コード例 #1
0
ファイル: learn.c プロジェクト: John1988/pilight
int main_gc(void) {
	struct hardware_t *hardware = NULL;	
	unsigned short match = 0;

	log_shell_disable();

	struct hardwares_t *htmp = hardwares;
	match = 0;
	while(htmp) {
		if(strcmp(htmp->listener->id, hw_mode) == 0) {
			hardware = htmp->listener;
			match = 1;
			break;
		}
		htmp = htmp->next;
	}
	if(match == 1 && hardware->deinit) {
		hardware->deinit();
	}		

	threads_gc();	
	options_gc();
	settings_gc();	
	hardware_gc();
	log_gc();

	sfree((void *)&progname);
	sfree((void *)&settingsfile);	

	return EXIT_SUCCESS;
}
コード例 #2
0
ファイル: raw.c プロジェクト: Keeward/pilight
int main_gc(void) {
	main_loop = 0;

	log_shell_disable();

	struct conf_hardware_t *tmp_confhw = conf_hardware;
	while(tmp_confhw) {
		if(tmp_confhw->hardware->deinit) {
			tmp_confhw->hardware->deinit();
		}
		tmp_confhw = tmp_confhw->next;
	}

	threads_gc();
	pthread_join(pth, NULL);

	options_gc();
	settings_gc();
	hardware_gc();
	dso_gc();
	log_gc();

	sfree((void *)&progname);

	return EXIT_SUCCESS;
}
コード例 #3
0
ファイル: control.c プロジェクト: Johan-M/pilight
int main(int argc, char **argv) {
	// memtrack();

	struct options_t *options = NULL;
	struct ssdp_list_t *ssdp_list = NULL;
	struct devices_t *dev = NULL;
	struct JsonNode *json = NULL;
	struct JsonNode *tmp = NULL;
	char *recvBuff = NULL, *message = NULL, *output = NULL;
	char *device = NULL, *state = NULL, *values = NULL;
	char *server = NULL;
	int has_values = 0, sockfd = 0, hasconfarg = 0;
	unsigned short port = 0, showhelp = 0, showversion = 0;

	log_file_disable();
	log_shell_enable();
	log_level_set(LOG_NOTICE);

	if(!(progname = MALLOC(16))) {
		logprintf(LOG_ERR, "out of memory");
		exit(EXIT_FAILURE);
	}
	strcpy(progname, "pilight-control");

	/* Define all CLI arguments of this program */
	options_add(&options, 'H', "help", OPTION_NO_VALUE, 0, JSON_NULL, NULL, NULL);
	options_add(&options, 'V', "version", OPTION_NO_VALUE, 0, JSON_NULL, NULL, NULL);
	options_add(&options, 'd', "device", OPTION_HAS_VALUE, 0,  JSON_NULL, NULL, NULL);
	options_add(&options, 's', "state", OPTION_HAS_VALUE, 0, JSON_NULL, NULL, NULL);
	options_add(&options, 'v', "values", OPTION_HAS_VALUE, 0, JSON_NULL, NULL, NULL);
	options_add(&options, 'S', "server", OPTION_HAS_VALUE, 0, JSON_NULL, NULL, "^(([0-9]|[1-9][0-9]|1[0-9]{2}|2[0-4][0-9]|25[0-5]).){3}([0-9]|[1-9][0-9]|1[0-9]{2}|2[0-4][0-9]|25[0-5])$");
	options_add(&options, 'P', "port", OPTION_HAS_VALUE, 0, JSON_NULL, NULL, "[0-9]{1,4}");
	options_add(&options, 'C', "config", OPTION_HAS_VALUE, 0, JSON_NULL, NULL, NULL);

