/* Conky, a system monitor, based on torsmo * * Any original torsmo code is licensed under the BSD license * * All code written since the fork of torsmo is licensed under the GPL * * Please see COPYING for details * * Copyright (c) 2004, Hannu Saransaari and Lauri Hakkarainen * Copyright (c) 2005-2009 Brenden Matthews, Philip Kovacs, et. al. * (see AUTHORS) * All rights reserved. * * This program 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 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 "config.h" #include "text_object.h" #include "conky.h" #include "common.h" #include #include #include #include #include #include #include #include #if HAVE_DIRENT_H #include #endif #include #include #ifdef X11 #include "x11.h" #include #ifdef HAVE_XDAMAGE #include #endif #ifdef IMLIB2 #include #endif /* IMLIB2 */ #endif /* X11 */ #include #include #include #include #include #include /* local headers */ #include "algebra.h" #include "build.h" #include "colours.h" #include "diskio.h" #ifdef X11 #include "fonts.h" #endif #include "fs.h" #include "logging.h" #include "mixer.h" #include "mail.h" #include "mboxscan.h" #include "specials.h" #include "temphelper.h" #include "tailhead.h" #include "top.h" /* check for OS and include appropriate headers */ #if defined(__linux__) #include "linux.h" #elif defined(__FreeBSD__) || defined(__FreeBSD_kernel__) #include "freebsd.h" #elif defined(__OpenBSD__) #include "openbsd.h" #endif /* FIXME: apm_getinfo is unused here. maybe it's meant for common.c */ #if (defined(__FreeBSD__) || defined(__FreeBSD_kernel__) \ || defined(__OpenBSD__)) && (defined(i386) || defined(__i386__)) int apm_getinfo(int fd, apm_info_t aip); char *get_apm_adapter(void); char *get_apm_battery_life(void); char *get_apm_battery_time(void); #endif #ifdef HAVE_ICONV #include #endif #ifdef CONFIG_OUTPUT #include "defconfig.h" #ifdef HAVE_FOPENCOOKIE #include "conf_cookie.h" #endif #endif #ifndef S_ISSOCK #define S_ISSOCK(x) ((x & S_IFMT) == S_IFSOCK) #endif #define MAIL_FILE "$MAIL" #define MAX_IF_BLOCK_DEPTH 5 //#define SIGNAL_BLOCKING #undef SIGNAL_BLOCKING /* debugging level, used by logging.h */ int global_debug_level = 0; /* two strings for internal use */ static char *tmpstring1, *tmpstring2; /* variables holding various config settings */ int short_units; int cpu_separate; enum { NO_SPACER = 0, LEFT_SPACER, RIGHT_SPACER } use_spacer; int top_cpu, top_mem, top_time; static unsigned int top_name_width = 15; int output_methods; enum x_initialiser_state x_initialised = NO; static volatile int g_signal_pending; /* Update interval */ double update_interval; /* prototypes for internally used functions */ static void signal_handler(int); static void print_version(void) __attribute__((noreturn)); static void reload_config(void); static void clean_up(void); static void generate_text_internal(char *, int, struct text_object, struct information *); static int extract_variable_text_internal(struct text_object *, const char *, char); static void print_version(void) { printf(PACKAGE_NAME" "VERSION" compiled "BUILD_DATE" for "BUILD_ARCH"\n"); printf("\nCompiled in features:\n\n" "System config file: "SYSTEM_CONFIG_FILE"\n\n" #ifdef X11 " X11:\n" # ifdef HAVE_XDAMAGE " * Xdamage extension\n" # endif /* HAVE_XDAMAGE */ # ifdef HAVE_XDBE " * XDBE (double buffer extension)\n" # endif /* HAVE_XDBE */ # ifdef XFT " * Xft\n" # endif /* XFT */ #endif /* X11 */ "\n Music detection:\n" #ifdef AUDACIOUS " * Audacious\n" #endif /* AUDACIOUS */ #ifdef BMPX " * BMPx\n" #endif /* BMPX */ #ifdef MPD " * MPD\n" #endif /* MPD */ #ifdef MOC " * MOC\n" #endif /* MOC */ #ifdef XMMS2 " * XMMS2\n" #endif /* XMMS2 */ "\n General:\n" #ifdef MATH " * math\n" #endif /* Math */ #ifdef HDDTEMP " * hddtemp\n" #endif /* HDDTEMP */ #ifdef TCP_PORT_MONITOR " * portmon\n" #endif /* TCP_PORT_MONITOR */ #ifdef RSS " * RSS\n" #endif /* RSS */ #ifdef HAVE_IWLIB " * wireless\n" #endif /* HAVE_IWLIB */ #ifdef IBM " * support for IBM/Lenovo notebooks\n" #endif /* IBM */ #ifdef NVIDIA " * nvidia\n" #endif #ifdef EVE " * eve-online\n" #endif /* EVE */ #ifdef CONFIG_OUTPUT " * config-output\n" #endif /* CONFIG_OUTPUT */ #ifdef MIXER_IS_ALSA " * ALSA mixer support\n" #endif /* MIXER_IS_ALSA */ ); exit(0); } static const char *suffixes[] = { "B", "KiB", "MiB", "GiB", "TiB", "PiB", "" }; #ifdef X11 /* text size */ static int text_start_x, text_start_y; /* text start position in window */ static int text_width, text_height; /* alignments */ enum alignment { TOP_LEFT = 1, TOP_RIGHT, TOP_MIDDLE, BOTTOM_LEFT, BOTTOM_RIGHT, BOTTOM_MIDDLE, MIDDLE_LEFT, MIDDLE_RIGHT, NONE }; /* display to connect to */ static char *disp = NULL; #endif /* X11 */ /* struct that has all info to be shared between * instances of the same text object */ struct information info; /* default config file */ static char *current_config; /* set to 1 if you want all text to be in uppercase */ static unsigned int stuff_in_upper_case; /* Run how many times? */ static unsigned long total_run_times; /* fork? */ static int fork_to_background; static int cpu_avg_samples, net_avg_samples, diskio_avg_samples; /* filenames for output */ char *overwrite_file = NULL; FILE *overwrite_fpointer = NULL; char *append_file = NULL; FILE *append_fpointer = NULL; #ifdef X11 static int show_graph_scale; static int show_graph_range; /* Position on the screen */ static int text_alignment; static int gap_x, gap_y; /* border */ static int draw_borders; static int draw_graph_borders; static int stippled_borders; static int draw_shades, draw_outline; static int border_margin, border_width; static long default_fg_color, default_bg_color, default_out_color; /* create own window or draw stuff to root? */ static int set_transparent = 0; #ifdef OWN_WINDOW static int own_window = 0; static int background_colour = 0; /* fixed size/pos is set if wm/user changes them */ static int fixed_size = 0, fixed_pos = 0; #endif static int minimum_width, minimum_height; static int maximum_width; #endif /* X11 */ #ifdef __OpenBSD__ static int sensor_device; #endif static long color0, color1, color2, color3, color4, color5, color6, color7, color8, color9; static char *template[10]; /* maximum size of config TEXT buffer, i.e. below TEXT line. */ static unsigned int max_user_text = MAX_USER_TEXT_DEFAULT; /* maximum size of individual text buffers, ie $exec buffer size */ unsigned int text_buffer_size = DEFAULT_TEXT_BUFFER_SIZE; #ifdef HAVE_ICONV #define CODEPAGE_LENGTH 20 long iconv_selected; long iconv_count = 0; char iconv_converting; static iconv_t **iconv_cd = 0; int register_iconv(iconv_t *new_iconv) { iconv_cd = realloc(iconv_cd, sizeof(iconv_t *) * (iconv_count + 1)); if (!iconv_cd) { CRIT_ERR("Out of memory"); } iconv_cd[iconv_count] = malloc(sizeof(iconv_t)); if (!iconv_cd[iconv_count]) { CRIT_ERR("Out of memory"); } memcpy(iconv_cd[iconv_count], new_iconv, sizeof(iconv_t)); iconv_count++; return iconv_count; } void free_iconv(void) { if (iconv_cd) { long i; for (i = 0; i < iconv_count; i++) { if (iconv_cd[i]) { iconv_close(*iconv_cd[i]); free(iconv_cd[i]); } } free(iconv_cd); } iconv_cd = 0; } #endif /* UTF-8 */ int utf8_mode = 0; /* no buffers in used memory? */ int no_buffers; /* pad percentages to decimals? */ static int pad_percents = 0; static char *global_text = 0; long global_text_lines; static int total_updates; static int updatereset; int check_contains(char *f, char *s) { int ret = 0; FILE *where = fopen(f, "r"); if (where) { char buf1[256], buf2[256]; while (fgets(buf1, 256, where)) { sscanf(buf1, "%255s", buf2); if (strstr(buf2, s)) { ret = 1; break; } } fclose(where); } else { ERR("Could not open the file"); } return ret; } #ifdef X11 static inline int calc_text_width(const char *s, int l) { if ((output_methods & TO_X) == 0) return 0; #ifdef XFT if (use_xft) { XGlyphInfo gi; if (utf8_mode) { XftTextExtentsUtf8(display, fonts[selected_font].xftfont, (const FcChar8 *) s, l, &gi); } else { XftTextExtents8(display, fonts[selected_font].xftfont, (const FcChar8 *) s, l, &gi); } return gi.xOff; } else #endif { return XTextWidth(fonts[selected_font].font, s, l); } } #endif /* X11 */ /* formatted text to render on screen, generated in generate_text(), * drawn in draw_stuff() */ static char *text_buffer; #ifdef X11 static unsigned int special_index; /* used when drawing */ #endif /* X11 */ /* quite boring functions */ static inline void for_each_line(char *b, void f(char *)) { char *ps, *pe; for (ps = b, pe = b; *pe; pe++) { if (*pe == '\n') { *pe = '\0'; f(ps); *pe = '\n'; ps = pe + 1; } } if (ps < pe) { f(ps); } } static void convert_escapes(char *buf) { char *p = buf, *s = buf; while (*s) { if (*s == '\\') { s++; if (*s == 'n') { *p++ = '\n'; } else if (*s == '\\') { *p++ = '\\'; } s++; } else { *p++ = *s++; } } *p = '\0'; } /* Prints anything normally printed with snprintf according to the current value * of use_spacer. Actually slightly more flexible than snprintf, as you can * safely specify the destination buffer as one of your inputs. */ int spaced_print(char *buf, int size, const char *format, int width, ...) { int len = 0; va_list argp; char *tempbuf; if (size < 1) { return 0; } tempbuf = malloc(size * sizeof(char)); // Passes the varargs along to vsnprintf va_start(argp, width); vsnprintf(tempbuf, size, format, argp); va_end(argp); switch (use_spacer) { case NO_SPACER: len = snprintf(buf, size, "%s", tempbuf); break; case LEFT_SPACER: len = snprintf(buf, size, "%*s", width, tempbuf); break; case RIGHT_SPACER: len = snprintf(buf, size, "%-*s", width, tempbuf); break; } free(tempbuf); return len; } /* print percentage values * * - i.e., unsigned values between 0 and 100 * - respect the value of pad_percents */ static int percent_print(char *buf, int size, unsigned value) { return spaced_print(buf, size, "%u", pad_percents, value); } /* converts from bytes to human readable format (K, M, G, T) * * The algorithm always divides by 1024, as unit-conversion of byte * counts suggests. But for output length determination we need to * compare with 1000 here, as we print in decimal form. */ static void human_readable(long long num, char *buf, int size) { const char **suffix = suffixes; float fnum; int precision; int width; const char *format; if (short_units) { width = 5; format = "%.*f%.1s"; } else { width = 7; format = "%.*f%-3s"; } if (llabs(num) < 1000LL) { spaced_print(buf, size, format, width, 0, (float)num, *suffix); return; } while (llabs(num / 1024) >= 1000LL && **(suffix + 2)) { num /= 1024; suffix++; } suffix++; fnum = num / 1024.0; /* fnum should now be < 1000, so looks like 'AAA.BBBBB' * * The goal is to always have a significance of 3, by * adjusting the decimal part of the number. Sample output: * 123MiB * 23.4GiB * 5.12B * so the point of alignment resides between number and unit. The * upside of this is that there is minimal padding necessary, though * there should be a way to make alignment take place at the decimal * dot (then with fixed width decimal part). * */ precision = 0; /* print 100-999 without decimal part */ if (fnum < 100) precision = 1; /* print 10-99 with one decimal place */ if (fnum < 10) precision = 2; /* print 0-9 with two decimal place */ spaced_print(buf, size, format, width, precision, fnum, *suffix); } /* global object list root element */ static struct text_object global_root_object; static inline void read_exec(const char *data, char *buf, const int size) { FILE *fp = popen(data, "r"); int length = fread(buf, 1, size, fp); pclose(fp); buf[length] = '\0'; if (length > 0 && buf[length - 1] == '\n') { buf[length - 1] = '\0'; } } void *threaded_exec(void *) __attribute__((noreturn)); void *threaded_exec(void *arg) { char *buff, *p2; struct text_object *obj = (struct text_object *)arg; while (1) { buff = malloc(text_buffer_size); read_exec(obj->data.texeci.cmd, buff, text_buffer_size); p2 = buff; while (*p2) { if (*p2 == '\001') { *p2 = ' '; } p2++; } timed_thread_lock(obj->data.texeci.p_timed_thread); strncpy(obj->data.texeci.buffer, buff, text_buffer_size); timed_thread_unlock(obj->data.texeci.p_timed_thread); free(buff); if (timed_thread_test(obj->data.texeci.p_timed_thread, 0)) { timed_thread_exit(obj->data.texeci.p_timed_thread); } } /* never reached */ } static struct text_object *new_text_object_internal(void) { struct text_object *obj = malloc(sizeof(struct text_object)); memset(obj, 0, sizeof(struct text_object)); return obj; } /* free the list of text objects root points to */ static void free_text_objects(struct text_object *root) { struct text_object *obj; if (!root->prev) { return; } #define data obj->data for (obj = root->prev; obj; obj = root->prev) { root->prev = obj->prev; switch (obj->type) { #ifndef __OpenBSD__ case OBJ_acpitemp: close(data.i); break; #endif /* !__OpenBSD__ */ #ifdef __linux__ case OBJ_i2c: case OBJ_platform: case OBJ_hwmon: close(data.sysfs.fd); break; #endif /* __linux__ */ case OBJ_time: case OBJ_utime: free(data.s); break; case OBJ_tztime: free(data.tztime.tz); free(data.tztime.fmt); break; case OBJ_mboxscan: free(data.mboxscan.args); free(data.mboxscan.output); break; case OBJ_mails: case OBJ_new_mails: case OBJ_seen_mails: case OBJ_unseen_mails: case OBJ_flagged_mails: case OBJ_unflagged_mails: case OBJ_forwarded_mails: case OBJ_unforwarded_mails: case OBJ_replied_mails: case OBJ_unreplied_mails: case OBJ_draft_mails: case OBJ_trashed_mails: free(data.local_mail.box); break; case OBJ_imap_unseen: if (!obj->global_mode) { free(data.mail); } break; case OBJ_imap_messages: if (!obj->global_mode) { free(data.mail); } break; case OBJ_pop3_unseen: if (!obj->global_mode) { free(data.mail); } break; case OBJ_pop3_used: if (!obj->global_mode) { free(data.mail); } break; case OBJ_if_empty: case OBJ_if_match: free_text_objects(obj->sub); free(obj->sub); /* fall through */ case OBJ_if_existing: case OBJ_if_mounted: case OBJ_if_running: free(data.ifblock.s); free(data.ifblock.str); break; case OBJ_tail: free(data.tail.logfile); free(data.tail.buffer); break; case OBJ_text: case OBJ_font: case OBJ_image: case OBJ_eval: case OBJ_exec: case OBJ_execgauge: case OBJ_execbar: case OBJ_execgraph: case OBJ_execp: free(data.s); break; #ifdef HAVE_ICONV case OBJ_iconv_start: free_iconv(); break; #endif #ifdef __linux__ case OBJ_disk_protect: free(data.s); break; case OBJ_if_gw: free(data.ifblock.s); free(data.ifblock.str); case OBJ_gw_iface: case OBJ_gw_ip: if (info.gw_info.iface) { free(info.gw_info.iface); info.gw_info.iface = 0; } if (info.gw_info.ip) { free(info.gw_info.ip); info.gw_info.ip = 0; } break; case OBJ_ioscheduler: if(data.s) free(data.s); break; #endif #if (defined(__FreeBSD__) || defined(__linux__)) case OBJ_if_up: free(data.ifblock.s); free(data.ifblock.str); #endif #ifdef XMMS2 case OBJ_xmms2_artist: if (info.xmms2.artist) { free(info.xmms2.artist); info.xmms2.artist = 0; } break; case OBJ_xmms2_album: if (info.xmms2.album) { free(info.xmms2.album); info.xmms2.album = 0; } break; case OBJ_xmms2_title: if (info.xmms2.title) { free(info.xmms2.title); info.xmms2.title = 0; } break; case OBJ_xmms2_genre: if (info.xmms2.genre) { free(info.xmms2.genre); info.xmms2.genre = 0; } break; case OBJ_xmms2_comment: if (info.xmms2.comment) { free(info.xmms2.comment); info.xmms2.comment = 0; } break; case OBJ_xmms2_url: if (info.xmms2.url) { free(info.xmms2.url); info.xmms2.url = 0; } break; case OBJ_xmms2_date: if (info.xmms2.date) { free(info.xmms2.date); info.xmms2.date = 0; } break; case OBJ_xmms2_status: if (info.xmms2.status) { free(info.xmms2.status); info.xmms2.status = 0; } break; case OBJ_xmms2_playlist: if (info.xmms2.playlist) { free(info.xmms2.playlist); info.xmms2.playlist = 0; } break; case OBJ_xmms2_smart: if (info.xmms2.artist) { free(info.xmms2.artist); info.xmms2.artist = 0; } if (info.xmms2.title) { free(info.xmms2.title); info.xmms2.title = 0; } if (info.xmms2.url) { free(info.xmms2.url); info.xmms2.url = 0; } break; #endif #ifdef BMPX case OBJ_bmpx_title: case OBJ_bmpx_artist: case OBJ_bmpx_album: case OBJ_bmpx_track: case OBJ_bmpx_uri: case OBJ_bmpx_bitrate: break; #endif #ifdef EVE case OBJ_eve: break; #endif #ifdef RSS case OBJ_rss: free(data.rss.uri); free(data.rss.action); break; #endif case OBJ_pre_exec: break; #ifndef __OpenBSD__ case OBJ_battery: free(data.s); break; case OBJ_battery_short: free(data.s); break; case OBJ_battery_time: free(data.s); break; #endif /* !__OpenBSD__ */ case OBJ_execpi: case OBJ_execi: case OBJ_execibar: case OBJ_execigraph: case OBJ_execigauge: free(data.execi.cmd); free(data.execi.buffer); break; case OBJ_texeci: free(data.texeci.cmd); free(data.texeci.buffer); break; case OBJ_nameserver: free_dns_data(); break; case OBJ_top: case OBJ_top_mem: case OBJ_top_time: if (info.first_process) { free_all_processes(); info.first_process = NULL; } break; #ifdef HDDTEMP case OBJ_hddtemp: free(data.hddtemp.dev); free(data.hddtemp.addr); if (data.hddtemp.temp) free(data.hddtemp.temp); break; #endif case OBJ_entropy_avail: case OBJ_entropy_poolsize: case OBJ_entropy_bar: break; case OBJ_user_names: if (info.users.names) { free(info.users.names); info.users.names = 0; } break; case OBJ_user_terms: if (info.users.terms) { free(info.users.terms); info.users.terms = 0; } break; case OBJ_user_times: if (info.users.times) { free(info.users.times); info.users.times = 0; } break; #ifdef IBM case OBJ_smapi: case OBJ_smapi_bat_perc: case OBJ_smapi_bat_temp: case OBJ_smapi_bat_power: free(data.s); break; case OBJ_if_smapi_bat_installed: free(data.ifblock.s); free(data.ifblock.str); break; #endif #ifdef NVIDIA case OBJ_nvidia: break; #endif #ifdef MPD case OBJ_mpd_title: case OBJ_mpd_artist: case OBJ_mpd_album: case OBJ_mpd_random: case OBJ_mpd_repeat: case OBJ_mpd_vol: case OBJ_mpd_bitrate: case OBJ_mpd_status: case OBJ_mpd_bar: case OBJ_mpd_elapsed: case OBJ_mpd_length: case OBJ_mpd_track: case OBJ_mpd_name: case OBJ_mpd_file: case OBJ_mpd_percent: case OBJ_mpd_smart: case OBJ_if_mpd_playing: free_mpd(); break; #endif #ifdef MOC case OBJ_moc_state: case OBJ_moc_file: case OBJ_moc_title: case OBJ_moc_artist: case OBJ_moc_song: case OBJ_moc_album: case OBJ_moc_totaltime: case OBJ_moc_timeleft: case OBJ_moc_curtime: case OBJ_moc_bitrate: case OBJ_moc_rate: free_moc(); break; #endif case OBJ_scroll: free(data.scroll.text); free_text_objects(obj->sub); free(obj->sub); break; case OBJ_combine: free(data.combine.left); free(data.combine.seperation); free(data.combine.right); free_text_objects(obj->sub); free(obj->sub); break; } free(obj); } #undef data } void scan_mixer_bar(const char *arg, int *a, int *w, int *h) { char buf1[64]; int n; if (arg && sscanf(arg, "%63s %n", buf1, &n) >= 1) { *a = mixer_init(buf1); scan_bar(arg + n, w, h); } else { *a = mixer_init(NULL); scan_bar(arg, w, h); } } /* strip a leading /dev/ if any, following symlinks first * * BEWARE: this function returns a pointer to static content * which gets overwritten in consecutive calls. I.e.: * this function is NOT reentrant. */ static const char *dev_name(const char *path) { static char buf[255]; /* should be enough for pathnames */ ssize_t buflen; if (!path) return NULL; #define DEV_NAME(x) \ x != NULL && strlen(x) > 5 && strncmp(x, "/dev/", 5) == 0 ? x + 5 : x if ((buflen = readlink(path, buf, 254)) == -1) return DEV_NAME(path); buf[buflen] = '\0'; return DEV_NAME(buf); #undef DEV_NAME } /* construct_text_object() creates a new text_object */ static struct text_object *construct_text_object(const char *s, const char *arg, long line, char allow_threaded, void **ifblock_opaque) { // struct text_object *obj = new_text_object(); struct text_object *obj = new_text_object_internal(); obj->line = line; #define OBJ(a, n) if (strcmp(s, #a) == 0) { \ obj->type = OBJ_##a; need_mask |= (1 << n); { #define OBJ_IF(a, n) if (strcmp(s, #a) == 0) { \ obj->type = OBJ_##a; need_mask |= (1 << n); \ obj_be_ifblock_if(ifblock_opaque, obj); { #define OBJ_THREAD(a, n) if (strcmp(s, #a) == 0 && allow_threaded) { \ obj->type = OBJ_##a; need_mask |= (1 << n); { #define END } } else #ifdef X11 if (s[0] == '#') { obj->type = OBJ_color; obj->data.l = get_x11_color(s); } else #endif /* X11 */ #ifdef __OpenBSD__ OBJ(freq, INFO_FREQ) #else OBJ(acpitemp, 0) obj->data.i = open_acpi_temperature(arg); END OBJ(acpiacadapter, 0) END OBJ(freq, INFO_FREQ) #endif /* !__OpenBSD__ */ get_cpu_count(); if (!arg || !isdigit(arg[0]) || strlen(arg) >= 2 || atoi(&arg[0]) == 0 || (unsigned int) atoi(&arg[0]) > info.cpu_count) { obj->data.cpu_index = 1; /* ERR("freq: Invalid CPU number or you don't have that many CPUs! " "Displaying the clock for CPU 1."); */ } else { obj->data.cpu_index = atoi(&arg[0]); } obj->a = 1; END OBJ(freq_g, INFO_FREQ) get_cpu_count(); if (!arg || !isdigit(arg[0]) || strlen(arg) >= 2 || atoi(&arg[0]) == 0 || (unsigned int) atoi(&arg[0]) > info.cpu_count) { obj->data.cpu_index = 1; /* ERR("freq_g: Invalid CPU number or you don't have that many " "CPUs! Displaying the clock for CPU 1."); */ } else { obj->data.cpu_index = atoi(&arg[0]); } obj->a = 1; #if defined(__linux__) END OBJ(voltage_mv, 0) get_cpu_count(); if (!arg || !isdigit(arg[0]) || strlen(arg) >= 2 || atoi(&arg[0]) == 0 || (unsigned int) atoi(&arg[0]) > info.cpu_count) { obj->data.cpu_index = 1; /* ERR("voltage_mv: Invalid CPU number or you don't have that many " "CPUs! Displaying voltage for CPU 1."); */ } else { obj->data.cpu_index = atoi(&arg[0]); } obj->a = 1; END OBJ(voltage_v, 0) get_cpu_count(); if (!arg || !isdigit(arg[0]) || strlen(arg) >= 2 || atoi(&arg[0]) == 0 || (unsigned int) atoi(&arg[0]) > info.cpu_count) { obj->data.cpu_index = 1; /* ERR("voltage_v: Invalid CPU number or you don't have that many " "CPUs! Displaying voltage for CPU 1."); */ } else { obj->data.cpu_index = atoi(&arg[0]); } obj->a = 1; #ifdef HAVE_IWLIB END OBJ(wireless_essid, INFO_NET) if (arg) { obj->data.net = get_net_stat(arg); } else { CRIT_ERR("wireless_essid: needs an argument"); } END OBJ(wireless_mode, INFO_NET) if (arg) { obj->data.net = get_net_stat(arg); } else { CRIT_ERR("wireless_mode: needs an argument"); } END OBJ(wireless_bitrate, INFO_NET) if (arg) { obj->data.net = get_net_stat(arg); } else { CRIT_ERR("wireless_bitrate: needs an argument"); } END OBJ(wireless_ap, INFO_NET) if (arg) { obj->data.net = get_net_stat(arg); } else { CRIT_ERR("wireless_ap: needs an argument"); } END OBJ(wireless_link_qual, INFO_NET) if (arg) { obj->data.net = get_net_stat(arg); } else { CRIT_ERR("wireless_link_qual: needs an argument"); } END OBJ(wireless_link_qual_max, INFO_NET) if (arg) { obj->data.net = get_net_stat(arg); } else { CRIT_ERR("wireless_link_qual_max: needs an argument"); } END OBJ(wireless_link_qual_perc, INFO_NET) if (arg) { obj->data.net = get_net_stat(arg); } else { CRIT_ERR("wireless_link_qual_perc: needs an argument"); } END OBJ(wireless_link_bar, INFO_NET) if (arg) { arg = scan_bar(arg, &obj->a, &obj->b); obj->data.net = get_net_stat(arg); } else { CRIT_ERR("wireless_link_bar: needs an argument"); } #endif /* HAVE_IWLIB */ #endif /* __linux__ */ #ifndef __OpenBSD__ END OBJ(acpifan, 0) END OBJ(battery, 0) char bat[64]; if (arg) { sscanf(arg, "%63s", bat); } else { strcpy(bat, "BAT0"); } obj->data.s = strndup(bat, text_buffer_size); END OBJ(battery_short, 0) char bat[64]; if (arg) { sscanf(arg, "%63s", bat); } else { strcpy(bat, "BAT0"); } obj->data.s = strndup(bat, text_buffer_size); END OBJ(battery_time, 0) char bat[64]; if (arg) { sscanf(arg, "%63s", bat); } else { strcpy(bat, "BAT0"); } obj->data.s = strndup(bat, text_buffer_size); END OBJ(battery_percent, 0) char bat[64]; if (arg) { sscanf(arg, "%63s", bat); } else { strcpy(bat, "BAT0"); } obj->data.s = strndup(bat, text_buffer_size); END OBJ(battery_bar, 0) char bat[64]; obj->b = 6; if (arg) { arg = scan_bar(arg, &obj->a, &obj->b); sscanf(arg, "%63s", bat); } else { strcpy(bat, "BAT0"); } obj->data.s = strndup(bat, text_buffer_size); #endif /* !