line, signal, conf.lthreshold, conf.sig_min, conf.sig_max, lvlscale, '>'); if (conf.hthreshold_action) waddthreshold(w_levels, line, signal, conf.hthreshold, conf.sig_min, conf.sig_max, lvlscale, '<'); line++; } if (! (cur.stat.qual.updated & IW_QUAL_NOISE_INVALID)) { noise = ewma(noise, cur.dbm.noise, conf.meter_decay / 100.0); mvwaddstr(w_levels, line++, 1, "noise level: "); sprintf(tmp, "%.0f dBm (%s) ", noise, dbm2units(noise)); waddstr_b(w_levels, tmp); waddbar(w_levels, line++, noise, conf.noise_min, conf.noise_max, nscale, false); /* * Since we make sure (in iw_if.c) that invalid signal levels always * imply invalid noise levels, we can display a valid SNR here. */ ssnr = ewma(ssnr, cur.dbm.signal - cur.dbm.noise, conf.meter_decay / 100.0); mvwaddstr(w_levels, line++, 1, "signal-to-noise ratio: "); if (ssnr > 0) waddstr_b(w_levels, "+"); sprintf(tmp, "%.0f dB ", ssnr); waddstr_b(w_levels, tmp); waddbar(w_levels, line, ssnr, 0, 110, snrscale, true); } done_levels: wrefresh(w_levels); } static void display_stats(void) { struct if_stat nstat; char tmp[0x100]; if_getstat(conf_ifname(), &nstat); /* * Interface RX stats */ mvwaddstr(w_stats, 1, 1, "RX: "); sprintf(tmp, "%'llu (%s)", nstat.rx_packets, byte_units(nstat.rx_bytes)); waddstr_b(w_stats, tmp); waddstr(w_stats, ", invalid: "); sprintf(tmp, "%u", cur.stat.discard.nwid); waddstr_b(w_stats, tmp); waddstr(w_stats, " nwid, "); sprintf(tmp, "%u", cur.stat.discard.code); waddstr_b(w_stats, tmp); waddstr(w_stats, " crypt, "); sprintf(tmp, "%u", cur.stat.discard.fragment); waddstr_b(w_stats, tmp); waddstr(w_stats, " frag, "); sprintf(tmp, "%u", cur.stat.discard.misc); waddstr_b(w_stats, tmp); waddstr(w_stats, " misc"); wclrtoborder(w_stats); /* * Interface TX stats */ mvwaddstr(w_stats, 2, 1, "TX: "); sprintf(tmp, "%'llu (%s)", nstat.tx_packets, byte_units(nstat.tx_bytes)); waddstr_b(w_stats, tmp); waddstr(w_stats, ", mac retries: "); sprintf(tmp, "%u", cur.stat.discard.retries); waddstr_b(w_stats, tmp); waddstr(w_stats, ", missed beacons: "); sprintf(tmp, "%u", cur.stat.miss.beacon); waddstr_b(w_stats, tmp); wclrtoborder(w_stats); wrefresh(w_stats); } static void display_info(WINDOW *w_if, WINDOW *w_info) { struct iw_dyn_info info; char tmp[0x100]; int i; dyn_info_get(&info, conf_ifname(), &cur.range); wmove(w_if, 1, 1); waddstr_b(w_if, conf_ifname()); if (cur.range.enc_capa & IW_WPA_MASK) sprintf(tmp, " (%s, %s)", info.name, format_wpa(&cur.range)); else sprintf(tmp, " (%s)", info.name); waddstr(w_if, tmp); if (info.cap_essid) { waddstr_b(w_if, ","); waddstr(w_if, " ESSID: "); if (info.essid_ct > 1) sprintf(tmp, "\"%s\" [%d]", info.essid, info.essid_ct); else if (info.essid_ct) sprintf(tmp, "\"%s\"", info.essid); else sprintf(tmp, "off/any"); waddstr_b(w_if, tmp); } if (info.cap_nickname) { waddstr(w_if, ", nick: "); sprintf(tmp, "\"%s\"", info.nickname); waddstr_b(w_if, tmp); } if (info.cap_nwid) { waddstr(w_if, ", nwid: "); if (info.nwid.disabled) sprintf(tmp, "off/any"); else sprintf(tmp, "%X", info.nwid.value); waddstr_b(w_if, tmp); } wclrtoborder(w_if); wrefresh(w_if); wmove(w_info, 1, 1); waddstr(w_info, "mode: "); if (info.cap_mode) waddstr_b(w_info, iw_opmode(info.mode)); else waddstr(w_info, "n/a"); if (info.mode != IW_MODE_MASTER && info.mode != IW_MODE_SECOND && info.mode != IW_MODE_MONITOR) { if (info.mode == IW_MODE_ADHOC) waddstr(w_info, ", cell: "); else waddstr(w_info, ", access point: "); if (info.cap_ap) waddstr_b(w_info, format_bssid(&info.ap_addr)); else waddstr(w_info, "n/a"); } if (info.cap_sens) { waddstr(w_info, ", sensitivity: "); if (info.sens < 