/* * @author Jon Gjengset * @see http://blog.sacaluta.com/2007/08/gtk-system-tray-icon-example.html * vim: softtabstop=2 shiftwidth=2 tabstop=2 */ #include #include #include #include #include #include #include #include #include /* * This function is made because it's needed to escape the '\' character * The basic code has been taken from the man pages of the strncpy function */ char *strncpy_esc(char *dest, const char *src, size_t n) { size_t i = 0; size_t index = 0; while (i < n && src[i] != '\0') { if (src[i] == '\\' && src[i + 1] != '\0') { dest[index] = src[i + 1]; index++; i += 2; } else { dest[index] = src[i]; index++; i++; } } for (; index < n; index++) { dest[index] = '\0'; } return dest; } char *save_word(char *src, int i_del, int last) { char *dest = malloc((i_del - last) * sizeof(char)); strncpy_esc(dest, src + last + 1, i_del - last - 1); dest[i_del - last - 1] = '\0'; return dest; } /* * Struct that stores the label names on the menu and * their corresponding actions when the user selects them */ struct item { char *name; char *action; } * onmenu; int menusize = 0; // number of menu entries GtkWidget *menu = NULL; GtkStatusIcon *icon; char *onclick = NULL; void tray_icon_on_click(GtkStatusIcon *status_icon, gpointer user_data) { if (onclick != NULL && fork() == 0) { execl("/bin/sh", "sh", "-c", onclick, (char *)NULL); } } /* * Callback function for when an entry is selected from the menu * We loop over all entry names to find what action to execute */ void click_menu_item(GtkMenuItem *menuitem, gpointer user_data) { const char *label = gtk_menu_item_get_label(menuitem); for (int i = 0; i < menusize; i++) { if (strcmp(label, onmenu[i].name) == 0 && fork() == 0) { execl("/bin/sh", "sh", "-c", onmenu[i].action, (char *)NULL); } } } void tray_icon_on_menu(GtkStatusIcon *status_icon, guint button, guint activate_time, gpointer user_data) { #ifdef DEBUG printf("Popup menu\n"); #endif if (menusize) { gtk_menu_popup_at_pointer((GtkMenu *)menu, NULL); } } gboolean set_tooltip(gpointer data) { char *p = (char *)data; if (*p == '\0') { #ifdef DEBUG printf("Removing tooltip\n"); #endif gtk_status_icon_set_has_tooltip(icon, FALSE); return FALSE; } #ifdef DEBUG printf("Setting tooltip to '%s'\n", p); #endif gtk_status_icon_set_tooltip_text(icon, p); free(data); return FALSE; } gboolean set_icon(gpointer data) { char *p = (char *)data; #ifdef DEBUG printf("Setting icon to '%s'\n", p); #endif if (strchr(p, '/')) { gtk_status_icon_set_from_file(icon, p); } else { gtk_status_icon_set_from_icon_name(icon, p); } free(data); return FALSE; } gboolean set_visible(gpointer data) { gtk_status_icon_set_visible(icon, data == 0 ? FALSE : TRUE); return FALSE; } gboolean do_quit(gpointer data) { gtk_main_quit(); return FALSE; } gpointer watch_fifo(gpointer argv) { char *buf = malloc(1024 * sizeof(char)); char cmd; char quote; char *param; char *tmp = malloc(1024 * sizeof(char)); char *read; size_t len, i; char *fifo_path = (char *)argv; FILE *fifo; struct stat fifo_st; /* outer is for open */ outer: while (1) { if (stat(fifo_path, &fifo_st) != 0) { perror("FIFO does not exist, exiting\n"); gdk_threads_add_idle(do_quit, fifo); return NULL; } fifo = fopen(fifo_path, "r"); if (fifo == NULL) { perror("FIFO went away, exiting\n"); gdk_threads_add_idle(do_quit, fifo); return NULL; } /* inner is for read */ while (1) { read = fgets(buf, 1024 * sizeof(char), fifo); if (read == NULL) { /* no more data in pipe, reopen and block */ fclose(fifo); goto outer; } /* trim string */ while ((*read == '\n' || *read == ' ' || *read == '\t') && *read != '\0') { read++; } if (*read == '\0') { /* empty command */ continue; } cmd = *read; len = strlen(read); if (len < 3) { param = NULL; } else if (*(read + 2) != '\'' && *(read + 2) != '"') { // unquoted string read += 2; len -= 2; // trim trailing whitespace i = len - 1; while (i > 0) { if (!isspace(read[i])) { len = i + 1; read[len] = '\0'; break; } i -= 1; } param = malloc((len + 1) * sizeof(char)); strncpy(param, read, len + 1); } else { // quoted string quote = *(read + 2); read += 3; len -= 3; *tmp = '\0'; *(tmp + 1024 - 1) = '\0'; // keep track of what we have so far strncpy(tmp, read, 1023); // now keep reading until we have the end quote while (1) { // check for terminating ' if (len != 0) { // search backwards past whitespace i = len - 1; while (i > 0) { if (!isspace(tmp[i])) { break; } i -= 1; } if (tmp[i] == quote) { // maybe the end! // let's make sure it isn't escaped if (i >= 2 && tmp[i - 2] == '\\') { } else { // it's not! // we're done. // trim off the ' and // any whitespace we walked past len = i; tmp[len] = '\0'; break; } } } if (len == 1023) { // we can't read any more // but also haven't found the end // forcibly terminate the string fprintf(stderr, "Quoted string too long (max 1023 chars)\n"); break; } // we don't have the end of the string yet read = fgets(buf, 1024 * sizeof(char), fifo); if (read == NULL) { /* no more data in pipe, reopen and block */ fclose(fifo); goto outer; } // note that we don't trim here, because we're // in a quoted string. strncpy(tmp + len, read, 1023 - len); len += strlen(tmp + len); } // quoted string is now in param[0:len] param = malloc((len + 1) * sizeof(char)); strncpy(param, tmp, len + 1); } switch (cmd) { case 'q': gdk_threads_add_idle(do_quit, param); if (param != NULL) { free(param); } break; case 't': /* tooltip */ gdk_threads_add_idle(set_tooltip, param); break; case 'i': /* icon */ gdk_threads_add_idle(set_icon, param); break; case 'h': /* hide */ gdk_threads_add_idle(set_visible, (void *)0); if (param != NULL) { free(param); } break; case 's': /* show */ gdk_threads_add_idle(set_visible, (void *)1); if (param != NULL) { free(param); } break; case 'c': /* click */ if (onclick != NULL) { free(onclick); onclick = NULL; } if (param != NULL && *param == '\0') { #ifdef DEBUG printf("Removing onclick handler\n"); #endif free(param); break; } onclick = param; #ifdef DEBUG printf("Setting onclick handler to '%s'\n", onclick); #endif break; case 'm': /* menu */ if (onmenu != NULL) { // destroy the previous menu for (int i = 0; i < menusize; i++) { free(onmenu[i].name); free(onmenu[i].action); onmenu[i].name = NULL; onmenu[i].action = NULL; } free(onmenu); onmenu = NULL; gtk_widget_destroy(menu); menu = NULL; } menusize = 0; if (!param) { break; } else if (*param == '\0') { #ifdef DEBUG printf("Removing onmenu handler\n"); #endif free(param); break; } // This block makes sure that the parameter after 'm' is ready to be // processed We can't accept 2 straight commas, as it becomes ambiguous int straight = 0; int bars = 0; for (int i = 0; i < len; i++) { if (param[i] == ',' && param[i - 1] != '\\') { straight++; if (straight == 2) { break; } } else if (param[i] == '|' && param[i - 1] != '\\') { straight = 0; bars++; } } if (straight == 2) { printf("Two straight ',' found. Use '\\' to escape\n"); free(param); break; } // End of block that checks the parameter // Create the onmenu array which stores structs with name, action // properties menusize = bars + 1; onmenu = malloc(menusize * sizeof(struct item)); menu = gtk_menu_new(); int last = -1; int item = 0; char lastFound = '|'; // what was the last delimiter processed for (int i = 0; i < len; i++) { if (param[i] == ',' && param[i - 1] != '\\') { onmenu[item].name = save_word(param, i, last); last = i; lastFound = ','; } else if (param[i] == '|' && param[i - 1] != '\\') { if (lastFound == ',') { // we have found a ',' so we read an action onmenu[item].action = save_word(param, i, last); } else { // this is a label-only entry onmenu[item].name = save_word(param, i, last); onmenu[item].action = malloc(1); // pointer has to be freeable *onmenu[item].action = '\0'; } last = i; lastFound = '|'; item++; } } if (item < menusize) { // haven't read all actions because last one // didn't end with a '|' if (lastFound == ',') { onmenu[item].action = save_word(param, len, last); } else { onmenu[item].name = save_word(param, len, last); onmenu[item].action = malloc(1); *onmenu[item].action = '\0'; } } // Now create the menu item widgets and attach them on the menu for (int i = 0; i < menusize; i++) { GtkWidget *w; if (0 == strlen(onmenu[i].name) || (!strncmp(onmenu[i].name, "-----", 5))) { w = gtk_separator_menu_item_new() ; } else { w = gtk_menu_item_new_with_label(onmenu[i].name); g_signal_connect(G_OBJECT(w), "activate", G_CALLBACK(click_menu_item), NULL); } gtk_menu_shell_append(GTK_MENU_SHELL(menu), w); } gtk_widget_show_all(menu); free(param); break; default: fprintf(stderr, "Unknown command: '%c'\n", *buf); if (param != NULL) { free(param); } } gdk_flush(); } } return NULL; } static GtkStatusIcon *create_tray_icon(char *start_icon) { GtkStatusIcon *tray_icon; if (strchr(start_icon, '/')) { tray_icon = gtk_status_icon_new_from_file(start_icon); } else { tray_icon = gtk_status_icon_new_from_icon_name(start_icon); } g_signal_connect(G_OBJECT(tray_icon), "activate", G_CALLBACK(tray_icon_on_click), NULL); g_signal_connect(G_OBJECT(tray_icon), "popup-menu", G_CALLBACK(tray_icon_on_menu), NULL); gtk_status_icon_set_visible(tray_icon, TRUE); return tray_icon; } int print_usage(char **argv) { printf("Usage: %s [-i ICON] [-t TOOLTIP] [-h] [FIFO]\n", *argv); printf("Create a system tray icon as specified\n"); printf("\n"); printf(" -i ICON\tUse the specified ICON when initializing\n"); printf(" -t TOOLTIP\tUse the specified TOOLTIP when initializing\n"); printf(" -h \t\tDisplay this help message\n"); printf("\n"); printf("If a FIFO is not provided, mktrayicon will run until killed\n"); printf("Report bugs at https://github.com/jonhoo/mktrayicon\n"); return 0; } int main(int argc, char **argv) { char *start_icon = "none"; char *tooltip = NULL; char *pipe = NULL; GThread *reader; XInitThreads(); /* see http://stackoverflow.com/a/18690540/472927 */ gtk_init(&argc, &argv); if (argc == 1) { return print_usage(argv); } int c; while ((c = getopt(argc, argv, "i:t:h")) != -1) switch (c) { case 'i': start_icon = optarg; break; case 't': tooltip = optarg; break; case 'h': return print_usage(argv); case '?': fprintf(stderr, "Unknown option: %c\n", optopt); return 1; } icon = create_tray_icon(start_icon); if (tooltip) { gtk_status_icon_set_tooltip_text(icon, tooltip); } /* optind holds the index of the next argument to be parsed */ /* getopt moved positional arguments (if there were any) to the end of the * argv array, without parsing them */ /* so if there were only non-positional arguments, all arguments have been * parsed and optind will be equal to argc */ if (optind < argc) { pipe = argv[optind]; reader = g_thread_new("watch_fifo", watch_fifo, pipe); } gtk_main(); return 0; }