	/* Store all CLI arguments for later usage
	   and also check if the CLI arguments where
	   used correctly by the user. This will also
	   fill all necessary values in the options struct */
	while(1) {
		int c;
		c = options_parse(&options, argc, argv, 1, &optarg);
		if(c == -1)
			break;
		if(c == -2) {
			showhelp = 1;
			break;
		}
		switch(c) {
			case 'H':
				showhelp = 1;
			break;
			case 'V':
				showversion = 1;
			break;
			case 'd':
				if((device = REALLOC(device, strlen(optarg)+1)) == NULL) {
					logprintf(LOG_ERR, "out of memory");
					exit(EXIT_FAILURE);
				}
				strcpy(device, optarg);
			break;
			case 's':
				if((state = REALLOC(state, strlen(optarg)+1)) == NULL) {
					logprintf(LOG_ERR, "out of memory");
					exit(EXIT_FAILURE);
				}
				strcpy(state, optarg);
			break;
			case 'v':
				if((values = REALLOC(values, strlen(optarg)+1)) == NULL) {
					logprintf(LOG_ERR, "out of memory");
					exit(EXIT_FAILURE);
				}
				strcpy(values, optarg);
			break;
			case 'C':
				if(config_set_file(optarg) == EXIT_FAILURE) {
					return EXIT_FAILURE;
				}
				hasconfarg = 1;
			break;
			case 'S':
				if(!(server = REALLOC(server, strlen(optarg)+1))) {
					logprintf(LOG_ERR, "out of memory");
					exit(EXIT_FAILURE);
				}
				strcpy(server, optarg);
			break;
			case 'P':
				port = (unsigned short)atoi(optarg);
			break;
			default:
				printf("Usage: %s -l location -d device -s state\n", progname);
				goto close;
			break;
		}
	}
	options_delete(options);

	if(showversion == 1) {
		printf("%s %s\n", progname, PILIGHT_VERSION);
		goto close;
	}
	if(showhelp == 1) {
		printf("\t -H --help\t\t\tdisplay this message\n");
		printf("\t -V --version\t\t\tdisplay version\n");
		printf("\t -S --server=x.x.x.x\t\tconnect to server address\n");
		printf("\t -C --config\t\t\tconfig file\n");
		printf("\t -P --port=xxxx\t\t\tconnect to server port\n");
		printf("\t -d --device=device\t\tthe device that you want to control\n");
		printf("\t -s --state=state\t\tthe new state of the device\n");
		printf("\t -v --values=values\t\tspecific comma separated values, e.g.:\n");
		printf("\t\t\t\t\t-v dimlevel=10\n");
		goto close;
	}
	if(device == NULL || state == NULL ||
	   strlen(device) == 0 || strlen(state) == 0) {
		printf("Usage: %s -d device -s state\n", progname);
		goto close;
	}

	if(server && port > 0) {
		if((sockfd = socket_connect(server, port)) == -1) {
			logprintf(LOG_ERR, "could not connect to pilight-daemon");
			goto close;
		}
	} else if(ssdp_seek(&ssdp_list) == -1) {
		logprintf(LOG_ERR, "no pilight ssdp connections found");
		goto close;
	} else {
		if((sockfd = socket_connect(ssdp_list->ip, ssdp_list->port)) == -1) {
			logprintf(LOG_ERR, "could not connect to pilight-daemon");
			goto close;
		}
	}
	if(ssdp_list) {
		ssdp_free(ssdp_list);
	}

	protocol_init();
	config_init();
	if(hasconfarg == 1) {
		if(config_read() != EXIT_SUCCESS) {
			goto close;
		}
	}

	socket_write(sockfd, "{\"action\":\"identify\"}");
	if(socket_read(sockfd, &recvBuff, 0) != 0
	   || strcmp(recvBuff, "{\"status\":\"success\"}") != 0) {
		goto close;
	}

	json = json_mkobject();
	json_append_member(json, "action", json_mkstring("request config"));
	output = json_stringify(json, NULL);
	socket_write(sockfd, output);
	json_free(output);
	json_delete(json);