__OpenBSD__ */ #if defined(__linux__) END OBJ(disk_protect, 0) if (arg) obj->data.s = strndup(dev_name(arg), text_buffer_size); else CRIT_ERR("disk_protect needs an argument"); END OBJ(i8k_version, INFO_I8K) END OBJ(i8k_bios, INFO_I8K) END OBJ(i8k_serial, INFO_I8K) END OBJ(i8k_cpu_temp, INFO_I8K) END OBJ(i8k_left_fan_status, INFO_I8K) END OBJ(i8k_right_fan_status, INFO_I8K) END OBJ(i8k_left_fan_rpm, INFO_I8K) END OBJ(i8k_right_fan_rpm, INFO_I8K) END OBJ(i8k_ac_status, INFO_I8K) END OBJ(i8k_buttons_status, INFO_I8K) #if defined(IBM) END OBJ(ibm_fan, 0) END OBJ(ibm_temps, 0) if (!arg) { CRIT_ERR("ibm_temps: needs an argument"); } if (!isdigit(arg[0]) || strlen(arg) >= 2 || atoi(&arg[0]) >= 8) { obj->data.sensor = 0; ERR("Invalid temperature sensor! Sensor number must be 0 to 7. " "Using 0 (CPU temp sensor)."); } obj->data.sensor = atoi(&arg[0]); END OBJ(ibm_volume, 0) END OBJ(ibm_brightness, 0) #endif /* information from sony_laptop kernel module * /sys/devices/platform/sony-laptop */ END OBJ(sony_fanspeed, 0) END OBJ_IF(if_gw, 0) END OBJ(ioscheduler, 0) if (!arg) { CRIT_ERR("get_ioscheduler needs an argument (e.g. hda)"); obj->data.s = 0; } else obj->data.s = strndup(dev_name(arg), text_buffer_size); END OBJ(laptop_mode, 0) END OBJ(pb_battery, 0) if (arg && strcmp(arg, "status") == EQUAL) { obj->data.i = PB_BATT_STATUS; } else if (arg && strcmp(arg, "percent") == EQUAL) { obj->data.i = PB_BATT_PERCENT; } else if (arg && strcmp(arg, "time") == EQUAL) { obj->data.i = PB_BATT_TIME; } else { ERR("pb_battery: needs one argument: status, percent or time"); free(obj); return NULL; } #endif /* __linux__ */ #if (defined(__FreeBSD__) || defined(__linux__)) END OBJ_IF(if_up, 0) if (!arg) { ERR("if_up needs an argument"); obj->data.ifblock.s = 0; } else obj->data.ifblock.s = strndup(arg, text_buffer_size); #endif #if defined(__OpenBSD__) END OBJ(obsd_sensors_temp, 0) if (!arg) { CRIT_ERR("obsd_sensors_temp: needs an argument"); } if (!isdigit(arg[0]) || atoi(&arg[0]) < 0 || atoi(&arg[0]) > OBSD_MAX_SENSORS - 1) { obj->data.sensor = 0; ERR("Invalid temperature sensor number!"); } obj->data.sensor = atoi(&arg[0]); END OBJ(obsd_sensors_fan, 0) if (!arg) { CRIT_ERR("obsd_sensors_fan: needs 2 arguments (device and sensor " "number)"); } if (!isdigit(arg[0]) || atoi(&arg[0]) < 0 || atoi(&arg[0]) > OBSD_MAX_SENSORS - 1) { obj->data.sensor = 0; ERR("Invalid fan sensor number!"); } obj->data.sensor = atoi(&arg[0]); END OBJ(obsd_sensors_volt, 0) if (!arg) { CRIT_ERR("obsd_sensors_volt: needs 2 arguments (device and sensor " "number)"); } if (!isdigit(arg[0]) || atoi(&arg[0]) < 0 || atoi(&arg[0]) > OBSD_MAX_SENSORS - 1) { obj->data.sensor = 0; ERR("Invalid voltage sensor number!"); } obj->data.sensor = atoi(&arg[0]); END OBJ(obsd_vendor, 0) END OBJ(obsd_product, 0) #endif /* __OpenBSD__ */ END OBJ(buffers, INFO_BUFFERS) END OBJ(cached, INFO_BUFFERS) #define SCAN_CPU(__arg, __var) { \ int __offset; \ if (__arg && sscanf(__arg, " cpu%u %n", &__var, &__offset) == 2) \ __arg += __offset; \ else \ __var = 0; \ } END OBJ(cpu, INFO_CPU) SCAN_CPU(arg, obj->data.cpu_index); DBGP2("Adding $cpu for CPU %d", obj->data.cpu_index); END OBJ(cpugauge, INFO_CPU) SCAN_CPU(arg, obj->data.cpu_index); scan_gauge(arg, &obj->a, &obj->b); DBGP2("Adding $cpugauge for CPU %d", obj->data.cpu_index); END OBJ(cpubar, INFO_CPU) SCAN_CPU(arg, obj->data.cpu_index); scan_bar(arg, &obj->a, &obj->b); DBGP2("Adding $cpubar for CPU %d", obj->data.cpu_index); END OBJ(cpugraph, INFO_CPU) SCAN_CPU(arg, obj->data.cpu_index); scan_graph(arg, &obj->a, &obj->b, &obj->c, &obj->d, &obj->e, &obj->showaslog); DBGP2("Adding $cpugraph for CPU %d", obj->data.cpu_index); END OBJ(loadgraph, INFO_LOADAVG) char *buf = scan_graph(arg, &obj->a, &obj->b, &obj->c, &obj->d, &obj->e, &obj->showaslog); if (buf) { int a = 1, r = 3; if (arg) { r = sscanf(arg, "%d", &a); } obj->data.loadavg[0] = (r >= 1) ? (unsigned char) a : 0; free(buf); } END OBJ(diskio, INFO_DISKIO) obj->data.diskio = prepare_diskio_stat(dev_name(arg)); END OBJ(diskio_read, INFO_DISKIO) obj->data.diskio = prepare_diskio_stat(dev_name(arg)); END OBJ(diskio_write, INFO_DISKIO) obj->data.diskio = prepare_diskio_stat(dev_name(arg)); END OBJ(diskiograph, INFO_DISKIO) char *buf = scan_graph(arg, &obj->a, &obj->b, &obj->c, &obj->d, &obj->e, &obj->showaslog); obj->data.diskio = prepare_diskio_stat(dev_name(buf)); if (buf) free(buf); END OBJ(diskiograph_read, INFO_DISKIO) char *buf = scan_graph(arg, &obj->a, &obj->b, &obj->c, &obj->d, &obj->e, &obj->showaslog); obj->data.diskio = prepare_diskio_stat(dev_name(buf)); if (buf) free(buf); END OBJ(diskiograph_write, INFO_DISKIO) char *buf = scan_graph(arg, &obj->a, &obj->b, &obj->c, &obj->d, &obj->e, &obj->showaslog); obj->data.diskio = prepare_diskio_stat(dev_name(buf)); if (buf) free(buf); END OBJ(color, 0) #ifdef X11 if (output_methods & TO_X) { obj->data.l = arg ? get_x11_color(arg) : default_fg_color; } #endif /* X11 */ END OBJ(color0, 0) obj->data.l = color0; END OBJ(color1, 0) obj->data.l = color1; END OBJ(color2, 0) obj->data.l = color2; END OBJ(color3, 0) obj->data.l = color3; END OBJ(color4, 0) obj->data.l = color4; END OBJ(color5, 0) obj->data.l = color5; END OBJ(color6, 0) obj->data.l = color6; END OBJ(color7, 0) obj->data.l = color7; END OBJ(color8, 0) obj->data.l = color8; END OBJ(color9, 0) obj->data.l = color9; END OBJ(font, 0) obj->data.s = scan_font(arg); END OBJ(conky_version, 0) END OBJ(conky_build_date, 0) END OBJ(conky_build_arch, 0) END OBJ(downspeed, INFO_NET) if (arg) { obj->data.net = get_net_stat(arg); } else { CRIT_ERR("downspeed needs argument"); } END OBJ(downspeedf, INFO_NET) if (arg) { obj->data.net = get_net_stat(arg); } else { CRIT_ERR("downspeedf needs argument"); } END OBJ(downspeedgraph, INFO_NET) char *buf = scan_graph(arg, &obj->a, &obj->b, &obj->c, &obj->d, &obj->e, &obj->showaslog); // default to DEFAULTNETDEV buf = strndup(buf ? buf : "DEFAULTNETDEV", text_buffer_size); obj->data.net = get_net_stat(buf); free(buf); END OBJ(else, 0) obj_be_ifblock_else(ifblock_opaque, obj); END OBJ(endif, 0) obj_be_ifblock_endif(ifblock_opaque, obj); END OBJ(eval, 0) obj->data.s = strndup(arg ? arg : "", text_buffer_size); END OBJ(image, 0) obj->data.s = strndup(arg ? arg : "", text_buffer_size); #ifdef HAVE_POPEN END OBJ(exec, 0) obj->data.s = strndup(arg ? arg : "", text_buffer_size); END OBJ(execp, 0) obj->data.s = strndup(arg ? arg : "", text_buffer_size); #define SIZE_DEFAULTS(arg) { \ obj->a = default_##arg##_width; \ obj->b = default_##arg##_height; \ } END OBJ(execgauge, 0) SIZE_DEFAULTS(gauge); obj->data.s = strndup(arg ? arg : "", text_buffer_size); END OBJ(execbar, 0) SIZE_DEFAULTS(bar); obj->data.s = strndup(arg ? arg : "", text_buffer_size); END OBJ(execgraph, 0) SIZE_DEFAULTS(graph); obj->data.s = strndup(arg ? arg : "", text_buffer_size); END OBJ(execibar, 0) int n; SIZE_DEFAULTS(bar); if (!arg || sscanf(arg, "%f %n", &obj->data.execi.interval, &n) <= 0) { char buf[256]; ERR("${execibar command}"); obj->type = OBJ_text; snprintf(buf, 256, "${%s}", s); obj->data.s = strndup(buf, text_buffer_size); } else { obj->data.execi.cmd = strndup(arg + n, text_buffer_size); } END OBJ(execigraph, 0) int n; SIZE_DEFAULTS(graph); if (!arg || sscanf(arg, "%f %n", &obj->data.execi.interval, &n) <= 0) { char buf[256]; ERR("${execigraph command}"); obj->type = OBJ_text; snprintf(buf, 256, "${%s}", s); obj->data.s = strndup(buf, text_buffer_size); } else { obj->data.execi.cmd = strndup(arg + n, text_buffer_size); } END OBJ(execigauge, 0) int n; SIZE_DEFAULTS(gauge); if (!arg || sscanf(arg, "%f %n", &obj->data.execi.interval, &n) <= 0) { char buf[256]; ERR("${execigauge command}"); obj->type = OBJ_text; snprintf(buf, 256, "${%s}", s); obj->data.s = strndup(buf, text_buffer_size); } else { obj->data.execi.cmd = strndup(arg + n, text_buffer_size); } END OBJ(execi, 0) int n; if (!arg || sscanf(arg, "%f %n", &obj->data.execi.interval, &n) <= 0) { char buf[256]; ERR("${execi command}"); obj->type = OBJ_text; snprintf(buf, 256, "${%s}", s); obj->data.s = strndup(buf, text_buffer_size); } else { obj->data.execi.cmd = strndup(arg + n, text_buffer_size); obj->data.execi.buffer = malloc(text_buffer_size); } END OBJ(execpi, 0) int n; if (!arg || sscanf(arg, "%f %n", &obj->data.execi.interval, &n) <= 0) { char buf[256]; ERR("${execi command}"); obj->type = OBJ_text; snprintf(buf, 256, "${%s}", s); obj->data.s = strndup(buf, text_buffer_size); } else { obj->data.execi.cmd = strndup(arg + n, text_buffer_size); obj->data.execi.buffer = malloc(text_buffer_size); } END OBJ_THREAD(texeci, 0) int n; if (!arg || sscanf(arg, "%f %n", &obj->data.texeci.interval, &n) <= 0) { char buf[256]; ERR("${texeci command}"); obj->type = OBJ_text; snprintf(buf, 256, "${%s}", s); obj->data.s = strndup(buf, text_buffer_size); } else { obj->data.texeci.cmd = strndup(arg + n, text_buffer_size); obj->data.texeci.buffer = malloc(text_buffer_size); } obj->data.texeci.p_timed_thread = NULL; END OBJ(pre_exec, 0) obj->type = OBJ_text; if (arg) { char buf[2048]; read_exec(arg, buf, sizeof(buf)); obj->data.s = strndup(buf, text_buffer_size); } else { obj->data.s = strndup("", text_buffer_size); } #endif END OBJ(fs_bar, INFO_FS) arg = scan_bar(arg, &obj->data.fsbar.w, &obj->data.fsbar.h); if (arg) { while (isspace(*arg)) { arg++; } if (*arg == '\0') { arg = "/"; } } else { arg = "/"; } obj->data.fsbar.fs = prepare_fs_stat(arg); END OBJ(fs_bar_free, INFO_FS) arg = scan_bar(arg, &obj->data.fsbar.w, &obj->data.fsbar.h); if (arg) { while (isspace(*arg)) { arg++; } if (*arg == '\0') { arg = "/"; } } else { arg = "/"; } obj->data.fsbar.fs = prepare_fs_stat(arg); END OBJ(fs_free, INFO_FS) if (!arg) { arg = "/"; } obj->data.fs = prepare_fs_stat(arg); END OBJ(fs_used_perc, INFO_FS) if (!arg) { arg = "/"; } obj->data.fs = prepare_fs_stat(arg); END OBJ(fs_free_perc, INFO_FS) if (!arg) { arg = "/"; } obj->data.fs = prepare_fs_stat(arg); END OBJ(fs_size, INFO_FS) if (!arg) { arg = "/"; } obj->data.fs = prepare_fs_stat(arg); END OBJ(fs_type, INFO_FS) if (!arg) { arg = "/"; } obj->data.fs = prepare_fs_stat(arg); END OBJ(fs_used, INFO_FS) if (!arg) { arg = "/"; } obj->data.fs = prepare_fs_stat(arg); END OBJ(hr, 0) obj->data.i = arg ? atoi(arg) : 1; END OBJ(nameserver, INFO_DNS) obj->data.i = arg ? atoi(arg) : 0; END OBJ(offset, 0) obj->data.i = arg ? atoi(arg) : 1; END OBJ(voffset, 0) obj->data.i = arg ? atoi(arg) : 1; END OBJ(goto, 0) if (!arg) { ERR("goto needs arguments"); obj->type = OBJ_text; obj->data.s = strndup("${goto}", text_buffer_size); return NULL; } obj->data.i = atoi(arg); END OBJ(tab, 0) int a = 10, b = 0; if (arg) { if (sscanf(arg, "%d %d", &a, &b) != 2) { sscanf(arg, "%d", &b); } } if (a <= 0) { a = 1; } obj->data.pair.a = a; obj->data.pair.b = b; #ifdef __linux__ END OBJ(i2c, INFO_SYSFS) char buf1[64], buf2[64]; int n; if (!arg) { ERR("i2c needs arguments"); obj->type = OBJ_text; // obj->data.s = strndup("${i2c}", text_buffer_size); return NULL; } if (sscanf(arg, "%63s %63s %d", buf1, buf2, &n) != 3) { /* if scanf couldn't read three values, read type and num and use * default device */ sscanf(arg, "%63s %d", buf2, &n); obj->data.sysfs.fd = open_i2c_sensor(0, buf2, n, &obj->data.sysfs.arg, obj->data.sysfs.devtype); strncpy(obj->data.sysfs.type, buf2, 63); } else { obj->data.sysfs.fd = open_i2c_sensor(buf1, buf2, n, &obj->data.sysfs.arg, obj->data.sysfs.devtype); strncpy(obj->data.sysfs.type, buf2, 63); } END OBJ(platform, INFO_SYSFS) char buf1[64], buf2[64]; int n; if (!arg) { ERR("platform needs arguments"); obj->type = OBJ_text; return NULL; } if (sscanf(arg, "%63s %63s %d", buf1, buf2, &n) != 3) { /* if scanf couldn't read three values, read type and num and use * default device */ sscanf(arg, "%63s %d", buf2, &n); obj->data.sysfs.fd = open_platform_sensor(0, buf2, n, &obj->data.sysfs.arg, obj->data.sysfs.devtype); strncpy(obj->data.sysfs.type, buf2, 63); } else { obj->data.sysfs.fd = open_platform_sensor(buf1, buf2, n, &obj->data.sysfs.arg, obj->data.sysfs.devtype); strncpy(obj->data.sysfs.type, buf2, 63); } END OBJ(hwmon, INFO_SYSFS) char buf1[64], buf2[64]; int n; if (!arg) { ERR("hwmon needs argumanets"); obj->type = OBJ_text; return NULL; } if (sscanf(arg, "%63s %63s %d", buf1, buf2, &n) != 3) { /* if scanf couldn't read three values, read type and num and use * default device */ sscanf(arg, "%63s %d", buf2, &n); obj->data.sysfs.fd = open_hwmon_sensor(0, buf2, n, &obj->data.sysfs.arg, obj->data.sysfs.devtype); strncpy(obj->data.sysfs.type, buf2, 63); } else { obj->data.sysfs.fd = open_hwmon_sensor(buf1, buf2, n, &obj->data.sysfs.arg, obj->data.sysfs.devtype); strncpy(obj->data.sysfs.type, buf2, 63); } #endif /* !__OpenBSD__ */ END /* we have three different types of top (top, top_mem and top_time). To * avoid having almost-same code three times, we have this special * handler. */ if (strncmp(s, "top", 3) == EQUAL) { char buf[64]; int n; need_mask |= (1 << INFO_TOP); if (s[3] == 0) { obj->type = OBJ_top; top_cpu = 1; } else if (strcmp(&s[3], "_mem") == EQUAL) { obj->type = OBJ_top_mem; top_mem = 1; } else if (strcmp(&s[3], "_time") == EQUAL) { obj->type = OBJ_top_time; top_time = 1; } else { ERR("Must be top, top_mem or top_time"); return NULL; } if (!arg) { ERR("top needs arguments"); return NULL; } if (sscanf(arg, "%63s %i", buf, &n) == 2) { if (strcmp(buf, "name") == EQUAL) { obj->data.top.type = TOP_NAME; } else if (strcmp(buf, "cpu") == EQUAL) { obj->data.top.type = TOP_CPU; } else if (strcmp(buf, "pid") == EQUAL) { obj->data.top.type = TOP_PID; } else if (strcmp(buf, "mem") == EQUAL) { obj->data.top.type = TOP_MEM; } else if (strcmp(buf, "time") == EQUAL) { obj->data.top.type = TOP_TIME; } else if (strcmp(buf, "mem_res") == EQUAL) { obj->data.top.type = TOP_MEM_RES; } else if (strcmp(buf, "mem_vsize") == EQUAL) { obj->data.top.type = TOP_MEM_VSIZE; } else { ERR("invalid type arg for top"); ERR("must be one of: name, cpu, pid, mem, time, mem_res, mem_vsize"); return NULL; } if (n < 1 || n > 10) { ERR("invalid num arg for top. Must be between 1 and 10."); return NULL; } else { obj->data.top.num = n - 1; } } else { ERR("invalid argument count for top"); return NULL; } } else OBJ(addr, INFO_NET) if (arg) { obj->data.net = get_net_stat(arg); } else { CRIT_ERR("addr needs argument"); } #if defined(__linux__) END OBJ(addrs, INFO_NET) if (arg) { obj->data.net = get_net_stat(arg); } else { CRIT_ERR("addrs needs argument"); } #endif /* __linux__ */ END OBJ(tail, 0) if (init_tail_object(obj, arg)) { obj->type = OBJ_text; obj->data.s = strndup("${tail}", text_buffer_size); } END OBJ(head, 0) if (init_head_object(obj, arg)) { obj->type = OBJ_text; obj->data.s = strndup("${head}", text_buffer_size); } END OBJ(lines, 0) if (arg) { obj->data.s = strdup(arg); }else{ CRIT_ERR("lines needs a argument"); } END OBJ(words, 0) if (arg) { obj->data.s = strdup(arg); }else{ CRIT_ERR("words needs a argument"); } END OBJ(loadavg, INFO_LOADAVG) int a = 1, b = 2, c = 3, r = 3; if (arg) { r = sscanf(arg, "%d %d %d", &a, &b, &c); if (r >= 3 && (c < 1 || c > 3)) { r--; } if (r >= 2 && (b < 1 || b > 3)) { r--, b = c; } if (r >= 1 && (a < 1 || a > 3)) { r--, a = b, b = c; } } obj->data.loadavg[0] = (r >= 1) ? (unsigned char) a : 0; obj->data.loadavg[1] = (r >= 2) ? (unsigned char) b : 0; obj->data.loadavg[2] = (r >= 3) ? (unsigned char) c : 0; END OBJ_IF(if_empty, 0) if (!arg) { ERR("if_empty needs an argument"); obj->data.ifblock.s = 0; } else { obj->data.ifblock.s = strndup(arg, text_buffer_size); obj->sub = malloc(sizeof(struct text_object)); extract_variable_text_internal(obj->sub, obj->data.ifblock.s, 0); } END OBJ_IF(if_match, 0) if (!arg) { ERR("if_match needs arguments"); obj->data.ifblock.s = 0; } else { obj->data.ifblock.s = strndup(arg, text_buffer_size); obj->sub = malloc(sizeof(struct text_object)); extract_variable_text_internal(obj->sub, obj->data.ifblock.s, 0); } END OBJ_IF(if_existing, 0) if (!arg) { ERR("if_existing needs an argument or two"); obj->data.ifblock.s = NULL; obj->data.ifblock.str = NULL; } else { char buf1[256], buf2[256]; int r = sscanf(arg, "%255s %255[^\n]", buf1, buf2); if (r == 1) { obj->data.ifblock.s = strndup(buf1, text_buffer_size); obj->data.ifblock.str = NULL; } else { obj->data.ifblock.s = strndup(buf1, text_buffer_size); obj->data.ifblock.str = strndup(buf2, text_buffer_size); } } DBGP("if_existing: '%s' '%s'", obj->data.ifblock.s, obj->data.ifblock.str); END OBJ_IF(if_mounted, 0) if (!arg) { ERR("if_mounted needs an argument"); obj->data.ifblock.s = 0; } else { obj->data.ifblock.s = strndup(arg, text_buffer_size); } END OBJ_IF(if_running, 0) if (arg) { char buf[256]; snprintf(buf, 256, "pidof %s >/dev/null", arg); obj->data.ifblock.s = strndup(buf, text_buffer_size); } else { ERR("if_running needs an argument"); obj->data.ifblock.s = 0; } END OBJ(kernel, 0) END OBJ(machine, 0) END OBJ(mails, 0) float n1; char box[256], dst[256]; if (!arg) { n1 = 9.5; /* Kapil: Changed from MAIL_FILE to current_mail_spool since the latter is a copy of the former if undefined but the latter should take precedence if defined */ strncpy(box, current_mail_spool, sizeof(box)); } else { if (sscanf(arg, "%s %f", box, &n1) != 2) { n1 = 9.5; strncpy(box, arg, sizeof(box)); } } variable_substitute(box, dst, sizeof(dst)); obj->data.local_mail.box = strndup(dst, text_buffer_size); obj->data.local_mail.interval = n1; END OBJ(new_mails, 0) float n1; char box[256], dst[256]; if (!arg) { n1 = 9.5; strncpy(box, current_mail_spool, sizeof(box)); } else { if (sscanf(arg, "%s %f", box, &n1) != 2) { n1 = 9.5; strncpy(box, arg, sizeof(box)); } } variable_substitute(box, dst, sizeof(dst)); obj->data.local_mail.box = strndup(dst, text_buffer_size); obj->data.local_mail.interval = n1; END OBJ(seen_mails, 0) float n1; char box[256], dst[256]; if (!arg) { n1 = 9.5; strncpy(box, current_mail_spool, sizeof(box)); } else { if (sscanf(arg, "%s %f", box, &n1) != 2) { n1 = 9.5; strncpy(box, arg, sizeof(box)); } } variable_substitute(box, dst, sizeof(dst)); obj->data.local_mail.box = strndup(dst, text_buffer_size); obj->data.local_mail.interval = n1; END OBJ(unseen_mails, 0) float n1; char box[256], dst[256]; if (!arg) { n1 = 9.5; strncpy(box, current_mail_spool, sizeof(box)); } else { if (sscanf(arg, "%s %f", box, &n1) != 2) { n1 = 9.5; strncpy(box, arg, sizeof(box)); } } variable_substitute(box, dst, sizeof(dst)); obj->data.local_mail.box = strndup(dst, text_buffer_size); obj->data.local_mail.interval = n1; END OBJ(flagged_mails, 0) float n1; char box[256], dst[256]; if (!arg) { n1 = 9.5; strncpy(box, current_mail_spool, sizeof(box)); } else { if (sscanf(arg, "%s %f", box, &n1) != 2) { n1 = 9.5; strncpy(box, arg, sizeof(box)); } } variable_substitute(box, dst, sizeof(dst)); obj->data.local_mail.box = strndup(dst, text_buffer_size); obj->data.local_mail.interval = n1; END OBJ(unflagged_mails, 0) float n1; char box[256], dst[256]; if (!arg) { n1 = 9.5; strncpy(box, current_mail_spool, sizeof(box)); } else { if (sscanf(arg, "%s %f", box, &n1) != 2) { n1 = 9.5; strncpy(box, arg, sizeof(box)); } } variable_substitute(box, dst, sizeof(dst)); obj->data.local_mail.box = strndup(dst, text_buffer_size); obj->data.local_mail.interval = n1; END OBJ(forwarded_mails, 0) float n1; char box[256], dst[256]; if (!arg) { n1 = 9.5; strncpy(box, current_mail_spool, sizeof(box)); } else { if (sscanf(arg, "%s %f", box, &n1) != 2) { n1 = 9.5; strncpy(box, arg, sizeof(box)); } } variable_substitute(box, dst, sizeof(dst)); obj->data.local_mail.box = strndup(dst, text_buffer_size); obj->data.local_mail.interval = n1; END OBJ(unforwarded_mails, 0) float n1; char box[256], dst[256]; if (!arg) { n1 = 9.5; strncpy(box, current_mail_spool, sizeof(box)); } else { if (sscanf(arg, "%s %f", box, &n1) != 2) { n1 = 9.5; strncpy(box, arg, sizeof(box)); } } variable_substitute(box, dst, sizeof(dst)); obj->data.local_mail.box = strndup(dst, text_buffer_size); obj->data.local_mail.interval = n1; END OBJ(replied_mails, 0) float n1; char box[256], dst[256]; if (!arg) { n1 = 9.5; strncpy(box, current_mail_spool, sizeof(box)); } else { if (sscanf(arg, "%s %f", box, &n1) != 2) { n1 = 9.5; strncpy(box, arg, sizeof(box)); } } variable_substitute(box, dst, sizeof(dst)); obj->data.local_mail.box = strndup(dst, text_buffer_size); obj->data.local_mail.interval = n1; END OBJ(unreplied_mails, 0) float n1; char box[256], dst[256]; if (!arg) { n1 = 9.5; strncpy(box, current_mail_spool, sizeof(box)); } else { if (sscanf(arg, "%s %f", box, &n1) != 2) { n1 = 9.5; strncpy(box, arg, sizeof(box)); } } variable_substitute(box, dst, sizeof(dst)); obj->data.local_mail.box = strndup(dst, text_buffer_size); obj->data.local_mail.interval = n1; END OBJ(draft_mails, 0) float n1; char box[256], dst[256]; if (!arg) { n1 = 9.5; strncpy(box, current_mail_spool, sizeof(box)); } else { if (sscanf(arg, "%s %f", box, &n1) != 2) { n1 = 9.5; strncpy(box, arg, sizeof(box)); } } variable_substitute(box, dst, sizeof(dst)); obj->data.local_mail.box = strndup(dst, text_buffer_size); obj->data.local_mail.interval = n1; END OBJ(trashed_mails, 0) float n1; char box[256], dst[256]; if (!arg) { n1 = 9.5; strncpy(box, current_mail_spool, sizeof(box)); } else { if (sscanf(arg, "%s %f", box, &n1) != 2) { n1 = 9.5; strncpy(box, arg, sizeof(box)); } } variable_substitute(box, dst, sizeof(dst)); obj->data.local_mail.box = strndup(dst, text_buffer_size); obj->data.local_mail.interval = n1; END OBJ(mboxscan, 0) obj->data.mboxscan.args = (char *) malloc(text_buffer_size); obj->data.mboxscan.output = (char *) malloc(text_buffer_size); /* if '1' (in mboxscan.c) then there was SIGUSR1, hmm */ obj->data.mboxscan.output[0] = 1; strncpy(obj->data.mboxscan.args, arg, text_buffer_size); END OBJ(mem, INFO_MEM) END OBJ(memeasyfree, INFO_MEM) END OBJ(memfree, INFO_MEM) END OBJ(memmax, INFO_MEM) END OBJ(memperc, INFO_MEM) END OBJ(memgauge, INFO_MEM) scan_gauge(arg, &obj->data.pair.a, &obj->data.pair.b); END OBJ(membar, INFO_MEM) scan_bar(arg, &obj->data.pair.a, &obj->data.pair.b); END OBJ(memgraph, INFO_MEM) char *buf = scan_graph(arg, &obj->a, &obj->b, &obj->c, &obj->d, &obj->e, &obj->showaslog); if (buf) { free(buf); } END OBJ(mixer, INFO_MIXER) obj->data.l = mixer_init(arg); END OBJ(mixerl, INFO_MIXER) obj->data.l = mixer_init(arg); END OBJ(mixerr, INFO_MIXER) obj->data.l = mixer_init(arg); END OBJ(mixerbar, INFO_MIXER) scan_mixer_bar(arg, &obj->data.mixerbar.l, &obj->data.mixerbar.w, &obj->data.mixerbar.h); END OBJ(mixerlbar, INFO_MIXER) scan_mixer_bar(arg, &obj->data.mixerbar.l, &obj->data.mixerbar.w, &obj->data.mixerbar.h); END OBJ(mixerrbar, INFO_MIXER) scan_mixer_bar(arg, &obj->data.mixerbar.l, &obj->data.mixerbar.w, &obj->data.mixerbar.h); END OBJ_IF(if_mixer_mute, INFO_MIXER) obj->data.ifblock.i = mixer_init(arg); #ifdef X11 END OBJ(monitor, INFO_X11) END OBJ(monitor_number, INFO_X11) #endif END OBJ(nodename, 0) END OBJ(processes, INFO_PROCS) END OBJ(running_processes, INFO_RUN_PROCS) END OBJ(shadecolor, 0) #ifdef X11 obj->data.l = arg ? get_x11_color(arg) : default_bg_color; #endif /* X11 */ END OBJ(outlinecolor, 0) #ifdef X11 obj->data.l = arg ? get_x11_color(arg) : default_out_color; #endif /* X11 */ END OBJ(stippled_hr, 0) #ifdef X11 int a = stippled_borders, b = 1; if (arg) { if (sscanf(arg, "%d %d", &a, &b) != 2) { sscanf(arg, "%d", &b); } } if (a <= 0) { a = 1; } obj->data.pair.a = a; obj->data.pair.b = b; #endif /* X11 */ END OBJ(swap, INFO_MEM) END OBJ(swapmax, INFO_MEM) END OBJ(swapperc, INFO_MEM) END OBJ(swapbar, INFO_MEM) scan_bar(arg, &obj->data.pair.a, &obj->data.pair.b); END OBJ(sysname, 0) END OBJ(time, 0) obj->data.s = strndup(arg ? arg : "%F %T", text_buffer_size); END OBJ(utime, 0) obj->data.s = strndup(arg ? arg : "%F %T", text_buffer_size); END OBJ(tztime, 0) char buf1[256], buf2[256], *fmt, *tz; fmt = tz = NULL; if (arg) { int nArgs = sscanf(arg, "%255s %255[^\n]", buf1, buf2); switch (nArgs) { case 2: tz = buf1; case 1: fmt = buf2; } } obj->data.tztime.fmt = strndup(fmt ? fmt : "%F %T", text_buffer_size); obj->data.tztime.tz = tz ? strndup(tz, text_buffer_size) : NULL; #ifdef HAVE_ICONV END OBJ(iconv_start, 0) if (iconv_converting) { CRIT_ERR("You must stop your last iconv conversion before " "starting another"); } if (arg) { char iconv_from[CODEPAGE_LENGTH]; char iconv_to[CODEPAGE_LENGTH]; if (sscanf(arg, "%s %s", iconv_from, iconv_to) != 2) { CRIT_ERR("Invalid arguments for iconv_start"); } else { iconv_t new_iconv; new_iconv = iconv_open(iconv_to, iconv_from); if (new_iconv == (iconv_t) (-1)) { ERR("Can't convert from %s to %s.", iconv_from, iconv_to); } else { obj->a = register_iconv(&new_iconv); iconv_converting = 1; } } } else { CRIT_ERR("Iconv requires arguments"); } END OBJ(iconv_stop, 0) iconv_converting = 0; #endif END OBJ(totaldown, INFO_NET) if (arg) { obj->data.net = get_net_stat(arg); } else { CRIT_ERR("totaldown needs argument"); } END OBJ(totalup, INFO_NET) obj->data.net = get_net_stat(arg); if (arg) { obj->data.net = get_net_stat(arg); } else { CRIT_ERR("totalup needs argument"); } END OBJ(updates, 0) END OBJ_IF(if_updatenr, 0) obj->data.ifblock.i = arg ? atoi(arg) : 0; if(obj->data.ifblock.i == 0) CRIT_ERR("if_updatenr needs a number above 0 as argument"); updatereset = obj->data.ifblock.i > updatereset ? obj->data.ifblock.i : updatereset; END OBJ(alignr, 0) obj->data.i = arg ? atoi(arg) : 0; END OBJ(alignc, 0) obj->data.i = arg ? atoi(arg) : 0; END OBJ(upspeed, INFO_NET) if (arg) { obj->data.net = get_net_stat(arg); } else { CRIT_ERR("upspeed needs argument"); } END OBJ(upspeedf, INFO_NET) if (arg) { obj->data.net = get_net_stat(arg); } else { CRIT_ERR("upspeedf needs argument"); } END OBJ(upspeedgraph, INFO_NET) char *buf = scan_graph(arg, &obj->a, &obj->b, &obj->c, &obj->d, &obj->e, &obj->showaslog); // default to DEFAULTNETDEV buf = strndup(buf ? buf : "DEFAULTNETDEV", text_buffer_size); obj->data.net = get_net_stat(buf); free(buf); END OBJ(uptime_short, INFO_UPTIME) END OBJ(uptime, INFO_UPTIME) END OBJ(user_names, INFO_USERS) END OBJ(user_times, INFO_USERS) END OBJ(user_terms, INFO_USERS) END OBJ(user_number, INFO_USERS) #if defined(__linux__) END OBJ(gw_iface, INFO_GW) END OBJ(gw_ip, INFO_GW) END OBJ(if_gw, INFO_GW) #endif /* !__linux__ */ #ifndef __OpenBSD__ END OBJ(adt746xcpu, 0) END OBJ(adt746xfan, 0) #endif /* !__OpenBSD__ */ #if (defined(__FreeBSD__) || defined(__FreeBSD_kernel__) \ || defined(__OpenBSD__)) && (defined(i386) || defined(__i386__)) END OBJ(apm_adapter, 0) END OBJ(apm_battery_life, 0) END OBJ(apm_battery_time, 0) #endif /* __FreeBSD__ */ END OBJ_THREAD(imap_unseen, 0) if (arg) { // proccss obj->data.mail = parse_mail_args(IMAP_TYPE, arg); obj->global_mode = 0; } else { obj->global_mode = 1; } END OBJ_THREAD(imap_messages, 0) if (arg) { // proccss obj->data.mail = parse_mail_args(IMAP_TYPE, arg); obj->global_mode = 0; } else { obj->global_mode = 1; } END OBJ_THREAD(pop3_unseen, 0) if (arg) { // proccss obj->data.mail = parse_mail_args(POP3_TYPE, arg); obj->global_mode = 0; } else { obj->global_mode = 1; } END OBJ_THREAD(pop3_used, 0) if (arg) { // proccss obj->data.mail = parse_mail_args(POP3_TYPE, arg); obj->global_mode = 0; } else { obj->global_mode = 1; } #ifdef IBM END OBJ(smapi, 0) if (arg) obj->data.s = strndup(arg, text_buffer_size); else ERR("smapi needs an argument"); END OBJ_IF(if_smapi_bat_installed, 0) if (!arg) { ERR("if_smapi_bat_installed needs an argument"); obj->data.ifblock.s = 0; } else obj->data.ifblock.s = strndup(arg, text_buffer_size); END OBJ(smapi_bat_perc, 0) if (arg) obj->data.s = strndup(arg, text_buffer_size); else ERR("smapi_bat_perc needs an argument"); END OBJ(smapi_bat_temp, 0) if (arg) obj->data.s = strndup(arg, text_buffer_size); else ERR("smapi_bat_temp needs an argument"); END OBJ(smapi_bat_power, 0) if (arg) obj->data.s = strndup(arg, text_buffer_size); else ERR("smapi_bat_power needs an argument"); END OBJ(smapi_bat_bar, 0) if(arg) { int cnt; if(sscanf(arg, "%i %n", &obj->data.i, &cnt) <= 0) { ERR("first argument to smapi_bat_bar must be an integer value"); obj->data.i = -1; } else { obj->b = 4; arg = scan_bar(arg + cnt, &obj->a, &obj->b); } } else ERR("smapi_bat_bar needs an argument"); #endif /* IBM */ #ifdef MPD #define mpd_set_maxlen(name) \ if (arg) { \ int i; \ sscanf(arg, "%d", &i); \ if (i > 0) \ obj->data.i = i + 1; \ else \ ERR(#name ": invalid length argument"); \ } END OBJ(mpd_artist, INFO_MPD) mpd_set_maxlen(mpd_artist); init_mpd(); END OBJ(mpd_title, INFO_MPD) mpd_set_maxlen(mpd_title); init_mpd(); END OBJ(mpd_random, INFO_MPD) init_mpd(); END OBJ(mpd_repeat, INFO_MPD) init_mpd(); END OBJ(mpd_elapsed, INFO_MPD) init_mpd(); END OBJ(mpd_length, INFO_MPD) init_mpd(); END OBJ(mpd_track, INFO_MPD) mpd_set_maxlen(mpd_track); init_mpd(); END OBJ(mpd_name, INFO_MPD) mpd_set_maxlen(mpd_name); init_mpd(); END OBJ(mpd_file, INFO_MPD) mpd_set_maxlen(mpd_file); init_mpd(); END OBJ(mpd_percent, INFO_MPD) init_mpd(); END OBJ(mpd_album, INFO_MPD) mpd_set_maxlen(mpd_album); init_mpd(); END OBJ(mpd_vol, INFO_MPD) init_mpd(); END OBJ(mpd_bitrate, INFO_MPD) init_mpd(); END OBJ(mpd_status, INFO_MPD) init_mpd(); END OBJ(mpd_bar, INFO_MPD) scan_bar(arg, &obj->data.pair.a, &obj->data.pair.b); init_mpd(); END OBJ(mpd_smart, INFO_MPD) mpd_set_maxlen(mpd_smart); init_mpd(); END OBJ_IF(if_mpd_playing, INFO_MPD) init_mpd(); #undef mpd_set_maxlen #endif /* MPD */ #ifdef MOC END OBJ(moc_state, INFO_MOC) END OBJ(moc_file, INFO_MOC) END OBJ(moc_title, INFO_MOC) END OBJ(moc_artist, INFO_MOC) END OBJ(moc_song, INFO_MOC) END OBJ(moc_album, INFO_MOC) END OBJ(moc_totaltime, INFO_MOC) END OBJ(moc_timeleft, INFO_MOC) END OBJ(moc_curtime, INFO_MOC) END OBJ(moc_bitrate, INFO_MOC) END OBJ(moc_rate, INFO_MOC) #endif /* MOC */ #ifdef XMMS2 END OBJ(xmms2_artist, INFO_XMMS2) END OBJ(xmms2_album, INFO_XMMS2) END OBJ(xmms2_title, INFO_XMMS2) END OBJ(xmms2_genre, INFO_XMMS2) END OBJ(xmms2_comment, INFO_XMMS2) END OBJ(xmms2_url, INFO_XMMS2) END OBJ(xmms2_tracknr, INFO_XMMS2) END OBJ(xmms2_bitrate, INFO_XMMS2) END OBJ(xmms2_date, INFO_XMMS2) END OBJ(xmms2_id, INFO_XMMS2) END OBJ(xmms2_duration, INFO_XMMS2) END OBJ(xmms2_elapsed, INFO_XMMS2) END OBJ(xmms2_size, INFO_XMMS2) END OBJ(xmms2_status, INFO_XMMS2) END OBJ(xmms2_percent, INFO_XMMS2) END OBJ(xmms2_bar, INFO_XMMS2) scan_bar(arg, &obj->data.pair.a, &obj->data.pair.b); END OBJ(xmms2_smart, INFO_XMMS2) END OBJ(xmms2_playlist, INFO_XMMS2) END OBJ(xmms2_timesplayed, INFO_XMMS2) END OBJ_IF(if_xmms2_connected, INFO_XMMS2) #endif #ifdef AUDACIOUS END OBJ(audacious_status, INFO_AUDACIOUS) END OBJ(audacious_title, INFO_AUDACIOUS) if (arg) { sscanf(arg, "%d", &info.audacious.max_title_len); if (info.audacious.max_title_len > 0) { info.audacious.max_title_len++; } else { CRIT_ERR("audacious_title: invalid length argument"); } } END OBJ(audacious_length, INFO_AUDACIOUS) END OBJ(audacious_length_seconds, INFO_AUDACIOUS) END OBJ(audacious_position, INFO_AUDACIOUS) END OBJ(audacious_position_seconds, INFO_AUDACIOUS) END OBJ(audacious_bitrate, INFO_AUDACIOUS) END OBJ(audacious_frequency, INFO_AUDACIOUS) END OBJ(audacious_channels, INFO_AUDACIOUS) END OBJ(audacious_filename, INFO_AUDACIOUS) END OBJ(audacious_playlist_length, INFO_AUDACIOUS) END OBJ(audacious_playlist_position, INFO_AUDACIOUS) END OBJ(audacious_main_volume, INFO_AUDACIOUS) END OBJ(audacious_bar, INFO_AUDACIOUS) scan_bar(arg, &obj->a, &obj->b); #endif #ifdef BMPX END OBJ(bmpx_title, INFO_BMPX) memset(&(info.bmpx), 0, sizeof(struct bmpx_s)); END OBJ(bmpx_artist, INFO_BMPX) memset(&(info.bmpx), 0, sizeof(struct bmpx_s)); END OBJ(bmpx_album, INFO_BMPX) memset(&(info.bmpx), 0, sizeof(struct bmpx_s)); END OBJ(bmpx_track, INFO_BMPX) memset(&(info.bmpx), 0, sizeof(struct bmpx_s)); END OBJ(bmpx_uri, INFO_BMPX) memset(&(info.bmpx), 0, sizeof(struct bmpx_s)); END OBJ(bmpx_bitrate, INFO_BMPX) memset(&(info.bmpx), 0, sizeof(struct bmpx_s)); #endif #ifdef EVE END OBJ(eve, 0) if(arg) { int argc; char *userid = (char *) malloc(20 * sizeof(char)); char *apikey = (char *) malloc(64 * sizeof(char)); char *charid = (char *) malloc(20 * sizeof(char)); argc = sscanf(arg, "%20s %64s %20s", userid, apikey, charid); obj->data.eve.charid = charid; obj->data.eve.userid = userid; obj->data.eve.apikey = apikey; init_eve(); } else { CRIT_ERR("eve needs arguments: "); } #endif #ifdef RSS END OBJ(rss, 0) if (arg) { int argc, delay, act_par; unsigned int nrspaces = 0; char *uri = (char *) malloc(128 * sizeof(char)); char *action = (char *) malloc(64 * sizeof(char)); argc = sscanf(arg, "%127s %d %63s %d %u", uri, &delay, action, &act_par, &nrspaces); obj->data.rss.uri = uri; obj->data.rss.delay = delay; obj->data.rss.action = action; obj->data.rss.act_par = act_par; obj->data.rss.nrspaces = nrspaces; init_rss_info(); } else { CRIT_ERR("rss needs arguments: " "[act_par] [spaces in front]"); } #endif #ifdef HDDTEMP END OBJ(hddtemp, 0) if (scan_hddtemp(arg, &obj->data.hddtemp.dev, &obj->data.hddtemp.addr, &obj->data.hddtemp.port)) { ERR("hddtemp needs arguments"); obj->type = OBJ_text; obj->data.s = strndup("${hddtemp}", text_buffer_size); obj->data.hddtemp.update_time = 0; } else obj->data.hddtemp.temp = NULL; #endif #ifdef TCP_PORT_MONITOR END OBJ(tcp_portmon, INFO_TCP_PORT_MONITOR) tcp_portmon_init(arg, &obj->data.tcp_port_monitor); #endif END OBJ(entropy_avail, INFO_ENTROPY) END OBJ(entropy_poolsize, INFO_ENTROPY) END OBJ(entropy_bar, INFO_ENTROPY) scan_bar(arg, &obj->a, &obj->b); END OBJ(scroll, 0) int n1, n2; obj->data.scroll.step = 1; if (arg && sscanf(arg, "%u %n", &obj->data.scroll.show, &n1) > 0) { if (sscanf(arg + n1, "%u %n", &obj->data.scroll.step, &n2) > 0) n1 += n2; obj->data.scroll.text = strndup(arg + n1, text_buffer_size); obj->data.scroll.start = 0; obj->sub = malloc(sizeof(struct text_object)); extract_variable_text_internal(obj->sub, obj->data.scroll.text, 0); } else { CRIT_ERR("scroll needs arguments: [] "); } END OBJ(combine, 0) if(arg) { unsigned int i,j; unsigned int indenting = 0; //vars can be used as args for other vars int startvar[2]; int endvar[2]; startvar[0] = endvar[0] = startvar[1] = endvar[1] = -1; j=0; for(i=0; arg[i] != 0 && j < 2; i++) { if(startvar[j] == -1) { if(arg[i] == '$') { startvar[j] = i; } }else if(endvar[j] == -1) { if(arg[i] == '{') { indenting++; }else if(arg[i] == '}') { indenting--; } if (indenting == 0 && arg[i+1] < 48) { //<48 has 0, $, and the most used chars not used in varnames but not { or } endvar[j]=i+1; j++; } } } if(startvar[0] >= 0 && endvar[0] >= 0 && startvar[1] >= 0 && endvar[1] >= 0) { obj->data.combine.left=malloc(endvar[0]-startvar[0]+1); obj->data.combine.seperation=malloc(startvar[1]-endvar[0]+1); obj->data.combine.right=malloc(endvar[1]-startvar[1]+1); strncpy(obj->data.combine.left, arg+startvar[0], endvar[0]-startvar[0]); obj->data.combine.left[endvar[0]-startvar[0]]=0; strncpy(obj->data.combine.seperation, arg+endvar[0], startvar[1]-endvar[0]); obj->data.combine.seperation[startvar[1]-endvar[0]]=0; strncpy(obj->data.combine.right, arg+startvar[1], endvar[1]-startvar[1]); obj->data.combine.right[endvar[1]-startvar[1]]=0; obj->sub = malloc(sizeof(struct text_object)); extract_variable_text_internal(obj->sub, obj->data.combine.left, 0); obj->sub->sub = malloc(sizeof(struct text_object)); extract_variable_text_internal(obj->sub->sub, obj->data.combine.right, 0); } else { CRIT_ERR("combine needs arguments: "); } } else { CRIT_ERR("combine needs arguments: "); } #ifdef NVIDIA END OBJ(nvidia, 0) if (!arg) { CRIT_ERR("nvidia needs an argument\n"); } else if (set_nvidia_type(&obj->data.nvidia, arg)) { CRIT_ERR("nvidia: invalid argument" " specified: '%s'\n", arg); } #endif /* NVIDIA */ END { char buf[256]; ERR("unknown variable %s", s); obj->type = OBJ_text; snprintf(buf, 256, "${%s}", s); obj->data.s = strndup(buf, text_buffer_size); } #undef OBJ return obj; } static struct text_object *create_plain_text(const char *s) { struct text_object *obj; if (s == NULL || *s == '\0') { return NULL; } obj = new_text_object_internal(); obj->type = OBJ_text; obj->data.s = strndup(s, text_buffer_size); return obj; } /* backslash_escape - do the actual substitution task for template objects * * The field templates is used for substituting the \N occurences. Set it to * NULL to leave them as they are. */ static char *backslash_escape(const char *src, char **templates, unsigned int template_count) { char *src_dup; const char *p; unsigned int dup_idx = 0, dup_len; dup_len = strlen(src) + 1; src_dup = malloc(dup_len * sizeof(char)); p = src; while (*p) { switch (*p) { case '\\': if (!*(p + 1)) break; if (*(p + 1) == '\\') { src_dup[dup_idx++] = '\\'; p++; } else if (*(p + 1) == ' ') { src_dup[dup_idx++] = ' '; p++; } else if (*(p + 1) == 'n') { src_dup[dup_idx++] = '\n'; p++; } else if (templates) { unsigned int tmpl_num; int digits; if ((sscanf(p + 1, "%u%n", &tmpl_num, &digits) <= 0) || (tmpl_num > template_count)) break; dup_len += strlen(templates[tmpl_num - 1]); src_dup = realloc(src_dup, dup_len * sizeof(char)); sprintf(src_dup + dup_idx, "%s", templates[tmpl_num - 1]); dup_idx += strlen(templates[tmpl_num - 1]); p += digits; } break; default: src_dup[dup_idx++] = *p; break; } p++; } src_dup[dup_idx] = '\0'; src_dup = realloc(src_dup, (strlen(src_dup) + 1) * sizeof(char)); return src_dup; } /* handle_template_object - core logic of the template object * * use config variables like this: * template1 = "$\1\2" * template2 = "\1: ${fs_bar 4,100 \2} ${fs_used \2} / ${fs_size \2}" * * and use them like this: * ${template1 node name} * ${template2 root /} * ${template2 cdrom /mnt/cdrom} */ static char *handle_template(const char *tmpl, const char *args) { char *args_dup, *p, *p_old; char **argsp = NULL; unsigned int argcnt = 0, template_idx, i; char *eval_text; if ((sscanf(tmpl, "template%u", &template_idx) != 1) || (template_idx > 9)) return NULL; args_dup = strdup(args); p = args_dup; while (*p) { while (*p && (*p == ' ' && *(p - 1) != '\\')) p++; if (*(p - 1) == '\\') p--; p_old = p; while (*p && (*p != ' ' || *(p - 1) == '\\')) p++; if (*p) { (*p) = '\0'; p++; } argsp = realloc(argsp, ++argcnt * sizeof(char *)); argsp[argcnt - 1] = p_old; } for (i = 0; i < argcnt; i++) { char *tmp; tmp = backslash_escape(argsp[i], NULL, 0); DBGP2("%s: substituted arg '%s' to '%s'", tmpl, argsp[i], tmp); argsp[i] = tmp; } eval_text = backslash_escape(template[template_idx], argsp, argcnt); DBGP("substituted %s, output is '%s'", tmpl, eval_text); free(args_dup); for (i = 0; i < argcnt; i++) free(argsp[i]); free(argsp); return eval_text; } static char *find_and_replace_templates(const char *inbuf) { char *outbuf, *indup, *p, *o, *templ, *args, *tmpl_out; int stack, outlen; outlen = strlen(inbuf) + 1; o = outbuf = calloc(outlen, sizeof(char)); memset(outbuf, 0, outlen * sizeof(char)); p = indup = strdup(inbuf); while (*p) { while (*p && *p != '$') *(o++) = *(p++); if (!(*p)) break; if (strncmp(p, "$template", 9) && strncmp(p, "${template", 10)) { *(o++) = *(p++); continue; } if (*(p + 1) == '{') { templ = p + 2; while (*p != ' ') p++; *(p++) = '\0'; args = p; stack = 1; while (stack > 0) { p++; if (*p == '{') stack++; else if (*p == '}') stack--; } *(p++) = '\0'; } else { templ = p + 1; while (*p != ' ') p++; *(p++) = '\0'; args = NULL; } tmpl_out = handle_template(templ, args); if (tmpl_out) { outlen += strlen(tmpl_out); outbuf = realloc(outbuf, outlen * sizeof(char)); strcat (outbuf, tmpl_out); free(tmpl_out); o = outbuf + strlen(outbuf); } else { ERR("failed to handle template '%s' with args '%s'", templ, args); } } *o = '\0'; outbuf = realloc(outbuf, (strlen(outbuf) + 1) * sizeof(char)); free(indup); return outbuf; } static int text_contains_templates(const char *text) { if (strcasestr(text, "${template") != NULL) return 1; if (strcasestr(text, "$template") != NULL) return 1; return 0; } static int extract_variable_text_internal(struct text_object *retval, const char *const_p, char allow_threaded) { struct text_object *obj; char *p, *s, *orig_p; long line; void *ifblock_opaque = NULL; char *tmp_p; char *arg = 0; p = strndup(const_p, max_user_text - 1); while (text_contains_templates(p)) { char *tmp; tmp = find_and_replace_templates(p); free(p); p = tmp; } s = orig_p = p; if (strcmp(p, const_p)) { DBGP("replaced all templates in text: input is\n'%s'\noutput is\n'%s'", const_p, p); } else { DBGP("no templates to replace"); } memset(retval, 0, sizeof(struct text_object)); line = global_text_lines; while (*p) { if (*p == '\n') { line++; } if (*p == '$') { *p = '\0'; obj = create_plain_text(s); if (obj != NULL) { append_object(retval, obj); } *p = '$'; p++; s = p; if (*p != '$') { char buf[256]; const char *var; unsigned int len; /* variable is either $foo or ${foo} */ if (*p == '{') { unsigned int brl = 1, brr = 0; p++; s = p; while (*p && brl != brr) { if (*p == '{') { brl++; } if (*p == '}') { brr++; } p++; } p--; } else { s = p; if (*p == '#') { p++; } while (*p && (isalnum((int) *p) || *p == '_')) { p++; } } /* copy variable to buffer */ len = (p - s > 255) ? 255 : (p - s); strncpy(buf, s, len); buf[len] = '\0'; if (*p == '}') { p++; } s = p; /* search for variable in environment */ var = getenv(buf); if (var) { obj = create_plain_text(var); if (obj) { append_object(retval, obj); } continue; } /* if variable wasn't found in environment, use some special */ arg = 0; /* split arg */ if (strchr(buf, ' ')) { arg = strchr(buf, ' '); *arg = '\0'; arg++; while (isspace((int) *arg)) { arg++; } if (!