/* * vim:ts=4:sw=4:expandtab * * i3bar - an xcb-based status- and ws-bar for i3 * © 2010-2012 Axel Wagner and contributors (see also: LICENSE) * * ipc.c: Communicating with i3 * */ #include #include #include #include #include #include #include #include #include #include #include "common.h" ev_io *i3_connection; const char *sock_path; typedef void(*handler_t)(char*); /* * Called, when we get a reply to a command from i3. * Since i3 does not give us much feedback on commands, we do not much * */ void got_command_reply(char *reply) { /* TODO: Error handling for command-replies */ } /* * Called, when we get a reply with workspaces-data * */ void got_workspace_reply(char *reply) { DLOG("Got Workspace-Data!\n"); parse_workspaces_json(reply); draw_bars(false); } /* * Called, when we get a reply for a subscription. * Since i3 does not give us much feedback on commands, we do not much * */ void got_subscribe_reply(char *reply) { DLOG("Got Subscribe Reply: %s\n", reply); /* TODO: Error handling for subscribe-commands */ } /* * Called, when we get a reply with outputs-data * */ void got_output_reply(char *reply) { DLOG("Parsing Outputs-JSON...\n"); parse_outputs_json(reply); DLOG("Reconfiguring Windows...\n"); realloc_sl_buffer(); reconfig_windows(); i3_output *o_walk; SLIST_FOREACH(o_walk, outputs, slist) { kick_tray_clients(o_walk); } draw_bars(false); } /* * Called when we get the configuration for our bar instance * */ void got_bar_config(char *reply) { DLOG("Received bar config \"%s\"\n", reply); /* We initiate the main-function by requesting infos about the outputs and * workspaces. Everything else (creating the bars, showing the right workspace- * buttons and more) is taken care of by the event-drivenness of the code */ i3_send_msg(I3_IPC_MESSAGE_TYPE_GET_OUTPUTS, NULL); parse_config_json(reply); /* Now we can actually use 'config', so let's subscribe to the appropriate * events and request the workspaces if necessary. */ subscribe_events(); if (!config.disable_ws) i3_send_msg(I3_IPC_MESSAGE_TYPE_GET_WORKSPACES, NULL); /* Initialize the rest of XCB */ init_xcb_late(config.fontname); /* Resolve color strings to colorpixels and save them, then free the strings. */ init_colors(&(config.colors)); free_colors(&(config.colors)); /* The name of this function is actually misleading. Even if no command is * specified, this function initiates the watchers to listen on stdin and * react accordingly */ start_child(config.command); FREE(config.command); } /* Data-structure to easily call the reply-handlers later */ handler_t reply_handlers[] = { &got_command_reply, &got_workspace_reply, &got_subscribe_reply, &got_output_reply, NULL, NULL, &got_bar_config, }; /* * Called, when a workspace-event arrives (i.e. the user changed the workspace) * */ void got_workspace_event(char *event) { DLOG("Got Workspace Event!\n"); i3_send_msg(I3_IPC_MESSAGE_TYPE_GET_WORKSPACES, NULL); } /* * Called, when an output-event arrives (i.e. the screen-configuration changed) * */ void got_output_event(char *event) { DLOG("Got Output Event!\n"); i3_send_msg(I3_IPC_MESSAGE_TYPE_GET_OUTPUTS, NULL); if (!config.disable_ws) { i3_send_msg(I3_IPC_MESSAGE_TYPE_GET_WORKSPACES, NULL); } } /* * Called, when a mode-event arrives (i3 changed binding mode). * */ void got_mode_event(char *event) { DLOG("Got Mode Event!\n"); parse_mode_json(event); draw_bars(false); } /* Data-structure to easily call the reply-handlers later */ handler_t event_handlers[] = { &got_workspace_event, &got_output_event, &got_mode_event }; /* * Called, when we get a message from i3 * */ void got_data(struct ev_loop *loop, ev_io *watcher, int events) { DLOG("Got data!