/* * Conky, a system monitor, based on torsmo * * This program is licensed under BSD license, read COPYING * * $Id$ */ #include "conky.h" #include #include #include #include #include #include #include #include #include #include #include #include #if HAVE_DIRENT_H #include #endif #include #ifdef X11 #include #endif /* X11 */ #include #include #define CONFIG_FILE "$HOME/.conkyrc" #define MAIL_FILE "$MAIL" #define MAX_IF_BLOCK_DEPTH 5 /* #define SIGNAL_BLOCKING */ #undef SIGNAL_BLOCKING #ifdef X11 /* alignments */ enum alignment { TOP_LEFT = 1, TOP_RIGHT, BOTTOM_LEFT, BOTTOM_RIGHT, NONE }; /* for fonts */ struct font_list { char name[TEXT_BUFFER_SIZE]; int num; XFontStruct *font; #ifdef XFT XftFont *xftfont; int font_alpha; #endif }; static int selected_font = 0; static int font_count = -1; struct font_list *fonts = NULL; #ifdef XFT #define font_height() use_xft ? (fonts[selected_font].xftfont->ascent + fonts[selected_font].xftfont->descent) : \ (fonts[selected_font].font->max_bounds.ascent + fonts[selected_font].font->max_bounds.descent) #define font_ascent() use_xft ? fonts[selected_font].xftfont->ascent : fonts[selected_font].font->max_bounds.ascent #define font_descent() use_xft ? fonts[selected_font].xftfont->descent : fonts[selected_font].font->max_bounds.descent #else #define font_height() (fonts[selected_font].font->max_bounds.ascent + fonts[selected_font].font->max_bounds.descent) #define font_ascent() fonts[selected_font].font->max_bounds.ascent #define font_descent() fonts[selected_font].font->max_bounds.descent #endif #define MAX_FONTS 64 // hmm, no particular reason, just makes sense. static void set_font(); int addfont(const char *data_in) { if (font_count > MAX_FONTS) { CRIT_ERR("you don't need that many fonts, sorry."); } font_count++; if (font_count == 0) { if (fonts != NULL) { free(fonts); } if ((fonts = (struct font_list*)malloc(sizeof(struct font_list))) == NULL) { CRIT_ERR("malloc"); } } fonts = realloc(fonts, (sizeof(struct font_list) * (font_count+1))); if (fonts == NULL) { CRIT_ERR("realloc in addfont"); } if (strlen(data_in) < TEXT_BUFFER_SIZE) { // must account for null terminator strncpy(fonts[font_count].name, data_in, TEXT_BUFFER_SIZE); #ifdef XFT fonts[font_count].font_alpha = 0xffff; #endif } else { CRIT_ERR("Oops...looks like something overflowed in addfont()."); } return font_count; } void set_first_font(const char *data_in) { if (font_count < 0) { if ((fonts = (struct font_list*)malloc(sizeof(struct font_list))) == NULL) { CRIT_ERR("malloc"); } font_count++; } if (strlen(data_in) > 1) { strncpy(fonts[0].name, data_in, TEXT_BUFFER_SIZE-1); #ifdef XFT fonts[0].font_alpha = 0xffff; #endif } } void free_fonts() { int i; for (i=0;i<=font_count;i++) { #ifdef XFT if (use_xft) { XftFontClose(display, fonts[i].xftfont); } else #endif { XFreeFont(display, fonts[i].font); } } free(fonts); fonts = NULL; font_count = -1; selected_font = 0; set_first_font("6x10"); } static void load_fonts() { int i; for (i=0;i<=font_count;i++) { #ifdef XFT /* load Xft font */ if (use_xft) { /*if (fonts[i].xftfont != NULL && selected_font == 0) { XftFontClose(display, fonts[i].xftfont); }*/ if ((fonts[i].xftfont = XftFontOpenName(display, screen, fonts[i].name)) != NULL) continue; ERR("can't load Xft font '%s'", fonts[i].name); if ((fonts[i].xftfont = XftFontOpenName(display, screen, "courier-12")) != NULL) continue; ERR("can't load Xft font '%s'", "courier-12"); if ((fonts[i].font = XLoadQueryFont(display, "fixed")) == NULL) { CRIT_ERR("can't load font '%s'", "fixed"); } use_xft = 0; continue; } #endif /* load normal font */ /* if (fonts[i].font != NULL) XFreeFont(display, fonts[i].font);*/ if ((fonts[i].font = XLoadQueryFont(display, fonts[i].name)) == NULL) { ERR("can't load font '%s'", fonts[i].name); if ((fonts[i].font = XLoadQueryFont(display, "fixed")) == NULL) { CRIT_ERR("can't load font '%s'", "fixed"); printf("loaded fixed?\n"); } } } } #endif /* X11 */ /* 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; /* Update interval */ static double update_interval; /* Run how many times? */ static unsigned long total_run_times; /* fork? */ static int fork_to_background; static int cpu_avg_samples, net_avg_samples; #ifdef X11 /* Always on bottom */ static int on_bottom; /* 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; static char wm_class_name[256]; /* 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; /* UTF-8 */ int utf8_mode = 0; #endif /* X11 */ /* no buffers in used memory? */ int no_buffers; /* pad percentages to decimals? */ static int pad_percents = 0; #ifdef TCP_PORT_MONITOR tcp_port_monitor_collection_args_t tcp_port_monitor_collection_args; tcp_port_monitor_args_t tcp_port_monitor_args; #endif /* Text that is shown */ static char original_text[] = "$nodename - $sysname $kernel on $machine\n" "$hr\n" "${color grey}Uptime:$color $uptime\n" "${color grey}Frequency (in MHz):$color $freq\n" "${color grey}Frequency (in GHz):$color $freq_g\n" "${color grey}RAM Usage:$color $mem/$memmax - $memperc% ${membar 4}\n" "${color grey}Swap Usage:$color $swap/$swapmax - $swapperc% ${swapbar 4}\n" "${color grey}CPU Usage:$color $cpu% ${cpubar 4}\n" "${color grey}Processes:$color $processes ${color grey}Running:$color $running_processes\n" "$hr\n" "${color grey}File systems:\n" " / $color${fs_free /}/${fs_size /} ${fs_bar 6 /}\n" "${color grey}Networking:\n" " Up:$color ${upspeed eth0} k/s${color grey} - Down:$color ${downspeed eth0} k/s\n" "$hr\n" #ifdef SETI "${color grey}SETI@Home Statistics:\n" "${color grey}Seti Unit Number:$color $seti_credit\n" "${color grey}Seti Progress:$color $seti_prog% $seti_progbar\n" #endif #ifdef MPD "${color grey}MPD: $mpd_status $mpd_artist - $mpd_title from $mpd_album at $mpd_vol\n" "Bitrate: $mpd_bitrate\n" "Progress: $mpd_bar\n" #endif "${color grey}Name PID CPU% MEM%\n" " ${color lightgrey} ${top name 1} ${top pid 1} ${top cpu 1} ${top mem 1}\n" " ${color lightgrey} ${top name 2} ${top pid 2} ${top cpu 2} ${top mem 2}\n" " ${color lightgrey} ${top name 3} ${top pid 3} ${top cpu 3} ${top mem 3}\n" " ${color lightgrey} ${top name 4} ${top pid 4} ${top cpu 4} ${top mem 4}\n" "${tail /var/log/Xorg.0.log 3}"; static char *text = original_text; static int total_updates; /* if-blocks */ static int blockdepth = 0; static int if_jumped = 0; static int blockstart[MAX_IF_BLOCK_DEPTH]; int check_mount(char *s) { #if defined(__linux__) int ret = 0; FILE *mtab = fopen("/etc/mtab", "r"); if (mtab) { char buf1[256], buf2[128]; while (fgets(buf1, 256, mtab)) { sscanf(buf1, "%*s %128s", buf2); if (!strcmp(s, buf2)) { ret = 1; break; } } fclose(mtab); } else { ERR("Could not open mtab"); } return ret; #elif defined(__FreeBSD__) struct statfs *mntbuf; int i, mntsize; mntsize = getmntinfo(&mntbuf, MNT_NOWAIT); for (i = mntsize - 1; i >= 0; i--) if (strcmp(mntbuf[i].f_mntonname, s) == 0) return 1; return 0; #endif } #ifdef X11 static inline int calc_text_width(const char *s, int l) { #ifdef XFT if (use_xft) { XGlyphInfo gi; if (utf8_mode) { XftTextExtentsUtf8(display, fonts[selected_font].xftfont, s, l, &gi); } else { XftTextExtents8(display, fonts[selected_font].xftfont, 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[TEXT_BUFFER_SIZE * 4]; /* special stuff in text_buffer */ #define SPECIAL_CHAR '\x01' enum { HORIZONTAL_LINE, STIPPLED_HR, BAR, FG, BG, OUTLINE, ALIGNR, ALIGNC, GRAPH, OFFSET, VOFFSET, FONT, }; static struct special_t { int type; short height; short width; long arg; double *graph; double graph_scale; int graph_width; int scaled; short font_added; unsigned long first_colour; // for graph gradient unsigned long last_colour; } specials[128]; static int special_count; #ifdef X11 static int special_index; /* used when drawing */ #endif /* X11 */ #define MAX_GRAPH_DEPTH 256 /* why 256? cause an array of more then 256 doubles seems excessive, and who needs that kind of precision anyway? */ static struct special_t *new_special(char *buf, int t) { if (special_count >= 256) CRIT_ERR("too many special things in text"); buf[0] = SPECIAL_CHAR; buf[1] = '\0'; specials[special_count].type = t; return &specials[special_count++]; } typedef struct tailstring_list { char data[TEXT_BUFFER_SIZE]; struct tailstring_list *next; struct tailstring_list *first; } tailstring; void addtail(tailstring ** head, char *data_in) { tailstring *tmp; if ((tmp = malloc(sizeof(*tmp))) == NULL) { CRIT_ERR("malloc"); } if (*head == NULL) { tmp->first = tmp; } else { tmp->first = (*head)->first; } strncpy(tmp->data, data_in, TEXT_BUFFER_SIZE); tmp->next = *head; *head = tmp; } void freetail(tailstring * head) { tailstring *tmp; while (head != NULL) { tmp = head->next; free(head); head = tmp; } } void freelasttail(tailstring * head) { tailstring * tmp = head; while(tmp != NULL) { if (tmp->next == head->first) { tmp->next = NULL; break; } tmp = tmp->next; } free(head->first); while(head != NULL && tmp != NULL) { head->first = tmp; head = head->next; } } static void new_bar(char *buf, int w, int h, int usage) { struct special_t *s = new_special(buf, BAR); s->arg = (usage > 255) ? 255 : ((usage < 0) ? 0 : usage); s->width = w; s->height = h; } static const char *scan_bar(const char *args, int *w, int *h) { *w = 0; /* zero width means all space that is available */ *h = 6; /* bar's argument is either height or height,width */ if (args) { int n = 0; if (sscanf(args, "%d,%d %n", h, w, &n) <= 1) sscanf(args, "%d %n", h, &n); args += n; } return args; } static char *scan_font(const char *args) { if (args && sizeof(args) < 127) { return strdup(args); } else { ERR("font scan failed, lets hope it doesn't mess stuff up"); } return NULL; } #ifdef X11 static void new_font(char *buf, char * args) { struct special_t *s = new_special(buf, FONT); if (!s->font_added || strcmp(args, fonts[s->font_added].name)) { int tmp = selected_font; selected_font = s->font_added = addfont(args); load_fonts(); // set_font(); selected_font = tmp; } } #endif inline void graph_append(struct special_t *graph, double f) { if (!graph->scaled && f > graph->graph_scale) { f = graph->graph_scale; } int i; if (graph->scaled) { graph->graph_scale = 1; } graph->graph[0] = f; /* add new data */ for (i = graph->graph_width - 1; i > 0; i--) { /* shift all the data by 1 */ graph->graph[i] = graph->graph[i - 1]; if (graph->scaled && graph->graph[i] > graph->graph_scale) { graph->graph_scale = graph->graph[i]; /* check if we need to update the scale */ } } } short colour_depth = 0; void set_up_gradient(); /* precalculated: 31/255, and 63/255 */ #define CONST_8_TO_5_BITS 0.12156862745098 #define CONST_8_TO_6_BITS 0.247058823529412 /* adjust color values depending on color depth*/ static unsigned int adjust_colors(unsigned int color) { double r, g, b; if (colour_depth == 0) { set_up_gradient(); } if (colour_depth == 16) { r = (color & 0xff0000) >> 16; g = (color & 0xff00) >> 8; b = color & 0xff; color = (int)(r * CONST_8_TO_5_BITS) << 11; color |= (int)(g * CONST_8_TO_6_BITS) << 5; color |= (int)(b * CONST_8_TO_5_BITS); } return color; } static void new_graph(char *buf, int w, int h, unsigned int first_colour, unsigned int second_colour, double i, int scale, int append) { struct special_t *s = new_special(buf, GRAPH); s->width = w; if (s->graph == NULL) { if (s->width > 0 && s->width < MAX_GRAPH_DEPTH) { s->graph_width = s->width - 3; // subtract 3 for the box } else { s->graph_width = MAX_GRAPH_DEPTH - 3; } s->graph = malloc(s->graph_width * sizeof(double)); memset(s->graph, 0, s->graph_width * sizeof(double)); s->graph_scale = 100; } s->height = h; s->first_colour = adjust_colors(first_colour); s->last_colour = adjust_colors(second_colour); if (scale != 0) { s->scaled = 0; } else { s->scaled = 1; } /*if (s->width) { s->graph_width = s->width - 3; // subtract 3 for rectangle around }*/ if (s->scaled) { s->graph_scale = 1; } else { s->graph_scale = scale; } if (append) { graph_append(s, i); } } static const char *scan_graph(const char *args, int *w, int *h, unsigned int *first_colour, unsigned int *last_colour, unsigned int *scale) { *w = 0; /* zero width means all space that is available */ *h = 25; *first_colour = 