	if(socket_read(sockfd, &recvBuff, 0) == 0) {
		if(json_validate(recvBuff) == true) {
			json = json_decode(recvBuff);
			if(json_find_string(json, "message", &message) == 0) {
				if(strcmp(message, "config") == 0) {
					struct JsonNode *jconfig = NULL;
					if((jconfig = json_find_member(json, "config")) != NULL) {
						int match = 1;
						while(match) {
							struct JsonNode *jchilds = json_first_child(jconfig);
							match = 0;
							while(jchilds) {
								if(strcmp(jchilds->key, "devices") != 0) {
									json_remove_from_parent(jchilds);
									tmp = jchilds;
									match = 1;
								}
								jchilds = jchilds->next;
								if(tmp != NULL) {
									json_delete(tmp);
								}
								tmp = NULL;
							}
						}
						config_parse(jconfig);
						if(devices_get(device, &dev) == 0) {
							JsonNode *joutput = json_mkobject();
							JsonNode *jcode = json_mkobject();
							JsonNode *jvalues = json_mkobject();
							json_append_member(jcode, "device", json_mkstring(device));

							if(values != NULL) {
								char **array = NULL;
								unsigned int n = explode(values, ",=", &array), q = 0;
								for(q=0;q<n;q+=2) {
									char *name = MALLOC(strlen(array[q])+1);
									if(name == NULL) {
										logprintf(LOG_ERR, "out of memory\n");
										exit(EXIT_FAILURE);
									}
									strcpy(name, array[q]);
									if(q+1 == n) {
										for(q=0;q<n;q++) {
											FREE(array[q]);
										}
										FREE(array);
										logprintf(LOG_ERR, "\"%s\" is missing a value for device \"%s\"", name, device);
										FREE(name);
										break;
									} else {
										char *val = MALLOC(strlen(array[q+1])+1);
										if(val == NULL) {
											logprintf(LOG_ERR, "out of memory\n");
											exit(EXIT_FAILURE);
										}
										strcpy(val, array[q+1]);
										if(devices_valid_value(device, name, val) == 0) {
											if(isNumeric(val) == EXIT_SUCCESS) {
												char *ptr = strstr(array[q+1], ".");
												int decimals = 0;
												if(ptr != NULL) {
													decimals = (int)(strlen(array[q+1])-((size_t)(ptr-array[q+1])+1));
												}
												json_append_member(jvalues, name, json_mknumber(atof(val), decimals));
											} else {
												json_append_member(jvalues, name, json_mkstring(val));
											}
											has_values = 1;
										} else {
											logprintf(LOG_ERR, "\"%s\" is an invalid value for device \"%s\"", name, device);
											for(q=0;q<n;q++) {
												FREE(array[q]);
											}
											FREE(array);
											FREE(name);
											json_delete(json);
											goto close;
										}
									}
									FREE(name);
								}
								unsigned int z = 0;
								for(z=q;z<n;z++) {
									FREE(array[z]);
								}
								if(n > 0) {
									FREE(array);
								}
							}

							if(devices_valid_state(device, state) == 0) {
								json_append_member(jcode, "state", json_mkstring(state));
							} else {
								logprintf(LOG_ERR, "\"%s\" is an invalid state for device \"%s\"", state, device);
								json_delete(json);
								goto close;
							}

							if(has_values == 1) {
								json_append_member(jcode, "values", jvalues);
							} else {
								json_delete(jvalues);
							}
							json_append_member(joutput, "action", json_mkstring("control"));
							json_append_member(joutput, "code", jcode);
							output = json_stringify(joutput, NULL);
							socket_write(sockfd, output);
							json_free(output);
							json_delete(joutput);
							if(socket_read(sockfd, &recvBuff, 0) != 0
							   || strcmp(recvBuff, "{\"status\":\"success\"}") != 0) {
								logprintf(LOG_ERR, "failed to control %s", device);
							}
						} else {
							logprintf(LOG_ERR, "the device \"%s\" does not exist", device);
							json_delete(json);
							goto close;
						}
					}
				}
			}
			json_delete(json);
		}
	}
close:
	if(recvBuff) {
		FREE(recvBuff);
	}
	if(sockfd > 0) {
		socket_close(sockfd);
	}
	if(server != NULL) {
		FREE(server);
	}
	if(device != NULL) {
		FREE(device);
	}
	if(state != NULL) {
		FREE(state);
	}
	if(values != NULL) {
		FREE(values);
	}
	log_shell_disable();
	socket_gc();
	config_gc();
	protocol_gc();
	options_gc();
	event_operator_gc();
	event_action_gc();
	dso_gc();
	log_gc();
	threads_gc();
	gc_clear();
	FREE(progname);
	xfree();