\n"); int fd = watcher->fd; /* First we only read the header, because we know its length */ uint32_t header_len = strlen(I3_IPC_MAGIC) + sizeof(uint32_t)*2; char *header = smalloc(header_len); /* We first parse the fixed-length IPC-header, to know, how much data * we have to expect */ uint32_t rec = 0; while (rec < header_len) { int n = read(fd, header + rec, header_len - rec); if (n == -1) { ELOG("read() failed: %s\n", strerror(errno)); exit(EXIT_FAILURE); } if (n == 0) { /* EOF received. Since i3 will restart i3bar instances as appropriate, * we exit here. */ DLOG("EOF received, exiting...\n"); clean_xcb(); exit(EXIT_SUCCESS); } rec += n; } if (strncmp(header, I3_IPC_MAGIC, strlen(I3_IPC_MAGIC))) { ELOG("Wrong magic code: %.*s\n Expected: %s\n", (int) strlen(I3_IPC_MAGIC), header, I3_IPC_MAGIC); exit(EXIT_FAILURE); } char *walk = header + strlen(I3_IPC_MAGIC); uint32_t size; memcpy(&size, (uint32_t*)walk, sizeof(uint32_t)); walk += sizeof(uint32_t); uint32_t type; memcpy(&type, (uint32_t*)walk, sizeof(uint32_t)); /* Now that we know, what to expect, we can start read()ing the rest * of the message */ char *buffer = smalloc(size + 1); rec = 0; while (rec < size) { int n = read(fd, buffer + rec, size - rec); if (n == -1) { ELOG("read() failed: %s\n", strerror(errno)); exit(EXIT_FAILURE); } if (n == 0) { ELOG("Nothing to read!\n"); exit(EXIT_FAILURE); } rec += n; } buffer[size] = '\0'; /* And call the callback (indexed by the type) */ if (type & (1 << 31)) { type ^= 1 << 31; event_handlers[type](buffer); } else { if (reply_handlers[type]) reply_handlers[type](buffer); } FREE(header); FREE(buffer); } /* * Sends a Message to i3. * type must be a valid I3_IPC_MESSAGE_TYPE (see i3/ipc.h for further information) * */ int i3_send_msg(uint32_t type, const char *payload) { uint32_t len = 0; if (payload != NULL) { len = strlen(payload); } /* We are a wellbehaved client and send a proper header first */ uint32_t to_write = strlen (I3_IPC_MAGIC) + sizeof(uint32_t)*2 + len; /* TODO: I'm not entirely sure if this buffer really has to contain more * than the pure header (why not just write() the payload from *payload?), * but we leave it for now */ char *buffer = smalloc(to_write); char *walk = buffer; strncpy(buffer, I3_IPC_MAGIC, strlen(I3_IPC_MAGIC)); walk += strlen(I3_IPC_MAGIC); memcpy(walk, &len, sizeof(uint32_t)); walk += sizeof(uint32_t); memcpy(walk, &type, sizeof(uint32_t)); walk += sizeof(uint32_t); if (payload != NULL) strncpy(walk, payload, len); uint32_t written = 0; while (to_write > 0) { int n = write(i3_connection->fd, buffer + written, to_write); if (n == -1) { ELOG("write() failed: %s\n", strerror(errno)); exit(EXIT_FAILURE); } to_write -= n; written += n; } FREE(buffer); return 1; } /* * Initiate a connection to i3. * socket-path must be a valid path to the ipc_socket of i3 * */ int init_connection(const char *socket_path) { sock_path = socket_path; int sockfd = ipc_connect(socket_path); i3_connection = smalloc(sizeof(ev_io)); ev_io_init(i3_connection, &got_data, sockfd, EV_READ); ev_io_start(main_loop, i3_connection); return 1; } /* * Destroy the connection to i3. */ void destroy_connection(void) { close(i3_connection->fd); ev_io_stop(main_loop, i3_connection); } /* * Subscribe to all the i3-events, we need * */ void subscribe_events(void) { if (config.disable_ws) { i3_send_msg(I3_IPC_MESSAGE_TYPE_SUBSCRIBE, "[ \"output\", \"mode\" ]"); } else { i3_send_msg(I3_IPC_MESSAGE_TYPE_SUBSCRIBE, "[ \"workspace\", \"output\", \"mode\" ]"); } }