0; *last_colour = 0; /* graph's argument is either height or height,width */ if (args) { if (sscanf(args, "%*s %d,%d %x %x %i", h, w, first_colour, last_colour, scale) < 5) { if (sscanf(args, "%*s %d,%d %x %x", h, w, first_colour, last_colour) < 4) { *scale = 0; if (sscanf(args, "%d,%d %x %x %i", h, w, first_colour, last_colour, scale) < 5) { *scale = 0; if (sscanf(args, "%d,%d %x %x", h, w, first_colour, last_colour) < 4) { *w = 0; *h = 25; if (sscanf(args, "%*s %x %x %i", first_colour, last_colour, scale) < 3) { *w = 0; *h = 25; *scale = 0; if (sscanf(args, "%*s %x %x", first_colour, last_colour) < 2) { *w = 0; *h = 25; if (sscanf(args, "%x %x %i", first_colour, last_colour, scale) < 3) { *first_colour = 0; *last_colour = 0; *scale = 0; if (sscanf(args, "%x %x", first_colour, last_colour) < 2) { *first_colour = 0; *last_colour = 0; if (sscanf(args, "%d,%d %i", h, w, scale) < 3) { *first_colour = 0; *last_colour = 0; *scale = 0; if (sscanf(args, "%d,%d", h, w) < 2) { *first_colour = 0; *last_colour = 0; sscanf(args, "%*s %d,%d", h, w); }}}}}}}}}}} // haha return args; } static inline void new_hr(char *buf, int a) { new_special(buf, HORIZONTAL_LINE)->height = a; } static inline void new_stippled_hr(char *buf, int a, int b) { struct special_t *s = new_special(buf, STIPPLED_HR); s->height = b; s->arg = a; } static inline void new_fg(char *buf, long c) { new_special(buf, FG)->arg = c; } static inline void new_bg(char *buf, long c) { new_special(buf, BG)->arg = c; } static inline void new_outline(char *buf, long c) { new_special(buf, OUTLINE)->arg = c; } static inline void new_offset(char *buf, long c) { new_special(buf, OFFSET)->arg = c; } static inline void new_voffset(char *buf, long c) { new_special(buf, VOFFSET)->arg = c; } static inline void new_alignr(char *buf, long c) { new_special(buf, ALIGNR)->arg = c; } static inline void new_alignc(char *buf, long c) { new_special(buf, ALIGNC)->arg = c; } /* 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'; } /* converts from bytes to human readable format (k, M, G, T) */ static void human_readable(long long a, char *buf, int size) { // Strange conditional due to possible overflows if(a / 1024 / 1024 / 1024.0 > 1024.0){ snprintf(buf, size, "%.2fT", (a / 1024 / 1024 / 1024) / 1024.0); } else if (a >= 1024 * 1024 * 1024) { snprintf(buf, size, "%.2fG", (a / 1024 / 1024) / 1024.0); } else if (a >= 1024 * 1024) { double m = (a / 1024) / 1024.0; if (m >= 100.0) snprintf(buf, size, "%.0fM", m); else snprintf(buf, size, "%.1fM", m); } else if (a >= 1024) snprintf(buf, size, "%Ldk", a / (long long) 1024); else snprintf(buf, size, "%Ld", a); } /* text handling */ enum text_object_type { OBJ_acpiacadapter, OBJ_adt746xcpu, OBJ_adt746xfan, OBJ_acpifan, OBJ_addr, OBJ_linkstatus, OBJ_acpitemp, OBJ_acpitempf, OBJ_battery, OBJ_buffers, OBJ_cached, OBJ_color, OBJ_font, OBJ_cpu, OBJ_cpubar, OBJ_cpugraph, OBJ_diskio, OBJ_diskiograph, OBJ_downspeed, OBJ_downspeedf, OBJ_downspeedgraph, OBJ_else, OBJ_endif, OBJ_exec, OBJ_execi, OBJ_texeci, OBJ_execbar, OBJ_execgraph, OBJ_execibar, OBJ_execigraph, OBJ_freq, OBJ_freq_g, OBJ_freq_dyn, OBJ_freq_dyn_g, OBJ_fs_bar, OBJ_fs_bar_free, OBJ_fs_free, OBJ_fs_free_perc, OBJ_fs_size, OBJ_fs_used, OBJ_fs_used_perc, OBJ_hr, OBJ_offset, OBJ_voffset, OBJ_alignr, OBJ_alignc, OBJ_i2c, #if defined(__linux__) OBJ_i8k_version, OBJ_i8k_bios, OBJ_i8k_serial, OBJ_i8k_cpu_temp, OBJ_i8k_cpu_tempf, OBJ_i8k_left_fan_status, OBJ_i8k_right_fan_status, OBJ_i8k_left_fan_rpm, OBJ_i8k_right_fan_rpm, OBJ_i8k_ac_status, OBJ_i8k_buttons_status, #endif /* __linux__ */ OBJ_if_existing, OBJ_if_mounted, OBJ_if_running, OBJ_top, OBJ_top_mem, OBJ_tail, OBJ_head, OBJ_kernel, OBJ_loadavg, OBJ_machine, OBJ_mails, OBJ_mem, OBJ_membar, OBJ_memgraph, OBJ_memmax, OBJ_memperc, OBJ_mixer, OBJ_mixerl, OBJ_mixerr, OBJ_mixerbar, OBJ_mixerlbar, OBJ_mixerrbar, OBJ_new_mails, OBJ_nodename, OBJ_pre_exec, #ifdef MLDONKEY OBJ_ml_upload_counter, OBJ_ml_download_counter, OBJ_ml_nshared_files, OBJ_ml_shared_counter, OBJ_ml_tcp_upload_rate, OBJ_ml_tcp_download_rate, OBJ_ml_udp_upload_rate, OBJ_ml_udp_download_rate, OBJ_ml_ndownloaded_files, OBJ_ml_ndownloading_files, #endif OBJ_processes, OBJ_running_processes, OBJ_shadecolor, OBJ_outlinecolor, OBJ_stippled_hr, OBJ_swap, OBJ_swapbar, OBJ_swapmax, OBJ_swapperc, OBJ_sysname, OBJ_temp1, /* i2c is used instead in these */ OBJ_temp2, OBJ_text, OBJ_time, OBJ_utime, OBJ_totaldown, OBJ_totalup, OBJ_updates, OBJ_upspeed, OBJ_upspeedf, OBJ_upspeedgraph, OBJ_uptime, OBJ_uptime_short, #if defined(__FreeBSD__) && (defined(i386) || defined(__i386__)) OBJ_apm_adapter, OBJ_apm_battery_time, OBJ_apm_battery_life, #endif /* __FreeBSD__ */ #ifdef SETI OBJ_seti_prog, OBJ_seti_progbar, OBJ_seti_credit, #endif #ifdef MPD OBJ_mpd_title, OBJ_mpd_artist, OBJ_mpd_album, OBJ_mpd_random, OBJ_mpd_repeat, OBJ_mpd_vol, OBJ_mpd_bitrate, OBJ_mpd_status, OBJ_mpd_host, OBJ_mpd_port, OBJ_mpd_bar, OBJ_mpd_elapsed, OBJ_mpd_length, OBJ_mpd_track, OBJ_mpd_percent, #endif #if defined(XMMS) || defined(BMP) || defined(AUDACIOUS) || defined(INFOPIPE) OBJ_xmms_status, OBJ_xmms_title, OBJ_xmms_length, OBJ_xmms_length_seconds, OBJ_xmms_position, OBJ_xmms_position_seconds, OBJ_xmms_bitrate, OBJ_xmms_frequency, OBJ_xmms_channels, OBJ_xmms_filename, OBJ_xmms_playlist_length, OBJ_xmms_playlist_position, OBJ_xmms_bar, #endif #ifdef BMPX OBJ_bmpx_title, OBJ_bmpx_artist, OBJ_bmpx_album, OBJ_bmpx_track, OBJ_bmpx_uri, OBJ_bmpx_bitrate, #endif #ifdef TCP_PORT_MONITOR OBJ_tcp_portmon, #endif }; struct thread_info_s { pthread_mutex_t mutex; pthread_t thread; }; struct text_object { int type; int a, b; unsigned int c, d, e; float f; union { char *s; /* some string */ int i; /* some integer */ long l; /* some other integer */ struct net_stat *net; struct fs_stat *fs; unsigned char loadavg[3]; unsigned int cpu_index; struct { struct fs_stat *fs; int w, h; } fsbar; /* 3 */ struct { int l; int w, h; } mixerbar; /* 3 */ struct { int fd; int arg; char devtype[256]; char type[64]; } i2c; /* 2 */ struct { int pos; char *s; } ifblock; struct { int num; int type; } top; struct { int wantedlines; int readlines; char *logfile; double last_update; float interval; char *buffer; } tail; struct { double last_update; float interval; char *cmd; char *buffer; double data; int pos; struct thread_info_s thread_info; } execi; /* 5 */ struct { int a, b; } pair; /* 2 */ #ifdef TCP_PORT_MONITOR struct { in_port_t port_range_begin; /* starting port to monitor */ in_port_t port_range_end; /* ending port to monitor */ int item; /* enum value from libtcp-portmon.h, e.g. COUNT, REMOTEIP, etc. */ int connection_index; /* 0 to n-1 connections. */ } tcp_port_monitor; #endif } data; }; struct text_object_list { unsigned int text_object_count; struct text_object *text_objects; }; static unsigned int text_object_count; static struct text_object *text_objects; static void generate_text_internal(char *p, int p_max_size, struct text_object *objs, unsigned int object_count, struct information *cur); #define MAX_THREADS 512 // sure whatever typedef struct thread_info_s *thread_info; thread_info thread_list[MAX_THREADS]; int thread_count = 0; int register_thread(struct thread_info_s *new_thread) { if (thread_count >= MAX_THREADS) { CRIT_ERR("Uh oh, tried to register too many threads"); } else { thread_list[thread_count] = new_thread; thread_count++; } return thread_count - 1; } void lock_all_threads() { if (thread_count) { ERR("trying to end all threads"); int i, ret; // now we wait to get the locks for (i = 0; i < thread_count; i++) { ret = 1; while (ret) { ret = pthread_mutex_trylock(&(thread_list[i]->mutex)); } /*if (pthread_join(thread_list[i]->thread, NULL)) * ERR("Problem joining thread %i\n", (int)thread_list[i]->thread);*/ } } } void *threaded_exec(struct text_object *obj) { pthread_mutex_lock(&(obj->data.execi.thread_info.mutex)); char *p2 = obj->data.execi.buffer; FILE *fp = popen(obj->data.execi.cmd,"r"); int n2 = fread(p2, 1, TEXT_BUFFER_SIZE, fp); (void) pclose(fp); p2[n2] = '\0'; if (n2 && p2[n2 - 1] == '\n') p2[n2 - 1] = '\0'; while (*p2) { if (*p2 == '\001') *p2 = ' '; p2++; } obj->data.execi.last_update = current_update_time; int unlock = pthread_mutex_unlock(&(obj->data.execi.thread_info.mutex)); if (unlock) { ERR("error %i unlocking thread", unlock); } pthread_exit(NULL); } static struct text_object *new_text_object_internal() { struct text_object *obj = malloc(sizeof(struct text_object)); memset(obj, 0, sizeof(struct text_object)); return obj; } #ifdef MLDONKEY void ml_cleanup() { if (mlconfig.mldonkey_hostname) { free(mlconfig.mldonkey_hostname); mlconfig.mldonkey_hostname = NULL; } } #endif static void free_text_objects(unsigned int count, struct text_object *objs) { unsigned int i; for (i = 0; i < count; i++) { switch (objs[i].type) { case OBJ_acpitemp: close(objs[i].data.i); break; case OBJ_acpitempf: close(objs[i].data.i); break; case OBJ_i2c: close(objs[i].data.i2c.fd); break; case OBJ_time: free(objs[i].data.s); break; case OBJ_utime: case OBJ_if_existing: case OBJ_if_mounted: case OBJ_if_running: free(objs[i].data.ifblock.s); break; case OBJ_tail: free(objs[i].data.tail.logfile); free(objs[i].data.tail.buffer); break; case OBJ_text: case OBJ_font: free(objs[i].data.s); break; case OBJ_exec: free(objs[i].data.s); break; case OBJ_execbar: free(objs[i].data.s); break; case OBJ_execgraph: free(objs[i].data.s); break; /* case OBJ_execibar: free(objs[i].data.s); break; case OBJ_execigraph: free(objs[i].data.s); break;*/ #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_track: case OBJ_mpd_status: case OBJ_mpd_host: #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: #endif case OBJ_pre_exec: case OBJ_battery: free(objs[i].data.s); break; case OBJ_execi: free(objs[i].data.execi.cmd); free(objs[i].data.execi.buffer); break; case OBJ_texeci: free(objs[i].data.execi.cmd); free(objs[i].data.execi.buffer); break; case OBJ_top: if (info.first_process) { free_all_processes(); info.first_process = NULL; } break; case OBJ_top_mem: if (info.first_process) { free_all_processes(); info.first_process = NULL; } break; } } free(objs); //text_objects = NULL; //text_object_count = 0; } 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); (void) scan_bar(arg + n, w, h); } else { *a = mixer_init(0); (void) scan_bar(arg, w, h); } } /* construct_text_object() creates a new text_object */ static struct text_object *construct_text_object(const char *s, const char *arg, unsigned int object_count, struct text_object *text_objects) { //struct text_object *obj = new_text_object(); struct text_object *obj = new_text_object_internal(); #define OBJ(a, n) if (strcmp(s, #a) == 0) { 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 */ OBJ(acpitemp, 0) obj->data.i = open_acpi_temperature(arg); END OBJ(acpitempf, 0) obj->data.i = open_acpi_temperature(arg); END OBJ(acpiacadapter, 0) END OBJ(freq, 0); END OBJ(freq_g, 0); END OBJ(freq_dyn, 0); END OBJ(freq_dyn_g, 0); END OBJ(acpifan, 0); END OBJ(battery, 0); char bat[64]; if (arg) sscanf(arg, "%63s", bat); else strcpy(bat, "BAT0"); obj->data.s = strdup(bat); #if defined(__linux__) 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_cpu_tempf, 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) #endif /* __linux__ */ END OBJ(buffers, INFO_BUFFERS) END OBJ(cached, INFO_BUFFERS) END OBJ(cpu, INFO_CPU) if (arg) { if (strncmp(arg, "cpu", 3) == 0 && isdigit(arg[3])) { obj->data.cpu_index = atoi(&arg[3]); arg += 4; } else {obj->data.cpu_index = 0; } } else { obj->data.cpu_index = 0; } END OBJ(cpubar, INFO_CPU) if (arg) { if (strncmp(arg, "cpu", 3) == 0 && isdigit(arg[3])) { obj->data.cpu_index = atoi(&arg[3]); arg += 4; } else {obj->data.cpu_index = 0;} (void) scan_bar(arg, &obj->a, &obj->b); } else { (void) scan_bar(arg, &obj->a, &obj->b); obj->data.cpu_index = 0; } END OBJ(cpugraph, INFO_CPU) if (arg) { if (strncmp(arg, "cpu", 3) == 0 && isdigit(arg[3])) { obj->data.cpu_index = atoi(&arg[3]); arg += 4; } (void) scan_graph(arg, &obj->a, &obj->b, &obj->c, &obj->d, &obj->e); } else { (void) scan_graph(arg, &obj->a, &obj->b, &obj->c, &obj->d, &obj->e); obj->data.cpu_index = 0; } END OBJ(diskio, INFO_DISKIO) END OBJ(diskiograph, INFO_DISKIO) (void) scan_graph(arg, &obj->a, &obj->b, &obj->c, &obj->d, &obj->e); END OBJ(color, 0) #ifdef X11 obj->data.l = arg ? get_x11_color(arg) : default_fg_color; #endif /* X11 */ END OBJ(font, 0) obj->data.s = scan_font(arg); 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) (void) scan_graph(arg, &obj->a, &obj->b, &obj->c, &obj->d, &obj->e); char buf[64]; sscanf(arg, "%63s %*i,%*i %*i", buf); obj->data.net = get_net_stat(buf); if (sscanf(arg, "%*s %d,%d %*d", &obj->b, &obj->a) <= 1) { if (sscanf(arg, "%*s %d,%d", &obj->b, &obj->a) <= 1) { obj->a = 0; obj->b = 25; } } END OBJ(else, 0) if (blockdepth) { (text_objects[blockstart[blockdepth - 1]]).data.ifblock.pos = object_count; blockstart[blockdepth - 1] = object_count; obj->data.ifblock.pos = object_count + 2; } else { ERR("$else: no matching $if_*"); } END OBJ(endif, 0) if (blockdepth) { printf("blockdepth is %i and blockstart[blockdepth] is %i and object_count is %i\n", blockdepth, blockstart[blockdepth - 1], object_count); blockdepth--; text_objects[blockstart[blockdepth]].data.ifblock.pos = object_count; } else { ERR("$endif: no matching $if_*"); } END #ifdef HAVE_POPEN OBJ(exec, 0) obj->data.s = strdup(arg ? arg : ""); END OBJ(execbar, 0) obj->data.s = strdup(arg ? arg : ""); END OBJ(execgraph, 0) obj->data.s = strdup(arg ? arg : ""); END OBJ(execibar, 0) unsigned int n; if (!arg || sscanf(arg, "%f %n", &obj->data.execi.interval, &n) <= 0) { char buf[256]; ERR("${execibar command}"); obj->type = OBJ_text; snprintf(buf, 256, "${%s}", s); obj->data.s = strdup(buf); } else { obj->data.execi.cmd = strdup(arg + n); } END OBJ(execigraph, 0) unsigned int n; if (!arg || sscanf(arg, "%f %n", &obj->data.execi.interval, &n) <= 0) { char buf[256]; ERR("${execigraph command}"); obj->type = OBJ_text; snprintf(buf, 256, "${%s}", s); obj->data.s = strdup(buf); } else { obj->data.execi.cmd = strdup(arg + n); } END OBJ(execi, 0) unsigned int n; if (!arg || sscanf(arg, "%f %n", &obj->data.execi.interval, &n) <= 0) { char buf[256]; ERR("${execi command}"); obj->type = OBJ_text; snprintf(buf, 256, "${%s}", s); obj->data.s = strdup(buf); } else { obj->data.execi.cmd = strdup(arg + n); obj->data.execi.buffer = (char *) calloc(1, TEXT_BUFFER_SIZE); } END OBJ(texeci, 0) unsigned int n; if (!arg || sscanf(arg, "%f %n", &obj->data.execi.interval, &n) <= 0) { char buf[256]; ERR("${texeci command}"); obj->type = OBJ_text; snprintf(buf, 256, "${%s}", s); obj->data.s = strdup(buf); } else { obj->data.execi.cmd = strdup(arg + n); obj->data.execi.buffer = (char *) calloc(1, TEXT_BUFFER_SIZE); } pthread_mutex_init(&(obj->data.execi.thread_info.mutex), NULL); obj->data.execi.pos = register_thread(&(obj->data.execi.thread_info)); END OBJ(pre_exec, 0) obj->type = OBJ_text; if (arg) { FILE *fp = popen(arg, "r"); unsigned int n; char buf[2048]; n = fread(buf, 1, 2048, fp); buf[n] = '\0'; if (n && buf[n - 1] == '\n') buf[n - 1] = '\0'; (void) pclose(fp); obj->data.s = strdup(buf); } else obj->data.s = strdup(""); END #endif OBJ(fs_bar, INFO_FS) obj->data.fsbar.h = 4; arg = scan_bar(arg, &obj->data.fsbar.w, &obj->data.fsbar.h); if (arg) { while (isspace(*arg)) arg++; if (*arg == '\0') arg = "/"; } else arg = "/"; obj->data.fsbar.fs = prepare_fs_stat(arg); END OBJ(fs_bar_free, INFO_FS) obj->data.fsbar.h = 4; if (arg) { unsigned int n; if (sscanf(arg, "%d %n", &obj->data.fsbar.h, &n) >= 1) arg += n; } else arg = "/"; obj->data.fsbar.fs = prepare_fs_stat(arg); END OBJ(fs_free, INFO_FS) if (!arg) arg = "/"; obj->data.fs = prepare_fs_stat(arg); END OBJ(fs_used_perc, INFO_FS) if (!arg) arg = "/"; obj->data.fs = prepare_fs_stat(arg); END OBJ(fs_free_perc, INFO_FS) if (!arg) arg = "/"; obj->data.fs = prepare_fs_stat(arg); END OBJ(fs_size, INFO_FS) if (!arg) arg = "/"; obj->data.fs = prepare_fs_stat(arg); END OBJ(fs_used, INFO_FS) if (!arg) arg = "/"; obj->data.fs = prepare_fs_stat(arg); END OBJ(hr, 0) obj->data.i = arg ? atoi(arg) : 1; END OBJ(offset, 0) obj->data.i = arg ? atoi(arg) : 1; END OBJ(voffset, 0) obj->data.i = arg ? atoi(arg) : 1; END OBJ(i2c, INFO_I2C) char buf1[64], buf2[64]; int n; if (!arg) { ERR("i2c needs arguments"); obj->type = OBJ_text; //obj->data.s = strdup("${i2c}"); 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.i2c.fd = open_i2c_sensor(0, buf2, n, &obj->data.i2c.arg, obj->data.i2c.devtype); strncpy(obj->data.i2c.type, buf2, 63); } else { obj->data.i2c.fd = open_i2c_sensor(buf1, buf2, n, &obj->data.i2c.arg, obj->data.i2c.devtype); strncpy(obj->data.i2c.type, buf2, 63); } END OBJ(top, INFO_TOP) char buf[64]; int n; if (!arg) { ERR("top needs arguments"); obj->type = OBJ_text; //obj->data.s = strdup("${top}"); return NULL; } if (sscanf(arg, "%63s %i", buf, &n) == 2) { if (strcmp(buf, "name") == 0) { obj->data.top.type = TOP_NAME; } else if (strcmp(buf, "cpu") == 0) { obj->data.top.type = TOP_CPU; } else if (strcmp(buf, "pid") == 0) { obj->data.top.type = TOP_PID; } else if (strcmp(buf, "mem") == 0) { obj->data.top.type = TOP_MEM; } else { ERR("invalid arg for top"); return NULL; } if (n < 1 || n > 10) { CRIT_ERR("invalid arg for top"); return NULL; } else { obj->data.top.num = n - 1; top_cpu = 1; } } else { ERR("invalid args given for top"); return NULL; } END OBJ(top_mem, INFO_TOP) char buf[64]; int n; if (!arg) { ERR("top_mem needs arguments"); obj->type = OBJ_text; obj->data.s = strdup("${top_mem}"); return NULL; } if (sscanf(arg, "%63s %i", buf, &n) == 2) { if (strcmp(buf, "name") == 0) { obj->data.top.type = TOP_NAME; } else if (strcmp(buf, "cpu") == 0) { obj->data.top.type = TOP_CPU; } else if (strcmp(buf, "pid") == 0) { obj->data.top.type = TOP_PID; } else if (strcmp(buf, "mem") == 0) { obj->data.top.type = TOP_MEM; } else { ERR("invalid arg for top"); return NULL; } if (n < 1 || n > 10) { CRIT_ERR("invalid arg for top"); return NULL; } else { obj->data.top.num = n - 1; top_mem = 1; } } else { ERR("invalid args given for top"); return NULL; } END OBJ(addr, INFO_NET) if(arg) { obj->data.net = get_net_stat(arg); } else { CRIT_ERR("addr needs argument"); } END OBJ(linkstatus, INFO_WIFI) if(arg) { obj->data.net = get_net_stat(arg); } else { CRIT_ERR("linkstatus needs argument"); } END OBJ(tail, 0) char buf[64]; int n1, n2; if (!arg) { ERR("tail needs arguments"); obj->type = OBJ_text; obj->data.s = strdup("${tail}"); return NULL; } if (sscanf(arg, "%63s %i %i", buf, &n1, &n2) == 2) { if (n1 < 1 || n1 > 30) { CRIT_ERR("invalid arg for tail, number of lines must be between 1 and 30"); return NULL; } else { FILE *fp = NULL; fp = fopen(buf, "r"); if (fp) { obj->data.tail.logfile = malloc(TEXT_BUFFER_SIZE); strcpy(obj->data.tail.logfile, buf); obj->data.tail.wantedlines = n1 - 1; obj->data.tail.interval = update_interval * 2; fclose(fp); } else { //fclose (fp); CRIT_ERR("tail logfile does not exist, or you do not have correct permissions"); } } } else if (sscanf(arg, "%63s %i %i", buf, &n1, &n2) == 3) { if (n1 < 1 || n1 > 30) { CRIT_ERR ("invalid arg for tail, number of lines must be between 1 and 30"); return NULL; } else if (n2 < 1 || n2 < update_interval) { CRIT_ERR ("invalid arg for tail, interval must be greater than 0 and Conky's interval"); return NULL; } else { FILE *fp; fp = fopen(buf, "r"); if (fp != NULL) { obj->data.tail.logfile = malloc(TEXT_BUFFER_SIZE); strcpy(obj->data.tail.logfile, buf); obj->data.tail.wantedlines = n1 - 1; obj->data.tail.interval = n2; fclose(fp); } else { //fclose (fp); CRIT_ERR("tail logfile does not exist, or you do not have correct permissions"); } } } else { ERR("invalid args given for tail"); return NULL; } obj->data.tail.buffer = malloc(TEXT_BUFFER_SIZE * 20); /* asumming all else worked */ END OBJ(head, 0) char buf[64]; int n1, n2; if (!arg) { ERR("head needs arguments"); obj->type = OBJ_text; obj->data.s = strdup("${head}"); return NULL; } if (sscanf(arg, "%63s %i %i", buf, &n1, &n2) == 2) { if (n1 < 1 || n1 > 30) { CRIT_ERR("invalid arg for head, number of lines must be between 1 and 30"); return NULL; } else { FILE *fp; fp = fopen(buf, "r"); if (fp != NULL) { obj->data.tail.logfile = malloc(TEXT_BUFFER_SIZE); strcpy(obj->data.tail.logfile, buf); obj->data.tail.wantedlines = n1 - 1; obj->data.tail.interval = update_interval * 2; fclose(fp); } else { //fclose (fp); CRIT_ERR("head logfile does not exist, or you do not have correct permissions"); } } } else if (sscanf(arg, "%63s %i %i", buf, &n1, &n2) == 3) { if (n1 < 1 || n1 > 30) { CRIT_ERR ("invalid arg for head, number of lines must be between 1 and 30"); return NULL; } else if (n2 < 1 || n2 < update_interval) { CRIT_ERR ("invalid arg for head, interval must be greater than 0 and Conky's interval"); return NULL; } else { FILE *fp; fp = fopen(buf, "r"); if (fp != NULL) { obj->data.tail.logfile = malloc(TEXT_BUFFER_SIZE); strcpy(obj->data.tail.logfile, buf); obj->data.tail.wantedlines = n1 - 1; obj->data.tail.interval = n2; fclose(fp); } else { //fclose (fp); CRIT_ERR("head logfile does not exist, or you do not have correct permissions"); } } } else { ERR("invalid args given for head"); return NULL; } obj->data.tail.buffer = malloc(TEXT_BUFFER_SIZE * 20); /* asumming all else worked */ 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_existing, 0) if (blockdepth >= MAX_IF_BLOCK_DEPTH) { CRIT_ERR("MAX_IF_BLOCK_DEPTH exceeded"); } if (!arg) { ERR("if_existing needs an argument"); obj->data.ifblock.s = 0; } else obj->data.ifblock.s = strdup(arg); blockstart[blockdepth] = object_count; obj->data.ifblock.pos = object_count + 2; blockdepth++; END OBJ(if_mounted, 0) if (blockdepth >= MAX_IF_BLOCK_DEPTH) { CRIT_ERR("MAX_IF_BLOCK_DEPTH exceeded"); } if (!arg) { ERR("if_mounted needs an argument"); obj->data.ifblock.s = 0; } else obj->data.ifblock.s = strdup(arg); blockstart[blockdepth] = object_count; obj->data.ifblock.pos = object_count + 2; blockdepth++; printf("blockdepth is %i and blockstart[blockdepth] is %i and object_count is %i\n", blockdepth, blockstart[blockdepth - 1], object_count); END OBJ(if_running, 0) if (blockdepth >= MAX_IF_BLOCK_DEPTH) { CRIT_ERR("MAX_IF_BLOCK_DEPTH exceeded"); } if (arg) { char buf[256]; snprintf(buf, 256, "pidof %s >/dev/null", arg); obj->data.ifblock.s = strdup(buf); } else { ERR("if_running needs an argument"); obj->data.ifblock.s = 0; } blockstart[blockdepth] = object_count; obj->data.ifblock.pos = object_count + 2; blockdepth++; END OBJ(kernel, 0) END OBJ(machine, 0) END OBJ(mails, INFO_MAIL) END OBJ(mem, INFO_MEM) END OBJ(memmax, INFO_MEM) END OBJ(memperc, INFO_MEM) END OBJ(membar, INFO_MEM) (void) scan_bar(arg, &obj->data.pair.a, &obj->data.pair.b); END OBJ(memgraph, INFO_MEM) (void) scan_graph(arg, &obj->a, &obj->b, &obj->c, &obj->d, &obj->e); 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 #ifdef MLDONKEY OBJ(ml_upload_counter, INFO_MLDONKEY) END OBJ(ml_download_counter, INFO_MLDONKEY) END OBJ(ml_nshared_files, INFO_MLDONKEY) END OBJ(ml_shared_counter, INFO_MLDONKEY) END OBJ(ml_tcp_upload_rate, INFO_MLDONKEY) END OBJ(ml_tcp_download_rate, INFO_MLDONKEY) END OBJ(ml_udp_upload_rate, INFO_MLDONKEY) END OBJ(ml_udp_download_rate, INFO_MLDONKEY) END OBJ(ml_ndownloaded_files, INFO_MLDONKEY) END OBJ(ml_ndownloading_files, INFO_MLDONKEY) END #endif OBJ(new_mails, INFO_MAIL) 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) (void) scan_bar(arg, &obj->data.pair.a, &obj->data.pair.b); END OBJ(sysname, 0) END OBJ(temp1, INFO_I2C) obj->type = OBJ_i2c; obj->data.i2c.fd = open_i2c_sensor(0, "temp", 1, &obj->data.i2c.arg, obj->data.i2c.devtype); END OBJ(temp2, INFO_I2C) obj->type = OBJ_i2c; obj->data.i2c.fd = open_i2c_sensor(0, "temp", 2, &obj->data.i2c.arg, obj->data.i2c.devtype); END OBJ(time, 0) obj->data.s = strdup(arg ? arg : "%F %T"); END OBJ(utime, 0) obj->data.s = strdup(arg ? arg : "%F %T"); 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(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) (void) scan_graph(arg, &obj->a, &obj->b, &obj->c, &obj->d, &obj->e); char buf[64]; sscanf(arg, "%63s %*i,%*i %*i", buf); obj->data.net = get_net_stat(buf); if (sscanf(arg, "%*s %d,%d %*d", &obj->b, &obj->a) <= 1) { if (sscanf(arg, "%*s %d,%d", &obj->a, &obj->a) <= 1) { obj->a = 0; obj->b = 25; } } END OBJ(uptime_short, INFO_UPTIME) END OBJ(uptime, INFO_UPTIME) END OBJ(adt746xcpu, 0) END OBJ(adt746xfan, 0) END #if defined(__FreeBSD__) && (defined(i386) || defined(__i386__)) OBJ(apm_adapter, 0) END OBJ(apm_battery_life, 0) END OBJ(apm_battery_time, 0) END #endif /* __FreeBSD__ */ #ifdef SETI OBJ(seti_prog, INFO_SETI) END OBJ(seti_progbar, INFO_SETI) (void) scan_bar(arg, &obj->data.pair.a, &obj->data.pair.b); END OBJ(seti_credit, INFO_SETI) END #endif #ifdef MPD OBJ(mpd_artist, INFO_MPD) END OBJ(mpd_title, INFO_MPD) END OBJ(mpd_random, INFO_MPD) END OBJ(mpd_repeat, INFO_MPD) END OBJ(mpd_elapsed, INFO_MPD) END OBJ(mpd_length, INFO_MPD) END OBJ(mpd_track, INFO_MPD) END OBJ(mpd_percent, INFO_MPD) END OBJ(mpd_album, INFO_MPD) END OBJ(mpd_vol, INFO_MPD) END OBJ(mpd_bitrate, INFO_MPD) END OBJ(mpd_status, INFO_MPD) END OBJ(mpd_bar, INFO_MPD) (void) scan_bar(arg, &obj->data.pair.a, &obj->data.pair.b); END #endif #if defined(XMMS) || defined(BMP) || defined(AUDACIOUS) || defined(INFOPIPE) OBJ(xmms_status, INFO_XMMS) END OBJ(xmms_title, INFO_XMMS) END OBJ(xmms_length, INFO_XMMS) END OBJ(xmms_length_seconds, INFO_XMMS) END OBJ(xmms_position, INFO_XMMS) END OBJ(xmms_position_seconds, INFO_XMMS) END OBJ(xmms_bitrate, INFO_XMMS) END OBJ(xmms_frequency, INFO_XMMS) END OBJ(xmms_channels, INFO_XMMS) END OBJ(xmms_filename, INFO_XMMS) END OBJ(xmms_playlist_length, INFO_XMMS) END OBJ(xmms_playlist_position, INFO_XMMS) END OBJ(xmms_bar, INFO_XMMS) (void) scan_bar(arg, &obj->a, &obj->b); END #endif #ifdef BMPX 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)); END #endif #ifdef TCP_PORT_MONITOR OBJ(tcp_portmon, INFO_TCP_PORT_MONITOR) int argc, port_begin, port_end, item, connection_index; char itembuf[32]; memset(itembuf,0,sizeof(itembuf)); connection_index=0; /* massive argument checking */ if (!arg) { CRIT_ERR("tcp_portmon: needs arguments"); } argc=sscanf(arg, "%d %d %31s %d", &port_begin, &port_end, itembuf, &connection_index); if ( (argc != 3) && (argc != 4) ) { CRIT_ERR("tcp_portmon: requires 3 or 4 arguments"); } if ( (port_begin<1) || (port_begin>65535) || (port_end<1) || (port_end>65535) ) { CRIT_ERR("tcp_portmon: port values must be from 1 to 65535"); } if ( port_begin > port_end ) { CRIT_ERR("tcp_portmon: starting port must be <= ending port"); } if ( strncmp(itembuf,"count",31) == 0 ) item=COUNT; else if ( strncmp(itembuf,"rip",31) == 0 ) item=REMOTEIP; else if ( strncmp(itembuf,"rhost",31) == 0 ) item=REMOTEHOST; else if ( strncmp(itembuf,"rport",31) == 0 ) item=REMOTEPORT; else if ( strncmp(itembuf,"lip",31) == 0 ) item=LOCALIP; else if ( strncmp(itembuf,"lhost",31) == 0 ) item=LOCALHOST; else if ( strncmp(itembuf,"lport",31) == 0 ) item=LOCALPORT; else if ( strncmp(itembuf,"lservice",31) == 0 ) item=LOCALSERVICE; else { CRIT_ERR("tcp_portmon: invalid item specified"); } if ( (argc==3) && (item!=COUNT) ) { CRIT_ERR("tcp_portmon: 3 argument form valid only for \"count\" item"); } if ( (argc==4) && (connection_index<0) ) { CRIT_ERR("tcp_portmon: connection index must be non-negative"); } /* ok, args looks good. save the text object data */ obj->data.tcp_port_monitor.port_range_begin = (in_addr_t)port_begin; obj->data.tcp_port_monitor.port_range_end = (in_addr_t)port_end; obj->data.tcp_port_monitor.item = item; obj->data.tcp_port_monitor.connection_index = connection_index; /* if the port monitor collection hasn't been created, we must create it */ if ( !info.p_tcp_port_monitor_collection ) { info.p_tcp_port_monitor_collection = create_tcp_port_monitor_collection( &tcp_port_monitor_collection_args ); if ( !info.p_tcp_port_monitor_collection ) { CRIT_ERR("tcp_portmon: unable to create port monitor collection"); } } /* if a port monitor for this port does not exist, create one and add it to the collection */ if ( find_tcp_port_monitor( info.p_tcp_port_monitor_collection, port_begin, port_end ) == NULL ) { tcp_port_monitor_t * p_monitor = create_tcp_port_monitor( port_begin, port_end, &tcp_port_monitor_args ); if ( !p_monitor ) { CRIT_ERR("tcp_portmon: unable to create port monitor"); } /* add the newly created monitor to the collection */ if ( insert_tcp_port_monitor_into_collection( info.p_tcp_port_monitor_collection, p_monitor ) != 0 ) { CRIT_ERR("tcp_portmon: unable to add port monitor to collection"); } } END #endif { char buf[256]; ERR("unknown variable %s", s); obj->type = OBJ_text; snprintf(buf, 256, "${%s}", s); obj->data.s = strdup(buf); } #undef OBJ return obj; } static struct text_object *create_plain_text(const char *s) { struct text_object *obj; if (s == NULL || *s == '\0') { return NULL; } obj = new_text_object_internal(); obj->type = OBJ_text; obj->data.s = strdup(s); return obj; } static struct text_object_list *extract_variable_text_internal(const char *p) { struct text_object_list *retval; struct text_object *obj; const char *s = p; retval = malloc(sizeof(struct text_object_list)); memset(retval, 0, sizeof(struct text_object_list)); retval->text_object_count = 0; while (*p) { if (*p == '$') { *(char *) p = '\0'; obj = create_plain_text(s); if(obj != NULL) { // allocate memory for the object retval->text_objects = realloc(retval->text_objects, sizeof(struct text_object) * (retval->text_object_count+1)); // assign the new object to the end of the list. memcpy(&retval->text_objects[retval->text_object_count++], obj, sizeof(struct text_object)); free(obj); } *(char *) p = '$'; p++; s = p; if (*p != '$') { char buf[256]; const char *var; unsigned int len; /* variable is either $foo or ${foo} */ if (*p == '{') { p++; s = p; while (*p && *p != '}') p++; } else { s = p; if (*p == '#') p++; while (*p && (isalnum((int) *p) || *p == '_')) p++; } /* copy variable to buffer */ len = (p - s > 255) ? 255 : (p - s); strncpy(buf, s, len); buf[len] = '\0'; if (*p == '}') p++; s = p; var = getenv(buf); /* if variable wasn't found from environment, use some special */ if (!var) { char *p; char *arg = 0; /* split arg */ if (strchr(buf, ' ')) { arg = strchr(buf, ' '); *arg = '\0'; arg++; while (isspace((int) *arg)) arg++; if (!*arg) arg = 0; } /* lowercase variable name */ p = buf; while (*p) { *p = tolower(*p); p++; } // create new object obj = construct_text_object(buf, arg, retval->text_object_count, retval->text_objects); if(obj != NULL) { // allocate memory for the object retval->text_objects = realloc(retval->text_objects, sizeof(struct text_object) * (retval->text_object_count+1)); // assign the new object to the end of the list. memcpy(&retval->text_objects[retval->text_object_count++], obj, sizeof(struct text_object)); free(obj); } } continue; } else { obj = create_plain_text("$"); if(obj != NULL) { // allocate memory for the object retval->text_objects = realloc(retval->text_objects, sizeof(struct text_object) * (retval->text_object_count+1)); // assign the new object to the end of the list. memcpy(&retval->text_objects[retval->text_object_count++], obj, sizeof(struct text_object)); free(obj); } } } p++; } obj = create_plain_text(s); if(obj != NULL) { // allocate memory for the object retval->text_objects = realloc(retval->text_objects, sizeof(struct text_object) * (retval->text_object_count+1)); // assign the new object to the end of the list. memcpy(&retval->text_objects[retval->text_object_count++], obj, sizeof(struct text_object)); free(obj); } if (blockdepth) { ERR("one or more $endif's are missing"); } return retval; } static void extract_variable_text(const char *p) { struct text_object_list *list; free_text_objects(text_object_count, text_objects); text_object_count = 0; text_objects = NULL; #ifdef MLDONKEY ml_cleanup(); #endif /* MLDONKEY */ list = extract_variable_text_internal(p); text_objects = list->text_objects; text_object_count = list->text_object_count; free(list); return; } void parse_conky_vars(char * text, char * p, struct information *cur) { struct text_object_list *object_list = extract_variable_text_internal(text); generate_text_internal(p, P_MAX_SIZE, object_list->text_objects, object_list->text_object_count, cur); free(object_list); } static void generate_text_internal(char *p, int p_max_size, struct text_object *objs, unsigned int object_count, struct information *cur) { unsigned int i; for (i = 0; i < object_count; i++) { struct text_object *obj = &objs[i]; #define OBJ(a) break; case OBJ_##a: switch (obj->type) { default: { ERR("not implemented obj type %d", obj->type); } OBJ(acpitemp) { /* does anyone have decimals in acpi temperature? */ if (!use_spacer) snprintf(p, p_max_size, "%d", (int) get_acpi_temperature(obj-> data. i)); else snprintf(p, 5, "%d ", (int) get_acpi_temperature(obj-> data. i)); } OBJ(acpitempf) { /* does anyone have decimals in acpi temperature? */ if (!use_spacer) snprintf(p, p_max_size, "%d", (int) ((get_acpi_temperature(obj-> data. i)+ 40) * 9.0 / 5 - 40)); else snprintf(p, 5, "%d ", (int) ((get_acpi_temperature(obj-> data. i)+ 40) * 9.0 / 5 - 40)); } OBJ(freq) { get_freq(p, p_max_size, "%.0f", 1); /* pk */ } OBJ(freq_g) { get_freq(p, p_max_size, "%'.2f", 1000); /* pk */ } OBJ(freq_dyn) { if (use_spacer) { get_freq_dynamic(p, 6, "%.0f ", 1 ); /* pk */ } else { get_freq_dynamic(p, p_max_size, "%.0f", 1 ); /* pk */ } } OBJ(freq_dyn_g) { if (use_spacer) { get_freq_dynamic(p, 6, "%'.2f ", 1000); /* pk */ } else { get_freq_dynamic(p, p_max_size, "%'.2f", 1000); /* pk */ } } OBJ(adt746xcpu) { get_adt746x_cpu(p, p_max_size); /* pk */ } OBJ(adt746xfan) { get_adt746x_fan(p, p_max_size); /* pk */ } OBJ(acpifan) { get_acpi_fan(p, p_max_size); /* pk */ } OBJ(acpiacadapter) { get_acpi_ac_adapter(p, p_max_size); /* pk */ } OBJ(battery) { get_battery_stuff(p, p_max_size, obj->data.s); } 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) { printf("obj->data.cpu_index %i info.cpu_count %i", obj->data.cpu_index, info.cpu_count); CRIT_ERR("attempting to use more CPUs then you have!"); } if (!use_spacer) snprintf(p, p_max_size, "%*d", pad_percents, (int) round_to_int(cur->cpu_usage[obj->data.cpu_index] * 100.0)); else snprintf(p, 4, "%*d ", pad_percents, (int) round_to_int(cur->cpu_usage[obj->data.cpu_index] * 100.0)); } OBJ(cpubar) { new_bar(p, obj->a, obj->b, (int) 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(color) { new_fg(p, obj->data.l); } #if defined(__linux__) 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) { snprintf(p, p_max_size, "%s", i8k.cpu_temp); } OBJ(i8k_cpu_tempf) { int cpu_temp; sscanf(i8k.cpu_temp, "%d", &cpu_temp); snprintf(p, p_max_size, "%.1f", cpu_temp*(9.0/5.0)+32.0); } 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); } #endif /* __linux__ */ #ifdef X11 OBJ(font) { new_font(p, obj->data.s); } #endif /* X11 */ OBJ(diskio) { if (!use_spacer) { if (diskio_value > 1024*1024) { snprintf(p, p_max_size, "%.1fG", (double)diskio_value/1024/1024); } else if (diskio_value > 1024) { snprintf(p, p_max_size, "%.1fM", (double)diskio_value/1024); } else if (diskio_value > 0) { snprintf(p, p_max_size, "%dK", diskio_value); } else { snprintf(p, p_max_size, "%d", diskio_value); } } else { if (diskio_value > 1024*1024) { snprintf(p, 6, "%.1fG ", (double)diskio_value/1024/1024); } else if (diskio_value > 1024) { snprintf(p, 6, "%.1fM ", (double)diskio_value/1024); } else if (diskio_value > 0) { snprintf(p, 6, "%dK ", diskio_value); } else { snprintf(p, 6, "%d ", diskio_value); } } } OBJ(diskiograph) { new_graph(p, obj->a, obj->b, obj->c, obj->d, diskio_value, obj->e, 1); } OBJ(downspeed) { if (!use_spacer) { snprintf(p, p_max_size, "%d", (int) (obj->data.net-> recv_speed / 1024)); } else snprintf(p, 6, "%d ", (int) (obj->data.net-> recv_speed / 1024)); } OBJ(downspeedf) { if (!use_spacer) snprintf(p, p_max_size, "%.1f", obj->data.net-> recv_speed / 1024.0); else snprintf(p, 8, "%.1f ", obj->data.net-> recv_speed / 1024.0); } OBJ(downspeedgraph) { if (obj->data.net->recv_speed == 0) // this is just to make the ugliness at start go away obj->data.net->recv_speed = 0.01; new_graph(p, obj->a, obj->b, obj->c, obj->d, (obj->data.net->recv_speed / 1024.0), obj->e, 1); } OBJ( else ) { if (!if_jumped) { i = obj->data.ifblock.pos - 2; } else { if_jumped = 0; } } OBJ(endif) { if_jumped = 0; } #ifdef HAVE_POPEN OBJ(addr) { 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); } OBJ(linkstatus) { snprintf(p, p_max_size, "%d", obj->data.net->linkstatus); } OBJ(exec) { FILE *fp = popen(obj->data.s, "r"); int length = fread(p, 1, p_max_size, fp); (void) pclose(fp); /*output[length] = '\0'; if (length > 0 && output[length - 1] == '\n') { output[length - 1] = '\0'; }*/ p[length] = '\0'; if (length > 0 && p[length - 1] == '\n') { p[length - 1] = '\0'; } //parse_conky_vars(output, p, cur); } OBJ(execbar) { char *p2 = p; FILE *fp = popen(obj->data.s, "r"); int n2 = fread(p, 1, p_max_size, fp); (void) pclose(fp); p[n2] = '\0'; if (n2 && p[n2 - 1] == '\n') p[n2 - 1] = '\0'; while (*p2) { if (*p2 == '\001') *p2 = ' '; p2++; } double barnum; if (sscanf(p, "%lf", &barnum) == 0) { ERR("reading execbar value failed (perhaps it's not the correct format?)"); } if (barnum > 100 || barnum < 0) { ERR("your execbar value is not between 0 and 100, therefore it will be ignored"); } else { barnum = barnum / 100.0; new_bar(p, 0, 4, (int) (barnum * 255.0)); } } OBJ(execgraph) { char *p2 = p; FILE *fp = popen(obj->data.s, "r"); int n2 = fread(p, 1, p_max_size, fp); (void) pclose(fp); p[n2] = '\0'; if (n2 && p[n2 - 1] == '\n') p[n2 - 1] = '\0'; while (*p2) { if (*p2 == '\001') *p2 = ' '; p2++; } double barnum; if (sscanf(p, "%lf", &barnum) == 0) { ERR("reading execgraph value failed (perhaps it's not the correct format?)"); } if (barnum > 100 || barnum < 0) { ERR("your execgraph value is not between 0 and 100, therefore it will be ignored"); } else { new_graph(p, 0, 25, obj->c, obj->d, (int) (barnum), obj->e, 1); } } OBJ(execibar) { if (current_update_time - obj->data.execi.last_update < obj->data.execi.interval) { new_bar(p, 0, 4, (int) obj->f); } else { char *p2 = p; FILE *fp = popen(obj->data.execi.cmd, "r"); int n2 = fread(p, 1, p_max_size, fp); (void) pclose(fp); p[n2] = '\0'; if (n2 && p[n2 - 1] == '\n') p[n2 - 1] = '\0'; while (*p2) { if (*p2 == '\001') *p2 = ' '; p2++; } float barnum; if (sscanf(p, "%f", &barnum) == 0) { ERR("reading execibar value failed (perhaps it's not the correct format?)"); } if (barnum > 100 || barnum < 0) { ERR("your execibar value is not between 0 and 100, therefore it will be ignored"); } else { obj->f = 255 * barnum / 100.0; new_bar(p, 0, 4, (int) obj->f); } obj->data.execi.last_update = current_update_time; } } OBJ(execigraph) { if (current_update_time - obj->data.execi.last_update < obj->data.execi.interval) { new_graph(p, 0, 25, obj->c, obj->d, (int) (obj->f), 100, 0); } else { char *p2 = p; FILE *fp = popen(obj->data.execi.cmd, "r"); int n2 = fread(p, 1, p_max_size, fp); (void) pclose(fp); p[n2] = '\0'; if (n2 && p[n2 - 1] == '\n') p[n2 - 1] = '\0'; while (*p2) { if (*p2 == '\001') *p2 = ' '; p2++; } float barnum; if (sscanf(p, "%f", &barnum) == 0) { ERR("reading execigraph value failed (perhaps it's not the correct format?)"); } if (barnum > 100 || barnum < 0) { ERR("your execigraph value is not between 0 and 100, therefore it will be ignored"); } else { obj->f = barnum; new_graph(p, 0, 25, obj->c, obj->d, (int) (obj->f), 100, 1); } obj->data.execi.last_update = current_update_time; } } OBJ(execi) { if (current_update_time - obj->data.execi.last_update < obj->data.execi.interval || obj->data.execi.interval == 0) { snprintf(p, p_max_size, "%s", obj->data.execi.buffer); } else { char *output = obj->data.execi.buffer; FILE *fp = popen(obj->data.execi.cmd, "r"); //int length = fread(output, 1, TEXT_BUFFER_SIZE, fp); int length = fread(output, 1, TEXT_BUFFER_SIZE, fp); (void) pclose(fp); output[length] = '\0'; if (length > 0 && output[length - 1] == '\n') { output[length - 1] = '\0'; } obj->data.execi.last_update = current_update_time; snprintf(p, p_max_size, "%s", output); } //parse_conky_vars(output, p, cur); } OBJ(texeci) { if (current_update_time - obj->data.execi.last_update < obj->data.execi.interval) { snprintf(p, p_max_size, "%s", obj->data.execi.buffer); } else { if (!obj->data.execi.thread_info.thread && !pthread_mutex_trylock(&(obj->data.execi.thread_info.mutex))) { if (pthread_create(&(obj->data.execi.thread_info.thread), NULL, (void*)threaded_exec, (void*) obj)) { ERR("Error starting thread"); } // printf("thread is %i\n", (int)obj->data.execi.thread_info.thread); pthread_mutex_unlock(&(obj->data.execi.thread_info.mutex)); } snprintf(p, p_max_size, "%s", obj->data.execi.buffer); } if (!pthread_mutex_trylock(&(obj->data.execi.thread_info.mutex))) { obj->data.execi.thread_info.thread = (pthread_t)0; pthread_mutex_unlock(&(obj->data.execi.thread_info.mutex)); } //parse_conky_vars(obj->data.execi.buffer, p, cur); } #endif 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->avail, p, 255); } OBJ(fs_free_perc) { if (obj->data.fs != NULL) { if (obj->data.fs->size) snprintf(p, p_max_size, "%*d", pad_percents, (int) ((obj->data. fs-> avail * 100) / obj->data. fs->size)); else snprintf(p, p_max_size, "0"); } } OBJ(fs_size) { if (obj->data.fs != NULL) human_readable(obj->data.fs->size, p, 255); } 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) { if (obj->data.fs->size) snprintf(p, 4, "%d", 100 - ((int) ((obj-> data.fs-> avail * 100) / obj->data. fs-> size))); else snprintf(p, p_max_size, "0"); } } 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(hr) { new_hr(p, obj->data.i); } OBJ(offset) { new_offset(p, obj->data.i); } OBJ(voffset) { new_voffset(p, obj->data.i); } OBJ(i2c) { double r; r = get_i2c_info(&obj->data.i2c.fd, obj->data.i2c.arg, obj->data.i2c.devtype, obj->data.i2c.type); if (r >= 100.0 || r == 0) snprintf(p, p_max_size, "%d", (int) r); else snprintf(p, p_max_size, "%.1f", r); } OBJ(alignr) { new_alignr(p, obj->data.i); } OBJ(alignc) { new_alignc(p, obj->data.i); } OBJ(if_existing) { struct stat tmp; if ((obj->data.ifblock.s) && (stat(obj->data.ifblock.s, &tmp) == -1)) { i = obj->data.ifblock.pos; if_jumped = 1; } else { if_jumped = 0; } } OBJ(if_mounted) { if ((obj->data.ifblock.s) && (!check_mount(obj->data.ifblock.s))) { i = obj->data.ifblock.pos; if_jumped = 1; } else { if_jumped = 0; } } OBJ(if_running) { if ((obj->data.ifblock.s) && system(obj->data.ifblock.s)) { i = obj->data.ifblock.pos; if_jumped = 1; } else { if_jumped = 0; } } 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, 6); } OBJ(memmax) { human_readable(cur->memmax * 1024, p, 255); } OBJ(memperc) { if (cur->memmax) { if (!use_spacer) snprintf(p, p_max_size, "%*lu", pad_percents, (cur->mem * 100) / (cur->memmax)); else snprintf(p, 4, "%*lu ", pad_percents, (cur->mem * 100) / (cur->memmax)); } } 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); } /* mixer stuff */ OBJ(mixer) { snprintf(p, p_max_size, "%d", mixer_get_avg(obj->data.l)); } OBJ(mixerl) { snprintf(p, p_max_size, "%d", mixer_get_left(obj->data.l)); } OBJ(mixerr) { snprintf(p, p_max_size, "%d", mixer_get_right(obj->data.l)); } OBJ(mixerbar) { new_bar(p, obj->data.mixerbar.w, obj->data.mixerbar.h, mixer_get_avg(obj->data.mixerbar. l) * 255 / 100); } OBJ(mixerlbar) { new_bar(p, obj->data.mixerbar.w, obj->data.mixerbar.h, mixer_get_left(obj->data.mixerbar. l) * 255 / 100); } OBJ(mixerrbar) { new_bar(p, obj->data.mixerbar.w, obj->data.mixerbar.h, mixer_get_right(obj->data.mixerbar. l) * 255 / 100); } /* mail stuff */ OBJ(mails) { snprintf(p, p_max_size, "%d", cur->mail_count); } OBJ(new_mails) { snprintf(p, p_max_size, "%d", cur->new_mail_count); } #ifdef MLDONKEY OBJ(ml_upload_counter) { snprintf(p, p_max_size, "%lld", mlinfo.upload_counter / 1048576); } OBJ(ml_download_counter) { snprintf(p, p_max_size, "%lld", mlinfo.download_counter / 1048576); } OBJ(ml_nshared_files) { snprintf(p, p_max_size, "%i", mlinfo.nshared_files); } OBJ(ml_shared_counter) { snprintf(p, p_max_size, "%lld", mlinfo.shared_counter / 1048576); } OBJ(ml_tcp_upload_rate) { snprintf(p, p_max_size, "%.2f", (float) mlinfo.tcp_upload_rate / 1024); } OBJ(ml_tcp_download_rate) { snprintf(p, p_max_size, "%.2f", (float) mlinfo.tcp_download_rate / 1024); } OBJ(ml_udp_upload_rate) { snprintf(p, p_max_size, "%.2f", (float) mlinfo.udp_upload_rate / 1024); } OBJ(ml_udp_download_rate) { snprintf(p, p_max_size, "%.2f", (float) mlinfo.udp_download_rate / 1024); } OBJ(ml_ndownloaded_files) { snprintf(p, p_max_size, "%i", mlinfo.ndownloaded_files); } OBJ(ml_ndownloading_files) { snprintf(p, p_max_size, "%i", mlinfo.ndownloading_files); } #endif OBJ(nodename) { snprintf(p, p_max_size, "%s", cur->uname_s.nodename); } OBJ(outlinecolor) { new_outline(p, obj->data.l); } OBJ(processes) { if (!use_spacer) snprintf(p, p_max_size, "%hu", cur->procs); else snprintf(p, 5, "%hu ", cur->procs); } OBJ(running_processes) { if (!use_spacer) snprintf(p, p_max_size, "%hu", cur->run_procs); else snprintf(p, 3, "%hu ", 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", 255); } else { if (!use_spacer) snprintf(p, 255, "%*lu", pad_percents, (cur->swap * 100) / cur->swapmax); else snprintf(p, 4, "%*lu ", pad_percents, (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(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(upspeed) { if (!use_spacer) snprintf(p, p_max_size, "%d", (int) (obj->data.net-> trans_speed / 1024)); else snprintf(p, 5, "%d ", (int) (obj->data.net-> trans_speed / 1024)); } OBJ(upspeedf) { if (!use_spacer) snprintf(p, p_max_size, "%.1f", obj->data.net-> trans_speed / 1024.0); else snprintf(p, 8, "%.1f ", obj->data.net-> trans_speed / 1024.0); } OBJ(upspeedgraph) { if (obj->data.net->trans_speed == 0) // this is just to make the ugliness at start go away obj->data.net->trans_speed = 0.01; new_graph(p, obj->a, obj->b, obj->c, obj->d, (obj->data.net->trans_speed / 1024.0), obj->e, 1); } OBJ(uptime_short) { format_seconds_short(p, p_max_size, (int) cur->uptime); } OBJ(uptime) { format_seconds(p, p_max_size, (int) cur->uptime); } #if defined(__FreeBSD__) && (defined(i386) || defined(__i386__)) OBJ(apm_adapter) { snprintf(p, p_max_size, "%s", get_apm_adapter()); } 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__ */ #ifdef SETI OBJ(seti_prog) { snprintf(p, p_max_size, "%.2f", cur->seti_prog * 100.0f); } OBJ(seti_progbar) { new_bar(p, obj->data.pair.a, obj->data.pair.b, (int) (cur->seti_prog * 255.0f)); } OBJ(seti_credit) { snprintf(p, p_max_size, "%.0f", cur->seti_credit); } #endif #ifdef MPD OBJ(mpd_title) { snprintf(p, p_max_size, "%s", cur->mpd.title); } OBJ(mpd_artist) { snprintf(p, p_max_size, "%s", cur->mpd.artist); } OBJ(mpd_album) { snprintf(p, p_max_size, "%s", cur->mpd.album); } OBJ(mpd_random) { snprintf(p, p_max_size, "%s", cur->mpd.random); } OBJ(mpd_repeat) { snprintf(p, p_max_size, "%s", cur->mpd.repeat); } OBJ(mpd_track) { snprintf(p, p_max_size, "%s", cur->mpd.track); } OBJ(mpd_vol) { snprintf(p, p_max_size, "%i", cur->mpd.volume); } OBJ(mpd_bitrate) { snprintf(p, p_max_size, "%i", cur->mpd.bitrate); } OBJ(mpd_status) { snprintf(p, p_max_size, "%s", cur->mpd.status); } OBJ(mpd_elapsed) { int days = 0, hours = 0, minutes = 0, seconds = 0; int tmp = cur->mpd.elapsed; while (tmp >= 86400) { tmp -= 86400; days++; } while (tmp >= 3600) { tmp -= 3600; hours++; } while (tmp >= 60) { tmp -= 60; minutes++; } seconds = tmp; if (days > 0) snprintf(p, p_max_size, "%i days %i:%02i:%02i", days, hours, minutes, seconds); else if (hours > 0) snprintf(p, p_max_size, "%i:%02i:%02i", hours, minutes, seconds); else snprintf(p, p_max_size, "%i:%02i", minutes, seconds); } OBJ(mpd_length) { int days = 0, hours = 0, minutes = 0, seconds = 0; int tmp = cur->mpd.length; while (tmp >= 86400) { tmp -= 86400; days++; } while (tmp >= 3600) { tmp -= 3600; hours++; } while (tmp >= 60) { tmp -= 60; minutes++; } seconds = tmp; if (days > 0) snprintf(p, p_max_size, "%i days %i:%02i:%02i", days, hours, minutes, seconds); else if (hours > 0) snprintf(p, p_max_size, "%i:%02i:%02i", hours, minutes, seconds); else snprintf(p, p_max_size, "%i:%02i", minutes, seconds); } OBJ(mpd_percent) { snprintf(p, p_max_size, "%2.0f", cur->mpd.progress * 100); } OBJ(mpd_bar) { new_bar(p, obj->data.pair.a, obj->data.pair.b, (int) (cur->mpd.progress * 255.0f)); } #endif #if