#define _LARGEFILE64_SOURCE /* required for GLIBC to enable stat64 and friends */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "mt.h" #include "term.h" #include "utils.h" #include "error.h" #include "mem.h" #include "help.h" #include "globals.h" #include "ui.h" void info(void) { NEWWIN *mywin = create_popup(19, 60); int line = 7; struct utsname uinfo; int proc_u_line; char *term = getenv("TERM"); mvwprintw(mywin -> win, 1, 2, "-=* MultiTail " VERSION " *=-"); mvwprintw(mywin -> win, 3, 2, "Written by folkert@vanheusden.com"); mvwprintw(mywin -> win, 4, 2, "Website: http://www.vanheusden.com/multitail/"); if (!use_colors) mvwprintw(mywin -> win, line++, 2, "Your terminal doesn't support colors"); if (uname(&uinfo) == -1) error_popup("Retrieving system information", -1, "uname() failed\n"); else { line++; mvwprintw(mywin -> win, line++, 2, "Running on:"); #ifdef _GNU_SOURCE mvwprintw(mywin -> win, line++, 2, "%s/%s %s %s", uinfo.nodename, uinfo.sysname, uinfo.machine, uinfo.domainname); #else mvwprintw(mywin -> win, line++, 2, "%s/%s %s", uinfo.nodename, uinfo.sysname, uinfo.machine); #endif mvwprintw(mywin -> win, line++, 2, "%s %s", uinfo.release, uinfo.version); line++; } if (has_colors()) mvwprintw(mywin -> win, line++, 2, "colors: %d, colorpairs: %d (%d), change colors: %s", COLORS, COLOR_PAIRS, cp.n_def, can_change_color()?"yes":"no"); else mvwprintw(mywin -> win, line++, 2, "Terminal does not support colors."); if (term) mvwprintw(mywin -> win, line++, 2, "Terminal size: %dx%d, terminal: %s", max_x, max_y, term); else mvwprintw(mywin -> win, line++, 2, "Terminal size: %dx%d", max_x, max_y); if (beep_interval > 0) mvwprintw(mywin -> win, line++, 2, "Did %d beeps.", did_n_beeps); proc_u_line = line++; escape_print(mywin, 16, 2, "_Press any key to exit this screen_"); #if defined(__FreeBSD__) || defined(linux) || defined(__OpenBSD__) || defined(__NetBSD__) || defined(__APPLE__) || defined(sun) || defined(__sun) || defined(__GNU__) || defined(__CYGWIN__) for(;;) { dtime_t run_time = get_ts() - mt_started; #ifndef __CYGWIN__ double v1, v2, v3; get_load_values(&v1, &v2, &v3); mvwprintw(mywin -> win, 6, 2, "Current load of system: %f %f %f", v1, v2, v3); #endif if (run_time) { struct rusage usage; if (getrusage(RUSAGE_SELF, &usage) == -1) error_exit(__FILE__, __PRETTY_FUNCTION__, __LINE__, "getrusage() failed\n"); mvwprintw(mywin -> win, proc_u_line, 2, "Runtime: %02d:%02d:%02d, avg.proc.usage: %.2f%% ints/s: %.1f", (int)(run_time / 3600), ((int)run_time / 60) % 60, (int)run_time % 60, ((double)usage.ru_utime.tv_sec + (double)usage.ru_utime.tv_usec / 1000000.0 + (double)usage.ru_stime.tv_sec + (double)usage.ru_stime.tv_usec / 1000000.0) * 100.0 / run_time, (double)total_wakeups / run_time); } mydoupdate(); if (wait_for_keypress(-1, popup_refresh_interval, mywin, 0) != -1) break; } #else mydoupdate(); wait_for_keypress(-1, 0, mywin, 0); #endif delete_popup(mywin); } void reset_counters(statistics_t *ps) { memset(ps, 0x0, sizeof(*ps)); ps -> sccfirst = 1; } void statistics_popup(int f_index, proginfo *cur) { NEWWIN *popup = create_popup(16, 68); const char *title = "Statistics for "; char *abbr_fname = shorten_filename(cur -> filename, 54 - strlen(title)); char buffer[54 + 