*arg) { arg = 0; } } /* lowercase variable name */ tmp_p = buf; while (*tmp_p) { *tmp_p = tolower(*tmp_p); tmp_p++; } obj = construct_text_object(buf, arg, line, allow_threaded, &ifblock_opaque); if (obj != NULL) { append_object(retval, obj); } continue; } else { obj = create_plain_text("$"); s = p + 1; if (obj != NULL) { append_object(retval, obj); } } } p++; } obj = create_plain_text(s); if (obj != NULL) { append_object(retval, obj); } if (!ifblock_stack_empty(&ifblock_opaque)) { ERR("one or more $endif's are missing"); } free(orig_p); return 0; } static void extract_variable_text(const char *p) { free_text_objects(&global_root_object); if (tmpstring1) { free(tmpstring1); tmpstring1 = 0; } if (tmpstring2) { free(tmpstring2); tmpstring2 = 0; } if (text_buffer) { free(text_buffer); text_buffer = 0; } extract_variable_text_internal(&global_root_object, p, 1); } int parse_conky_vars(struct text_object *root, char *txt, char *p, struct information *cur) { extract_variable_text_internal(root, txt, 0); generate_text_internal(p, max_user_text, *root, cur); return 0; } static inline struct mail_s *ensure_mail_thread(struct text_object *obj, void *thread(void *), const char *text) { if (obj->global_mode && info.mail) { // this means we use info if (!info.mail->p_timed_thread) { info.mail->p_timed_thread = timed_thread_create(thread, (void *) info.mail, info.mail->interval * 1000000); if (!info.mail->p_timed_thread) { ERR("Error creating %s timed thread", text); } timed_thread_register(info.mail->p_timed_thread, &info.mail->p_timed_thread); if (timed_thread_run(info.mail->p_timed_thread)) { ERR("Error running %s timed thread", text); } } return info.mail; } else if (obj->data.mail) { // this means we use obj if (!obj->data.mail->p_timed_thread) { obj->data.mail->p_timed_thread = timed_thread_create(thread, (void *) obj->data.mail, obj->data.mail->interval * 1000000); if (!obj->data.mail->p_timed_thread) { ERR("Error creating %s timed thread", text); } timed_thread_register(obj->data.mail->p_timed_thread, &obj->data.mail->p_timed_thread); if (timed_thread_run(obj->data.mail->p_timed_thread)) { ERR("Error running %s timed thread", text); } } return obj->data.mail; } else if (!obj->a) { // something is wrong, warn once then stop ERR("There's a problem with your mail settings. " "Check that the global mail settings are properly defined" " (line %li).", obj->line); obj->a++; } return NULL; } char *format_time(unsigned long timeval, const int width) { char buf[10]; unsigned long nt; // narrow time, for speed on 32-bit unsigned cc; // centiseconds unsigned nn; // multi-purpose whatever nt = timeval; cc = nt % 100; // centiseconds past second nt /= 100; // total seconds nn = nt % 60; // seconds past the minute nt /= 60; // total minutes if (width >= snprintf(buf, sizeof buf, "%lu:%02u.%02u", nt, nn, cc)) { return strndup(buf, text_buffer_size); } if (width >= snprintf(buf, sizeof buf, "%lu:%02u", nt, nn)) { return strndup(buf, text_buffer_size); } nn = nt % 60; // minutes past the hour nt /= 60; // total hours if (width >= snprintf(buf, sizeof buf, "%lu,%02u", nt, nn)) { return strndup(buf, text_buffer_size); } nn = nt; // now also hours if (width >= snprintf(buf, sizeof buf, "%uh", nn)) { return strndup(buf, text_buffer_size); } nn /= 24; // now days if (width >= snprintf(buf, sizeof buf, "%ud", nn)) { return strndup(buf, text_buffer_size); } nn /= 7; // now weeks if (width >= snprintf(buf, sizeof buf, "%uw", nn)) { return strndup(buf, text_buffer_size); } // well shoot, this outta' fit... return strndup("", text_buffer_size); } //remove backspaced chars, example: "dog^H^H^Hcat" becomes "cat" //string has to end with \0 and it's length should fit in a int #define BACKSPACE 8 void remove_deleted_chars(char *string){ int i = 0; while(string[i] != 0){ if(string[i] == BACKSPACE){ if(i != 0){ strcpy( &(string[i-1]), &(string[i+1]) ); i--; }else strcpy( &(string[i]), &(string[i+1]) ); //necessary for ^H's at the start of a string }else i++; } } static inline void format_media_player_time(char *buf, const int size, int seconds) { int days, hours, minutes; days = seconds / (24 * 60 * 60); seconds %= (24 * 60 * 60); hours = seconds / (60 * 60); seconds %= (60 * 60); minutes = seconds / 60; seconds %= 60; if (days > 0) { snprintf(buf, size, "%i days %i:%02i:%02i", days, hours, minutes, seconds); } else if (hours > 0) { snprintf(buf, size, "%i:%02i:%02i", hours, minutes, seconds); } else { snprintf(buf, size, "%i:%02i", minutes, seconds); } } static inline double get_barnum(char *buf) { char *c = buf; double barnum; while (*c) { if (*c == '\001') { *c = ' '; } c++; } if (sscanf(buf, "%lf", &barnum) == 0) { ERR("reading exec value failed (perhaps it's not the " "correct format?)"); return -1; } if (barnum > 100.0 || barnum < 0.0) { ERR("your exec value is not between 0 and 100, " "therefore it will be ignored"); return -1; } return barnum; } static void generate_text_internal(char *p, int p_max_size, struct text_object root, struct information *cur) { struct text_object *obj; /* for the OBJ_top* handler */ struct process **needed = 0; #ifdef HAVE_ICONV char buff_in[p_max_size]; buff_in[0] = 0; iconv_converting = 0; #endif p[0] = 0; for (obj = root.next; obj && p_max_size > 0; obj = obj->next) { needed = 0; // reset for top stuff /* IFBLOCK jumping algorithm * * This is easier as it looks like: * - each IF checks it's condition * - on FALSE: call DO_JUMP * - on TRUE: don't care * - each ELSE calls DO_JUMP unconditionally * - each ENDIF is silently being ignored * * Why this works: * DO_JUMP overwrites the "obj" variable of the loop and sets it to the target * (i.e. the corresponding ELSE or ENDIF). After that, processing for the given * object can continue, free()ing stuff e.g., then the for-loop does the rest: as * regularly, "obj" is being updated to point to obj->next, so object parsing * continues right after the corresponding ELSE or ENDIF. This means that if we * find an ELSE, it's corresponding IF must not have jumped, so we need to jump * always. If we encounter an ENDIF, it's corresponding IF or ELSE has not * jumped, and there is nothing to do. */ #define DO_JUMP { \ DBGP2("jumping"); \ obj = obj->data.ifblock.next; \ } #define OBJ(a) break; case OBJ_##a: switch (obj->type) { default: ERR("not implemented obj type %d", obj->type); #ifndef __OpenBSD__ OBJ(acpitemp) { temp_print(p, p_max_size, get_acpi_temperature(obj->data.i), TEMP_CELSIUS); } #endif /* !__OpenBSD__ */ OBJ(freq) { if (obj->a) { obj->a = get_freq(p, p_max_size, "%.0f", 1, obj->data.cpu_index); } } OBJ(freq_g) { if (obj->a) { #ifndef __OpenBSD__ obj->a = get_freq(p, p_max_size, "%'.2f", 1000, obj->data.cpu_index); #else /* OpenBSD has no such flag (SUSv2) */ obj->a = get_freq(p, p_max_size, "%.2f", 1000, obj->data.cpu_index); #endif } } #if defined(__linux__) OBJ(voltage_mv) { if (obj->a) { obj->a = get_voltage(p, p_max_size, "%.0f", 1, obj->data.cpu_index); } } OBJ(voltage_v) { if (obj->a) { obj->a = get_voltage(p, p_max_size, "%'.3f", 1000, obj->data.cpu_index); } } #ifdef HAVE_IWLIB OBJ(wireless_essid) { snprintf(p, p_max_size, "%s", obj->data.net->essid); } OBJ(wireless_mode) { snprintf(p, p_max_size, "%s", obj->data.net->mode); } OBJ(wireless_bitrate) { snprintf(p, p_max_size, "%s", obj->data.net->bitrate); } OBJ(wireless_ap) { snprintf(p, p_max_size, "%s", obj->data.net->ap); } OBJ(wireless_link_qual) { spaced_print(p, p_max_size, "%d", 4, obj->data.net->link_qual); } OBJ(wireless_link_qual_max) { spaced_print(p, p_max_size, "%d", 4, obj->data.net->link_qual_max); } OBJ(wireless_link_qual_perc) { if (obj->data.net->link_qual_max > 0) { spaced_print(p, p_max_size, "%.0f", 5, (double) obj->data.net->link_qual / obj->data.net->link_qual_max * 100); } else { spaced_print(p, p_max_size, "unk", 5); } } OBJ(wireless_link_bar) { new_bar(p, obj->a, obj->b, ((double) obj->data.net->link_qual / obj->data.net->link_qual_max) * 255.0); } #endif /* HAVE_IWLIB */ #endif /* __linux__ */ #ifndef __OpenBSD__ OBJ(adt746xcpu) { get_adt746x_cpu(p, p_max_size); } OBJ(adt746xfan) { get_adt746x_fan(p, p_max_size); } OBJ(acpifan) { get_acpi_fan(p, p_max_size); } OBJ(acpiacadapter) { get_acpi_ac_adapter(p, p_max_size); } OBJ(battery) { get_battery_stuff(p, p_max_size, obj->data.s, BATTERY_STATUS); } OBJ(battery_time) { get_battery_stuff(p, p_max_size, obj->data.s, BATTERY_TIME); } OBJ(battery_percent) { percent_print(p, p_max_size, get_battery_perct(obj->data.s)); } OBJ(battery_bar) { new_bar(p, obj->a, obj->b, get_battery_perct_bar(obj->data.s)); } OBJ(battery_short) { get_battery_short_status(p, p_max_size, obj->data.s); } #endif /* __OpenBSD__ */ OBJ(buffers) { human_readable(cur->buffers * 1024, p, 255); } OBJ(cached) { human_readable(cur->cached * 1024, p, 255); } OBJ(cpu) { if (obj->data.cpu_index > info.cpu_count) { ERR("obj->data.cpu_index %i info.cpu_count %i", obj->data.cpu_index, info.cpu_count); CRIT_ERR("attempting to use more CPUs than you have!"); } percent_print(p, p_max_size, round_to_int(cur->cpu_usage[obj->data.cpu_index] * 100.0)); } OBJ(cpugauge) new_gauge(p, obj->a, obj->b, round_to_int(cur->cpu_usage[obj->data.cpu_index] * 255.0)); OBJ(cpubar) { new_bar(p, obj->a, obj->b, round_to_int(cur->cpu_usage[obj->data.cpu_index] * 255.0)); } OBJ(cpugraph) { new_graph(p, obj->a, obj->b, obj->c, obj->d, (unsigned int) round_to_int(cur->cpu_usage[obj->data.cpu_index] * 100), 100, 1, obj->showaslog); } OBJ(loadgraph) { new_graph(p, obj->a, obj->b, obj->c, obj->d, cur->loadavg[0], obj->e, 1, obj->showaslog); } OBJ(color) { new_fg(p, obj->data.l); } OBJ(color0) { new_fg(p, color0); } OBJ(color1) { new_fg(p, color1); } OBJ(color2) { new_fg(p, color2); } OBJ(color3) { new_fg(p, color3); } OBJ(color4) { new_fg(p, color4); } OBJ(color5) { new_fg(p, color5); } OBJ(color6) { new_fg(p, color6); } OBJ(color7) { new_fg(p, color7); } OBJ(color8) { new_fg(p, color8); } OBJ(color9) { new_fg(p, color9); } OBJ(conky_version) { snprintf(p, p_max_size, "%s", VERSION); } OBJ(conky_build_date) { snprintf(p, p_max_size, "%s", BUILD_DATE); } OBJ(conky_build_arch) { snprintf(p, p_max_size, "%s", BUILD_ARCH); } #if defined(__linux__) OBJ(disk_protect) { snprintf(p, p_max_size, "%s", get_disk_protect_queue(obj->data.s)); } OBJ(i8k_version) { snprintf(p, p_max_size, "%s", i8k.version); } OBJ(i8k_bios) { snprintf(p, p_max_size, "%s", i8k.bios); } OBJ(i8k_serial) { snprintf(p, p_max_size, "%s", i8k.serial); } OBJ(i8k_cpu_temp) { int cpu_temp; sscanf(i8k.cpu_temp, "%d", &cpu_temp); temp_print(p, p_max_size, (double)cpu_temp, TEMP_CELSIUS); } OBJ(i8k_left_fan_status) { int left_fan_status; sscanf(i8k.left_fan_status, "%d", &left_fan_status); if (left_fan_status == 0) { snprintf(p, p_max_size, "off"); } if (left_fan_status == 1) { snprintf(p, p_max_size, "low"); } if (left_fan_status == 2) { snprintf(p, p_max_size, "high"); } } OBJ(i8k_right_fan_status) { int right_fan_status; sscanf(i8k.right_fan_status, "%d", &right_fan_status); if (right_fan_status == 0) { snprintf(p, p_max_size, "off"); } if (right_fan_status == 1) { snprintf(p, p_max_size, "low"); } if (right_fan_status == 2) { snprintf(p, p_max_size, "high"); } } OBJ(i8k_left_fan_rpm) { snprintf(p, p_max_size, "%s", i8k.left_fan_rpm); } OBJ(i8k_right_fan_rpm) { snprintf(p, p_max_size, "%s", i8k.right_fan_rpm); } OBJ(i8k_ac_status) { int ac_status; sscanf(i8k.ac_status, "%d", &ac_status); if (ac_status == -1) { snprintf(p, p_max_size, "disabled (read i8k docs)"); } if (ac_status == 0) { snprintf(p, p_max_size, "off"); } if (ac_status == 1) { snprintf(p, p_max_size, "on"); } } OBJ(i8k_buttons_status) { snprintf(p, p_max_size, "%s", i8k.buttons_status); } #if defined(IBM) OBJ(ibm_fan) { get_ibm_acpi_fan(p, p_max_size); } OBJ(ibm_temps) { get_ibm_acpi_temps(); temp_print(p, p_max_size, ibm_acpi.temps[obj->data.sensor], TEMP_CELSIUS); } OBJ(ibm_volume) { get_ibm_acpi_volume(p, p_max_size); } OBJ(ibm_brightness) { get_ibm_acpi_brightness(p, p_max_size); } #endif /* IBM */ /* information from sony_laptop kernel module * /sys/devices/platform/sony-laptop */ OBJ(sony_fanspeed) { get_sony_fanspeed(p, p_max_size); } OBJ(if_gw) { if (!cur->gw_info.count) { DO_JUMP; } } OBJ(gw_iface) { snprintf(p, p_max_size, "%s", cur->gw_info.iface); } OBJ(gw_ip) { snprintf(p, p_max_size, "%s", cur->gw_info.ip); } OBJ(laptop_mode) { snprintf(p, p_max_size, "%d", get_laptop_mode()); } OBJ(pb_battery) { get_powerbook_batt_info(p, p_max_size, obj->data.i); } #endif /* __linux__ */ #if (defined(__FreeBSD__) || defined(__linux__)) OBJ(if_up) { if ((obj->data.ifblock.s) && (!interface_up(obj->data.ifblock.s))) { DO_JUMP; } } #endif #ifdef __OpenBSD__ OBJ(obsd_sensors_temp) { obsd_sensors.device = sensor_device; update_obsd_sensors(); temp_print(p, p_max_size, obsd_sensors.temp[obsd_sensors.device][obj->data.sensor], TEMP_CELSIUS); } OBJ(obsd_sensors_fan) { obsd_sensors.device = sensor_device; update_obsd_sensors(); snprintf(p, p_max_size, "%d", obsd_sensors.fan[obsd_sensors.device][obj->data.sensor]); } OBJ(obsd_sensors_volt) { obsd_sensors.device = sensor_device; update_obsd_sensors(); snprintf(p, p_max_size, "%.2f", obsd_sensors.volt[obsd_sensors.device][obj->data.sensor]); } OBJ(obsd_vendor) { get_obsd_vendor(p, p_max_size); } OBJ(obsd_product) { get_obsd_product(p, p_max_size); } #endif /* __OpenBSD__ */ OBJ(font) { new_font(p, obj->data.s); } /* TODO: move this correction from kB to kB/s elsewhere * (or get rid of it??) */ OBJ(diskio) { human_readable((obj->data.diskio->current / update_interval) * 1024LL, p, p_max_size); } OBJ(diskio_write) { human_readable((obj->data.diskio->current_write / update_interval) * 1024LL, p, p_max_size); } OBJ(diskio_read) { human_readable((obj->data.diskio->current_read / update_interval) * 1024LL, p, p_max_size); } OBJ(diskiograph) { new_graph(p, obj->a, obj->b, obj->c, obj->d, obj->data.diskio->current, obj->e, 1, obj->showaslog); } OBJ(diskiograph_read) { new_graph(p, obj->a, obj->b, obj->c, obj->d, obj->data.diskio->current_read, obj->e, 1, obj->showaslog); } OBJ(diskiograph_write) { new_graph(p, obj->a, obj->b, obj->c, obj->d, obj->data.diskio->current_write, obj->e, 1, obj->showaslog); } OBJ(downspeed) { human_readable(obj->data.net->recv_speed, p, 255); } OBJ(downspeedf) { spaced_print(p, p_max_size, "%.1f", 8, obj->data.net->recv_speed / 1024.0); } OBJ(downspeedgraph) { new_graph(p, obj->a, obj->b, obj->c, obj->d, obj->data.net->recv_speed / 1024.0, obj->e, 1, obj->showaslog); } OBJ(else) { /* Since we see you, you're if has not jumped. * Do Ninja jump here: without leaving traces. * This is to prevent us from stale jumped flags. */ obj = obj->data.ifblock.next; continue; } OBJ(endif) { /* harmless object, just ignore */ } #ifdef HAVE_POPEN OBJ(addr) { if ((obj->data.net->addr.sa_data[2] & 255) == 0 && (obj->data.net->addr.sa_data[3] & 255) == 0 && (obj->data.net->addr.sa_data[4] & 255) == 0 && (obj->data.net->addr.sa_data[5] & 255) == 0) { snprintf(p, p_max_size, "No Address"); } else { snprintf(p, p_max_size, "%u.%u.%u.%u", obj->data.net->addr.sa_data[2] & 255, obj->data.net->addr.sa_data[3] & 255, obj->data.net->addr.sa_data[4] & 255, obj->data.net->addr.sa_data[5] & 255); } } #if defined(__linux__) OBJ(addrs) { if(NULL != obj->data.net->addrs && strlen(obj->data.net->addrs) > 2) { obj->data.net->addrs[strlen(obj->data.net->addrs) - 2] = 0; /* remove ", " from end of string */ strcpy(p, obj->data.net->addrs); } else strcpy(p, "0.0.0.0"); } #endif /* __linux__ */ #if defined(IMLIB2) && defined(X11) OBJ(image) { if (obj->a < 1) { obj->a++; } else { Imlib_Image image, buffer; image = imlib_load_image(obj->data.s); imlib_context_set_image(image); if (image) { int w, h; w = imlib_image_get_width(); h = imlib_image_get_height(); buffer = imlib_create_image(w, h); imlib_context_set_display(display); imlib_context_set_drawable(window.drawable); imlib_context_set_colormap(DefaultColormap(display, screen)); imlib_context_set_visual(DefaultVisual(display, screen)); imlib_context_set_image(buffer); imlib_blend_image_onto_image(image, 0, 0, 0, w, h, text_start_x, text_start_y, w, h); imlib_render_image_on_drawable(text_start_x, text_start_y); imlib_free_image(); imlib_context_set_image(image); imlib_free_image(); } } } #endif /* IMLIB2 */ OBJ(eval) { struct information *tmp_info; struct text_object subroot, subroot2; tmp_info = malloc(sizeof(struct information)); memcpy(tmp_info, cur, sizeof(struct information)); parse_conky_vars(&subroot, obj->data.s, p, tmp_info); DBGP("evaluated '%s' to '%s'", obj->data.s, p); parse_conky_vars(&subroot2, p, p, tmp_info); free_text_objects(&subroot); free_text_objects(&subroot2); free(tmp_info); } OBJ(exec) { read_exec(obj->data.s, p, text_buffer_size); remove_deleted_chars(p); } OBJ(execp) { struct information *tmp_info; struct text_object subroot; read_exec(obj->data.s, p, text_buffer_size); tmp_info = malloc(sizeof(struct information)); memcpy(tmp_info, cur, sizeof(struct information)); parse_conky_vars(&subroot, p, p, tmp_info); free_text_objects(&subroot); free(tmp_info); } OBJ(execgauge) { double barnum; read_exec(obj->data.s, p, text_buffer_size); barnum = get_barnum(p); /*using the same function*/ if (barnum >= 0.0) { barnum /= 100; new_gauge(p, obj->a, obj->b, round_to_int(barnum * 255.0)); } } OBJ(execbar) { double barnum; read_exec(obj->data.s, p, text_buffer_size); barnum = get_barnum(p); if (barnum >= 0.0) { barnum /= 100; new_bar(p, obj->a, obj->b, round_to_int(barnum * 255.0)); } } OBJ(execgraph) { char showaslog = FALSE; double barnum; if(strncasecmp(obj->data.s, LOGGRAPH" ", strlen(LOGGRAPH" ")) == EQUAL) { showaslog = TRUE; read_exec(obj->data.s + strlen(LOGGRAPH" ") * sizeof(char), p, text_buffer_size); } else if(strncasecmp(obj->data.s, NORMGRAPH" ", strlen(NORMGRAPH" ")) == EQUAL) { read_exec(obj->data.s + strlen(NORMGRAPH" ") * sizeof(char), p, text_buffer_size); } else { read_exec(obj->data.s, p, text_buffer_size); } barnum = get_barnum(p); if (barnum >= 0.0) { new_graph(p, obj->a, obj->b, obj->c, obj->d, round_to_int(barnum), 100, 1, showaslog); } } OBJ(execibar) { if (current_update_time - obj->data.execi.last_update >= obj->data.execi.interval) { double barnum; read_exec(obj->data.execi.cmd, p, text_buffer_size); barnum = get_barnum(p); if (barnum >= 0.0) { obj->f = 255 * barnum / 100.0; } obj->data.execi.last_update = current_update_time; } new_bar(p, obj->a, obj->b, round_to_int(obj->f)); } OBJ(execigraph) { if (current_update_time - obj->data.execi.last_update >= obj->data.execi.interval) { double barnum; read_exec(obj->data.execi.cmd, p, text_buffer_size); barnum = get_barnum(p); if (barnum >= 0.0) { obj->f = barnum; } obj->data.execi.last_update = current_update_time; } new_graph(p, obj->a, obj->b, obj->c, obj->d, (int) (obj->f), 100, 1, FALSE); } OBJ(execigauge) { if (current_update_time - obj->data.execi.last_update >= obj->data.execi.interval) { double barnum; read_exec(obj->data.execi.cmd, p, text_buffer_size); barnum = get_barnum(p); if (barnum >= 0.0) { obj->f = 255 * barnum / 100.0; } obj->data.execi.last_update = current_update_time; } new_gauge(p, obj->a, obj->b, round_to_int(obj->f)); } OBJ(execi) { if (current_update_time - obj->data.execi.last_update >= obj->data.execi.interval && obj->data.execi.interval != 0) { read_exec(obj->data.execi.cmd, obj->data.execi.buffer, text_buffer_size); obj->data.execi.last_update = current_update_time; } snprintf(p, text_buffer_size, "%s", obj->data.execi.buffer); } OBJ(execpi) { struct text_object subroot; struct information *tmp_info = malloc(sizeof(struct information)); memcpy(tmp_info, cur, sizeof(struct information)); if (current_update_time - obj->data.execi.last_update < obj->data.execi.interval || obj->data.execi.interval == 0) { parse_conky_vars(&subroot, obj->data.execi.buffer, p, tmp_info); } else { char *output = obj->data.execi.buffer; FILE *fp = popen(obj->data.execi.cmd, "r"); int length = fread(output, 1, text_buffer_size, fp); pclose(fp); output[length] = '\0'; if (length > 0 && output[length - 1] == '\n') { output[length - 1] = '\0'; } parse_conky_vars(&subroot, obj->data.execi.buffer, p, tmp_info); obj->data.execi.last_update = current_update_time; } free_text_objects(&subroot); free(tmp_info); } OBJ(texeci) { if (!obj->data.texeci.p_timed_thread) { obj->data.texeci.p_timed_thread = timed_thread_create(&threaded_exec, (void *) obj, obj->data.texeci.interval * 1000000); if (!obj->data.texeci.p_timed_thread) { ERR("Error creating texeci timed thread"); } timed_thread_register(obj->data.texeci.p_timed_thread, &obj->data.texeci.p_timed_thread); if (timed_thread_run(obj->data.texeci.p_timed_thread)) { ERR("Error running texeci timed thread"); } } else { timed_thread_lock(obj->data.texeci.p_timed_thread); snprintf(p, text_buffer_size, "%s", obj->data.texeci.buffer); timed_thread_unlock(obj->data.texeci.p_timed_thread); } } #endif /* HAVE_POPEN */ OBJ(imap_unseen) { struct mail_s *mail = ensure_mail_thread(obj, imap_thread, "imap"); if (mail && mail->p_timed_thread) { timed_thread_lock(mail->p_timed_thread); snprintf(p, p_max_size, "%lu", mail->unseen); timed_thread_unlock(mail->p_timed_thread); } } OBJ(imap_messages) { struct mail_s *mail = ensure_mail_thread(obj, imap_thread, "imap"); if (mail && mail->p_timed_thread) { timed_thread_lock(mail->p_timed_thread); snprintf(p, p_max_size, "%lu", mail->messages); timed_thread_unlock(mail->p_timed_thread); } } OBJ(pop3_unseen) { struct mail_s *mail = ensure_mail_thread(obj, pop3_thread, "pop3"); if (mail && mail->p_timed_thread) { timed_thread_lock(mail->p_timed_thread); snprintf(p, p_max_size, "%lu", mail->unseen); timed_thread_unlock(mail->p_timed_thread); } } OBJ(pop3_used) { struct mail_s *mail = ensure_mail_thread(obj, pop3_thread, "pop3"); if (mail && mail->p_timed_thread) { timed_thread_lock(mail->p_timed_thread); snprintf(p, p_max_size, "%.1f", mail->used / 1024.0 / 1024.0); timed_thread_unlock(mail->p_timed_thread); } } OBJ(fs_bar) { if (obj->data.fs != NULL) { if (obj->data.fs->size == 0) { new_bar(p, obj->data.fsbar.w, obj->data.fsbar.h, 255); } else { new_bar(p, obj->data.fsbar.w, obj->data.fsbar.h, (int) (255 - obj->data.fsbar.fs->avail * 255 / obj->data.fs->size)); } } } OBJ(fs_free) { if (obj->data.fs != NULL) { human_readable( (obj->data.fs->free ? obj->data.fs->free : obj->data.fs->avail), p, 255); } } OBJ(fs_free_perc) { if (obj->data.fs != NULL) { int val = 0; if (obj->data.fs->size) { val = (obj->data.fs->free ? obj->data.fs->free : obj->data.fs->avail) * 100 / obj->data.fs->size; } percent_print(p, p_max_size, val); } } OBJ(fs_size) { if (obj->data.fs != NULL) { human_readable(obj->data.fs->size, p, 255); } } OBJ(fs_type) { if (obj->data.fs != NULL) snprintf(p, p_max_size, "%s", obj->data.fs->type); } OBJ(fs_used) { if (obj->data.fs != NULL) { human_readable(obj->data.fs->size - (obj->data.fs->free ? obj->data.fs->free : obj->data.fs->avail), p, 255); } } OBJ(fs_bar_free) { if (obj->data.fs != NULL) { if (obj->data.fs->size == 0) { new_bar(p, obj->data.fsbar.w, obj->data.fsbar.h, 255); } else { new_bar(p, obj->data.fsbar.w, obj->data.fsbar.h, (int) (obj->data.fsbar.fs->avail * 255 / obj->data.fs->size)); } } } OBJ(fs_used_perc) { if (obj->data.fs != NULL) { int val = 0; if (obj->data.fs->size) { val = (obj->data.fs->free ? obj->data.fs->free : obj->data.fs->avail) * 100 / obj->data.fs->size; } percent_print(p, p_max_size, 100 - val); } } OBJ(loadavg) { float *v = info.loadavg; if (obj->data.loadavg[2]) { snprintf(p, p_max_size, "%.2f %.2f %.2f", v[obj->data.loadavg[0] - 1], v[obj->data.loadavg[1] - 1], v[obj->data.loadavg[2] - 1]); } else if (obj->data.loadavg[1]) { snprintf(p, p_max_size, "%.2f %.2f", v[obj->data.loadavg[0] - 1], v[obj->data.loadavg[1] - 1]); } else if (obj->data.loadavg[0]) { snprintf(p, p_max_size, "%.2f", v[obj->data.loadavg[0] - 1]); } } OBJ(goto) { new_goto(p, obj->data.i); } OBJ(tab) { new_tab(p, obj->data.pair.a, obj->data.pair.b); } OBJ(hr) { new_hr(p, obj->data.i); } OBJ(nameserver) { if (cur->nameserver_info.nscount > obj->data.i) snprintf(p, p_max_size, "%s", cur->nameserver_info.ns_list[obj->data.i]); } #ifdef EVE OBJ(eve) { char *skill = eve(obj->data.eve.userid, obj->data.eve.apikey, obj->data.eve.charid); snprintf(p, p_max_size, "%s", skill); } #endif #ifdef RSS OBJ(rss) { PRSS *data = get_rss_info(obj->data.rss.uri, obj->data.rss.delay); char *str; if (data == NULL) { snprintf(p, p_max_size, "prss: Error reading RSS data\n"); } else { if (strcmp(obj->data.rss.action, "feed_title") == EQUAL) { str = data->title; // remove trailing new line if one exists if (str[strlen(str) - 1] == '\n') { str[strlen(str) - 1] = 0; } snprintf(p, p_max_size, "%s", str); } else if (strcmp(obj->data.rss.action, "item_title") == EQUAL) { if (obj->data.rss.act_par < data->item_count) { str = data->items[obj->data.rss.act_par].title; // remove trailing new line if one exists if (str[strlen(str) - 1] == '\n') { str[strlen(str) - 1] = 0; } snprintf(p, p_max_size, "%s", str); } } else if (strcmp(obj->data.rss.action, "item_desc") == EQUAL) { if (obj->data.rss.act_par < data->item_count) { str = data->items[obj->data.rss.act_par].description; // remove trailing new line if one exists if (str[strlen(str) - 1] == '\n') { str[strlen(str) - 1] = 0; } snprintf(p, p_max_size, "%s", str); } } else if (strcmp(obj->data.rss.action, "item_titles") == EQUAL) { if (data->item_count > 0) { int itmp; int show; //'tmpspaces' is a string with spaces too be placed in front of each title char *tmpspaces = malloc(obj->data.rss.nrspaces + 1); memset(tmpspaces, ' ', obj->data.rss.nrspaces); tmpspaces[obj->data.rss.nrspaces]=0; p[0] = 0; if (obj->data.rss.act_par > data->item_count) { show = data->item_count; } else { show = obj->data.rss.act_par; } for (itmp = 0; itmp < show; itmp++) { PRSS_Item *item = &data->items[itmp]; str = item->title; if (str) { // don't add new line before first item if (itmp > 0) { strncat(p, "\n", p_max_size); } /* remove trailing new line if one exists, * we have our own */ if (str[strlen(str) - 1] == '\n') { str[strlen(str) - 1] = 0; } strncat(p, tmpspaces, p_max_size); strncat(p, str, p_max_size); } } free(tmpspaces); } } } } #endif #ifdef HDDTEMP OBJ(hddtemp) { char *endptr, unit; long val; if (obj->data.hddtemp.update_time < current_update_time - 30) { if (obj->data.hddtemp.temp) free(obj->data.hddtemp.temp); obj->data.hddtemp.temp = get_hddtemp_info(obj->data.hddtemp.dev, obj->data.hddtemp.addr, obj->data.hddtemp.port); obj->data.hddtemp.update_time = current_update_time; } if (!obj->data.hddtemp.temp) { snprintf(p, p_max_size, "N/A"); } else { val = strtol(obj->data.hddtemp.temp + 1, &endptr, 10); unit = obj->data.hddtemp.temp[0]; if (*endptr != '\0') snprintf(p, p_max_size, "N/A"); else if (unit == 'C') temp_print(p, p_max_size, (double)val, TEMP_CELSIUS); else if (unit == 'F') temp_print(p, p_max_size, (double)val, TEMP_FAHRENHEIT); else snprintf(p, p_max_size, "N/A"); } } #endif OBJ(offset) { new_offset(p, obj->data.i); } OBJ(voffset) { new_voffset(p, obj->data.i); } #ifdef __linux__ OBJ(i2c) { double r; r = get_sysfs_info(&obj->data.sysfs.fd, obj->data.sysfs.arg, obj->data.sysfs.devtype, obj->data.sysfs.type); if (!strncmp(obj->data.sysfs.type, "temp", 4)) { temp_print(p, p_max_size, r, TEMP_CELSIUS); } else if (r >= 100.0 || r == 0) { snprintf(p, p_max_size, "%d", (int) r); } else { snprintf(p, p_max_size, "%.1f", r); } } OBJ(platform) { double r; r = get_sysfs_info(&obj->data.sysfs.fd, obj->data.sysfs.arg, obj->data.sysfs.devtype, obj->data.sysfs.type); if (!strncmp(obj->data.sysfs.type, "temp", 4)) { temp_print(p, p_max_size, r, TEMP_CELSIUS); } else if (r >= 100.0 || r == 0) { snprintf(p, p_max_size, "%d", (int) r); } else { snprintf(p, p_max_size, "%.1f", r); } } OBJ(hwmon) { double r; r = get_sysfs_info(&obj->data.sysfs.fd, obj->data.sysfs.arg, obj->data.sysfs.devtype, obj->data.sysfs.type); if (!strncmp(obj->data.sysfs.type, "temp", 4)) { temp_print(p, p_max_size, r, TEMP_CELSIUS); } else if (r >= 100.0 || r == 0) { snprintf(p, p_max_size, "%d", (int) r); } else { snprintf(p, p_max_size, "%.1f", r); } } #endif /* __linux__ */ OBJ(alignr) { new_alignr(p, obj->data.i); } OBJ(alignc) { new_alignc(p, obj->data.i); } OBJ(if_empty) { char buf[max_user_text]; struct information *tmp_info = malloc(sizeof(struct information)); memcpy(tmp_info, cur, sizeof(struct information)); generate_text_internal(buf, max_user_text, *obj->sub, tmp_info); if (strlen(buf) != 0) { DO_JUMP; } free(tmp_info); } OBJ(if_match) { char expression[max_user_text]; int val; struct information *tmp_info; tmp_info = malloc(sizeof(struct information)); memcpy(tmp_info, cur, sizeof(struct information)); generate_text_internal(expression, max_user_text, *obj->sub, tmp_info); DBGP("parsed arg into '%s'", expression); val = compare(expression); if (val == -2) { ERR("compare failed for expression '%s'", expression); } else if (!val) { DO_JUMP; } free(tmp_info); } OBJ(if_existing) { if (obj->data.ifblock.str && !check_contains(obj->data.ifblock.s, obj->data.ifblock.str)) { DO_JUMP; } else if (obj->data.ifblock.s && access(obj->data.ifblock.s, F_OK)) { DO_JUMP; } } OBJ(if_mounted) { if ((obj->data.ifblock.s) && (!check_mount(obj->data.ifblock.s))) { DO_JUMP; } } OBJ(if_running) { if ((obj->data.ifblock.s) && system(obj->data.ifblock.s)) { DO_JUMP; } } #if defined(__linux__) OBJ(ioscheduler) { snprintf(p, p_max_size, "%s", get_ioscheduler(obj->data.s)); } #endif OBJ(kernel) { snprintf(p, p_max_size, "%s", cur->uname_s.release); } OBJ(machine) { snprintf(p, p_max_size, "%s", cur->uname_s.machine); } /* memory stuff */ OBJ(mem) { human_readable(cur->mem * 1024, p, 255); } OBJ(memeasyfree) { human_readable(cur->memeasyfree * 1024, p, 255); } OBJ(memfree) { human_readable(cur->memfree * 1024, p, 255); } OBJ(memmax) { human_readable(cur->memmax * 1024, p, 255); } OBJ(memperc) { if (cur->memmax) percent_print(p, p_max_size, cur->mem * 100 / cur->memmax); } OBJ(memgauge){ new_gauge(p, obj->data.pair.a, obj->data.pair.b, cur->memmax ? (cur->mem * 255) / (cur->memmax) : 0); } OBJ(membar) { new_bar(p, obj->data.pair.a, obj->data.pair.b, cur->memmax ? (cur->mem * 255) / (cur->memmax) : 0); } OBJ(memgraph) { new_graph(p, obj->a, obj->b, obj->c, obj->d, cur->memmax ? (cur->mem * 100.0) / (cur->memmax) : 0.0, 100, 1, obj->showaslog); } /* mixer stuff */ OBJ(mixer) { percent_print(p, p_max_size, mixer_get_avg(obj->data.l)); } OBJ(mixerl) { percent_print(p, p_max_size, mixer_get_left(obj->data.l)); } OBJ(mixerr) { percent_print(p, p_max_size, mixer_get_right(obj->data.l)); } OBJ(mixerbar) { new_bar(p, obj->data.mixerbar.w, obj->data.mixerbar.h, mixer_to_255(obj->data.mixerbar.l,mixer_get_avg(obj->data.mixerbar.l))); } OBJ(mixerlbar) { new_bar(p, obj->data.mixerbar.w, obj->data.mixerbar.h, mixer_to_255(obj->data.mixerbar.l,mixer_get_left(obj->data.mixerbar.l))); } OBJ(mixerrbar) { new_bar(p, obj->data.mixerbar.w, obj->data.mixerbar.h, mixer_to_255(obj->data.mixerbar.l,mixer_get_right(obj->data.mixerbar.l))); } OBJ(if_mixer_mute) { if (!mixer_is_mute(obj->data.ifblock.i)) { DO_JUMP; } } #ifdef X11 OBJ(monitor) { snprintf(p, p_max_size, "%d", cur->x11.monitor.current); } OBJ(monitor_number) { snprintf(p, p_max_size, "%d", cur->x11.monitor.number); } #endif /* mail stuff */ OBJ(mails) { update_mail_count(&obj->data.local_mail); snprintf(p, p_max_size, "%d", obj->data.local_mail.mail_count); } OBJ(new_mails) { update_mail_count(&obj->data.local_mail); snprintf(p, p_max_size, "%d", obj->data.local_mail.new_mail_count); } OBJ(seen_mails) { update_mail_count(&obj->data.local_mail); snprintf(p, p_max_size, "%d", obj->data.local_mail.seen_mail_count); } OBJ(unseen_mails) { update_mail_count(&obj->data.local_mail); snprintf(p, p_max_size, "%d", obj->data.local_mail.unseen_mail_count); } OBJ(flagged_mails) { update_mail_count(&obj->data.local_mail); snprintf(p, p_max_size, "%d", obj->data.local_mail.flagged_mail_count); } OBJ(unflagged_mails) { update_mail_count(&obj->data.local_mail); snprintf(p, p_max_size, "%d", obj->data.local_mail.unflagged_mail_count); } OBJ(forwarded_mails) { update_mail_count(&obj->data.local_mail); snprintf(p, p_max_size, "%d", obj->data.local_mail.forwarded_mail_count); } OBJ(unforwarded_mails) { update_mail_count(&obj->data.local_mail); snprintf(p, p_max_size, "%d", obj->data.local_mail.unforwarded_mail_count); } OBJ(replied_mails) { update_mail_count(&obj->data.local_mail); snprintf(p, p_max_size, "%d", obj->data.local_mail.replied_mail_count); } OBJ(unreplied_mails) { update_mail_count(&obj->data.local_mail); snprintf(p, p_max_size, "%d", obj->data.local_mail.unreplied_mail_count); } OBJ(draft_mails) { update_mail_count(&obj->data.local_mail); snprintf(p, p_max_size, "%d", obj->data.local_mail.draft_mail_count); } OBJ(trashed_mails) { update_mail_count(&obj->data.local_mail); snprintf(p, p_max_size, "%d", obj->data.local_mail.trashed_mail_count); } OBJ(mboxscan) { mbox_scan(obj->data.mboxscan.args, obj->data.mboxscan.output, text_buffer_size); snprintf(p, p_max_size, "%s", obj->data.mboxscan.output); } OBJ(nodename) { snprintf(p, p_max_size, "%s", cur->uname_s.nodename); } OBJ(outlinecolor) { new_outline(p, obj->data.l); } OBJ(processes) { spaced_print(p, p_max_size, "%hu", 4, cur->procs); } OBJ(running_processes) { spaced_print(p, p_max_size, "%hu", 4, cur->run_procs); } OBJ(text) { snprintf(p, p_max_size, "%s", obj->data.s); } OBJ(shadecolor) { new_bg(p, obj->data.l); } OBJ(stippled_hr) { new_stippled_hr(p, obj->data.pair.a, obj->data.pair.b); } OBJ(swap) { human_readable(cur->swap * 1024, p, 255); } OBJ(swapmax) { human_readable(cur->swapmax * 1024, p, 255); } OBJ(swapperc) { if (cur->swapmax == 0) { strncpy(p, "No swap", p_max_size); } else { percent_print(p, p_max_size, cur->swap * 100 / cur->swapmax); } } OBJ(swapbar) { new_bar(p, obj->data.pair.a, obj->data.pair.b, cur->swapmax ? (cur->swap * 255) / (cur->swapmax) : 0); } OBJ(sysname) { snprintf(p, p_max_size, "%s", cur->uname_s.sysname); } OBJ(time) { time_t t = time(NULL); struct tm *tm = localtime(&t); setlocale(LC_TIME, ""); strftime(p, p_max_size, obj->data.s, tm); } OBJ(utime) { time_t t = time(NULL); struct tm *tm = gmtime(&t); strftime(p, p_max_size, obj->data.s, tm); } OBJ(tztime) { char *oldTZ = NULL; time_t t; struct tm *tm; if (obj->data.tztime.tz) { oldTZ = getenv("TZ"); setenv("TZ", obj->data.tztime.tz, 1); tzset(); } t = time(NULL); tm = localtime(&t); setlocale(LC_TIME, ""); strftime(p, p_max_size, obj->data.tztime.fmt, tm); if (oldTZ) { setenv("TZ", oldTZ, 1); tzset(); } else { unsetenv("TZ"); } // Needless to free oldTZ since getenv gives ptr to static data } OBJ(totaldown) { human_readable(obj->data.net->recv, p, 255); } OBJ(totalup) { human_readable(obj->data.net->trans, p, 255); } OBJ(updates) { snprintf(p, p_max_size, "%d", total_updates); } OBJ(if_updatenr) { if(total_updates % updatereset != obj->data.ifblock.i - 1) { DO_JUMP; } } OBJ(upspeed) { human_readable(obj->data.net->trans_speed, p, 255); } OBJ(upspeedf) { spaced_print(p, p_max_size, "%.1f", 8, obj->data.net->trans_speed / 1024.0); } OBJ(upspeedgraph) { new_graph(p, obj->a, obj->b, obj->c, obj->d, obj->data.net->trans_speed / 1024.0, obj->e, 1, obj->showaslog); } OBJ(uptime_short) { format_seconds_short(p, p_max_size, (int) cur->uptime); } OBJ(uptime) { format_seconds(p, p_max_size, (int) cur->uptime); } OBJ(user_names) { snprintf(p, p_max_size, "%s", cur->users.names); } OBJ(user_terms) { snprintf(p, p_max_size, "%s", cur->users.terms); } OBJ(user_times) { snprintf(p, p_max_size, "%s", cur->users.times); } OBJ(user_number) { snprintf(p, p_max_size, "%d", cur->users.number); } #if (defined(__FreeBSD__) || defined(__FreeBSD_kernel__) \ || defined(__OpenBSD__)) && (defined(i386) || defined(__i386__)) OBJ(apm_adapter) { char *msg; msg = get_apm_adapter(); snprintf(p, p_max_size, "%s", msg); free(msg); } OBJ(apm_battery_life) { char *msg; msg = get_apm_battery_life(); snprintf(p, p_max_size, "%s", msg); free(msg); } OBJ(apm_battery_time) { char *msg; msg = get_apm_battery_time(); snprintf(p, p_max_size, "%s", msg); free(msg); } #endif /* __FreeBSD__ __OpenBSD__ */ #ifdef MPD #define mpd_printf(fmt, val) \ snprintf(p, p_max_size, fmt, mpd_get_info()->val) #define mpd_sprintf(val) { \ if (!obj->data.i || obj->data.i > p_max_size) \ mpd_printf("%s", val); \ else \ snprintf(p, obj->data.i, "%s", mpd_get_info()->val); \ } OBJ(mpd_title) mpd_sprintf(title); OBJ(mpd_artist) mpd_sprintf(artist); OBJ(mpd_album) mpd_sprintf(album); OBJ(mpd_random) mpd_printf("%s", random); OBJ(mpd_repeat) mpd_printf("%s", repeat); OBJ(mpd_track) mpd_sprintf(track); OBJ(mpd_name) mpd_sprintf(name); OBJ(mpd_file) mpd_sprintf(file); OBJ(mpd_vol) mpd_printf("%d", volume); OBJ(mpd_bitrate) mpd_printf("%d", bitrate); OBJ(mpd_status) mpd_printf("%s", status); OBJ(mpd_elapsed) { format_media_player_time(p, p_max_size, mpd_get_info()->elapsed); } OBJ(mpd_length) { format_media_player_time(p, p_max_size, mpd_get_info()->length); } OBJ(mpd_percent) { percent_print(p, p_max_size, (int)(mpd_get_info()->progress * 100)); } OBJ(mpd_bar) { new_bar(p, obj->data.pair.a, obj->data.pair.b, (int) (mpd_get_info()->progress * 255.0f)); } OBJ(mpd_smart) { struct mpd_s *mpd = mpd_get_info(); int len = obj->data.i; if (len == 0 || len > p_max_size) len = p_max_size; memset(p, 0, p_max_size); if (mpd->artist && *mpd->artist && mpd->title && *mpd->title) { snprintf(p, len, "%s - %s", mpd->artist, mpd->title); } else if (mpd->title && *mpd->title) { snprintf(p, len, "%s", mpd->title); } else if (mpd->artist && *mpd->artist) { snprintf(p, len, "%s", mpd->artist); } else if (mpd->file && *mpd->file) { snprintf(p, len, "%s", mpd->file); } else { *p = 0; } } OBJ(if_mpd_playing) { if (!mpd_get_info()->is_playing) { DO_JUMP; } } #undef mpd_sprintf #undef mpd_printf #endif #ifdef XMMS2 free_xmms2(); #endif #ifdef MOC #define MOC_PRINT(t, a) \ snprintf(p, p_max_size, "%s", (moc.t ? moc.t : a)) OBJ(moc_state) { MOC_PRINT(state, "??"); } OBJ(moc_file) { MOC_PRINT(file, "no file"); } OBJ(moc_title) { MOC_PRINT(title, "no title"); } OBJ(moc_artist) { MOC_PRINT(artist, "no artist"); } OBJ(moc_song) { MOC_PRINT(song, "no song"); } OBJ(moc_album) { MOC_PRINT(album, "no album"); } OBJ(moc_totaltime) { MOC_PRINT(totaltime, "0:00"); } OBJ(moc_timeleft) { MOC_PRINT(timeleft, "0:00"); } OBJ(moc_curtime) { MOC_PRINT(curtime, "0:00"); } OBJ(moc_bitrate) { MOC_PRINT(bitrate, "0Kbps"); } OBJ(moc_rate) { MOC_PRINT(rate, "0KHz"); } #undef MOC_PRINT #endif /* MOC */ #ifdef XMMS2 OBJ(xmms2_artist) { snprintf(p, p_max_size, "%s", cur->xmms2.artist); } OBJ(xmms2_album) { snprintf(p, p_max_size, "%s", cur->xmms2.album); } OBJ(xmms2_title) { snprintf(p, p_max_size, "%s", cur->xmms2.title); } OBJ(xmms2_genre) { snprintf(p, p_max_size, "%s", cur->xmms2.genre); } OBJ(xmms2_comment) { snprintf(p, p_max_size, "%s", cur->xmms2.comment); } OBJ(xmms2_url) { snprintf(p, p_max_size, "%s", cur->xmms2.url); } OBJ(xmms2_status) { snprintf(p, p_max_size, "%s", cur->xmms2.status); } OBJ(xmms2_date) { snprintf(p, p_max_size, "%s", cur->xmms2.date); } OBJ(xmms2_tracknr) { if (cur->xmms2.tracknr != -1) { snprintf(p, p_max_size, "%i", cur->xmms2.tracknr); } } OBJ(xmms2_bitrate) { snprintf(p, p_max_size, "%i", cur->xmms2.bitrate); } OBJ(xmms2_id) { snprintf(p, p_max_size, "%u", cur->xmms2.id); } OBJ(xmms2_size) { snprintf(p, p_max_size, "%2.1f", cur->xmms2.size); } OBJ(xmms2_elapsed) { snprintf(p, p_max_size, "%02d:%02d", cur->xmms2.elapsed / 60000, (cur->xmms2.elapsed / 1000) % 60); } OBJ(xmms2_duration) { snprintf(p, p_max_size, "%02d:%02d", cur->xmms2.duration / 60000, (cur->xmms2.duration / 1000) % 60); } OBJ(xmms2_percent) { snprintf(p, p_max_size, "%2.0f", cur->xmms2.progress * 100); } OBJ(xmms2_bar) { new_bar(p, obj->data.pair.a, obj->data.pair.b, (int) (cur->xmms2.progress * 255.0f)); } OBJ(xmms2_playlist) { snprintf(p, p_max_size, "%s", cur->xmms2.playlist); } OBJ(xmms2_timesplayed) { snprintf(p, p_max_size, "%i", cur->xmms2.timesplayed); } OBJ(xmms2_smart) { if (strlen(cur->xmms2.title) < 2 && strlen(cur->xmms2.title) < 2) { snprintf(p, p_max_size, "%s", cur->xmms2.url); } else { snprintf(p, p_max_size, "%s - %s", cur->xmms2.artist, cur->xmms2.title); } } OBJ(if_xmms2_connected) { if (cur->xmms2.conn_state != 1) { DO_JUMP; } } #endif #ifdef AUDACIOUS OBJ(audacious_status) { snprintf(p, p_max_size, "%s", cur->audacious.items[AUDACIOUS_STATUS]); } OBJ(audacious_title) { snprintf(p, cur->audacious.max_title_len > 0 ? cur->audacious.max_title_len : p_max_size, "%s", cur->audacious.items[AUDACIOUS_TITLE]); } OBJ(audacious_length) { snprintf(p, p_max_size, "%s", cur->audacious.items[AUDACIOUS_LENGTH]); } OBJ(audacious_length_seconds) { snprintf(p, p_max_size, "%s", cur->audacious.items[AUDACIOUS_LENGTH_SECONDS]); } OBJ(audacious_position) { snprintf(p, p_max_size, "%s", cur->audacious.items[AUDACIOUS_POSITION]); } OBJ(audacious_position_seconds) { snprintf(p, p_max_size, "%s", cur->audacious.items[AUDACIOUS_POSITION_SECONDS]); } OBJ(audacious_bitrate) { snprintf(p, p_max_size, "%s", cur->audacious.items[AUDACIOUS_BITRATE]); } OBJ(audacious_frequency) { snprintf(p, p_max_size, "%s", cur->audacious.items[AUDACIOUS_FREQUENCY]); } OBJ(audacious_channels) { snprintf(p, p_max_size, "%s", cur->audacious.items[AUDACIOUS_CHANNELS]); } OBJ(audacious_filename) { snprintf(p, p_max_size, "%s", cur->audacious.items[AUDACIOUS_FILENAME]); } OBJ(audacious_playlist_length) { snprintf(p, p_max_size, "%s", cur->audacious.items[AUDACIOUS_PLAYLIST_LENGTH]); } OBJ(audacious_playlist_position) { snprintf(p, p_max_size, "%s", cur->audacious.items[AUDACIOUS_PLAYLIST_POSITION]); } OBJ(audacious_main_volume) { snprintf(p, p_max_size, "%s", cur->audacious.items[AUDACIOUS_MAIN_VOLUME]); } OBJ(audacious_bar) { double progress; progress = atof(cur->audacious.items[AUDACIOUS_POSITION_SECONDS]) / atof(cur->audacious.items[AUDACIOUS_LENGTH_SECONDS]); new_bar(p, obj->a, obj->b, (int) (progress * 255.0f)); } #endif #ifdef BMPX OBJ(bmpx_title) { snprintf(p, p_max_size, "%s", cur->bmpx.title); } OBJ(bmpx_artist) { snprintf(p, p_max_size, "%s", cur->bmpx.artist); } OBJ(bmpx_album) { snprintf(p, p_max_size, "%s", cur->bmpx.album); } OBJ(bmpx_uri) { snprintf(p, p_max_size, "%s", cur->bmpx.uri); } OBJ(bmpx_track) { snprintf(p, p_max_size, "%i", cur->bmpx.track); } OBJ(bmpx_bitrate) { snprintf(p, p_max_size, "%i", cur->bmpx.bitrate); } #endif /* we have three different types of top (top, top_mem * and top_time). To avoid having almost-same code three * times, we have this special handler. */ break; case OBJ_top: if (!needed) needed = cur->cpu; case OBJ_top_mem: if (!needed) needed = cur->memu; case OBJ_top_time: if (!needed) needed = cur->time; { char *timeval; switch (obj->data.top.type) { case TOP_NAME: snprintf(p, top_name_width + 1, "%-*s", top_name_width, needed[obj->data.top.num]->name); break; case TOP_CPU: snprintf(p, 7, "%6.2f", needed[obj->data.top.num]->amount); break; case TOP_PID: snprintf(p, 6, "%5i", needed[obj->data.top.num]->pid); break; case TOP_MEM: snprintf(p, 7, "%6.2f", needed[obj->data.top.num]->totalmem); break; case TOP_TIME: timeval = format_time( needed[obj->data.top.num]->total_cpu_time, 9); snprintf(p, 10, "%9s", timeval); free(timeval); break; case TOP_MEM_RES: human_readable(needed[obj->data.top.num]->rss, p, 255); break; case TOP_MEM_VSIZE: human_readable(needed[obj->data.top.num]->vsize, p, 255); break; } } OBJ(tail) print_tail_object(obj, p, p_max_size); OBJ(head) print_head_object(obj, p, p_max_size); OBJ(lines) { FILE *fp = fopen(obj->data.s,"r"); if(fp != NULL) { /* FIXME: use something more general (see also tail.c, head.c */ #define BUFSZ 0x1000 char buf[BUFSZ]; int j, lines; lines = 0; while(fgets(buf, BUFSZ, fp) != NULL){ for(j = 0; buf[j] != 0; j++) { if(buf[j] == '\n') { lines++; } } } sprintf(p, "%d", lines); fclose(fp); } else { sprintf(p, "File Unreadable"); } } OBJ(words) { FILE *fp = fopen(obj->data.s,"r"); if(fp != NULL) { char buf[BUFSZ]; int j, words; char inword = FALSE; words = 0; while(fgets(buf, BUFSZ, fp) != NULL){ for(j = 0; buf[j] != 0; j++) { if(!isspace(buf[j])) { if(inword == FALSE) { words++; inword = TRUE; } } else { inword = FALSE; } } } sprintf(p, "%d", words); fclose(fp); } else { sprintf(p, "File Unreadable"); } } #ifdef TCP_PORT_MONITOR OBJ(tcp_portmon) { tcp_portmon_action(p, p_max_size, &obj->data.tcp_port_monitor); } #endif #ifdef HAVE_ICONV OBJ(iconv_start) { iconv_converting = 1; iconv_selected = obj->a; } OBJ(iconv_stop) { iconv_converting = 0; iconv_selected = 0; } #endif OBJ(entropy_avail) { snprintf(p, p_max_size, "%d", cur->entropy.entropy_avail); } OBJ(entropy_poolsize) { snprintf(p, p_max_size, "%d", cur->entropy.poolsize); } OBJ(entropy_bar) { double entropy_perc; entropy_perc = (double) cur->entropy.entropy_avail / (double) cur->entropy.poolsize; new_bar(p, obj->a, obj->b, (int) (entropy_perc * 255.0f)); } #ifdef IBM OBJ(smapi) { char *s; if(obj->data.s) { s = smapi_get_val(obj->data.s); snprintf(p, p_max_size, "%s", s); free(s); } } OBJ(if_smapi_bat_installed) { int idx; if(obj->data.ifblock.s && sscanf(obj->data.ifblock.s, "%i", &idx) == 1) { if(!smapi_bat_installed(idx)) { DO_JUMP; } } else ERR("argument to if_smapi_bat_installed must be an integer"); } OBJ(smapi_bat_perc) { int idx, val; if(obj->data.s && sscanf(obj->data.s, "%i", &idx) == 1) { val = smapi_bat_installed(idx) ? smapi_get_bat_int(idx, "remaining_percent") : 0; percent_print(p, p_max_size, val); } else ERR("argument to smapi_bat_perc must be an integer"); } OBJ(smapi_bat_temp) { int idx, val; if(obj->data.s && sscanf(obj->data.s, "%i", &idx) == 1) { val = smapi_bat_installed(idx) ? smapi_get_bat_int(idx, "temperature") : 0; /* temperature is in milli degree celsius */ temp_print(p, p_max_size, val / 1000, TEMP_CELSIUS); } else ERR("argument to smapi_bat_temp must be an integer"); } OBJ(smapi_bat_power) { int idx, val; if(obj->data.s && sscanf(obj->data.s, "%i", &idx) == 1) { val = smapi_bat_installed(idx) ? smapi_get_bat_int(idx, "power_now") : 0; /* power_now is in mW, set to W with one digit precision */ snprintf(p, p_max_size, "%.1f", ((double)val / 1000)); } else ERR("argument to smapi_bat_power must be an integer"); } OBJ(smapi_bat_bar) { if(obj->data.i >= 0 && smapi_bat_installed(obj->data.i)) new_bar(p, obj->a, obj->b, (int) (255 * smapi_get_bat_int(obj->data.i, "remaining_percent") / 100)); else new_bar(p, obj->a, obj->b, 0); } #endif /* IBM */ OBJ(scroll) { unsigned int j; char *tmp, buf[max_user_text]; generate_text_internal(buf, max_user_text, *obj->sub, cur); if (strlen(buf) <= obj->data.scroll.show) { snprintf(p, p_max_size, "%s", buf); break; } #define LINESEPARATOR '|' //place all the lines behind each other with LINESEPARATOR between them for(j = 0; buf[j] != 0; j++) { if(buf[j]=='\n') { buf[j]=LINESEPARATOR; } } //scroll the output obj->data.scroll.start places by copying that many chars from //the front of the string to tmp, scrolling the rest to the front and placing tmp //at the back of the string tmp = calloc(obj->data.scroll.start + 1, sizeof(char)); strncpy(tmp, buf, obj->data.scroll.start); tmp[obj->data.scroll.start] = 0; for(j = obj->data.scroll.start; buf[j] != 0; j++){ buf[j - obj->data.scroll.start] = buf[j]; } strcpy(&buf[j - obj->data.scroll.start], tmp); free(tmp); //only show the requested number of chars if(obj->data.scroll.show < j) { buf[obj->data.scroll.show] = 0; } //next time, scroll a place more or reset scrolling if we are at the end obj->data.scroll.start += obj->data.scroll.step; if(obj->data.scroll.start >= j){ obj->data.scroll.start = 0; } snprintf(p, p_max_size, "%s", buf); } OBJ(combine) { char buf[2][max_user_text]; unsigned int i, j; unsigned int longest=0; unsigned int nextstart; unsigned int nr_rows[2]; struct llrows { char* row; struct llrows* next; }; struct llrows *ll_rows[2], *current[2]; struct text_object * objsub = obj->sub; p[0]=0; for(i=0; i<2; i++) { nr_rows[i] = 1; nextstart = 0; ll_rows[i] = malloc(sizeof(struct llrows)); current[i] = ll_rows[i]; for(j=0; jsub; generate_text_internal(buf[i], max_user_text, *objsub, cur); for(j=0; buf[i][j] != 0; j++) { if(buf[i][j] == '\t') buf[i][j] = ' '; if(buf[i][j] == '\n') { buf[i][j] = 0; current[i]->row = strdup(buf[i]+nextstart); if(i==0 && strlen(current[i]->row) > longest) longest = strlen(current[i]->row); current[i]->next = malloc(sizeof(struct llrows)); current[i] = current[i]->next; nextstart = j + 1; nr_rows[i]++; } } current[i]->row = strdup(buf[i]+nextstart); if(i==0 && strlen(current[i]->row) > longest) longest = strlen(current[i]->row); current[i]->next = NULL; current[i] = ll_rows[i]; } for(j=0; j < (nr_rows[0] > nr_rows[1] ? nr_rows[0] : nr_rows[1] ); j++) { if(current[0]) { strcat(p, current[0]->row); i=strlen(current[0]->row); }else i = 0; while(i < longest) { strcat(p, " "); i++; } if(current[1]) { strcat(p, obj->data.combine.seperation); strcat(p, current[1]->row); } strcat(p, "\n"); for(i=0; i<2; i++) if(current[i]) current[i]=current[i]->next; } for(i=0; i<2; i++) { while(ll_rows[i] != NULL) { current[i]=ll_rows[i]; free(current[i]->row); ll_rows[i]=current[i]->next; free(current[i]); } } } #ifdef NVIDIA OBJ(nvidia) { int value = get_nvidia_value(obj->data.nvidia.type, display); if(value == -1) snprintf(p, p_max_size, "N/A"); else if (obj->data.nvidia.type == NV_TEMP) temp_print(p, p_max_size, (double)value, TEMP_CELSIUS); else if (obj->data.nvidia.print_as_float && value > 0 && value < 100) snprintf(p, p_max_size, "%.1f", (float)value); else snprintf(p, p_max_size, "%d", value); } #endif /* NVIDIA */ break; } #undef DO_JUMP { unsigned int a = strlen(p); #ifdef HAVE_ICONV if (a > 0 && iconv_converting && iconv_selected > 0 && (iconv_cd[iconv_selected - 1] != (iconv_t) (-1))) { int bytes; size_t dummy1, dummy2; char *ptr = buff_in; char *outptr = p; dummy1 = dummy2 = a; strncpy(buff_in, p, p_max_size); iconv(*iconv_cd[iconv_selected - 1], NULL, NULL, NULL, NULL); while (dummy1 > 0) { bytes = iconv(*iconv_cd[iconv_selected - 1], &ptr, &dummy1, &outptr, &dummy2); if (bytes == -1) { ERR("Iconv codeset conversion failed"); break; } } /* It is nessecary when we are converting from multibyte to * singlebyte codepage */ a = outptr - p; } #endif /* HAVE_ICONV */ p += a; p_max_size -= a; } } } double current_update_time, next_update_time, last_update_time; static void generate_text(void) { struct information *cur = &info; char *p; special_count = 0; /* update info */ current_update_time = get_time(); update_stuff(); /* add things to the buffer */ /* generate text */ p = text_buffer; generate_text_internal(p, max_user_text, global_root_object, cur); if (stuff_in_upper_case) { char *tmp_p; tmp_p = text_buffer; while (*tmp_p) { *tmp_p = toupper(*tmp_p); tmp_p++; } } next_update_time += update_interval; if (next_update_time < get_time()) { next_update_time = get_time() + update_interval; } else if (next_update_time > get_time() + update_interval) { next_update_time = get_time() + update_interval; } last_update_time = current_update_time; total_updates++; // free(p); } static inline int get_string_width(const char *s) { #ifdef X11 if (output_methods & TO_X) { return *s ? calc_text_width(s, strlen(s)) : 0; } #endif /* X11 */ return strlen(s); } static inline int get_string_width_special(char *s) { #ifdef X11 char *p, *final; int idx = 1; int width = 0; long i; if ((output_methods & TO_X) == 0) { #endif return (s) ? strlen(s) : 0; #ifdef X11 } if (!s) { return 0; } p = strndup(s, text_buffer_size); final = p; while (*p) { if (*p == SPECIAL_CHAR) { /* shift everything over by 1 so that the special char * doesn't mess up the size calculation */ for (i = 0; i < (long)strlen(p); i++) { *(p + i) = *(p + i + 1); } if (specials[special_index + idx].type == GRAPH || specials[special_index + idx].type == GAUGE || specials[special_index + idx].type == BAR) { width += specials[special_index + idx].width; } idx++; } else { p++; } } if (strlen(final) > 1) { width += calc_text_width(final, strlen(final)); } free(final); return width; #endif /* X11 */ } #ifdef X11 static void text_size_updater(char *s); int last_font_height; static void update_text_area(void) { int x, y; if ((output_methods & TO_X) == 0) return; /* update text size if it isn't fixed */ #ifdef OWN_WINDOW if (!fixed_size) #endif { text_width = minimum_width; text_height = 0; special_index = 0; last_font_height = font_height(); for_each_line(text_buffer, text_size_updater); text_width += 1; if (text_height < minimum_height) { text_height = minimum_height; } if (text_width > maximum_width && maximum_width > 0) { text_width = maximum_width; } } /* get text position on workarea */ switch (text_alignment) { case TOP_LEFT: x = gap_x; y = gap_y; break; case TOP_RIGHT: x = workarea[2] - text_width - gap_x; y = gap_y; break; case TOP_MIDDLE: x = workarea[2] / 2 - text_width / 2 - gap_x; y = gap_y; break; default: case BOTTOM_LEFT: x = gap_x; y = workarea[3] - text_height - gap_y; break; case BOTTOM_RIGHT: x = workarea[2] - text_width - gap_x; y = workarea[3] - text_height - gap_y; break; case BOTTOM_MIDDLE: x = workarea[2] / 2 - text_width / 2 - gap_x; y = workarea[3] - text_height - gap_y; break; case MIDDLE_LEFT: x = gap_x; y = workarea[3] / 2 - text_height / 2 - gap_y; break; case MIDDLE_RIGHT: x = workarea[2] - text_width - gap_x; y = workarea[3] / 2 - text_height / 2 - gap_y; break; #ifdef OWN_WINDOW case NONE: // Let the WM manage the window x = window.x; y = window.y; fixed_pos = 1; fixed_size = 1; break; #endif } #ifdef OWN_WINDOW if (own_window && !fixed_pos) { x += workarea[0]; y += workarea[1]; text_start_x = border_margin + 1; text_start_y = border_margin + 1; window.x = x - border_margin - 1; window.y = y - border_margin - 1; } else #endif { /* If window size doesn't match to workarea's size, * then window probably includes panels (gnome). * Blah, doesn't work on KDE. */ if (workarea[2] != window.width || workarea[3] != window.height) { y += workarea[1]; x += workarea[0]; } text_start_x = x; text_start_y = y; } } /* drawing stuff */ static int cur_x, cur_y; /* current x and y for drawing */ #endif //draw_mode also without X11 because we only need to print to stdout with FG static int draw_mode; /* FG, BG or OUTLINE */ #ifdef X11 static long current_color; static void text_size_updater(char *s) { int w = 0; char *p; if ((output_methods & TO_X) == 0) return; /* get string widths and skip specials */ p = s; while (*p) { if (*p == SPECIAL_CHAR) { *p = '\0'; w += get_string_width(s); *p = SPECIAL_CHAR; if (specials[special_index].type == BAR || specials[special_index].type == GAUGE || specials[special_index].type == GRAPH) { w += specials[special_index].width; if (specials[special_index].height > last_font_height) { last_font_height = specials[special_index].height; last_font_height += font_height(); } } else if (specials[special_index].type == OFFSET) { if (specials[special_index].arg > 0) { w += specials[special_index].arg; } } else if (specials[special_index].type == VOFFSET) { last_font_height += specials[special_index].arg; } else if (specials[special_index].type == GOTO) { if (specials[special_index].arg > cur_x) { w = (int) specials[special_index].arg; } } else if (specials[special_index].type == TAB) { int start = specials[special_index].arg; int step = specials[special_index].width; if (!step || step < 0) { step = 10; } w += step - (cur_x - text_start_x - start) % step; } else if (specials[special_index].type == FONT) { selected_font = specials[special_index].font_added; if (font_height() > last_font_height) { last_font_height = font_height(); } } special_index++; s = p + 1; } p++; } w += get_string_width(s); if (w > text_width) { text_width = w; } if (text_width > maximum_width && maximum_width) { text_width = maximum_width; } text_height += last_font_height; last_font_height = font_height(); } static inline void set_foreground_color(long c) { if ((output_methods & TO_X) == 0) return; current_color = c; XSetForeground(display, window.gc, c); } #endif /* X11 */ static void draw_string(const char *s) { int i, i2, pos, width_of_s; int max = 0; int added; if (s[0] == '\0') { return; } width_of_s = get_string_width(s); if ((output_methods & TO_STDOUT) && draw_mode == FG) { printf("%s\n", s); fflush(stdout); /* output immediately, don't buffer */ } if ((output_methods & TO_STDERR) && draw_mode == FG) { fprintf(stderr, "%s\n", s); fflush(stderr); /* output immediately, don't buffer */ } if ((output_methods & OVERWRITE_FILE) && draw_mode == FG && overwrite_fpointer) { fprintf(overwrite_fpointer, "%s\n", s); } if ((output_methods & APPEND_FILE) && draw_mode == FG && append_fpointer) { fprintf(append_fpointer, "%s\n", s); } memset(tmpstring1, 0, text_buffer_size); memset(tmpstring2, 0, text_buffer_size); strncpy(tmpstring1, s, text_buffer_size - 1); pos = 0; added = 0; #ifdef X11 if (output_methods & TO_X) { max = ((text_width - width_of_s) / get_string_width(" ")); } #endif /* X11 */ /* This code looks for tabs in the text and coverts them to spaces. * The trick is getting the correct number of spaces, and not going * over the window's size without forcing the window larger. */ for (i = 0; i < (int) text_buffer_size; i++) { if (tmpstring1[i] == '\t') { i2 = 0; for (i2 = 0; i2 < (8 - (1 + pos) % 8) && added <= max; i2++) { /* guard against overrun */ tmpstring2[MIN(pos + i2, (int)text_buffer_size - 1)] = ' '; added++; } pos += i2; } else { /* guard against overrun */ tmpstring2[MIN(pos, (int) text_buffer_size - 1)] = tmpstring1[i]; pos++; } } #ifdef X11 if (output_methods & TO_X) { if (text_width == maximum_width) { /* this means the text is probably pushing the limit, * so we'll chop it */ while (cur_x + get_string_width(tmpstring2) - text_start_x > maximum_width && strlen(tmpstring2) > 0) { tmpstring2[strlen(tmpstring2) - 1] = '\0'; } } } #endif /* X11 */ s = tmpstring2; #ifdef X11 if (output_methods & TO_X) { #ifdef XFT if (use_xft) { XColor c; XftColor c2; c.pixel = current_color; XQueryColor(display, DefaultColormap(display, screen), &c); c2.pixel = c.pixel; c2.color.red = c.red; c2.color.green = c.green; c2.color.blue = c.blue; c2.color.alpha = fonts[selected_font].font_alpha; if (utf8_mode) { XftDrawStringUtf8(window.xftdraw, &c2, fonts[selected_font].xftfont, cur_x, cur_y, (const XftChar8 *) s, strlen(s)); } else { XftDrawString8(window.xftdraw, &c2, fonts[selected_font].xftfont, cur_x, cur_y, (const XftChar8 *) s, strlen(s)); } } else #endif { XDrawString(display, window.drawable, window.gc, cur_x, cur_y, s, strlen(s)); } cur_x += width_of_s; } #endif /* X11 */ memcpy(tmpstring1, s, text_buffer_size); } static void draw_line(char *s) { #ifdef X11 char *p; int cur_y_add = 0; int font_h; char *tmp_str; #endif /* X11 */ if ((output_methods & TO_X) == 0) { draw_string(s); return; } #ifdef X11 cur_x = text_start_x; cur_y += font_ascent(); font_h = font_height(); /* find specials and draw stuff */ p = s; while (*p) { if (*p == SPECIAL_CHAR) { int w = 0; /* draw string before special */ *p = '\0'; draw_string(s); *p = SPECIAL_CHAR; s = p + 1; /* draw special */ switch (specials[special_index].type) { case HORIZONTAL_LINE: { int h = specials[special_index].height; int mid = font_ascent() / 2; w = text_start_x + text_width - cur_x; XSetLineAttributes(display, window.gc, h, LineSolid, CapButt, JoinMiter); XDrawLine(display, window.drawable, window.gc, cur_x, cur_y - mid / 2, cur_x + w, cur_y - mid / 2); break; } case STIPPLED_HR: { int h = specials[special_index].height; int tmp_s = specials[special_index].arg; int mid = font_ascent() / 2; char ss[2] = { tmp_s, tmp_s }; w = text_start_x + text_width - cur_x - 1; XSetLineAttributes(display, window.gc, h, LineOnOffDash, CapButt, JoinMiter); XSetDashes(display, window.gc, 0, ss, 2); XDrawLine(display, window.drawable, window.gc, cur_x, cur_y - mid / 2, cur_x + w, cur_y - mid / 2); break; } case BAR: { int h, bar_usage, by; if (cur_x - text_start_x > maximum_width && maximum_width > 0) { break; } h = specials[special_index].height; bar_usage = specials[special_index].arg; by = cur_y - (font_ascent() / 2) - 1; if (h < font_h) { by -= h / 2 - 1; } w = specials[special_index].width; if (w == 0) { w = text_start_x + text_width - cur_x - 1; } if (w < 0) { w = 0; } XSetLineAttributes(display, window.gc, 1, LineSolid, CapButt, JoinMiter); XDrawRectangle(display, window.drawable, window.gc, cur_x, by, w, h); XFillRectangle(display, window.drawable, window.gc, cur_x, by, w * bar_usage / 255, h); if (h > cur_y_add && h > font_h) { cur_y_add = h; } break; } case GAUGE: /* new GAUGE */ { int h, by = 0; unsigned long last_colour = current_color; float angle, px, py; int usage; if (cur_x - text_start_x > maximum_width && maximum_width > 0) { break; } h = specials[special_index].height; by = cur_y - (font_ascent() / 2) - 1; if (h < font_h) { by -= h / 2 - 1; } w = specials[special_index].width; if (w == 0) { w = text_start_x + text_width - cur_x - 1; } if (w < 0) { w = 0; } XSetLineAttributes(display, window.gc, 1, LineSolid, CapButt, JoinMiter); XDrawArc(display, window.drawable, window.gc, cur_x, by, w, h * 2, 0, 180*64); #ifdef MATH usage = specials[special_index].arg; angle = (M_PI)*(float)(usage)/255.; px = (float)(cur_x+(w/2.))-(float)(w/2.)*cos(angle); py = (float)(by+(h))-(float)(h)*sin(angle); XDrawLine(display, window.drawable, window.gc, cur_x + (w/2.), by+(h), (int)(px), (int)(py)); #endif if (h > cur_y_add && h > font_h) { cur_y_add = h; } set_foreground_color(last_colour); break; } case GRAPH: { int h, by, i, j = 0; int gradient_size = 0; float gradient_factor = 0; float gradient_update = 0; unsigned long last_colour = current_color; unsigned long tmpcolour = current_color; if (cur_x - text_start_x > maximum_width && maximum_width > 0) { break; } h = specials[special_index].height; by = cur_y - (font_ascent() / 2) - 1; if (h < font_h) { by -= h / 2 - 1; } w = specials[special_index].width; if (w == 0) { w = text_start_x + text_width - cur_x - 1; } if (w < 0) { w = 0; } if (draw_graph_borders) { XSetLineAttributes(display, window.gc, 1, LineSolid, CapButt, JoinMiter); XDrawRectangle(display, window.drawable, window.gc, cur_x, by, w, h); } XSetLineAttributes(display, window.gc, 1, LineSolid, CapButt, JoinMiter); if (specials[special_index].last_colour != 0 || specials[special_index].first_colour != 0) { tmpcolour = specials[special_index].last_colour; gradient_size = gradient_max(specials[special_index].last_colour, specials[special_index].first_colour); gradient_factor = (float) gradient_size / (w - 2); } for (i = w - 2; i > -1; i--) { if (specials[special_index].last_colour != 0 || specials[special_index].first_colour != 0) { XSetForeground(display, window.gc, tmpcolour); gradient_update += gradient_factor; while (gradient_update > 0) { tmpcolour = do_gradient(tmpcolour, specials[special_index].first_colour); gradient_update--; } } if ((w - i) / ((float) (w - 2) / (specials[special_index].graph_width)) > j && j < MAX_GRAPH_DEPTH - 3) { j++; } /* this is mugfugly, but it works */ XDrawLine(display, window.drawable, window.gc, cur_x + i + 1, by + h, cur_x + i + 1, by + h - specials[special_index].graph[j] * (h - 1) / specials[special_index].graph_scale); } if (h > cur_y_add && h > font_h) { cur_y_add = h; } /* if (draw_mode == BG) { set_foreground_color(default_bg_color); } else if (draw_mode == OUTLINE) { set_foreground_color(default_out_color); } else { set_foreground_color(default_fg_color); } */ if (show_graph_range) { int tmp_x = cur_x; int tmp_y = cur_y; unsigned short int seconds = update_interval * w; char *tmp_day_str; char *tmp_hour_str; char *tmp_min_str; char *tmp_sec_str; unsigned short int timeunits; if (seconds != 0) { timeunits = seconds / 86400; seconds %= 86400; if (timeunits > 0) { asprintf(&tmp_day_str, "%dd", timeunits); } else { tmp_day_str = strdup(""); } timeunits = seconds / 3600; seconds %= 3600; if (timeunits > 0) { asprintf(&tmp_hour_str, "%dh", timeunits); } else { tmp_hour_str = strdup(""); } timeunits = seconds / 60; seconds %= 60; if (timeunits > 0) { asprintf(&tmp_min_str, "%dm", timeunits); } else { tmp_min_str = strdup(""); } if (seconds > 0) { asprintf(&tmp_sec_str, "%ds", seconds); } else { tmp_sec_str = strdup(""); } asprintf(&tmp_str, "%s%s%s%s", tmp_day_str, tmp_hour_str, tmp_min_str, tmp_sec_str); free(tmp_day_str); free(tmp_hour_str); free(tmp_min_str); free(tmp_sec_str); } else { asprintf(&tmp_str, "Range not possible"); // should never happen, but better safe then sorry } cur_x += (w / 2) - (font_ascent() * (strlen(tmp_str) / 2)); cur_y += font_h / 2; draw_string(tmp_str); free(tmp_str); cur_x = tmp_x; cur_y = tmp_y; } #ifdef MATH if (show_graph_scale && (specials[special_index].show_scale == 1)) { int tmp_x = cur_x; int tmp_y = cur_y; cur_x += font_ascent() / 2; cur_y += font_h / 2; tmp_str = (char *) calloc(log10(floor(specials[special_index].graph_scale)) + 4, sizeof(char)); sprintf(tmp_str, "%.1f", specials[special_index].graph_scale); draw_string(tmp_str); free(tmp_str); cur_x = tmp_x; cur_y = tmp_y; } #endif set_foreground_color(last_colour); break; } case FONT: { int old = font_ascent(); cur_y -= font_ascent(); selected_font = specials[special_index].font_added; if (cur_y + font_ascent() < cur_y + old) { cur_y += old; } else { cur_y += font_ascent(); } set_font(); font_h = font_height(); break; } case FG: if (draw_mode == FG) { set_foreground_color(specials[special_index].arg); } break; case BG: if (draw_mode == BG) { set_foreground_color(specials[special_index].arg); } break; case OUTLINE: if (draw_mode == OUTLINE) { set_foreground_color(specials[special_index].arg); } break; case OFFSET: w += specials[special_index].arg; break; case VOFFSET: cur_y += specials[special_index].arg; break; case GOTO: if (specials[special_index].arg >= 0) { cur_x = (int) specials[special_index].arg; } break; case TAB: { int start = specials[special_index].arg; int step = specials[special_index].width; if (!step || step < 0) { step = 10; } w = step - (cur_x - text_start_x - start) % step; break; } case ALIGNR: { /* TODO: add back in "+ border_margin" to the end of * this line? */ int pos_x = text_start_x + text_width - get_string_width_special(s); /* printf("pos_x %i text_start_x %i text_width %i cur_x %i " "get_string_width(p) %i gap_x %i " "specials[special_index].arg %i border_margin %i " "border_width %i\n", pos_x, text_start_x, text_width, cur_x, get_string_width_special(s), gap_x, specials[special_index].arg, border_margin, border_width); */ if (pos_x > specials[special_index].arg && pos_x > cur_x) { cur_x = pos_x - specials[special_index].arg; } break; } case ALIGNC: { int pos_x = (text_width) / 2 - get_string_width_special(s) / 2 - (cur_x - text_start_x); /* int pos_x = text_start_x + text_width / 2 - get_string_width_special(s) / 2; */ /* printf("pos_x %i text_start_x %i text_width %i cur_x %i " "get_string_width(p) %i gap_x %i " "specials[special_index].arg %i\n", pos_x, text_start_x, text_width, cur_x, get_string_width(s), gap_x, specials[special_index].arg); */ if (pos_x > specials[special_index].arg) { w = pos_x - specials[special_index].arg; } break; } } cur_x += w; special_index++; } p++; } if (cur_y_add > 0) { cur_y += cur_y_add; } draw_string(s); cur_y += font_descent(); #endif /* X11 */ } static void draw_text(void) { #ifdef X11 if (output_methods & TO_X) { cur_y = text_start_y; /* draw borders */ if (draw_borders && border_width > 0) { unsigned int b = (border_width + 1) / 2; if (stippled_borders) { char