0) sprintf(tmp, "%d dBm", info.sens); else sprintf(tmp, "%d/%d", info.sens, cur.range.sensitivity); waddstr_b(w_info, tmp); } wclrtoborder(w_info); wmove(w_info, 2, 1); if (info.cap_freq && info.freq < 256) info.freq = channel_to_freq(info.freq, &cur.range); if (info.cap_freq && info.freq > 1e3) { waddstr(w_info, "freq: "); sprintf(tmp, "%g GHz", info.freq / 1.0e9); waddstr_b(w_info, tmp); i = freq_to_channel(info.freq, &cur.range); if (i >= 0) { waddstr(w_info, ", channel: "); sprintf(tmp, "%d", i); waddstr_b(w_info, tmp); } } else { waddstr(w_info, "frequency/channel: n/a"); } if (! (info.mode >= IW_MODE_MASTER && info.mode <= IW_MODE_MONITOR)) { waddstr(w_info, ", bitrate: "); if (info.bitrate) { sprintf(tmp, "%g Mbit/s", info.bitrate / 1.0e6); waddstr_b(w_info, tmp); } else waddstr(w_info, "n/a"); } wclrtoborder(w_info); wmove(w_info, 3, 1); waddstr(w_info, "power mgt: "); if (info.cap_power) waddstr_b(w_info, format_power(&info.power, &cur.range)); else waddstr(w_info, "n/a"); if (info.cap_txpower && info.txpower.disabled) { waddstr(w_info, ", tx-power: off"); } else if (info.cap_txpower) { /* * Convention: auto-selected values start with a capital * letter, otherwise with a small letter. */ if (info.txpower.fixed) waddstr(w_info, ", tx-power: "); else waddstr(w_info, ", TX-power: "); waddstr_b(w_info, format_txpower(&info.txpower)); } wclrtoborder(w_info); wmove(w_info, 4, 1); waddstr(w_info, "retry: "); if (info.cap_retry) waddstr_b(w_info, format_retry(&info.retry, &cur.range)); else waddstr(w_info, "n/a"); waddstr(w_info, ", "); if (info.cap_rts) { waddstr(w_info, info.rts.fixed ? "rts/cts: " : "RTS/cts: "); if (info.rts.disabled) sprintf(tmp, "off"); else sprintf(tmp, "%d B", info.rts.value); waddstr_b(w_info, tmp); } else { waddstr(w_info, "rts/cts: n/a"); } waddstr(w_info, ", "); if (info.cap_frag) { waddstr(w_info, info.frag.fixed ? "frag: " : "Frag: "); if (info.frag.disabled) sprintf(tmp, "off"); else sprintf(tmp, "%d B", info.frag.value); waddstr_b(w_info, tmp); } else { waddstr(w_info, "frag: n/a"); } wclrtoborder(w_info); wmove(w_info, 5, 1); waddstr(w_info, "encryption: "); if (info.keys) { int cnt = dyn_info_active_keys(&info); if (cnt == 0) { waddstr_b(w_info, "off (no key set)"); } else if (info.active_key) { i = info.active_key - 1; waddstr_b(w_info, curtail(format_key(info.keys + i), "..", MAXXLEN/2)); if (info.keys[i].flags & IW_ENCODE_RESTRICTED) waddstr(w_info, ", restricted"); if (info.keys[i].flags & IW_ENCODE_OPEN) waddstr(w_info, ", open"); /* First key = default */ if (cnt > 1 || info.active_key != 1) { sprintf(tmp, " [%d]", info.active_key); waddstr_b(w_info, tmp); } if (cnt > 1) { sprintf(tmp, " (%d other key%s)", cnt - 1, cnt == 2 ? "" : "s"); waddstr(w_info, tmp); } } else if (dyn_info_wep_keys(&info) == cnt) { waddstr_b(w_info, "off "); sprintf(tmp, "(%d disabled WEP key%s)", cnt, cnt == 1 ? "" : "s"); waddstr(w_info, tmp); } else { uint8_t j = 0, k = 0; do if (info.keys[j].size && !(info.keys[j].flags & IW_ENCODE_DISABLED)) info.keys[k++].size = info.keys[j].size; while (k < cnt && ++j < info.nkeys); if (cnt == 1) j = sprintf(tmp, "1 key (index #%u), ", j + 1); else j = sprintf(tmp, "%d keys with ", k); for (i = 0; i < k; i++) j += sprintf(tmp + j, "%s%d", i ? "/" : "", info.keys[i].size * 8); sprintf(tmp + j, " bits"); waddstr_b(w_info, tmp); } } else if (has_net_admin_capability()) { waddstr(w_info, "no information available"); } else { waddstr(w_info, "n/a (requires CAP_NET_ADMIN permissions)"); } dyn_info_cleanup(&info); wclrtoborder(w_info); wrefresh(w_info); } static void display_netinfo(WINDOW *w_net) { struct if_info info; char tmp[0x40]; if_getinf(conf_ifname(), &info); wmove(w_net, 1, 1); wclrtoborder(w_net); if (getmaxy(w_net) == WH_NET_MAX) { waddstr(w_net, conf_ifname()); waddstr_b(w_net, " ("); waddstr(w_net, info.flags & IFF_UP ? "UP" : "DOWN"); if (info.flags & IFF_RUNNING) /* Interface RFC2863 OPER_UP */ waddstr(w_net, " RUNNING"); #ifdef IFF_LOWER_UP /* Linux 2.6.17 */ if (info.flags & IFF_LOWER_UP) /* Driver signals L1 up */ waddstr(w_net, " LOWER_UP"); #endif #ifdef IFF_DORMANT /* Linux 2.6.17 */ if (info.flags & IFF_DORMANT) /* Driver signals dormant */ waddstr(w_net, " DORMANT"); #endif if (info.flags & IFF_MASTER) /* Master of a load balancer */ waddstr(w_net, " MASTER"); if (info.flags & IFF_SLAVE) /* Slave of a load balancer */ waddstr(w_net, " SLAVE"); if (info.flags & IFF_POINTOPOINT) /* Is a point-to-point link */ waddstr(w_net, " POINTOPOINT"); if (info.flags & IFF_DYNAMIC) /* Address is volatile */ waddstr(w_net, " DYNAMIC"); if (info.flags & IFF_BROADCAST) /* Valid broadcast address set */ waddstr(w_net, " BROADCAST"); if (info.flags & IFF_MULTICAST) /* Supports multicast */ waddstr(w_net, " MULTICAST"); if (info.flags & IFF_ALLMULTI) /* Receive all mcast packets */ waddstr(w_net, " ALLMULTI"); if (info.flags & IFF_NOARP) /* No ARP protocol */ waddstr(w_net, " NOARP"); if (info.flags & IFF_NOTRAILERS) /* Avoid use of trailers */ waddstr(w_net, " NOTRAILERS"); if (info.flags & IFF_PROMISC) /* Is in promiscuous mode */ waddstr(w_net, " PROMISC"); if (info.flags & IFF_DEBUG) /* Internal debugging flag */ waddstr(w_net, " DEBUG"); waddstr_b(w_net, ")"); wmove(w_net, 2, 1); wclrtoborder(w_net); } waddstr(w_net, "mac: "); waddstr_b(w_net, ether_lookup(&info.hwaddr)); if (getmaxy(w_net) == WH_NET_MAX) { waddstr(w_net, ", qlen: "); sprintf(tmp, "%u", info.txqlen); waddstr_b(w_net, tmp); wmove(w_net, 3, 1); wclrtoborder(w_net); } else { waddstr(w_net, ", "); } waddstr(w_net, "ip: "); if (!info.addr.s_addr) { waddstr_b(w_net, "n/a"); } else { sprintf(tmp, "%s/%u", inet_ntoa(info.addr), prefix_len(&info.netmask)); waddstr_b(w_net, tmp); /* only show bcast address if not set to the obvious default */ if (info.bcast.s_addr != (info.addr.s_addr | ~info.netmask.s_addr)) { waddstr(w_net, ", bcast: "); waddstr_b(w_net, inet_ntoa(info.bcast)); } } /* 802.11 MTU may be greater than Ethernet MTU (1500) */ if (info.mtu && info.mtu != ETH_DATA_LEN) { waddstr(w_net, ", mtu: "); sprintf(tmp, "%u", info.mtu); waddstr_b(w_net, tmp); } wrefresh(w_net); } static void redraw_stat_levels(int signum) { sampling_do_poll(); display_levels(); display_stats(); } void scr_info_init(void) { int line = 0; w_if = newwin_title(line, WH_IFACE, "Interface", true); line += WH_IFACE; w_levels = newwin_title(line, WH_LEVEL, "Levels", true); line += WH_LEVEL; w_stats = newwin_title(line, WH_STATS, "Statistics", true); line += WH_STATS; w_info = newwin_title(line, WH_INFO_MIN, "Info", true); line += WH_INFO_MIN; if (LINES >= WH_INFO_SCR_MIN + (WH_NET_MAX - WH_NET_MIN)) w_net = newwin_title(line, WH_NET_MAX, "Network", false); else w_net = newwin_title(line, WH_NET_MIN, "Network", false); display_info(w_if, w_info); display_netinfo(w_net); start_timer(&dyn_updates, conf.info_iv * 1000000); sampling_init(redraw_stat_levels); } int scr_info_loop(WINDOW *w_menu) { if (end_timer(&dyn_updates)) { display_info(w_if, w_info); display_netinfo(w_net); start_timer(&dyn_updates, conf.info_iv * 1000000); } return wgetch(w_menu); } void scr_info_fini(void) { sampling_stop(); delwin(w_net); delwin(w_info); delwin(w_stats); delwin(w_levels); delwin(w_if); }