defined(XMMS) || defined(BMP) || defined(AUDACIOUS) || defined(INFOPIPE) OBJ(xmms_status) { snprintf(p, p_max_size, "%s", cur->xmms.items[XMMS_STATUS]); } OBJ(xmms_title) { snprintf(p, p_max_size, "%s", cur->xmms.items[XMMS_TITLE]); } OBJ(xmms_length) { snprintf(p, p_max_size, "%s", cur->xmms.items[XMMS_LENGTH]); } OBJ(xmms_length_seconds) { snprintf(p, p_max_size, "%s", cur->xmms.items[XMMS_LENGTH_SECONDS]); } OBJ(xmms_position) { snprintf(p, p_max_size, "%s", cur->xmms.items[XMMS_POSITION]); } OBJ(xmms_position_seconds) { snprintf(p, p_max_size, "%s", cur->xmms.items[XMMS_POSITION_SECONDS]); } OBJ(xmms_bitrate) { snprintf(p, p_max_size, "%s", cur->xmms.items[XMMS_BITRATE]); } OBJ(xmms_frequency) { snprintf(p, p_max_size, "%s", cur->xmms.items[XMMS_FREQUENCY]); } OBJ(xmms_channels) { snprintf(p, p_max_size, "%s", cur->xmms.items[XMMS_CHANNELS]); } OBJ(xmms_filename) { snprintf(p, p_max_size, "%s", cur->xmms.items[XMMS_FILENAME]); } OBJ(xmms_playlist_length) { snprintf(p, p_max_size, "%s", cur->xmms.items[XMMS_PLAYLIST_LENGTH]); } OBJ(xmms_playlist_position) { snprintf(p, p_max_size, "%s", cur->xmms.items[XMMS_PLAYLIST_POSITION]); } OBJ(xmms_bar) { double progress; progress= atof(cur->xmms.items[XMMS_POSITION_SECONDS]) / atof(cur->xmms.items[XMMS_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 OBJ(top) { if (obj->data.top.type == TOP_NAME && obj->data.top.num >= 0 && obj->data.top.num < 10) { // if we limit the buffer and add a bunch of space after, it stops the thing from // moving other shit around, which is really fucking annoying snprintf(p, 17, "%s ", cur->cpu[obj->data.top.num]->name); } else if (obj->data.top.type == TOP_CPU && obj->data.top.num >= 0 && obj->data.top.num < 10) { snprintf(p, 7, "%3.2f ", cur->cpu[obj->data.top. num]->amount); } else if (obj->data.top.type == TOP_PID && obj->data.top.num >= 0 && obj->data.top.num < 10) { snprintf(p, 8, "%i ", cur->cpu[obj->data.top. num]->pid); } else if (obj->data.top.type == TOP_MEM && obj->data.top.num >= 0 && obj->data.top.num < 10) { snprintf(p, 7, "%3.2f ", cur->cpu[obj->data.top. num]->totalmem); } } OBJ(top_mem) { if (obj->data.top.type == TOP_NAME && obj->data.top.num >= 0 && obj->data.top.num < 10) { // if we limit the buffer and add a bunch of space after, it stops the thing from // moving other shit around, which is really fucking annoying snprintf(p, 17, "%s ", cur->memu[obj->data.top. num]->name); } else if (obj->data.top.type == TOP_CPU && obj->data.top.num >= 0 && obj->data.top.num < 10) { snprintf(p, 7, "%3.2f ", cur->memu[obj->data.top. num]->amount); } else if (obj->data.top.type == TOP_PID && obj->data.top.num >= 0 && obj->data.top.num < 10) { snprintf(p, 8, "%i ", cur->memu[obj->data.top. num]->pid); } else if (obj->data.top.type == TOP_MEM && obj->data.top.num >= 0 && obj->data.top.num < 10) { snprintf(p, 7, "%3.2f ", cur->memu[obj->data.top. num]->totalmem); } } OBJ(tail) { if (current_update_time -obj->data.tail.last_update < obj->data.tail.interval) { snprintf(p, p_max_size, "%s", obj->data.tail.buffer); } else { obj->data.tail.last_update = current_update_time; FILE *fp; int i; int added = 0; tailstring *head = NULL; tailstring *headtmp = NULL; tailstring *freetmp = NULL; fp = fopen(obj->data.tail.logfile, "rt"); if (fp == NULL) { ERR("tail logfile failed to open"); } else { obj->data.tail.readlines = 0; while (fgets(obj->data.tail.buffer, TEXT_BUFFER_SIZE*20, fp) != NULL) { if (added >= 30) { freelasttail(head); } else { added++; } addtail(&head, obj->data.tail.buffer); obj->data.tail.readlines++; } fclose(fp); freetmp = head; if (obj->data.tail.readlines > 0) { for (i = 0;i < obj->data.tail.wantedlines + 1 && i < obj->data.tail.readlines; i++) { addtail(&headtmp, head->data); head = head->next; } freetail(freetmp); freetmp = headtmp; strcpy(obj->data.tail.buffer, headtmp->data); headtmp = headtmp->next; for (i = 1;i < obj->data.tail.wantedlines + 1 && i < obj->data.tail.readlines; i++) { if (headtmp) { strncat(obj->data.tail.buffer, headtmp->data, (TEXT_BUFFER_SIZE * 20) - strlen(obj->data.tail.buffer)); /* without strlen() at the end this becomes a possible */ headtmp = headtmp->next; } } /* get rid of any ugly newlines at the end */ if (obj->data.tail.buffer[strlen(obj->data.tail.buffer)-1] == '\n') { obj->data.tail.buffer[strlen(obj->data.tail.buffer)-1] = '\0'; } snprintf(p, p_max_size, "%s", obj->data.tail.buffer); freetail(freetmp); } else { strcpy(obj->data.tail.buffer, "Logfile Empty"); snprintf(p, p_max_size, "Logfile Empty"); } /* if readlines */ } /* fp == NULL */ } /* if cur_upd_time >= */ //parse_conky_vars(obj->data.tail.buffer, p, cur); } OBJ(head) { if (current_update_time -obj->data.tail.last_update < obj->data.tail.interval) { snprintf(p, p_max_size, "%s", obj->data.tail.buffer); } else { obj->data.tail.last_update = current_update_time; FILE *fp; tailstring *head = NULL; tailstring *headtmp = NULL; tailstring *freetmp = NULL; fp = fopen(obj->data.tail.logfile, "rt"); if (fp == NULL) { ERR("head logfile failed to open"); } else { obj->data.tail.readlines = 0; while (fgets(obj->data.tail.buffer, TEXT_BUFFER_SIZE*20, fp) != NULL && obj->data.tail.readlines <= obj->data.tail.wantedlines) { addtail(&head, obj->data.tail.buffer); obj->data.tail.readlines++; } fclose(fp); freetmp = head; if (obj->data.tail.readlines > 0) { while (head) { addtail(&headtmp, head->data); head = head->next; } freetail(freetmp); freetmp = headtmp; strcpy(obj->data.tail.buffer, headtmp->data); headtmp = headtmp->next; while (headtmp) { strncat(obj->data.tail.buffer, headtmp->data, (TEXT_BUFFER_SIZE * 20) - strlen(obj->data.tail.buffer)); /* without strlen() at the end this becomes a possible */ headtmp = headtmp->next; } freetail(freetmp); /* get rid of any ugly newlines at the end */ if (obj->data.tail.buffer[strlen(obj->data.tail.buffer)-1] == '\n') { obj->data.tail.buffer[strlen(obj->data.tail.buffer)-1] = '\0'; } snprintf(p, p_max_size, "%s", obj->data.tail.buffer); } else { strcpy(obj->data.tail.buffer, "Logfile Empty"); snprintf(p, p_max_size, "Logfile Empty"); } /* if readlines > 0 */ } /* if fp == null */ } /* cur_upd_time >= */ //parse_conky_vars(obj->data.tail.buffer, p, cur); } #ifdef TCP_PORT_MONITOR OBJ(tcp_portmon) { /* grab a pointer to this port monitor */ tcp_port_monitor_t * p_monitor = find_tcp_port_monitor( info.p_tcp_port_monitor_collection, obj->data.tcp_port_monitor.port_range_begin, obj->data.tcp_port_monitor.port_range_end ); if ( !p_monitor ) { snprintf(p, p_max_size, "monitor not found"); break; } /* now grab the text of interest */ if ( peek_tcp_port_monitor( p_monitor, obj->data.tcp_port_monitor.item, obj->data.tcp_port_monitor.connection_index, p, p_max_size ) != 0 ) { snprintf(p, p_max_size, "monitor peek error"); break; } } #endif break; } { unsigned int a = strlen(p); p += a; p_max_size -= a; } } } double current_update_time, last_update_time; static void generate_text() { struct information *cur = &info; char *p; special_count = 0; /* update info */ current_update_time = get_time(); update_stuff(cur); /* add things to the buffer */ /* generate text */ p = text_buffer; generate_text_internal(p, P_MAX_SIZE, text_objects, text_object_count, cur); if (stuff_in_upper_case) { char *p; p = text_buffer; while (*p) { *p = toupper(*p); p++; } } last_update_time = current_update_time; total_updates++; //free(p); } #ifdef X11 static void set_font() { #ifdef XFT if (use_xft) { if (window.xftdraw != NULL) { XftDrawDestroy(window.xftdraw); } window.xftdraw = XftDrawCreate(display, window.drawable, DefaultVisual(display, screen), DefaultColormap(display, screen)); } else #endif { XSetFont(display, window.gc, fonts[selected_font].font->fid); } } /* * text size */ static int text_start_x, text_start_y; /* text start position in window */ static int text_width, text_height; #endif /* X11 */ static inline int get_string_width(const char *s) { #ifdef X11 return *s ? calc_text_width(s, strlen(s)) : 0; #else return strlen(s); #endif /* X11 */ } static inline int get_string_width_special(char *s) { if (!s) { return 0; } #ifdef X11 char *p, *final; p = strdup(s); final = p; int index = 1; int width = 0; unsigned int i; 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 < strlen(p); i++) { *(p + i) = *(p + i + 1); } if (specials[special_index+index].type == GRAPH || specials[special_index+index].type == BAR) { width += specials[special_index+index].width; } index++; } else { p++; } } if (strlen(final) > 1) { width += calc_text_width(final, strlen(final)); } free(final); return width; #else return strlen(s); #endif /* X11 */ } int fontchange = 0; #ifdef X11 static void text_size_updater(char *s) { int w = 0; char *p; int h = font_height(); /* 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 == GRAPH) { w += specials[special_index].width; if (specials[special_index].height > h) { h = specials[special_index].height; h += font_ascent(); } } else if (specials[special_index].type == OFFSET) { w += specials[special_index].arg + get_string_width("a"); /* filthy, but works */ } else if (specials[special_index].type == VOFFSET) { h += specials[special_index].arg; } else if (specials[special_index].type == FONT) { fontchange = specials[special_index].font_added; selected_font = specials[special_index].font_added; h = 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 += h; if (fontchange) { selected_font = 0; } } #endif /* X11 */ #ifdef X11 static void update_text_area() { int x, y; /* 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; 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; 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; #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 */ static int draw_mode; /* FG, BG or OUTLINE */ static long current_color; static inline void set_foreground_color(long c) { current_color = c; XSetForeground(display, window.gc, c); } #endif /* X11 */ static void draw_string(const char *s) { if (s[0] == '\0') return; int i, i2, pos, width_of_s; int max=0; int added; width_of_s = get_string_width(s); if (out_to_console) { printf("%s\n", s); fflush(stdout); /* output immediately, don't buffer */ } /* daemon_run(s); the daemon can be called here, but we need to have a buffer in daemon_run() and we need to tell it when everything is ready to be sent */ memset(tmpstring1,0,TEXT_BUFFER_SIZE); memset(tmpstring2,0,TEXT_BUFFER_SIZE); strncpy(tmpstring1, s, TEXT_BUFFER_SIZE-1); pos = 0; added = 0; char space[2]; snprintf(space, 2, " "); #ifdef X11 max = ((text_width - width_of_s) / get_string_width(space)); #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 < TEXT_BUFFER_SIZE; i++) { if (tmpstring1[i] == '\t') // 9 is ascii tab { i2 = 0; for (i2 = 0; i2 < (8 - (1 + pos) % 8) && added <= max; i2++) { /* if ( pos + i2 > TEXT_BUFFER_SIZE-1 ) fprintf(stderr,"buffer overrun detected\n"); */ tmpstring2[ MIN(pos + i2, TEXT_BUFFER_SIZE-1) ] = ' '; /* guard against overrun */ added++; } pos += i2; } else { if (tmpstring1[i] != 9) { /* if ( pos > TEXT_BUFFER_SIZE-1 ) fprintf(stderr,"buffer overrun detected\n"); */ tmpstring2[ MIN(pos, TEXT_BUFFER_SIZE-1) ] = tmpstring1[i]; /* guard against overrun */ pos++; } } } #ifdef X11 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 #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, (XftChar8 *) s, strlen(s)); } else { XftDrawString8(window.xftdraw, &c2, fonts[selected_font].xftfont, cur_x, cur_y, (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); } long redmask, greenmask, bluemask; void set_up_gradient() { #ifdef X11 colour_depth = DisplayPlanes(display, screen); #else colour_depth = 16; #endif /* X11 */ if (colour_depth != 24 && colour_depth != 16) { ERR("using non-standard colour depth, gradients may look like a lolly-pop"); } int i; redmask = 0; greenmask = 0; bluemask = 0; for(i = (colour_depth / 3)-1; i>=0; i--) { redmask |= 1 << i; greenmask |= 1 << i; bluemask |= 1 << i; } if (colour_depth%3 == 1) { greenmask |= 1 << (colour_depth / 3); } redmask = redmask << (2*colour_depth / 3 + colour_depth%3); greenmask = greenmask << (colour_depth / 3); } inline unsigned long do_gradient(unsigned long first_colour, unsigned long last_colour) { /* this