ss[2] = { stippled_borders, stippled_borders }; XSetLineAttributes(display, window.gc, border_width, LineOnOffDash, CapButt, JoinMiter); XSetDashes(display, window.gc, 0, ss, 2); } else { XSetLineAttributes(display, window.gc, border_width, LineSolid, CapButt, JoinMiter); } XDrawRectangle(display, window.drawable, window.gc, text_start_x - border_margin + b, text_start_y - border_margin + b, text_width + border_margin * 2 - 1 - b * 2, text_height + border_margin * 2 - 1 - b * 2); } /* draw text */ special_index = 0; } #endif /* X11 */ for_each_line(text_buffer, draw_line); } static void draw_stuff(void) { if(overwrite_file) { overwrite_fpointer = fopen(overwrite_file, "w"); if(!overwrite_fpointer) ERR("Can't overwrite '%s' anymore", overwrite_file); } if(append_file) { append_fpointer = fopen(append_file, "a"); if(!append_fpointer) ERR("Can't append '%s' anymore", append_file); } #ifdef X11 if (output_methods & TO_X) { selected_font = 0; if (draw_shades && !draw_outline) { text_start_x++; text_start_y++; set_foreground_color(default_bg_color); draw_mode = BG; draw_text(); text_start_x--; text_start_y--; } if (draw_outline) { int i, j; selected_font = 0; for (i = -1; i < 2; i++) { for (j = -1; j < 2; j++) { if (i == 0 && j == 0) { continue; } text_start_x += i; text_start_y += j; set_foreground_color(default_out_color); draw_mode = OUTLINE; draw_text(); text_start_x -= i; text_start_y -= j; } } } set_foreground_color(default_fg_color); } #endif /* X11 */ draw_mode = FG; draw_text(); #ifdef X11 if (output_methods & TO_X) { #ifdef HAVE_XDBE if (use_xdbe) { XdbeSwapInfo swap; swap.swap_window = window.window; swap.swap_action = XdbeBackground; XdbeSwapBuffers(display, &swap, 1); } #endif } #endif /* X11 */ if(overwrite_fpointer) { fclose(overwrite_fpointer); overwrite_fpointer = 0; } if(append_fpointer) { fclose(append_fpointer); append_fpointer = 0; } } #ifdef X11 static void clear_text(int exposures) { #ifdef HAVE_XDBE if (use_xdbe) { /* The swap action is XdbeBackground, which clears */ return; } else #endif { /* there is some extra space for borders and outlines */ XClearArea(display, window.window, text_start_x - border_margin - 1, text_start_y - border_margin - 1, text_width + border_margin * 2 + 2, text_height + border_margin * 2 + 2, exposures ? True : 0); } } #endif /* X11 */ static int need_to_update; /* update_text() generates new text and clears old text area */ static void update_text(void) { generate_text(); #ifdef X11 if (output_methods & TO_X) clear_text(1); #endif /* X11 */ need_to_update = 1; } static void main_loop(void) { #ifdef SIGNAL_BLOCKING sigset_t newmask, oldmask; #endif double t; #ifdef X11 Region region; #ifdef HAVE_XDAMAGE Damage damage; XserverRegion region2, part; int event_base, error_base; #endif if (output_methods & TO_X) { region = XCreateRegion(); #ifdef HAVE_XDAMAGE if (!XDamageQueryExtension(display, &event_base, &error_base)) { ERR("Xdamage extension unavailable"); } damage = XDamageCreate(display, window.window, XDamageReportNonEmpty); region2 = XFixesCreateRegionFromWindow(display, window.window, 0); part = XFixesCreateRegionFromWindow(display, window.window, 0); #endif /* HAVE_XDAMAGE */ } #endif /* X11 */ #ifdef SIGNAL_BLOCKING sigemptyset(&newmask); sigaddset(&newmask, SIGINT); sigaddset(&newmask, SIGTERM); sigaddset(&newmask, SIGUSR1); #endif next_update_time = last_update_time = get_time(); info.looped = 0; while (total_run_times == 0 || info.looped < total_run_times) { info.looped++; #ifdef SIGNAL_BLOCKING /* block signals. we will inspect for pending signals later */ if (sigprocmask(SIG_BLOCK, &newmask, &oldmask) < 0) { CRIT_ERR("unable to sigprocmask()"); } #endif #ifdef X11 if (output_methods & TO_X) { XFlush(display); /* wait for X event or timeout */ if (!XPending(display)) { fd_set fdsr; struct timeval tv; int s; t = next_update_time - get_time(); if (t < 0) { t = 0; } else if (t > update_interval) { t = update_interval; } tv.tv_sec = (long) t; tv.tv_usec = (long) (t * 1000000) % 1000000; FD_ZERO(&fdsr); FD_SET(ConnectionNumber(display), &fdsr); s = select(ConnectionNumber(display) + 1, &fdsr, 0, 0, &tv); if (s == -1) { if (errno != EINTR) { ERR("can't select(): %s", strerror(errno)); } } else { /* timeout */ if (s == 0) { update_text(); } } } if (need_to_update) { #ifdef OWN_WINDOW int wx = window.x, wy = window.y; #endif need_to_update = 0; selected_font = 0; update_text_area(); #ifdef OWN_WINDOW if (own_window) { /* resize window if it isn't right size */ if (!fixed_size && (text_width + border_margin * 2 + 1 != window.width || text_height + border_margin * 2 + 1 != window.height)) { window.width = text_width + border_margin * 2 + 1; window.height = text_height + border_margin * 2 + 1; XResizeWindow(display, window.window, window.width, window.height); if (own_window) { set_transparent_background(window.window); } } /* move window if it isn't in right position */ if (!fixed_pos && (window.x != wx || window.y != wy)) { XMoveWindow(display, window.window, window.x, window.y); } } #endif clear_text(1); #ifdef HAVE_XDBE if (use_xdbe) { XRectangle r; r.x = text_start_x - border_margin; r.y = text_start_y - border_margin; r.width = text_width + border_margin * 2; r.height = text_height + border_margin * 2; XUnionRectWithRegion(&r, region, region); } #endif } /* handle X events */ while (XPending(display)) { XEvent ev; XNextEvent(display, &ev); switch (ev.type) { case Expose: { XRectangle r; r.x = ev.xexpose.x; r.y = ev.xexpose.y; r.width = ev.xexpose.width; r.height = ev.xexpose.height; XUnionRectWithRegion(&r, region, region); break; } #ifdef OWN_WINDOW case ReparentNotify: /* set background to ParentRelative for all parents */ if (own_window) { set_transparent_background(window.window); } break; case ConfigureNotify: if (own_window) { /* if window size isn't what expected, set fixed size */ if (ev.xconfigure.width != window.width || ev.xconfigure.height != window.height) { if (window.width != 0 && window.height != 0) { fixed_size = 1; } /* clear old stuff before screwing up * size and pos */ clear_text(1); { XWindowAttributes attrs; if (XGetWindowAttributes(display, window.window, &attrs)) { window.width = attrs.width; window.height = attrs.height; } } text_width = window.width - border_margin * 2 - 1; text_height = window.height - border_margin * 2 - 1; if (text_width > maximum_width && maximum_width > 0) { text_width = maximum_width; } } /* if position isn't what expected, set fixed pos * total_updates avoids setting fixed_pos when window * is set to weird locations when started */ /* // this is broken if (total_updates >= 2 && !fixed_pos && (window.x != ev.xconfigure.x || window.y != ev.xconfigure.y) && (ev.xconfigure.x != 0 || ev.xconfigure.y != 0)) { fixed_pos = 1; } */ set_font(); } break; case ButtonPress: if (own_window) { /* if an ordinary window with decorations */ if ((window.type == TYPE_NORMAL) && (!TEST_HINT(window.hints, HINT_UNDECORATED))) { /* allow conky to hold input focus. */ break; } else { /* forward the click to the desktop window */ XUngrabPointer(display, ev.xbutton.time); ev.xbutton.window = window.desktop; XSendEvent(display, ev.xbutton.window, False, ButtonPressMask, &ev); XSetInputFocus(display, ev.xbutton.window, RevertToParent, ev.xbutton.time); } } break; case ButtonRelease: if (own_window) { /* if an ordinary window with decorations */ if ((window.type == TYPE_NORMAL) && (!TEST_HINT(window.hints, HINT_UNDECORATED))) { /* allow conky to hold input focus. */ break; } else { /* forward the release to the desktop window */ ev.xbutton.window = window.desktop; XSendEvent(display, ev.xbutton.window, False, ButtonReleaseMask, &ev); } } break; #endif default: #ifdef HAVE_XDAMAGE if (ev.type == event_base + XDamageNotify) { XDamageNotifyEvent *dev = (XDamageNotifyEvent *) &ev; XFixesSetRegion(display, part, &dev->area, 1); XFixesUnionRegion(display, region2, region2, part); } #endif /* HAVE_XDAMAGE */ break; } } #ifdef HAVE_XDAMAGE XDamageSubtract(display, damage, region2, None); XFixesSetRegion(display, region2, 0, 0); #endif /* HAVE_XDAMAGE */ /* XDBE doesn't seem to provide a way to clear the back buffer without * interfering with the front buffer, other than passing XdbeBackground * to XdbeSwapBuffers. That means that if we're using XDBE, we need to * redraw the text even if it wasn't part of the exposed area. OTOH, * if we're not going to call draw_stuff at all, then no swap happens * and we can safely do nothing. */ if (!XEmptyRegion(region)) { #ifdef HAVE_XDBE if (use_xdbe) { XRectangle r; r.x = text_start_x - border_margin; r.y = text_start_y - border_margin; r.width = text_width + border_margin * 2; r.height = text_height + border_margin * 2; XUnionRectWithRegion(&r, region, region); } #endif XSetRegion(display, window.gc, region); #ifdef XFT if (use_xft) { XftDrawSetClip(window.xftdraw, region); } #endif draw_stuff(); XDestroyRegion(region); region = XCreateRegion(); } } else { #endif /* X11 */ t = (next_update_time - get_time()) * 1000000; if(t > 0) usleep((useconds_t)t); update_text(); draw_stuff(); #ifdef X11 } #endif /* X11 */ #ifdef SIGNAL_BLOCKING /* unblock signals of interest and let handler fly */ if (sigprocmask(SIG_SETMASK, &oldmask, NULL) < 0) { CRIT_ERR("unable to sigprocmask()"); } #endif switch (g_signal_pending) { case SIGHUP: case SIGUSR1: ERR("received SIGHUP or SIGUSR1. reloading the config file."); reload_config(); break; case SIGINT: case SIGTERM: ERR("received SIGINT or SIGTERM to terminate. bye!"); clean_up(); #ifdef X11 if (output_methods & TO_X) { XDestroyRegion(region); region = NULL; #ifdef HAVE_XDAMAGE XDamageDestroy(display, damage); XFixesDestroyRegion(display, region2); XFixesDestroyRegion(display, part); #endif /* HAVE_XDAMAGE */ } #endif /* X11 */ if(overwrite_file) { free(overwrite_file); overwrite_file = 0; } if(append_file) { free(append_file); append_file = 0; } return; /* return from main_loop */ /* break; */ default: /* Reaching here means someone set a signal * (SIGXXXX, signal_handler), but didn't write any code * to deal with it. * If you don't want to handle a signal, don't set a handler on * it in the first place. */ if (g_signal_pending) { ERR("ignoring signal (%d)", g_signal_pending); } break; } g_signal_pending = 0; } #if defined(X11) && defined(HAVE_XDAMAGE) if (output_methods & TO_X) { XDamageDestroy(display, damage); XFixesDestroyRegion(display, region2); XFixesDestroyRegion(display, part); XDestroyRegion(region); region = NULL; } #endif /* X11 && HAVE_XDAMAGE */ } static void load_config_file(const char *); static void load_config_file_x11(const char *); /* reload the config file */ static void reload_config(void) { timed_thread_destroy_registered_threads(); if (info.cpu_usage) { free(info.cpu_usage); info.cpu_usage = NULL; } if (info.mail) { free(info.mail); } #ifdef X11 free_fonts(); #endif /* X11 */ #ifdef TCP_PORT_MONITOR tcp_portmon_clear(); #endif if (current_config) { clear_fs_stats(); load_config_file(current_config); load_config_file_x11(current_config); /* re-init specials array */ if ((specials = realloc((void *) specials, sizeof(struct special_t) * max_specials)) == 0) { ERR("failed to realloc specials array"); } #ifdef X11 load_fonts(); set_font(); // clear the window first XClearWindow(display, RootWindow(display, screen)); x_initialised = NO; #endif /* X11 */ extract_variable_text(global_text); free(global_text); global_text = NULL; if (tmpstring1) { free(tmpstring1); } tmpstring1 = malloc(text_buffer_size); memset(tmpstring1, 0, text_buffer_size); if (tmpstring2) { free(tmpstring2); } tmpstring2 = malloc(text_buffer_size); memset(tmpstring2, 0, text_buffer_size); if (text_buffer) { free(text_buffer); } text_buffer = malloc(max_user_text); memset(text_buffer, 0, max_user_text); update_text(); } } static void clean_up(void) { timed_thread_destroy_registered_threads(); if (info.cpu_usage) { free(info.cpu_usage); info.cpu_usage = NULL; } #ifdef X11 if (output_methods & TO_X) { #ifdef HAVE_XDBE if (use_xdbe) { XdbeDeallocateBackBufferName(display, window.back_buffer); } #endif #ifdef OWN_WINDOW if (own_window) { XDestroyWindow(display, window.window); XClearWindow(display, RootWindow(display, screen)); XFlush(display); } else #endif { XClearWindow(display, RootWindow(display, screen)); clear_text(1); XFlush(display); } XFreeGC(display, window.gc); free_fonts(); } #endif /* X11 */ free_text_objects(&global_root_object); if (tmpstring1) { free(tmpstring1); tmpstring1 = 0; } if (tmpstring2) { free(tmpstring2); tmpstring2 = 0; } if (text_buffer) { free(text_buffer); text_buffer = 0; } if (global_text) { free(global_text); global_text = 0; } free(current_config); #ifdef TCP_PORT_MONITOR tcp_portmon_clear(); #endif #ifdef RSS free_rss_info(); #endif if (specials) { unsigned int i; for (i = 0; i < special_count; i++) { if (specials[i].type == GRAPH) { free(specials[i].graph); } } free(specials); specials = NULL; } clear_diskio_stats(); } static int string_to_bool(const char *s) { if (!s) { // Assumes an option without a true/false means true return 1; } else if (strcasecmp(s, "yes") == EQUAL) { return 1; } else if (strcasecmp(s, "true") == EQUAL) { return 1; } else if (strcasecmp(s, "1") == EQUAL) { return 1; } return 0; } #ifdef X11 static enum alignment string_to_alignment(const char *s) { if (strcasecmp(s, "top_left") == EQUAL) { return TOP_LEFT; } else if (strcasecmp(s, "top_right") == EQUAL) { return TOP_RIGHT; } else if (strcasecmp(s, "top_middle") == EQUAL) { return TOP_MIDDLE; } else if (strcasecmp(s, "bottom_left") == EQUAL) { return BOTTOM_LEFT; } else if (strcasecmp(s, "bottom_right") == EQUAL) { return BOTTOM_RIGHT; } else if (strcasecmp(s, "bottom_middle") == EQUAL) { return BOTTOM_MIDDLE; } else if (strcasecmp(s, "middle_left") == EQUAL) { return MIDDLE_LEFT; } else if (strcasecmp(s, "middle_right") == EQUAL) { return MIDDLE_RIGHT; } else if (strcasecmp(s, "tl") == EQUAL) { return TOP_LEFT; } else if (strcasecmp(s, "tr") == EQUAL) { return TOP_RIGHT; } else if (strcasecmp(s, "tm") == EQUAL) { return TOP_MIDDLE; } else if (strcasecmp(s, "bl") == EQUAL) { return BOTTOM_LEFT; } else if (strcasecmp(s, "br") == EQUAL) { return BOTTOM_RIGHT; } else if (strcasecmp(s, "bm") == EQUAL) { return BOTTOM_MIDDLE; } else if (strcasecmp(s, "ml") == EQUAL) { return MIDDLE_LEFT; } else if (strcasecmp(s, "mr") == EQUAL) { return MIDDLE_RIGHT; } else if (strcasecmp(s, "none") == EQUAL) { return NONE; } return TOP_LEFT; } #endif /* X11 */ #ifdef X11 static void set_default_configurations_for_x(void) { default_fg_color = WhitePixel(display, screen); default_bg_color = BlackPixel(display, screen); default_out_color = BlackPixel(display, screen); color0 = default_fg_color; color1 = default_fg_color; color2 = default_fg_color; color3 = default_fg_color; color4 = default_fg_color; color5 = default_fg_color; color6 = default_fg_color; color7 = default_fg_color; color8 = default_fg_color; color9 = default_fg_color; } #endif /* X11 */ static void set_default_configurations(void) { update_uname(); fork_to_background = 0; total_run_times = 0; info.cpu_avg_samples = 2; info.net_avg_samples = 2; info.diskio_avg_samples = 2; info.memmax = 0; top_cpu = 0; cpu_separate = 0; short_units = 0; top_mem = 0; top_time = 0; #ifdef MPD mpd_set_host("localhost"); mpd_set_port("6600"); #endif #ifdef XMMS2 info.xmms2.artist = NULL; info.xmms2.album = NULL; info.xmms2.title = NULL; info.xmms2.genre = NULL; info.xmms2.comment = NULL; info.xmms2.url = NULL; info.xmms2.status = NULL; info.xmms2.playlist = NULL; #endif use_spacer = NO_SPACER; #ifdef X11 output_methods = TO_X; #else output_methods = TO_STDOUT; #endif #ifdef X11 show_graph_scale = 0; show_graph_range = 0; template[0] = strdup(""); template[1] = strdup(""); template[2] = strdup(""); template[3] = strdup(""); template[4] = strdup(""); template[5] = strdup(""); template[6] = strdup(""); template[7] = strdup(""); template[8] = strdup(""); template[9] = strdup(""); draw_shades = 1; draw_borders = 0; draw_graph_borders = 1; draw_outline = 0; set_first_font("6x10"); gap_x = 5; gap_y = 60; minimum_width = 5; minimum_height = 5; maximum_width = 0; #ifdef OWN_WINDOW own_window = 0; window.type = TYPE_NORMAL; window.hints = 0; strcpy(window.class_name, PACKAGE_NAME); sprintf(window.title, PACKAGE_NAME" (%s)", info.uname_s.nodename); #endif stippled_borders = 0; border_margin = 3; border_width = 1; text_alignment = BOTTOM_LEFT; info.x11.monitor.number = 1; info.x11.monitor.current = 0; #endif /* X11 */ free(current_mail_spool); { char buf[256]; variable_substitute(MAIL_FILE, buf, 256); if (buf[0] != '\0') { current_mail_spool = strndup(buf, text_buffer_size); } } no_buffers = 1; update_interval = 3.0; info.music_player_interval = 1.0; stuff_in_upper_case = 0; info.users.number = 1; #ifdef TCP_PORT_MONITOR /* set default connection limit */ tcp_portmon_set_max_connections(0); #endif } /* returns 1 if you can overwrite or create the file at 'path' */ static _Bool overwrite_works(const char *path) { FILE *filepointer; if (!(filepointer = fopen(path, "w"))) return 0; fclose(filepointer); return 1; } /* returns 1 if you can append or create the file at 'path' */ static _Bool append_works(const char *path) { FILE *filepointer; if (!(filepointer = fopen(path, "a"))) return 0; fclose(filepointer); return 1; } #ifdef X11 static void X11_initialisation(void) { if (x_initialised == YES) return; output_methods |= TO_X; init_X11(disp); set_default_configurations_for_x(); x_initialised = YES; } #endif /* X11 */ #define CONF_ERR ERR("%s: %d: config file error", f, line) #define CONF_ERR2(a) ERR("%s: %d: config file error: %s", f, line, a) #define CONF2(a) if (strcasecmp(name, a) == 0) #define CONF(a) else CONF2(a) #define CONF3(a, b) else if (strcasecmp(name, a) == 0 \ || strcasecmp(name, b) == 0) #define CONF_CONTINUE 1 #define CONF_BREAK 2 #define CONF_BUFF_SIZE 512 static FILE *open_config_file(const char *f) { #ifdef CONFIG_OUTPUT if (!strcmp(f, "==builtin==")) { #ifdef HAVE_FOPENCOOKIE return fopencookie(NULL, "r", conf_cookie); #endif /* HAVE_FOPENCOOKIE */ } else #endif /* CONFIG_OUTPUT */ return fopen(f, "r"); } void remove_comments(char *string) { char *curplace; char *newend = NULL; char *tmpstring; //strcpy can't be used for overlapping strings for(curplace = string; *curplace != 0; curplace++) { if(*curplace == '\\' && *(curplace + 1) == '#') { tmpstring = strdup(curplace); strcpy(curplace, tmpstring + 1); free(tmpstring); } else if(*curplace == '#' && !newend) { newend = curplace; } else if(*curplace == '\n' && newend) { *newend = '\n'; newend++; } } if(newend) { *newend = 0; } } static int do_config_step(int *line, FILE *fp, char *buf, char **name, char **value) { char *p, *p2; (*line)++; if (fgets(buf, CONF_BUFF_SIZE, fp) == NULL) { return CONF_BREAK; } remove_comments(buf); p = buf; /* skip spaces */ while (*p && isspace((int) *p)) { p++; } if (*p == '\0') { return CONF_CONTINUE; /* empty line */ } *name = p; /* skip name */ p2 = p; while (*p2 && !isspace((int) *p2)) { p2++; } if (*p2 != '\0') { *p2 = '\0'; /* break at name's end */ p2++; } /* get value */ if (*p2) { p = p2; while (*p && isspace((int) *p)) { p++; } *value = p; p2 = *value + strlen(*value); while (isspace((int) *(p2 - 1))) { *--p2 = '\0'; } } else { *value = 0; } return 0; } static void load_config_file(const char *f) { int line = 0; FILE *fp; set_default_configurations(); fp = open_config_file(f); if (!fp) { return; } DBGP("reading contents from config file '%s'", f); while (!feof(fp)) { char buff[CONF_BUFF_SIZE], *name, *value; int ret = do_config_step(&line, fp, buff, &name, &value); if (ret == CONF_BREAK) { break; } else if (ret == CONF_CONTINUE) { continue; } #ifdef X11 CONF2("out_to_x") { /* don't listen if X is already initialised or * if we already know we don't want it */ if(x_initialised == NO) { if (string_to_bool(value)) { output_methods &= TO_X; } else { output_methods &= ~TO_X; x_initialised = NEVER; } } } CONF("display") { if (!value || x_initialised == YES) { CONF_ERR; } else { if (disp) free(disp); disp = strdup(value); } } CONF("alignment") { if (window.type == TYPE_DOCK) ; else if (value) { int a = string_to_alignment(value); if (a <= 0) { CONF_ERR; } else { text_alignment = a; } } else { CONF_ERR; } } CONF("background") { fork_to_background = string_to_bool(value); } #else CONF2("background") { fork_to_background = string_to_bool(value); } #endif /* X11 */ #ifdef X11 CONF("show_graph_scale") { show_graph_scale = string_to_bool(value); } CONF("show_graph_range") { show_graph_range = string_to_bool(value); } CONF("border_margin") { if (value) { border_margin = strtol(value, 0, 0); } else { CONF_ERR; } } CONF("border_width") { if (value) { border_width = strtol(value, 0, 0); } else { CONF_ERR; } } #define TEMPLATE_CONF(n) \ CONF("template"#n) { \ if (value) { \ free(template[n]); \ template[n] = strdup(value); \ } else { \ CONF_ERR; \ } \ } TEMPLATE_CONF(0) TEMPLATE_CONF(1) TEMPLATE_CONF(2) TEMPLATE_CONF(3) TEMPLATE_CONF(4) TEMPLATE_CONF(5) TEMPLATE_CONF(6) TEMPLATE_CONF(7) TEMPLATE_CONF(8) TEMPLATE_CONF(9) #endif /* X11 */ CONF("imap") { if (value) { info.mail = parse_mail_args(IMAP_TYPE, value); } else { CONF_ERR; } } CONF("pop3") { if (value) { info.mail = parse_mail_args(POP3_TYPE, value); } else { CONF_ERR; } } CONF("default_bar_size") { char err = 0; if (value) { if (sscanf(value, "%d %d", &default_bar_width, &default_bar_height) != 2) { err = 1; } } else { err = 1; } if (err) { CONF_ERR2("default_bar_size takes 2 integer arguments (ie. 'default_bar_size 0 6')") } } CONF("default_graph_size") { char err = 0; if (value) { if (sscanf(value, "%d %d", &default_graph_width, &default_graph_height) != 2) { err = 1; } } else { err = 1; } if (err) { CONF_ERR2("default_graph_size takes 2 integer arguments (ie. 'default_graph_size 0 6')") } } CONF("default_gauge_size") { char err = 0; if (value) { if (sscanf(value, "%d %d", &default_gauge_width, &default_gauge_height) != 2) { err = 1; } } else { err = 1; } if (err) { CONF_ERR2("default_gauge_size takes 2 integer arguments (ie. 