	return EXIT_SUCCESS;
}
コード例 #4
0
ファイル: send.c プロジェクト: Johan-M/pilight
int main(int argc, char **argv) {
	// memtrack();

	wiringXLog = _lognone;

	log_file_disable();
	log_shell_enable();
	log_level_set(LOG_NOTICE);

	if(!(progname = MALLOC(13))) {
		logprintf(LOG_ERR, "out of memory");
		exit(EXIT_FAILURE);
	}
	strcpy(progname, "pilight-send");

	struct options_t *options = NULL;
	struct ssdp_list_t *ssdp_list = NULL;

	int sockfd = 0;
	char *args = NULL, *recvBuff = NULL;

	/* Hold the name of the protocol */
	char *protobuffer = NULL;
	/* Does this protocol exists */
	int match = 0;

	/* Do we need to print the help */
	int help = 0;
	/* Do we need to print the version */
	int version = 0;
	/* Do we need to print the protocol help */
	int protohelp = 0;

	char *uuid = NULL;
	char *server = NULL;
	unsigned short port = 0;

	/* Hold the final protocol struct */
	protocol_t *protocol = NULL;
	JsonNode *code = NULL;

	/* Define all CLI arguments of this program */
	options_add(&options, 'H', "help", OPTION_NO_VALUE, 0, JSON_NULL, NULL, NULL);
	options_add(&options, 'V', "version", OPTION_NO_VALUE, 0, JSON_NULL, NULL, NULL);
	options_add(&options, 'p', "protocol", OPTION_HAS_VALUE, 0, JSON_NULL, NULL, NULL);
	options_add(&options, 'S', "server", OPTION_HAS_VALUE, 0, JSON_NULL, NULL, "^(([0-9]|[1-9][0-9]|1[0-9]{2}|2[0-4][0-9]|25[0-5]).){3}([0-9]|[1-9][0-9]|1[0-9]{2}|2[0-4][0-9]|25[0-5])$");
	options_add(&options, 'P', "port", OPTION_HAS_VALUE, 0, JSON_NULL, NULL, "[0-9]{1,4}");
	options_add(&options, 'U', "uuid", OPTION_HAS_VALUE, 0, JSON_NULL, NULL, "[a-zA-Z0-9]{4}-[a-zA-Z0-9]{2}-[a-zA-Z0-9]{2}-[a-zA-Z0-9]{2}-[a-zA-Z0-9]{6}");

	/* Get the protocol to be used */
	while(1) {
		int c;
		c = options_parse(&options, argc, argv, 0, &args);
		if(c == -1)
			break;
		if(c == -2)
			c = 'H';
		switch(c) {
			case 'p':
				if(strlen(args) == 0) {
					logprintf(LOG_ERR, "options '-p' and '--protocol' require an argument");
					exit(EXIT_FAILURE);
				} else {
					if(!(protobuffer = REALLOC(protobuffer, strlen(args)+1))) {
						logprintf(LOG_ERR, "out of memory");
						exit(EXIT_FAILURE);
					}
					strcpy(protobuffer, args);
				}
			break;
			case 'V':
				version = 1;
			break;
			case 'H':
				help = 1;
			break;
			case 'S':
				if(!(server = REALLOC(server, strlen(args)+1))) {
					logprintf(LOG_ERR, "out of memory");
					exit(EXIT_FAILURE);
				}
				strcpy(server, args);
			break;
			case 'P':
				port = (unsigned short)atoi(args);
			break;
			case 'U':
				if(!(uuid = REALLOC(uuid, strlen(args)+1))) {
					logprintf(LOG_ERR, "out of memory");
					exit(EXIT_FAILURE);
				}
				strcpy(uuid, args);
			break;
			default:;
		}
	}