function returns the next colour between two colours for a gradient */ int tmp_color = 0; int red1, green1, blue1; // first colour int red2, green2, blue2; // second colour int red3 = 0, green3 = 0, blue3 = 0; // difference short redshift = (2*colour_depth / 3 + colour_depth%3); short greenshift = (colour_depth / 3); red1 = (first_colour & redmask) >> redshift; green1 = (first_colour & greenmask) >> greenshift; blue1 = first_colour & bluemask; red2 = (last_colour & redmask) >> redshift; green2 = (last_colour & greenmask) >> greenshift; blue2 = last_colour & bluemask; if (red1 > red2) { red3 = -1; } if (red1 < red2) { red3 = 1; } if (green1 > green2) { green3 = -1; } if (green1 < green2) { green3 = 1; } if (blue1 > blue2) { blue3 = -1; } if (blue1 < blue2) { blue3 = 1; } red1 += red3; green1 += green3; blue1 += blue3; if (red1 < 0) { red1 = 0; } if (green1 < 0) { green1 = 0; } if (blue1 < 0) { blue1 = 0; } if (red1 > bluemask) { red1 = bluemask; } if (green1 > bluemask) { green1 = bluemask; } if (blue1 > bluemask) { blue1 = bluemask; } tmp_color = (red1 << redshift) | (green1 << greenshift) | blue1; return tmp_color; } inline unsigned long gradient_max(unsigned long first_colour, unsigned long last_colour) { /* this function returns the max diff for a gradient */ if (colour_depth == 0) { set_up_gradient(); } int red1, green1, blue1; // first colour int red2, green2, blue2; // second colour long redshift = (2*colour_depth / 3 + colour_depth%3); long greenshift = (colour_depth / 3); int red3 = 0, green3 = 0, blue3 = 0; // difference red1 = (first_colour & redmask) >> redshift; green1 = (first_colour & greenmask) >> greenshift; blue1 = first_colour & bluemask; red2 = (last_colour & redmask) >> redshift; green2 = (last_colour & greenmask) >> greenshift; blue2 = last_colour & bluemask; red3 = abs(red1 - red2); green3 = abs(green1 - green2); blue3 = abs(blue1 - blue2); int max = red3; if (green3 > max) max = green3; if (blue3 > max) max = blue3; return max; } static void draw_line(char *s) { #ifdef X11 char *p; cur_x = text_start_x; cur_y += font_ascent(); int cur_y_add = 0; short 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 s = specials[special_index].arg; int mid = font_ascent() / 2; char ss[2] = { s, 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: { if (cur_x - text_start_x > maximum_width && maximum_width > 0) { break; } int h = specials[special_index].height; int bar_usage = specials[special_index].arg; int by; #ifdef XFT if (use_xft) { by = cur_y - (font_ascent() + h) / 2 - 1; } else #endif { by = cur_y - (font_ascent()/2) - 1; } if (h < (font_height())) { 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 (specials[special_index]. height > cur_y_add && specials[special_index]. height > font_h) { cur_y_add = specials [special_index].height; } } break; case GRAPH: { if (cur_x - text_start_x > maximum_width && maximum_width > 0) { break; } int h = specials[special_index].height; int by; #ifdef XFT if (use_xft) { by = cur_y - (font_ascent() + h) / 2 - 1; } else #endif { by = cur_y - (font_ascent()/2) - 1; } if (h < (font_height())) { 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); int i; int j = 0; int gradient_size = 0; float gradient_factor = 0; float gradient_update = 0; unsigned long tmpcolour = current_color; if (specials[special_index].last_colour != specials[special_index].first_colour) { 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 - 3); } for (i = w - 3; i > 0; i--) { if (specials[special_index].last_colour != specials[special_index].first_colour) { 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 - 3 - i) / ((float) (w - 3) / (specials[special_index].graph_width)) > j) { j++; } XDrawLine(display, window.drawable, window.gc, cur_x + i + 2, by + h, cur_x + i + 2, by + h - specials[special_index].graph[j] * (h - 1) / specials[special_index].graph_scale); /* this is mugfugly, but it works */ } if (specials[special_index]. height > cur_y_add && specials[special_index]. height > font_h) { cur_y_add = specials [special_index].height; } } 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); } break; case FONT: if (fontchange) { cur_y -= font_ascent(); selected_font = specials[special_index].font_added; cur_y += font_ascent(); #ifdef XFT if (!use_xft || use_xdbe) #endif { set_font(); } } 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 ALIGNR: { int pos_x = text_start_x + text_width - get_string_width_special(s) /*+ border_margin*/; /*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++; } #else draw_string(s); #endif #ifdef X11 if (cur_y_add > 0) { cur_y += cur_y_add; cur_y -= font_descent(); } draw_string(s); cur_y += font_descent(); if (fontchange) { selected_font = 0; } #endif /* X11 */ } static void draw_text() { #ifdef X11 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() { #ifdef X11 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; 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); draw_mode = FG; #endif /* X11 */ draw_text(); #ifdef X11 #ifdef XDBE if (use_xdbe) { XdbeSwapInfo swap; swap.swap_window = window.window; swap.swap_action = XdbeBackground; XdbeSwapBuffers(display, &swap, 1); } #endif #endif /* X11 */ } #ifdef X11 static void clear_text(int exposures) { #ifdef XDBE if (use_xdbe) { return; /* The swap action is XdbeBackground, which clears */ } else #endif { /* there is some extra space for borders and outlines */ XClearArea(display, window.drawable, 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() { generate_text(); #ifdef X11 clear_text(1); #endif /* X11 */ need_to_update = 1; } static void main_loop() { #ifdef SIGNAL_BLOCKING sigset_t newmask, oldmask; sigemptyset(&newmask); sigaddset(&newmask,SIGINT); sigaddset(&newmask,SIGTERM); sigaddset(&newmask,SIGUSR1); #endif #ifdef X11 Region region = XCreateRegion(); #endif /* X11 */ info.looped = 0; while (total_run_times == 0 || info.looped < total_run_times - 1) { 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 XFlush(display); /* wait for X event or timeout */ if (!XPending(display)) { fd_set fdsr; struct timeval tv; int s; double t = update_interval - (get_time() - last_update_time); if (t < 0) t = 0; 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); #else usleep(update_interval*1000000); /* FIXME just sleep for the interval time if no X11 */ #endif /* X11 */ #ifdef X11 if (s == -1) { if (errno != EINTR) ERR("can't select(): %s", strerror(errno)); } else { /* timeout */ if (s == 0) #endif /* X11 */ update_text(); #ifdef X11 } #ifdef OWN_WINDOW if (own_window) { set_transparent_background(window.window); } #endif } if (need_to_update) { #ifdef OWN_WINDOW int wx = window.x, wy = window.y; #endif need_to_update = 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 != window.width || text_height + border_margin * 2 != 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); } /* 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 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 */ /*if (total_updates >= 2 this is broken && !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; #endif default: break; } } /* 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 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 #endif /* X11 */ draw_stuff(); #ifdef X11 XDestroyRegion(region); region = XCreateRegion(); } #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 SIGUSR1: { ERR("received SIGUSR1. reloading the config file."); reload_config(); break; } case SIGINT: case SIGTERM: { ERR("received SIGINT or SIGTERM to terminate. bye!"); clean_up(); #ifdef X11 XDestroyRegion(region); region = NULL; #endif /* X11 */ 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; } #ifdef X11 XDestroyRegion(region); region = NULL; #endif /* X11 */ } static void load_config_file(const char *); /* reload the config file */ void reload_config(void) { lock_all_threads(); #if defined(XMMS) || defined(BMP) || defined(AUDACIOUS) || defined(INFOPIPE) if (info.xmms.thread) { if (destroy_xmms_thread()!=0) { ERR("error destroying xmms_player thread"); } } #endif #ifdef TCP_PORT_MONITOR destroy_tcp_port_monitor_collection( info.p_tcp_port_monitor_collection ); #endif if (current_config) { clear_fs_stats(); load_config_file(current_config); #ifdef X11 load_fonts(); set_font(); XClearWindow(display, RootWindow(display, screen)); // clear the window first #endif /* X11 */ #ifdef TCP_PORT_MONITOR info.p_tcp_port_monitor_collection = NULL; #endif #if defined(XMMS) || defined(BMP) || defined(AUDACIOUS) || defined(INFOPIPE) if ( (!info.xmms.thread) && (info.xmms.current_project > PROJECT_NONE) && (create_xmms_thread() !=0) ) { CRIT_ERR("unable to create xmms_player thread!"); } #endif extract_variable_text(text); free(text); text = NULL; update_text(); } thread_count = 0; } void clean_up(void) { lock_all_threads(); #ifdef X11 #ifdef XDBE if (use_xdbe) { XdbeDeallocateBackBufferName(display, window.back_buffer); } #endif #ifdef OWN_WINDOW if (own_window) XDestroyWindow(display, window.window); else #endif { XClearWindow(display, RootWindow(display, screen)); clear_text(1); XFlush(display); } XFreeGC(display, window.gc); #endif /* X11 */ /* it is really pointless to free() memory at the end of program but ak|ra * wants me to do this */ free_text_objects(text_object_count, text_objects); text_object_count = 0; text_objects = NULL; #ifdef MLDONKEY ml_cleanup(); #endif /* MLDONKEY */ if (text != original_text) free(text); free(current_config); free(current_mail_spool); #ifdef SETI free(seti_dir); #endif #ifdef TCP_PORT_MONITOR destroy_tcp_port_monitor_collection( info.p_tcp_port_monitor_collection ); info.p_tcp_port_monitor_collection = NULL; #endif #if defined(XMMS) || defined(BMP) || defined(AUDACIOUS) || defined(INFOPIPE) if ( info.xmms.thread && (destroy_xmms_thread()!=0) ) { ERR("error destroying xmms_player thread"); } #endif } static int string_to_bool(const char *s) { if (!s) return 1; if (strcasecmp(s, "yes") == 0) return 1; if (strcasecmp(s, "true") == 0) return 1; if (strcasecmp(s, "1") == 0) return 1; return 0; } #ifdef X11 static enum alignment string_to_alignment(const char *s) { if (strcasecmp(s, "top_left") == 0) return TOP_LEFT; else if (strcasecmp(s, "top_right") == 0) return TOP_RIGHT; else if (strcasecmp(s, "bottom_left") == 0) return BOTTOM_LEFT; else if (strcasecmp(s, "bottom_right") == 0) return BOTTOM_RIGHT; else if (strcasecmp(s, "tl") == 0) return TOP_LEFT; else if (strcasecmp(s, "tr") == 0) return TOP_RIGHT; else if (strcasecmp(s, "bl") == 0) return BOTTOM_LEFT; else if (strcasecmp(s, "br") == 0) return BOTTOM_RIGHT; else if (strcasecmp(s, "none") == 0) return NONE; return TOP_LEFT; } #endif /* X11 */ static void set_default_configurations(void) { fork_to_background = 0; total_run_times = 0; info.cpu_avg_samples = 2; info.net_avg_samples = 2; info.memmax = 0; top_cpu = 0; top_mem = 0; #ifdef MPD strcpy(info.mpd.host, "localhost"); info.mpd.port = 6600; info.mpd.status = "Checking status..."; #endif use_spacer = 0; #ifdef X11 out_to_console = 0; #else out_to_console = 1; #endif #ifdef X11 default_fg_color = WhitePixel(display, screen); default_bg_color = BlackPixel(display, screen); default_out_color = BlackPixel(display, screen); draw_shades = 1; draw_borders = 0; draw_graph_borders = 1; draw_outline = 0; set_first_font("6x10"); gap_x = 5; gap_y = 5; minimum_width = 5; minimum_height = 5; maximum_width = 0; #ifdef OWN_WINDOW own_window = 0; strcpy(wm_class_name, "conky"); #endif stippled_borders = 0; border_margin = 3; border_width = 1; text_alignment = BOTTOM_LEFT; on_bottom = 1; #endif /* X11 */ free(current_mail_spool); { char buf[256]; variable_substitute(MAIL_FILE, buf, 256); if (buf[0] != '\0') current_mail_spool = strdup(buf); } no_buffers = 1; update_interval = 10.0; stuff_in_upper_case = 0; #ifdef MLDONKEY mlconfig.mldonkey_hostname = strdup("127.0.0.1"); mlconfig.mldonkey_port = 4001; mlconfig.mldonkey_login = NULL; mlconfig.mldonkey_password = NULL; #endif #ifdef TCP_PORT_MONITOR tcp_port_monitor_collection_args.min_port_monitors = MIN_PORT_MONITORS_DEFAULT; tcp_port_monitor_args.min_port_monitor_connections = MIN_PORT_MONITOR_CONNECTIONS_DEFAULT; #endif #if defined(XMMS) || defined(BMP) || defined(AUDACIOUS) || defined(INFOPIPE) info.xmms.current_project=PROJECT_NONE; #endif } static void load_config_file(const char *f) { #define CONF_ERR ERR("%s: %d: config file error", f, line) int line = 0; FILE *fp; set_default_configurations(); fp = fopen(f, "r"); if (!fp) return; while (!feof(fp)) { char buf[256], *p, *p2, *name, *value; line++; if (fgets(buf, 256, fp) == NULL) break; p = buf; /* break at comment */ p2 = strchr(p, '#'); if (p2) *p2 = '\0'; /* skip spaces */ while (*p && isspace((int) *p)) p++; if (*p == '\0') 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; } #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) #ifdef X11 CONF2("alignment") { if (value) { int a = string_to_alignment(value); if (a <= 0) CONF_ERR; else text_alignment = a; } else CONF_ERR; } CONF("on_bottom") { if(value) on_bottom = string_to_bool(value); 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("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; } CONF("default_color") { if (value) default_fg_color = get_x11_color(value); else CONF_ERR; } CONF3("default_shade_color", "default_shadecolor") { if (value) default_bg_color = get_x11_color(value); else CONF_ERR; } CONF3("default_outline_color", "default_outlinecolor") { if (value) default_out_color = get_x11_color(value); else CONF_ERR; } #endif /* X11 */ #if defined(XMMS) || defined(BMP) || defined(AUDACIOUS) || defined(INFOPIPE) CONF("xmms_player") { if (value) { if (strncmp(value,"none",4)==0) info.xmms.current_project=PROJECT_NONE; else if (strncmp(value,"xmms",4)==0) info.xmms.current_project=PROJECT_XMMS; else if (strncmp(value,"bmp",3)==0) info.xmms.current_project=PROJECT_BMP; else if (strncmp(value,"audacious",9)==0) info.xmms.current_project=PROJECT_AUDACIOUS; else if (strncmp(value,"infopipe",8)==0) info.xmms.current_project=PROJECT_INFOPIPE; else CONF_ERR; } else CONF_ERR; } #endif #ifdef MPD CONF("mpd_host") { if (value) strcpy(info.mpd.host, value); else CONF_ERR; } CONF("mpd_port") { if (value) { info.mpd.port = strtol(value, 0, 0); if (info.mpd.port < 1 || info.mpd.port > 0xffff) 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; } #ifdef 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") { out_to_console = string_to_bool(value); } CONF("use_spacer") { use_spacer = string_to_bool(value); } #ifdef X11 #ifdef XFT CONF("use_xft") { use_xft = string_to_bool(value); } CONF("font") { if (value) { set_first_font(value); } else CONF_ERR; } CONF("xftalpha") { if (value && font_count >= 0) fonts[0].font_alpha = atof(value) * 65535.0; else CONF_ERR; } 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); } else CONF_ERR; #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 buf[256]; variable_substitute(value, buf, 256); if (buf[0] != '\0') { if (current_mail_spool) free(current_mail_spool); current_mail_spool = strdup(buf); } } 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); } #ifdef MLDONKEY CONF("mldonkey_hostname") { if (value) { if (mlconfig.mldonkey_hostname != NULL) { free(mlconfig.mldonkey_hostname); } mlconfig.mldonkey_hostname = strdup(value); } else CONF_ERR; } CONF("mldonkey_port") { if (value) mlconfig.mldonkey_port = atoi(value); else CONF_ERR; } CONF("mldonkey_login") { if (value) { if (mlconfig.mldonkey_login != NULL) { free(mlconfig.mldonkey_login); } mlconfig.mldonkey_login = strdup(value); } else CONF_ERR; } CONF("mldonkey_password") { if (value) { if (mlconfig.mldonkey_password != NULL) { free(mlconfig.mldonkey_password); } mlconfig.mldonkey_password = strdup(value); } else CONF_ERR; } #endif CONF("pad_percents") { pad_percents = atoi(value); } #ifdef X11 #ifdef OWN_WINDOW CONF("own_window") { own_window = string_to_bool(value); } CONF("wm_class_name") { strncpy(wm_class_name, value, sizeof(wm_class_name)-1); wm_class_name[sizeof(wm_class_name)-1] = 0; } CONF("own_window_transparent") { set_transparent = string_to_bool(value); } CONF("own_window_colour") { background_colour = get_x11_color(value); } #endif CONF("stippled_borders") { if (value) stippled_borders = strtol(value, 0, 0); else stippled_borders = 4; } #endif /* X11 */ CONF("temp1") { ERR("temp1 configuration is obsolete, use ${i2c temp 1}"); } CONF("temp1") { ERR("temp2 configuration is obsolete, use ${i2c temp 2}"); } CONF("update_interval") { if (value) update_interval = strtod(value, 0); else CONF_ERR; } 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); } #ifdef SETI CONF("seti_dir") { seti_dir = (char *) malloc(strlen(value) + 1); strcpy(seti_dir, value); } #endif CONF("text") { if (text != original_text) free(text); text = (char *) malloc(1); text[0] = '\0'; while (!feof(fp)) { unsigned int l = strlen(text); if (fgets(buf, 256, fp) == NULL) break; text = (char *) realloc(text, l + strlen(buf) + 1); strcat(text, buf); if (strlen(text) > 1024 * 8) break; } fclose(fp); return; } #ifdef TCP_PORT_MONITOR CONF("min_port_monitors") { if ( !value || (sscanf(value, "%d", &tcp_port_monitor_collection_args.min_port_monitors) != 1) || tcp_port_monitor_collection_args.min_port_monitors < 0 ) { /* an error. use default, warn and continue. */ tcp_port_monitor_collection_args.min_port_monitors = MIN_PORT_MONITORS_DEFAULT; CONF_ERR; } else if ( tcp_port_monitor_collection_args.min_port_monitors == 0 ) { /* no error, just use default */ tcp_port_monitor_collection_args.min_port_monitors = MIN_PORT_MONITORS_DEFAULT; } /* else tcp_port_monitor_collection_args.min_port_monitors > 0 as per config */ } CONF("min_port_monitor_connections") { if ( !value || (sscanf(value, "%d", &tcp_port_monitor_args.min_port_monitor_connections) != 1) || tcp_port_monitor_args.min_port_monitor_connections < 0 ) { /* an error. use default, warni and continue. */ tcp_port_monitor_args.min_port_monitor_connections = MIN_PORT_MONITOR_CONNECTIONS_DEFAULT; CONF_ERR; } else if ( tcp_port_monitor_args.min_port_monitor_connections == 0 ) { /* no error, just use default */ tcp_port_monitor_args.min_port_monitor_connections = MIN_PORT_MONITOR_CONNECTIONS_DEFAULT; } /* else tcp_port_monitor_args.min_port_monitor_connections > 0 as per config */ } #endif else ERR("%s: %d: no such configuration: '%s'", f, line, name); #undef CONF #undef CONF2 } fclose(fp); #undef CONF_ERR } /* : means that character before that takes an argument */ static const char *getopt_string = "vVdt:f:u:i:hc:w:x:y:a:" #ifdef X11 "x:y:w:a:f:" #ifdef OWN_WINDOW "o" #endif #ifdef XDBE "b" #endif #endif /* X11 */ ; int main(int argc, char **argv) { struct sigaction act, oact; g_signal_pending=0; memset(&info, 0, sizeof(info) ); #ifdef TCP_PORT_MONITOR tcp_port_monitor_collection_args.min_port_monitors = MIN_PORT_MONITORS_DEFAULT; tcp_port_monitor_args.min_port_monitor_connections = MIN_PORT_MONITOR_CONNECTIONS_DEFAULT; #endif #if defined(XMMS) SET_XMMS_PROJECT_AVAILABLE(info.xmms.project_mask, PROJECT_XMMS); #endif #if defined(BMP) SET_XMMS_PROJECT_AVAILABLE(info.xmms.project_mask, PROJECT_BMP); #endif #if defined(AUDACIOUS) SET_XMMS_PROJECT_AVAILABLE(info.xmms.project_mask, PROJECT_AUDACIOUS); #endif #if defined(INFOPIPE) SET_XMMS_PROJECT_AVAILABLE(info.xmms.project_mask, PROJECT_INFOPIPE); #endif /* handle command line parameters that don't change configs */ #ifdef X11 char *s; char temp[10]; unsigned int x; if (((s = getenv("LC_ALL")) && *s) || ((s = getenv("LC_CTYPE")) && *s) || ((s = getenv("LANG")) && *s)) { strcpy(temp, s); for(x = 0; x < strlen(s) ; x++) { temp[x] = tolower(s[x]); } if (strstr(temp, "utf-8") || strstr(temp, "utf8")) { utf8_mode = 1; } } if (!setlocale(LC_CTYPE, "")) { ERR("Can't set the specified locale!\nCheck LANG, LC_CTYPE, LC_ALL."); } #endif /* X11 */ while (1) { int c = getopt(argc, argv, getopt_string); if (c == -1) break; switch (c) { case 'v': case 'V': printf ("Conky " VERSION " compiled " __DATE__ "\n"); return 0; case 'c': /* if current_config is set to a strdup of CONFIG_FILE, free it (even * though free() does the NULL check itself;), then load optarg value */ if (current_config) free(current_config); current_config = strdup(optarg); break; case 'h': printf ("Usage: %s [OPTION]...\n" "Conky 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\n" " -c FILE config file to load instead of " CONFIG_FILE "\n" " -d daemonize, fork to background\n" " -h help\n" #ifdef X11 " -a ALIGNMENT text alignment on screen, {top,bottom}_{left,right}\n" " -f FONT font to use\n" #ifdef OWN_WINDOW " -o create own window to draw\n" #endif #ifdef XDBE " -b double buffer (prevents flickering)\n" #endif " -w WIN_ID window id to draw\n" " -x X x position\n" " -y Y y position\n" #endif /* X11 */ " -t TEXT text to render, remember single quotes, like -t '$uptime'\n" " -u SECS update interval\n" " -i NUM number of times to update Conky\n", argv[0]); return 0; #ifdef X11 case 'w': window.window = strtol(optarg, 0, 0); break; #endif /* X11 */ case '?': exit(EXIT_FAILURE); } } #ifdef X11 /* initalize X BEFORE we load config. (we need to so that 'screen' is set) */ init_X11(); #endif /* X11 */ /* load current_config or CONFIG_FILE */ #ifdef CONFIG_FILE if (current_config == NULL) { /* load default config file */ char buf[256]; variable_substitute(CONFIG_FILE, buf, 256); if (buf[0] != '\0') current_config = strdup(buf); } #endif if (current_config != NULL && fopen((const char *)current_config, (const char *)"r")) load_config_file(current_config); else { set_default_configurations(); } #ifdef MAIL_FILE if (current_mail_spool == NULL) { char buf[256]; variable_substitute(MAIL_FILE, buf, 256); if (buf[0] != '\0') current_mail_spool = strdup(buf); } #endif /* handle other command line arguments */ #if defined(__FreeBSD__) || defined (__OpenBSD__) || defined(__NetBSD__) optind = optreset = 1; #else optind = 0; #endif while (1) { int c = getopt(argc, argv, getopt_string); if (c == -1) break; switch (c) { case 'd': fork_to_background = 1; break; #ifdef X11 case 'f': set_first_font(optarg); break; case 'a': text_alignment = string_to_alignment(optarg); break; #ifdef OWN_WINDOW case 'o': own_window = 1; break; #endif #ifdef XDBE case 'b': use_xdbe = 1; break; #endif #endif /* X11 */ case 't': if (text != original_text) free(text); text = strdup(optarg); convert_escapes(text); break; case 'u': update_interval = strtod(optarg, 0); 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 */ load_fonts(); #endif /* X11 */ /* generate text and get initial size */ extract_variable_text(text); if (text != original_text) { free(text); } text = NULL; update_uname(); generate_text(); #ifdef X11 update_text_area(); /* to get initial size of the window */ #if defined OWN_WINDOW init_window (own_window, wm_class_name, text_width + border_margin * 2 + 1, text_height + border_margin * 2 + 1, on_bottom, fixed_pos, set_transparent, background_colour, info.uname_s.nodename); #else init_window (own_window, text_width + border_margin * 2 + 1, text_height + border_margin * 2 + 1, on_bottom, set_transparent, background_colour, info.uname_s.nodename); #endif update_text_area(); /* to position text/window on screen */ #endif /* X11 */ /*#ifdef CAIRO // why the fuck not? //do_it(); #endif*/ #ifdef X11 #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 */ /* fork */ if (fork_to_background) { int ret = fork(); switch (ret) { case -1: ERR("can't fork() to background: %s", strerror(errno)); break; case 0: break; default: fprintf (stderr, "Conky: forked to background, pid is %d\n", ret); return 0; } } /* 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(SIGTERM,&act,&oact) < 0 ) { ERR("error setting signal handler: %s", strerror(errno) ); } #if defined(XMMS) || defined(BMP) || defined(AUDACIOUS) || defined(INFOPIPE) if ( (info.xmms.current_project > PROJECT_NONE) && (create_xmms_thread() !=0) ) { CRIT_ERR("unable to create xmms_player thread!"); } #endif main_loop(); #if defined(XMMS) || defined(BMP) || defined(AUDACIOUS) || defined(INFOPIPE) if ( info.xmms.thread && (destroy_xmms_thread()!=0) ) { ERR("error destroying xmms_player thread"); } #endif return 0; } 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. pkovacs. */ g_signal_pending=sig; }