'default_gauge_size 0 6')") } } #ifdef MPD CONF("mpd_host") { if (value) { mpd_set_host(value); } else { CONF_ERR; } } CONF("mpd_port") { if (value && mpd_set_port(value)) { CONF_ERR; } } CONF("mpd_password") { if (value) { mpd_set_password(value); } else { CONF_ERR; } } #endif CONF("music_player_interval") { if (value) { info.music_player_interval = strtod(value, 0); } else { CONF_ERR; } } #ifdef __OpenBSD__ CONF("sensor_device") { if (value) { sensor_device = strtol(value, 0, 0); } else { CONF_ERR; } } #endif CONF("cpu_avg_samples") { if (value) { cpu_avg_samples = strtol(value, 0, 0); if (cpu_avg_samples < 1 || cpu_avg_samples > 14) { CONF_ERR; } else { info.cpu_avg_samples = cpu_avg_samples; } } else { CONF_ERR; } } CONF("net_avg_samples") { if (value) { net_avg_samples = strtol(value, 0, 0); if (net_avg_samples < 1 || net_avg_samples > 14) { CONF_ERR; } else { info.net_avg_samples = net_avg_samples; } } else { CONF_ERR; } } CONF("diskio_avg_samples") { if (value) { diskio_avg_samples = strtol(value, 0, 0); if (diskio_avg_samples < 1 || diskio_avg_samples > 14) { CONF_ERR; } else { info.diskio_avg_samples = diskio_avg_samples; } } else { CONF_ERR; } } #ifdef HAVE_XDBE CONF("double_buffer") { use_xdbe = string_to_bool(value); } #endif #ifdef X11 CONF("override_utf8_locale") { utf8_mode = string_to_bool(value); } CONF("draw_borders") { draw_borders = string_to_bool(value); } CONF("draw_graph_borders") { draw_graph_borders = string_to_bool(value); } CONF("draw_shades") { draw_shades = string_to_bool(value); } CONF("draw_outline") { draw_outline = string_to_bool(value); } #endif /* X11 */ CONF("out_to_console") { if(string_to_bool(value)) output_methods |= TO_STDOUT; } CONF("out_to_stderr") { if(string_to_bool(value)) output_methods |= TO_STDERR; } CONF("overwrite_file") { if(overwrite_file) { free(overwrite_file); overwrite_file = 0; } if(overwrite_works(value)) { overwrite_file = strdup(value); output_methods |= OVERWRITE_FILE; } else ERR("overwrite_file won't be able to create/overwrite '%s'", value); } CONF("append_file") { if(append_file) { free(append_file); append_file = 0; } if(append_works(value)) { append_file = strdup(value); output_methods |= APPEND_FILE; } else ERR("append_file won't be able to create/append '%s'", value); } CONF("use_spacer") { if (value) { if (strcasecmp(value, "left") == EQUAL) { use_spacer = LEFT_SPACER; } else if (strcasecmp(value, "right") == EQUAL) { use_spacer = RIGHT_SPACER; } else if (strcasecmp(value, "none") == EQUAL) { use_spacer = NO_SPACER; } else { use_spacer = string_to_bool(value); ERR("use_spacer should have an argument of left, right, or" " none. '%s' seems to be some form of '%s', so" " defaulting to %s.", value, use_spacer ? "true" : "false", use_spacer ? "right" : "none"); if (use_spacer) { use_spacer = RIGHT_SPACER; } else { use_spacer = NO_SPACER; } } } else { ERR("use_spacer should have an argument. Defaulting to right."); use_spacer = RIGHT_SPACER; } } #ifdef X11 #ifdef XFT CONF("use_xft") { use_xft = string_to_bool(value); } CONF("font") { if (value) { set_first_font(value); } } CONF("xftalpha") { if (value && font_count >= 0) { fonts[0].font_alpha = atof(value) * 65535.0; } } CONF("xftfont") { if (use_xft) { #else CONF("use_xft") { if (string_to_bool(value)) { ERR("Xft not enabled"); } } CONF("xftfont") { /* xftfont silently ignored when no Xft */ } CONF("xftalpha") { /* xftalpha is silently ignored when no Xft */ } CONF("font") { #endif if (value) { set_first_font(value); } #ifdef XFT } #endif } CONF("gap_x") { if (value) { gap_x = atoi(value); } else { CONF_ERR; } } CONF("gap_y") { if (value) { gap_y = atoi(value); } else { CONF_ERR; } } #endif /* X11 */ CONF("mail_spool") { if (value) { char buffer[256]; variable_substitute(value, buffer, 256); if (buffer[0] != '\0') { if (current_mail_spool) { free(current_mail_spool); } current_mail_spool = strndup(buffer, text_buffer_size); } } else { CONF_ERR; } } #ifdef X11 CONF("minimum_size") { if (value) { if (sscanf(value, "%d %d", &minimum_width, &minimum_height) != 2) { if (sscanf(value, "%d", &minimum_width) != 1) { CONF_ERR; } } } else { CONF_ERR; } } CONF("maximum_width") { if (value) { if (sscanf(value, "%d", &maximum_width) != 1) { CONF_ERR; } } else { CONF_ERR; } } #endif /* X11 */ CONF("no_buffers") { no_buffers = string_to_bool(value); } CONF("top_name_width") { if (value) { if (sscanf(value, "%u", &top_name_width) != 1) { CONF_ERR; } } else { CONF_ERR; } if (top_name_width >= max_user_text) { top_name_width = max_user_text - 1; } } CONF("top_cpu_separate") { cpu_separate = string_to_bool(value); } CONF("short_units") { short_units = string_to_bool(value); } CONF("pad_percents") { pad_percents = atoi(value); } #ifdef X11 #ifdef OWN_WINDOW CONF("own_window") { if (value) { own_window = string_to_bool(value); } } CONF("own_window_class") { if (value) { memset(window.class_name, 0, sizeof(window.class_name)); strncpy(window.class_name, value, sizeof(window.class_name) - 1); } } CONF("own_window_title") { if (value) { memset(window.title, 0, sizeof(window.title)); strncpy(window.title, value, sizeof(window.title) - 1); } } CONF("own_window_transparent") { if (value) { set_transparent = string_to_bool(value); } } CONF("own_window_hints") { if (value) { char *p_hint, *p_save; char delim[] = ", "; /* tokenize the value into individual hints */ if ((p_hint = strtok_r(value, delim, &p_save)) != NULL) { do { /* fprintf(stderr, "hint [%s] parsed\n", p_hint); */ if (strncmp(p_hint, "undecorate", 10) == EQUAL) { SET_HINT(window.hints, HINT_UNDECORATED); } else if (strncmp(p_hint, "below", 5) == EQUAL) { SET_HINT(window.hints, HINT_BELOW); } else if (strncmp(p_hint, "above", 5) == EQUAL) { SET_HINT(window.hints, HINT_ABOVE); } else if (strncmp(p_hint, "sticky", 6) == EQUAL) { SET_HINT(window.hints, HINT_STICKY); } else if (strncmp(p_hint, "skip_taskbar", 12) == EQUAL) { SET_HINT(window.hints, HINT_SKIP_TASKBAR); } else if (strncmp(p_hint, "skip_pager", 10) == EQUAL) { SET_HINT(window.hints, HINT_SKIP_PAGER); } else { CONF_ERR; } p_hint = strtok_r(NULL, delim, &p_save); } while (p_hint != NULL); } } else { CONF_ERR; } } CONF("own_window_type") { if (value) { if (strncmp(value, "normal", 6) == EQUAL) { window.type = TYPE_NORMAL; } else if (strncmp(value, "desktop", 7) == EQUAL) { window.type = TYPE_DESKTOP; } else if (strncmp(value, "dock", 7) == EQUAL) { window.type = TYPE_DOCK; text_alignment = TOP_LEFT; } else if (strncmp(value, "override", 8) == EQUAL) { window.type = TYPE_OVERRIDE; } else { CONF_ERR; } } else { CONF_ERR; } } #endif CONF("stippled_borders") { if (value) { stippled_borders = strtol(value, 0, 0); } else { stippled_borders = 4; } } #endif /* X11 */ CONF("update_interval") { if (value) { update_interval = strtod(value, 0); } else { CONF_ERR; } if (info.music_player_interval == 0) { // default to update_interval info.music_player_interval = update_interval; } } CONF("total_run_times") { if (value) { total_run_times = strtod(value, 0); } else { CONF_ERR; } } CONF("uppercase") { stuff_in_upper_case = string_to_bool(value); } CONF("max_specials") { if (value) { max_specials = atoi(value); } else { CONF_ERR; } } CONF("max_user_text") { if (value) { max_user_text = atoi(value); } else { CONF_ERR; } } CONF("text_buffer_size") { if (value) { text_buffer_size = atoi(value); if (text_buffer_size < DEFAULT_TEXT_BUFFER_SIZE) { ERR("text_buffer_size must be >=%i bytes", DEFAULT_TEXT_BUFFER_SIZE); text_buffer_size = DEFAULT_TEXT_BUFFER_SIZE; } } else { CONF_ERR; } } CONF("text") { if (global_text) { free(global_text); global_text = 0; } global_text = (char *) malloc(1); global_text[0] = '\0'; while (!feof(fp)) { unsigned int l = strlen(global_text); unsigned int bl; char buf[CONF_BUFF_SIZE]; if (fgets(buf, CONF_BUFF_SIZE, fp) == NULL) { break; } remove_comments(buf); /* Remove \\-\n. */ bl = strlen(buf); if (bl >= 2 && buf[bl-2] == '\\' && buf[bl-1] == '\n') { buf[bl-2] = '\0'; bl -= 2; if (bl == 0) { continue; } } /* Check for continuation of \\-\n. */ if (l > 0 && buf[0] == '\n' && global_text[l-1] == '\\') { global_text[l-1] = '\0'; continue; } global_text = (char *) realloc(global_text, l + bl + 1); strcat(global_text, buf); if (strlen(global_text) > max_user_text) { break; } } fclose(fp); if (strlen(global_text) < 1) { CRIT_ERR("no text supplied in configuration; exiting"); } global_text_lines = line + 1; return; } #ifdef TCP_PORT_MONITOR CONF("max_port_monitor_connections") { int max; if (!value || (sscanf(value, "%d", &max) != 1)) { /* an error. use default, warn and continue. */ tcp_portmon_set_max_connections(0); CONF_ERR; } else if (tcp_portmon_set_max_connections(max)) { /* max is < 0, default has been set*/ CONF_ERR; } } #endif CONF("if_up_strictness") { if (!value) { ERR("incorrect if_up_strictness value, defaulting to 'up'"); ifup_strictness = IFUP_UP; } else if (strcasecmp(value, "up") == EQUAL) { ifup_strictness = IFUP_UP; } else if (strcasecmp(value, "link") == EQUAL) { ifup_strictness = IFUP_LINK; } else if (strcasecmp(value, "address") == EQUAL) { ifup_strictness = IFUP_ADDR; } else { ERR("incorrect if_up_strictness value, defaulting to 'up'"); ifup_strictness = IFUP_UP; } } CONF("temperature_unit") { if (!value) { ERR("config option 'temperature_unit' needs an argument, either 'celsius' or 'fahrenheit'"); } else if (set_temp_output_unit(value)) { ERR("temperature_unit: incorrect argument"); } } CONF("alias") { if (value) { size_t maxlength = strlen(value); //+1 for terminating 0 not needed, 'cause of the space in the middle of value char *skey = malloc(maxlength); char *svalue = malloc(maxlength); char *oldvalue; if (sscanf(value, "%[0-9a-zA-Z_] %[^\n]", skey, svalue) == 2) { oldvalue = getenv(skey); if (oldvalue == NULL) { setenv(skey, svalue, 0); } //PS: Don't free oldvalue, it's the real envvar, not a copy } else { CONF_ERR; } free(skey); free(svalue); } else { CONF_ERR; } } CONF("color0"){} CONF("color1"){} CONF("color2"){} CONF("color3"){} CONF("color4"){} CONF("color5"){} CONF("color6"){} CONF("color7"){} CONF("color8"){} CONF("color9"){} CONF("default_color"){} CONF3("default_shade_color", "default_shadecolor"){} CONF3("default_outline_color", "default_outlinecolor") {} CONF("own_window_colour") {} else { ERR("%s: %d: no such configuration: '%s'", f, line, name); } } fclose(fp); if (info.music_player_interval == 0) { // default to update_interval info.music_player_interval = update_interval; } if (!global_text) { // didn't supply any text CRIT_ERR("missing text block in configuration; exiting"); } } static void load_config_file_x11(const char *f) { int line = 0; FILE *fp; fp = open_config_file(f); if (!fp) { return; } DBGP("reading contents from config file '%s'", f); while (!feof(fp)) { char buff[CONF_BUFF_SIZE], *name, *value; int ret = do_config_step(&line, fp, buff, &name, &value); if (ret == CONF_BREAK) { break; } else if (ret == CONF_CONTINUE) { continue; } #ifdef X11 CONF2("color0") { X11_initialisation(); if (x_initialised == YES) { if (value) { color0 = get_x11_color(value); } else { CONF_ERR; } } } CONF("color1") { X11_initialisation(); if (x_initialised == YES) { if (value) { color1 = get_x11_color(value); } else { CONF_ERR; } } } CONF("color2") { X11_initialisation(); if (x_initialised == YES) { if (value) { color2 = get_x11_color(value); } else { CONF_ERR; } } } CONF("color3") { X11_initialisation(); if (x_initialised == YES) { if (value) { color3 = get_x11_color(value); } else { CONF_ERR; } } } CONF("color4") { X11_initialisation(); if (x_initialised == YES) { if (value) { color4 = get_x11_color(value); } else { CONF_ERR; } } } CONF("color5") { X11_initialisation(); if (x_initialised == YES) { if (value) { color5 = get_x11_color(value); } else { CONF_ERR; } } } CONF("color6") { X11_initialisation(); if (x_initialised == YES) { if (value) { color6 = get_x11_color(value); } else { CONF_ERR; } } } CONF("color7") { X11_initialisation(); if (x_initialised == YES) { if (value) { color7 = get_x11_color(value); } else { CONF_ERR; } } } CONF("color8") { X11_initialisation(); if (x_initialised == YES) { if (value) { color8 = get_x11_color(value); } else { CONF_ERR; } } } CONF("color9") { X11_initialisation(); if (x_initialised == YES) { if (value) { color9 = get_x11_color(value); } else { CONF_ERR; } } } CONF("default_color") { X11_initialisation(); if (x_initialised == YES) { if (value) { default_fg_color = get_x11_color(value); } else { CONF_ERR; } } } CONF3("default_shade_color", "default_shadecolor") { X11_initialisation(); if (x_initialised == YES) { if (value) { default_bg_color = get_x11_color(value); } else { CONF_ERR; } } } CONF3("default_outline_color", "default_outlinecolor") { X11_initialisation(); if (x_initialised == YES) { if (value) { default_out_color = get_x11_color(value); } else { CONF_ERR; } } } #ifdef OWN_WINDOW CONF("own_window_colour") { X11_initialisation(); if (x_initialised == YES) { if (value) { background_colour = get_x11_color(value); } else { ERR("Invalid colour for own_window_colour (try omitting the " "'#' for hex colours"); } } } #endif CONF("text") { //initialize X11 if nothing X11-related is mentioned before TEXT (and if X11 is the default outputmethod) if(output_methods & TO_X) { X11_initialisation(); } } #endif /* X11 */ #undef CONF #undef CONF2 #undef CONF3 #undef CONF_ERR #undef CONF_ERR2 #undef CONF_BREAK #undef CONF_CONTINUE #undef CONF_BUFF_SIZE } fclose(fp); } static void print_help(const char *prog_name) { printf("Usage: %s [OPTION]...\n" PACKAGE_NAME" is a system monitor that renders text on desktop or to own transparent\n" "window. Command line options will override configurations defined in config\n" "file.\n" " -v, --version version\n" " -q, --quiet quiet mode\n" " -D, --debug increase debugging output\n" " -c, --config=FILE config file to load\n" #ifdef CONFIG_OUTPUT " -C, --print-config print the builtin default config to stdout\n" " e.g. 'conky -C > ~/.conkyrc' will create a new default config\n" #endif " -d, --daemonize daemonize, fork to background\n" " -h, --help help\n" #ifdef X11 " -a, --alignment=ALIGNMENT text alignment on screen, {top,bottom,middle}_{left,right,middle}\n" " -f, --font=FONT font to use\n" " -X, --display=DISPLAY X11 display to use\n" #ifdef OWN_WINDOW " -o, --own-window create own window to draw\n" #endif #ifdef HAVE_XDBE " -b, --double-buffer double buffer (prevents flickering)\n" #endif " -w, --window-id=WIN_ID window id to draw\n" " -x X x position\n" " -y Y y position\n" #endif /* X11 */ " -t, --text=TEXT text to render, remember single quotes, like -t '$uptime'\n" " -u, --interval=SECS update interval\n" " -i COUNT number of times to update "PACKAGE_NAME" (and quit)\n", prog_name ); } /* : means that character before that takes an argument */ static const char *getopt_string = "vVqdDt:u:i:hc:" #ifdef X11 "x:y:w:a:f:X:" #ifdef OWN_WINDOW "o" #endif #ifdef HAVE_XDBE "b" #endif #endif /* X11 */ #ifdef CONFIG_OUTPUT "C" #endif ; static const struct option longopts[] = { { "help", 0, NULL, 'h' }, { "version", 0, NULL, 'V' }, { "debug", 0, NULL, 'D' }, { "config", 1, NULL, 'c' }, #ifdef CONFIG_OUTPUT { "print-config", 0, NULL, 'C' }, #endif { "daemonize", 0, NULL, 'd' }, #ifdef X11 { "alignment", 1, NULL, 'a' }, { "font", 1, NULL, 'f' }, { "display", 1, NULL, 'X' }, #ifdef OWN_WINDOW { "own-window", 0, NULL, 'o' }, #endif #ifdef HAVE_XDBE { "double-buffer", 0, NULL, 'b' }, #endif { "window-id", 1, NULL, 'w' }, #endif /* X11 */ { "text", 1, NULL, 't' }, { "interval", 0, NULL, 'u' }, { 0, 0, 0, 0 } }; int main(int argc, char **argv) { #ifdef X11 char *s, *temp; unsigned int x; #endif struct sigaction act, oact; g_signal_pending = 0; memset(&info, 0, sizeof(info)); clear_net_stats(); #ifdef TCP_PORT_MONITOR /* set default connection limit */ tcp_portmon_set_max_connections(0); #endif /* handle command line parameters that don't change configs */ #ifdef X11 if (((s = getenv("LC_ALL")) && *s) || ((s = getenv("LC_CTYPE")) && *s) || ((s = getenv("LANG")) && *s)) { temp = (char *) malloc((strlen(s) + 1) * sizeof(char)); if (temp == NULL) { ERR("malloc failed"); } for (x = 0; x < strlen(s); x++) { temp[x] = tolower(s[x]); } temp[x] = 0; if (strstr(temp, "utf-8") || strstr(temp, "utf8")) { utf8_mode = 1; } free(temp); } if (!setlocale(LC_CTYPE, "")) { ERR("Can't set the specified locale!\nCheck LANG, LC_CTYPE, LC_ALL."); } #endif /* X11 */ while (1) { int c = getopt_long(argc, argv, getopt_string, longopts, NULL); if (c == -1) { break; } switch (c) { case 'v': case 'V': print_version(); case 'c': if (current_config) { free(current_config); } current_config = strndup(optarg, max_user_text); break; case 'q': freopen("/dev/null", "w", stderr); break; case 'h': print_help(argv[0]); return 0; #ifdef CONFIG_OUTPUT case 'C': print_defconfig(); return 0; #endif #ifdef X11 case 'w': window.window = strtol(optarg, 0, 0); break; #endif /* X11 */ case '?': exit(EXIT_FAILURE); } } /* check if specified config file is valid */ if (current_config) { struct stat sb; if (stat(current_config, &sb) || (!S_ISREG(sb.st_mode) && !S_ISLNK(sb.st_mode))) { ERR("invalid configuration file '%s'\n", current_config); free(current_config); current_config = 0; } } /* load current_config, CONFIG_FILE or SYSTEM_CONFIG_FILE */ if (!current_config) { /* load default config file */ char buf[256]; FILE *fp; /* Try to use personal config file first */ variable_substitute(CONFIG_FILE, buf, sizeof(buf)); if (buf[0] && (fp = fopen(buf, "r"))) { current_config = strndup(buf, max_user_text); fclose(fp); } /* Try to use system config file if personal config not readable */ if (!current_config && (fp = fopen(SYSTEM_CONFIG_FILE, "r"))) { current_config = strndup(SYSTEM_CONFIG_FILE, max_user_text); fclose(fp); } /* No readable config found */ if (!current_config) { #ifdef CONFIG_OUTPUT current_config = strdup("==builtin=="); ERR("no readable personal or system-wide config file found," " using builtin default"); #else CRIT_ERR("no readable personal or system-wide config file found"); #endif /* ! CONF_OUTPUT */ } } load_config_file(current_config); /* init specials array */ if ((specials = calloc(sizeof(struct special_t), max_specials)) == 0) { ERR("failed to create specials array"); } #ifdef MAIL_FILE if (current_mail_spool == NULL) { char buf[256]; variable_substitute(MAIL_FILE, buf, 256); if (buf[0] != '\0') { current_mail_spool = strndup(buf, text_buffer_size); } } #endif /* handle other command line arguments */ #if defined(__FreeBSD__) || defined(__FreeBSD_kernel__) || defined(__OpenBSD__) \ || defined(__NetBSD__) optind = optreset = 1; #else optind = 0; #endif #if defined(__FreeBSD__) || defined(__FreeBSD_kernel__) if ((kd = kvm_open("/dev/null", "/dev/null", "/dev/null", O_RDONLY, "kvm_open")) == NULL) { CRIT_ERR("cannot read kvm"); } #endif while (1) { int c = getopt_long(argc, argv, getopt_string, longopts, NULL); if (c == -1) { break; } switch (c) { case 'd': fork_to_background = 1; break; case 'D': global_debug_level++; break; #ifdef X11 case 'f': set_first_font(optarg); break; case 'a': text_alignment = string_to_alignment(optarg); break; case 'X': if (disp) free(disp); disp = strdup(optarg); break; #ifdef OWN_WINDOW case 'o': own_window = 1; break; #endif #ifdef HAVE_XDBE case 'b': use_xdbe = 1; break; #endif #endif /* X11 */ case 't': if (global_text) { free(global_text); global_text = 0; } global_text = strndup(optarg, max_user_text); convert_escapes(global_text); break; case 'u': update_interval = strtod(optarg, 0); if (info.music_player_interval == 0) { // default to update_interval info.music_player_interval = update_interval; } break; case 'i': total_run_times = strtod(optarg, 0); break; #ifdef X11 case 'x': gap_x = atoi(optarg); break; case 'y': gap_y = atoi(optarg); break; #endif /* X11 */ case '?': exit(EXIT_FAILURE); } } #ifdef X11 /* load font */ if (output_methods & TO_X) { load_config_file_x11(current_config); load_fonts(); } #endif /* X11 */ /* generate text and get initial size */ extract_variable_text(global_text); if (global_text) { free(global_text); global_text = 0; } global_text = NULL; /* fork */ if (fork_to_background) { int pid = fork(); switch (pid) { case -1: ERR(PACKAGE_NAME": couldn't fork() to background: %s", strerror(errno)); break; case 0: /* child process */ usleep(25000); fprintf(stderr, "\n"); fflush(stderr); break; default: /* parent process */ fprintf(stderr, PACKAGE_NAME": forked to background, pid is %d\n", pid); fflush(stderr); return 0; } } text_buffer = malloc(max_user_text); memset(text_buffer, 0, max_user_text); tmpstring1 = malloc(text_buffer_size); memset(tmpstring1, 0, text_buffer_size); tmpstring2 = malloc(text_buffer_size); memset(tmpstring2, 0, text_buffer_size); #ifdef X11 if (output_methods & TO_X) { selected_font = 0; update_text_area(); /* to get initial size of the window */ #ifdef OWN_WINDOW init_window(own_window, text_width + border_margin * 2 + 1, text_height + border_margin * 2 + 1, set_transparent, background_colour, argv, argc); #else /* OWN_WINDOW */ init_window(0, text_width + border_margin * 2 + 1, text_height + border_margin * 2 + 1, set_transparent, 0, argv, argc); #endif /* OWN_WINDOW */ selected_font = 0; update_text_area(); /* to position text/window on screen */ #ifdef OWN_WINDOW if (own_window && !fixed_pos) { XMoveWindow(display, window.window, window.x, window.y); } if (own_window) { set_transparent_background(window.window); } #endif create_gc(); set_font(); draw_stuff(); } #endif /* X11 */ /* Set signal handlers */ act.sa_handler = signal_handler; sigemptyset(&act.sa_mask); act.sa_flags = 0; #ifdef SA_RESTART act.sa_flags |= SA_RESTART; #endif if ( sigaction(SIGINT, &act, &oact) < 0 || sigaction(SIGUSR1, &act, &oact) < 0 || sigaction(SIGHUP, &act, &oact) < 0 || sigaction(SIGTERM, &act, &oact) < 0) { ERR("error setting signal handler: %s", strerror(errno)); } main_loop(); #if defined(__FreeBSD__) || defined(__FreeBSD_kernel__) kvm_close(kd); #endif return 0; } static void signal_handler(int sig) { /* signal handler is light as a feather, as it should be. * we will poll g_signal_pending with each loop of conky * and do any signal processing there, NOT here. */ g_signal_pending = sig; }