	/* Initialize protocols */
	protocol_init();

	/* Check if a protocol was given */
	if(protobuffer && strlen(protobuffer) > 0 && strcmp(protobuffer, "-V") != 0) {
		if(strlen(protobuffer) > 0 && version) {
			printf("-p and -V cannot be combined\n");
		} else {
			struct protocols_t *pnode = protocols;
			/* Retrieve the used protocol */
			while(pnode) {
				/* Check if the protocol exists */
				protocol = pnode->listener;
				if(protocol_device_exists(protocol, protobuffer) == 0 && match == 0 && protocol->createCode != NULL) {
					match=1;
					/* Check if the protocol requires specific CLI arguments
					   and merge them with the main CLI arguments */
					if(protocol->options && help == 0) {
						options_merge(&options, &protocol->options);
					} else if(help == 1) {
						protohelp=1;
					}
					break;
				}
				pnode = pnode->next;
			}
			/* If no protocols matches the requested protocol */
			if(!match) {
				logprintf(LOG_ERR, "this protocol is not supported or doesn't support sending");
			}
		}
	}

	/* Store all CLI arguments for later usage
	   and also check if the CLI arguments where
	   used correctly by the user. This will also
	   fill all necessary values in the options struct */
	while(1) {
		int c;
		c = options_parse(&options, argc, argv, 2, &args);

		if(c == -1)
			break;
		if(c == -2) {
			if(match == 1) {
				protohelp = 1;
			} else {
				help = 1;
			}
		break;
		}
	}

	/* Display help or version information */
	if(version == 1) {
		printf("%s %s\n", progname, PILIGHT_VERSION);
		goto close;
	} else if(help == 1 || protohelp == 1 || match == 0) {
		if(protohelp == 1 && match == 1 && protocol->printHelp)
			printf("Usage: %s -p %s [options]\n", progname, protobuffer);
		else
			printf("Usage: %s -p protocol [options]\n", progname);
		if(help == 1) {
			printf("\t -H --help\t\t\tdisplay this message\n");
			printf("\t -V --version\t\t\tdisplay version\n");
			printf("\t -p --protocol=protocol\t\tthe protocol that you want to control\n");
			printf("\t -S --server=x.x.x.x\t\tconnect to server address\n");
			printf("\t -P --port=xxxx\t\t\tconnect to server port\n");
			printf("\t -C --config\t\t\tconfig file\n");
			printf("\t -U --uuid=xxx-xx-xx-xx-xxxxxx\tUUID\n");
		}
		if(protohelp == 1 && match == 1 && protocol->printHelp) {
			printf("\n\t[%s]\n", protobuffer);
			protocol->printHelp();
		} else {
			printf("\nThe supported protocols are:\n");
			struct protocols_t *pnode = protocols;
			/* Retrieve the used protocol */
			while(pnode) {
				protocol = pnode->listener;
				if(protocol->createCode) {
					struct protocol_devices_t *tmpdev = protocol->devices;
					while(tmpdev) {
						struct pname_t *node = MALLOC(sizeof(struct pname_t));
						if(!node) {
							logprintf(LOG_ERR, "out of memory");
							exit(EXIT_FAILURE);
						}
						if(!(node->name = MALLOC(strlen(tmpdev->id)+1))) {
							logprintf(LOG_ERR, "out of memory");
							exit(EXIT_FAILURE);
						}
						strcpy(node->name, tmpdev->id);
						if(!(node->desc = MALLOC(strlen(tmpdev->desc)+1))) {
							logprintf(LOG_ERR, "out of memory");
							exit(EXIT_FAILURE);
						}
						strcpy(node->desc, tmpdev->desc);
						node->next = pname;
						pname = node;
						tmpdev = tmpdev->next;
					}
				}
				pnode = pnode->next;
			}
			sort_list();
			struct pname_t *ptmp = NULL;
			while(pname) {
				ptmp = pname;
				printf("\t %s\t\t",ptmp->name);
				if(strlen(ptmp->name) < 7)
					printf("\t");
				if(strlen(ptmp->name) < 15)
					printf("\t");
				printf("%s\n", ptmp->desc);
				FREE(ptmp->name);
				FREE(ptmp->desc);
				pname = pname->next;
				FREE(ptmp);
			}
			FREE(pname);
		}
		goto close;
	}