1]; snprintf(buffer, sizeof(buffer), "%s%s", title, abbr_fname); for(;;) { dtime_t time_running = get_ts() - cur -> statistics.start_ts; time_t start_ts = (time_t)cur -> statistics.start_ts; char *start_ts_str = mystrdup(ctime(&start_ts), __FILE__, __PRETTY_FUNCTION__, __LINE__); time_t lastevent = (time_t)cur -> statistics.lastevent; char *last_ts_str = mystrdup(ctime(&lastevent), __FILE__, __PRETTY_FUNCTION__, __LINE__); char *dummy; char *vmsize_str = NULL; char *fsize_str = NULL; char *total_data_processed_str = amount_to_str(cur -> statistics.bytes_processed); char *buffer_kb; off64_t fsize = -1; int c; int total_re = 0; int loop; if (cur -> wt == WT_COMMAND) { vmsize_str = amount_to_str(get_vmsize(cur -> pid)); } else if (cur -> wt == WT_FILE) { (void)file_info(cur -> filename, &fsize, 0, NULL, NULL); fsize_str = amount_to_str(fsize); } dummy = strchr(start_ts_str, '\n'); if (dummy) *dummy = 0x00; dummy = strchr(last_ts_str, '\n'); if (dummy) *dummy = 0x00; werase(popup -> win); win_header(popup, buffer); ui_inverse_on(popup); mvwprintw(popup -> win, 3, 2, "# lines :"); mvwprintw(popup -> win, 3, 27, "#l/s :"); mvwprintw(popup -> win, 3, 44, "Avg len:"); mvwprintw(popup -> win, 4, 2, "Data interval :"); if (cur -> wt == WT_COMMAND) mvwprintw(popup -> win, 5, 2, "VM size :"); else if (cur -> wt == WT_FILE) mvwprintw(popup -> win, 5, 2, "File size :"); mvwprintw(popup -> win, 9, 2, "Data processed:"); mvwprintw(popup -> win, 9, 27, "Bps :"); mvwprintw(popup -> win, 6, 2, "Started at :"); mvwprintw(popup -> win, 7, 2, "Last event :"); mvwprintw(popup -> win, 8, 2, "Next expected@:"); mvwprintw(popup -> win, 10, 2, "# matched r.e.:"); mvwprintw(popup -> win, 11, 2, "Buffered lines:"); mvwprintw(popup -> win, 11, 27, "Bytes:"); mvwprintw(popup -> win, 11, 44, "Limit :"); mvwprintw(popup -> win, 12, 2, "# of beeps: "); if (cur -> wt == WT_COMMAND) { mvwprintw(popup -> win, 13, 2, "Number of runs:"); mvwprintw(popup -> win, 13, 27, "Last rc:"); } ui_inverse_off(popup); mvwprintw(popup -> win, 3, 18, "%d", cur -> statistics.n_events); mvwprintw(popup -> win, 6, 18, "%s", start_ts_str); if (cur -> statistics.lastevent != (dtime_t)0.0) mvwprintw(popup -> win, 7, 18, "%s", last_ts_str); else mvwprintw(popup -> win, 7, 18, "---"); if (cur -> statistics.n_events == 0) { mvwprintw(popup -> win, 4, 18, "Not yet available"); } else { double avg = cur -> statistics.med / (double)cur -> statistics.n_events; double dev = sqrt((cur -> statistics.dev / (double)cur -> statistics.n_events) - pow(avg, 2.0)); /* serial correlation coefficient */ double scct1 = cur -> statistics.scct1 + cur -> statistics.scclast * cur -> statistics.sccu0; double med = cur -> statistics.med * cur -> statistics.med; double scc = (double)cur -> statistics.n_events * cur -> statistics.dev - med; if (scc != 0.0) { scc = ((double)cur -> statistics.n_events * scct1 - med) / scc; mvwprintw(popup -> win, 4, 18, "average: %.2f, std.dev.: %.2f, SCC: %1.6f", avg, dev, scc); } else mvwprintw(popup -> win, 4, 18, "average: %.2f, std.dev.: %.2f, not correlated", avg, dev); if (avg) { double dummy_d = (double)(time(NULL) - cur -> statistics.lastevent) / avg; time_t next_event = cur -> statistics.lastevent + (ceil(dummy_d) * avg); char *ne_str = mystrdup(ctime(&next_event), __FILE__, __PRETTY_FUNCTION__, __LINE__); char *dummy_str = strchr(ne_str, '\n'); if (dummy_str) *dummy_str = 0x00; mvwprintw(popup -> win, 8, 18, "%s", ne_str); myfree(ne_str); } mvwprintw(popup -> win, 3, 53, "%.1f", (double)cur -> statistics.bytes_processed / (double)cur -> statistics.n_events); } if (cur -> wt == WT_COMMAND) mvwprintw(popup -> win, 5, 18, "%s", vmsize_str); else if (cur -> wt == WT_STDIN || cur -> wt == WT_SOCKET) mvwprintw(popup -> win, 5, 18, "n.a."); else if (cur -> wt == WT_FILE) mvwprintw(popup -> win, 5, 18, "%s", fsize_str); myfree(vmsize_str); myfree(fsize_str); mvwprintw(popup -> win, 9, 18, "%s", total_data_processed_str); myfree(total_data_processed_str); if (time_running > 0) { char *bps_str = amount_to_str((double)cur -> statistics.bytes_processed / (double)time_running); mvwprintw(popup -> win, 9, 34, "%s", bps_str); myfree(bps_str); mvwprintw(popup -> win, 3, 34, "%.4f", (double)cur -> statistics.n_events / (double)time_running); } buffer_kb = amount_to_str(lb[f_index].curbytes); mvwprintw(popup -> win, 11, 18, "%d", lb[f_index].curpos); mvwprintw(popup -> win, 11, 34, "%s", buffer_kb); myfree(buffer_kb); mvwprintw(popup -> win, 12, 18, "%d", cur -> beep.did_n_beeps); escape_print(popup, 14, 2, "Press ^r^ to reset counters, ^q^ to exit"); myfree(start_ts_str); myfree(last_ts_str); for(loop=0; loop n_re; loop++) total_re += (cur -> pre)[loop].match_count; if (cur -> statistics.n_events) mvwprintw(popup -> win, 10, 18, "%d (%.2f%%)", total_re, (total_re * 100.0) / (double)cur -> statistics.n_events); else mvwprintw(popup -> win, 10, 18, "%d", total_re); if (cur -> wt == WT_COMMAND) { mvwprintw(popup -> win, 13, 18, "%d", cur -> n_runs); mvwprintw(popup -> win, 13, 36, "%d", cur -> last_exit_rc); } if (lb[f_index].maxnlines > 0) { mvwprintw(popup -> win, 11, 53, "%d lines", lb[f_index].maxnlines); } else if (lb[f_index].maxbytes > 0) { char *str = amount_to_str(lb[f_index].maxbytes); mvwprintw(popup -> win, 11, 53, "%s", str); myfree(str); } draw_border(popup); mydoupdate(); c = toupper(wait_for_keypress(HELP_STATISTICS_POPUP, popup_refresh_interval, popup, 0)); if (c == 'Q' || c == abort_key) { break; } else if (c == 'R') { reset_counters(&cur -> statistics); } else if (c != -1) { wrong_key(); } } delete_popup(popup); } void statistics_menu(void) { NEWWIN *mywin = create_popup(23, 65); int offset = 0, cur_line = 0; for(;;) { int c; int vmsize = get_vmsize(getpid()); time_t now = time(NULL); struct tm *tmnow = localtime(&now); proginfo **plist = NULL; char *issub = NULL; int *winnr = NULL; int loop, nwin = 0; /* create list of (sub-)windows */ for(loop=0; loop next; } } werase(mywin -> win); win_header(mywin, "Statistics"); for(loop=0; loop<18; loop++) { int cur_index = loop + offset; int is_sub_indent; if (cur_index >= nwin) break; is_sub_indent = issub[cur_index]; if (loop == cur_line) ui_inverse_on(mywin); if (is_sub_indent) mvwprintw(mywin -> win, 2 + loop, 7, "%s", shorten_filename(plist[cur_index] -> filename, 54)); else mvwprintw(mywin -> win, 2 + loop, 2, "[%02d] %s", winnr[cur_index], shorten_filename(plist[cur_index] -> filename, 56)); if (loop == cur_line) ui_inverse_off(mywin); } mvwprintw(mywin -> win, 20, 2, "Run-time: %.2f hours %02d:%02d", (get_ts() - mt_started) / 3600.0, tmnow -> tm_hour, tmnow -> tm_min); if (vmsize != -1) { char *vmsize_str = amount_to_str(vmsize); mvwprintw(mywin -> win, 20, 35, "Memory usage: %s", vmsize_str); myfree(vmsize_str); } escape_print(mywin, 21, 2, "Press ^r^ to reset counters, ^q^ to exit"); draw_border(mywin); mydoupdate(); c = toupper(wait_for_keypress(HELP_STATISTICS, popup_refresh_interval, mywin, 1)); if (c == 'R') { for(loop=0; loop statistics); cur = cur -> next; } } } else if (c == KEY_UP) { if (cur_line) cur_line--; else if (offset) offset--; else wrong_key(); } else if (c == KEY_DOWN) { if ((cur_line + offset) < (nwin - 1)) { if (cur_line < (18 - 1)) cur_line++; else offset++; } else wrong_key(); } else if (c == 13 || c == ' ') { statistics_popup(winnr[cur_line + offset], plist[cur_line + offset]); } else if (c == 'Q' || c == abort_key) { myfree(plist); myfree(issub); myfree(winnr); break; } else if (c != -1) { wrong_key(); } myfree(plist); myfree(issub); myfree(winnr); } delete_popup(mywin); } void heartbeat(void) { time_t now = time(NULL); struct tm *ptm = localtime(&now); static int x = 0, y = 0, dx = 1, dy = 1; static NEWWIN *hb_win = NULL; x += dx; y += dy; if (x >= (max_x - 8)) { dx = -(myrand(1) + 1); x = max_x - (8 + 1); } else if (x < 0) { dx = (myrand(2) + 1); x = 0; } if (y >= max_y) { dy = -(myrand(2) + 1); y = max_y - 1; } else if (y < 0) { dy = (myrand(2) + 1); y = 0; } if (dx == 0 && dy == 0) { dy = 1; dy = -1; } if (!hb_win) { hb_win = create_popup(1, 8); } move_panel(hb_win -> pwin, y, x); ui_inverse_on(hb_win); mvwprintw(hb_win -> win, 0, 0, "%02d:%02d:%02d", ptm -> tm_hour, ptm -> tm_min, ptm -> tm_sec); ui_inverse_off(hb_win); mydoupdate(); } void do_check_for_mail(dtime_t now) { if (check_for_mail > 0 && mail_spool_file != NULL && (now - msf_last_check) >= check_for_mail) { /* get current filesize */ if (stat64(mail_spool_file, &msf_info) == -1) { if (errno != ENOENT) { check_for_mail = 0; error_popup("Check for new e-mail", -1, "Error doing stat64() on file %s.\ne-Mail check disabled.\n", mail_spool_file); } } /* filesize changed? */ if (msf_info.st_size != msf_prev_size) { /* file became bigger: new mail * if it became less, the file changed because * mail was deleted or so */ if (msf_info.st_size > msf_prev_size) { mail = 1; redraw_statuslines(); if (do_refresh != 2) do_refresh = 1; } msf_prev_size = msf_info.st_size; } msf_last_check = now; } } void store_statistics(proginfo *cur, dtime_t now) { if (cur -> statistics.lastevent) { dtime_t cur_deltat = now - cur -> statistics.lastevent; if (cur -> statistics.n_events == 1) { cur -> statistics.total_deltat += (cur_deltat - cur -> statistics.prev_deltat); cur -> statistics.prev_deltat = cur_deltat; } cur -> statistics.med += cur_deltat; cur -> statistics.dev += pow(cur_deltat, 2.0); cur -> statistics.n_events++; /* Update calculation of serial correlation coefficient */ /* (also uses cur -> med/dev) */ if (cur -> statistics.sccfirst) { cur -> statistics.sccfirst = 0; cur -> statistics.scclast = 0; cur -> statistics.sccu0 = cur_deltat; } else cur -> statistics.scct1 = cur -> statistics.scct1 + cur -> statistics.scclast * cur_deltat; cur -> statistics.scclast = cur_deltat; } cur -> statistics.lastevent = now; }