	code = json_mkobject();
	int itmp = 0;
	/* Check if we got sufficient arguments from this protocol */
	struct options_t *tmp = options;
	while(tmp) {
		if(strlen(tmp->name) > 0) {
			/* Only send the CLI arguments that belong to this protocol, the protocol name
			and those that are called by the user */
			if((options_get_id(&protocol->options, tmp->name, &itmp) == 0)
			    && tmp->vartype == JSON_STRING && tmp->string_ != NULL
				&& (strlen(tmp->string_) > 0)) {
				if(isNumeric(tmp->string_) == 0) {
					char *ptr = strstr(tmp->string_, ".");
					int decimals = 0;
					if(ptr != NULL) {
						decimals = (int)(strlen(tmp->string_)-((size_t)(ptr-tmp->string_)+1));
					}
					json_append_member(code, tmp->name, json_mknumber(atof(tmp->string_), decimals));
				} else {
					json_append_member(code, tmp->name, json_mkstring(tmp->string_));
				}
			}
			if(strcmp(tmp->name, "protocol") == 0 && strlen(tmp->string_) > 0) {
				JsonNode *jprotocol = json_mkarray();
				json_append_element(jprotocol, json_mkstring(tmp->string_));
				json_append_member(code, "protocol", jprotocol);
			}
		}
		tmp = tmp->next;
	}

	if(protocol->createCode(code) == 0) {
		if(protocol->message) {
			json_delete(protocol->message);
		}
		if(server && port > 0) {
			if((sockfd = socket_connect(server, port)) == -1) {
				logprintf(LOG_ERR, "could not connect to pilight-daemon");
				goto close;
			}
		} else if(ssdp_seek(&ssdp_list) == -1) {
			logprintf(LOG_ERR, "no pilight ssdp connections found");
			goto close;
		} else {
			if((sockfd = socket_connect(ssdp_list->ip, ssdp_list->port)) == -1) {
				logprintf(LOG_ERR, "could not connect to pilight-daemon");
				goto close;
			}
		}
		if(ssdp_list) {
			ssdp_free(ssdp_list);
		}

		socket_write(sockfd, "{\"action\":\"identify\"}");
		if(socket_read(sockfd, &recvBuff, 0) != 0
		   || strcmp(recvBuff, "{\"status\":\"success\"}") != 0) {
			goto close;
		}

		JsonNode *json = json_mkobject();
		json_append_member(json, "action", json_mkstring("send"));
		if(uuid != NULL) {
			json_append_member(code, "uuid", json_mkstring(uuid));
		}
		json_append_member(json, "code", code);
		char *output = json_stringify(json, NULL);
		socket_write(sockfd, output);
		json_free(output);
		json_delete(json);

		if(socket_read(sockfd, &recvBuff, 0) != 0
		   || strcmp(recvBuff, "{\"status\":\"success\"}") != 0) {
			logprintf(LOG_ERR, "failed to send codes");
			goto close;
		}
	}
close:
	if(sockfd > 0) {
		socket_close(sockfd);
	}
	if(recvBuff != NULL) {
		FREE(recvBuff);
	}
	if(server != NULL) {
		FREE(server);
	}
	if(protobuffer != NULL) {
		FREE(protobuffer);
	}
	if(uuid != NULL) {
		FREE(uuid);
	}
	log_shell_disable();
	protocol_gc();
	options_delete(options);
	options_gc();
	config_gc();
	threads_gc();
	dso_gc();
	log_gc();
	FREE(progname);
	xfree();

	return EXIT_SUCCESS;
}