bmsd/co2meters.c@16079aef4c4c
bmsd/co2meters.c
Thu, 12 Oct 2023 14:19:46 +0200
- author
- Michiel Broek <mbroek@mbse.eu>
- date
- Thu, 12 Oct 2023 14:19:46 +0200
- changeset 849
- 16079aef4c4c
- parent 799
- cf145b35d65f
- child 852
- 71f0fa38b634
- permissions
- -rw-r--r--
Version 0.3.44. Moved iSpindel Plato calculation from the php script to bmsd. This uses calibration data in the mon_ispindels table. Setup of this data will be done by the bmsapp applications. Default settings are stored in MySQL. From now on you don't need to store calibration data in the iSpindel.
/** * @file co2meters.c * @brief Handle co2meters status * @author Michiel Broek <mbroek at mbse dot eu> * * Copyright (C) 2019-2022 * * This file is part of the bms (Brewery Management System) * * This is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License as published by the * Free Software Foundation; either version 2, or (at your option) any * later version. * * bms is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License * along with ThermFerm; see the file COPYING. If not, write to the Free * Software Foundation, 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA. */ #include "bms.h" #include "xutil.h" #include "co2meters.h" #include "mysql.h" #include "websocket.h" #include "nodes.h" sys_co2meter_list *co2meters = NULL; extern int debug; extern sys_config Config; extern MYSQL *con; extern MYSQL_RES *res_set; extern MYSQL_ROW row; void co2meter_ws_send(sys_co2meter_list *co2meter) { char *msg = NULL, buf[65]; msg = xstrcpy((char *)"{\"device\":\"co2meters\",\"node\":\""); msg = xstrcat(msg, co2meter->node); msg = xstrcat(msg, (char *)"\",\"unit\":\""); msg = xstrcat(msg, co2meter->alias); msg = xstrcat(msg, (char *)"\",\"online\":"); msg = xstrcat(msg, co2meter->online ? (char *)"1":(char *)"0"); msg = xstrcat(msg, (char *)",\"mode\":\""); msg = xstrcat(msg, co2meter->mode); msg = xstrcat(msg, (char *)"\",\"beeruuid\":\""); msg = xstrcat(msg, co2meter->beeruuid); msg = xstrcat(msg, (char *)"\",\"beercode\":\""); msg = xstrcat(msg, co2meter->beercode); msg = xstrcat(msg, (char *)"\",\"beername\":\""); msg = xstrcat(msg, co2meter->beername); msg = xstrcat(msg, (char *)"\",\"temperature_state\":\""); msg = xstrcat(msg, co2meter->temperature_state); msg = xstrcat(msg, (char *)"\",\"temperature_address\":\""); msg = xstrcat(msg, co2meter->temperature_address); msg = xstrcat(msg, (char *)"\",\"temperature\":"); snprintf(buf, 64, "%.3f", co2meter->temperature); msg = xstrcat(msg, buf); msg = xstrcat(msg, (char *)",\"pressure_state\":\""); msg = xstrcat(msg, co2meter->pressure_state); msg = xstrcat(msg, (char *)"\",\"pressure_channel\":"); snprintf(buf, 64, "%d", co2meter->pressure_channel); msg = xstrcat(msg, buf); msg = xstrcat(msg, (char *)",\"pressure_voltage\":"); snprintf(buf, 64, "%.3f", co2meter->pressure_voltage); msg = xstrcat(msg, buf); msg = xstrcat(msg, (char *)",\"pressure_zero\":"); snprintf(buf, 64, "%.3f", co2meter->pressure_zero); msg = xstrcat(msg, buf); msg = xstrcat(msg, (char *)",\"pressure_bar\":"); snprintf(buf, 64, "%.3f", co2meter->pressure_bar); msg = xstrcat(msg, buf); msg = xstrcat(msg, (char *)",\"alarm\":"); snprintf(buf, 64, "%d", co2meter->alarm); msg = xstrcat(msg, buf); msg = xstrcat(msg, (char *)"}"); ws_broadcast(msg); free(msg); msg = NULL; } void co2meter_ws_receive(char *payload) { struct json_object *jobj, *val; sys_co2meter_list *tmpp; char *node = NULL, *alias = NULL, *beeruuid = NULL, *beercode = NULL, *beername = NULL; char query[512], *end; MYSQL *con2 = NULL; /* * Process the JSON formatted payload. */ jobj = json_tokener_parse(payload); if (json_object_object_get_ex(jobj, "node", &val)) node = xstrcpy((char *)json_object_get_string(val)); if (json_object_object_get_ex(jobj, "unit", &val)) alias = xstrcpy((char *)json_object_get_string(val)); if (json_object_object_get_ex(jobj, "beeruuid", &val)) beeruuid = xstrcpy((char *)json_object_get_string(val)); if (json_object_object_get_ex(jobj, "beercode", &val)) beercode = xstrcpy((char *)json_object_get_string(val)); if (json_object_object_get_ex(jobj, "beername", &val)) beername = xstrcpy((char *)json_object_get_string(val)); json_object_put(jobj); /* * Search co2meter record in the memory array and use it if found. */ if (co2meters) { for (tmpp = co2meters; tmpp; tmpp = tmpp->next) { if ((strcmp(tmpp->alias, alias) == 0) && (strcmp(tmpp->node, node) == 0)) { if (beeruuid && beercode && beername) { con2 = mysql_init(NULL); if (con2 == NULL) { syslog(LOG_NOTICE, "MySQL: mysql_init() failed"); } else { if (mysql_real_connect(con2, Config.mysql_host, Config.mysql_user, Config.mysql_pass, Config.mysql_database, Config.mysql_port, NULL, 0) == NULL) { syslog(LOG_NOTICE, "MySQL: mysql_real_connect() %s", mysql_error(con2)); } else { end = stpcpy(query, "UPDATE mon_co2meters SET beeruuid='"); end += mysql_real_escape_string(con2, end, beeruuid, strlen(beeruuid)); end = stpcpy(end, "', beercode='"); end += mysql_real_escape_string(con2, end, beercode, strlen(beercode)); end = stpcpy(end, "', beername='"); end += mysql_real_escape_string(con2, end, beername, strlen(beername)); end = stpcpy(end, "' WHERE node='"); end += mysql_real_escape_string(con2, end, node, strlen(node)); end = stpcpy(end, "' AND alias='"); end += mysql_real_escape_string(con2, end, alias, strlen(alias)); end = stpcpy(end, "'"); if (mysql_real_query(con2, query, (unsigned int) (end - query))) { syslog(LOG_NOTICE, "MySQL: `%s' error %u (%s))", query, mysql_errno(con2), mysql_error(con2)); } else { /* Database updated, now update internal memory */ //syslog(LOG_NOTICE, "MySQL: `%s' Ok", query); if (tmpp->beercode) free(tmpp->beercode); tmpp->beercode = xstrcpy(beercode); if (tmpp->beername) free(tmpp->beername); tmpp->beername = xstrcpy(beername); if (tmpp->beeruuid) free(tmpp->beeruuid); tmpp->beeruuid = xstrcpy(beeruuid); /* Report new state to the client */ co2meter_ws_send(tmpp); syslog(LOG_NOTICE, "Set co2meter %s/%s new beer %s %s", node, alias, beercode, beername); } mysql_close(con2); } } } break; } } } if (node) free(node); if (alias) free(alias); if (beeruuid) free(beeruuid); if (beercode) free(beercode); if (beername) free(beername); } void co2meter_set(char *edge_node, char *alias, char *payload) { struct json_object *jobj, *val, *sensor; sys_co2meter_list *co2meter, *tmpp; bool new_co2meter = true; // fprintf(stdout, "co2meter_set: %s/%s %s\n", edge_node, alias, payload); /* * Search co2meter record in the memory array and use it if found. */ if (co2meters) { for (tmpp = co2meters; tmpp; tmpp = tmpp->next) { if ((strcmp(tmpp->alias, alias) == 0) && (strcmp(tmpp->node, edge_node) == 0)) { new_co2meter = false; co2meter = tmpp; break; } } } // printf("new_co2meter %s\n", new_co2meter ? "true":"false"); /* * Allocate new co2meter if not yet known. */ if (new_co2meter) { co2meter = (sys_co2meter_list *)malloc(sizeof(sys_co2meter_list)); memset(co2meter, 0, sizeof(sys_co2meter_list)); co2meter->alias = xstrcpy(alias); co2meter->node = xstrcpy(edge_node); co2meter->mode = xstrcpy((char *)"OFF"); } if (! co2meter->online) { co2meter->online = true; syslog(LOG_NOTICE, "Online co2meter %s/%s mode %s", edge_node, alias, co2meter->mode); } /* * Process the JSON formatted payload. * Update only the fields that are found in the payload. */ jobj = json_tokener_parse(payload); if (json_object_object_get_ex(jobj, "uuid", &val)) { if (co2meter->uuid) free(co2meter->uuid); co2meter->uuid = xstrcpy((char *)json_object_get_string(val)); } if (json_object_object_get_ex(jobj, "mode", &val)) { if (co2meter->mode) { if (strcmp(co2meter->mode, (char *)json_object_get_string(val))) { syslog(LOG_NOTICE, "Change mode co2meter %s/%s: %s to %s", edge_node, alias, co2meter->mode, (char *)json_object_get_string(val)); } free(co2meter->mode); } co2meter->mode = xstrcpy((char *)json_object_get_string(val)); } if (json_object_object_get_ex(jobj, "alarm", &val)) { co2meter->alarm = json_object_get_int(val); } if (json_object_object_get_ex(jobj, "temperature", &sensor)) { if (json_object_object_get_ex(sensor, "address", &val)) { if (co2meter->temperature_address) free(co2meter->temperature_address); co2meter->temperature_address = xstrcpy((char *)json_object_get_string(val)); } if (json_object_object_get_ex(sensor, "state", &val)) { if (co2meter->temperature_state) free(co2meter->temperature_state); co2meter->temperature_state = xstrcpy((char *)json_object_get_string(val)); } if (json_object_object_get_ex(sensor, "temperature", &val)) { co2meter->temperature = json_object_get_double(val); } } if (json_object_object_get_ex(jobj, "pressure", &sensor)) { if (json_object_object_get_ex(sensor, "state", &val)) { if (co2meter->pressure_state) free(co2meter->pressure_state); co2meter->pressure_state = xstrcpy((char *)json_object_get_string(val)); } if (json_object_object_get_ex(sensor, "channel", &val)) { co2meter->pressure_channel = json_object_get_int(val); } if (json_object_object_get_ex(sensor, "voltage", &val)) { co2meter->pressure_voltage = json_object_get_double(val); } if (json_object_object_get_ex(sensor, "zero", &val)) { co2meter->pressure_zero = json_object_get_double(val); } if (json_object_object_get_ex(sensor, "bar", &val)) { co2meter->pressure_bar = json_object_get_double(val); } } json_object_put(jobj); co2meter_ws_send(co2meter); // co2meter_dump(co2meter); if (new_co2meter) { if (co2meters == NULL) { co2meters = co2meter; } else { for (tmpp = co2meters; tmpp; tmpp = tmpp->next) { if (tmpp->next == NULL) { tmpp->next = co2meter; break; } } } co2meter_mysql_insert(co2meter); } else { co2meter_mysql_update(co2meter); } } /* * With DBIRTH all active co2meters are publishd in an array. */ void co2meter_birth_data(char *topic, char *payload) { char *message_type, *edge_node, *alias; struct json_object *jobj, *val, *metric, *units, *unit; int arraylen; strtok(topic, "/"); // ignore namespace strtok(NULL, "/"); message_type = strtok(NULL, "/"); edge_node = strtok(NULL, "/\0"); alias = strtok(NULL, "/\0"); if ((alias == NULL) && (strcmp("DBIRTH", message_type) == 0)) { /* * Global initial DBIRTH message with array of co2meters. */ jobj = json_tokener_parse(payload); if (json_object_object_get_ex(jobj, "metric", &metric)) { if (json_object_object_get_ex(metric, "units", &units)) { arraylen = json_object_array_length(units); for (int i = 0; i < arraylen; i++) { /* * Parse the array of units */ unit = json_object_array_get_idx(units, i); if (json_object_object_get_ex(unit, "alias", &val)) { if (alias) free(alias); alias = xstrcpy((char *)json_object_get_string(val)); co2meter_set(edge_node, alias, (char *)json_object_to_json_string_ext(unit, 0)); free(alias); alias = NULL; } } } } json_object_put(jobj); return; } /* * The rest are errors. */ printf("ERROR co2meter_birth_data: %s %s %s\n", message_type, edge_node, alias); } void co2meter_log(char *topic, char *payload) { char *edge_node, *alias, *line, buf[128], *logfile, *query = malloc(512); struct json_object *jobj, *val, *metric; co2pressure_log *log; struct tm *mytime; time_t timestamp; FILE *fp; bool trigger = false; strtok(topic, "/"); // ignore namespace strtok(NULL, "/"); // group_id strtok(NULL, "/"); // message_type edge_node = strtok(NULL, "/\0"); alias = strtok(NULL, "/\0"); log = (co2pressure_log *)malloc(sizeof(co2pressure_log)); memset(log, 0, sizeof(co2pressure_log)); log->node = xstrcpy(edge_node); log->alias = xstrcpy(alias); jobj = json_tokener_parse(payload); timestamp = time(NULL); log->datetime = malloc(73); mytime = localtime(×tamp); snprintf(log->datetime, 72, "%04d-%02d-%02d %02d:%02d:%02d", mytime->tm_year + 1900, mytime->tm_mon + 1, mytime->tm_mday, mytime->tm_hour, mytime->tm_min, mytime->tm_sec); if ((mytime->tm_min % 10) == 0) trigger = true; if (json_object_object_get_ex(jobj, "metric", &metric)) { if (json_object_object_get_ex(metric, "uuid", &val)) { if (strcmp((char *)"(null)", json_object_get_string(val))) log->uuid = xstrcpy((char *)json_object_get_string(val)); } if (json_object_object_get_ex(metric, "temperature", &val)) { log->temperature = json_object_get_double(val); } if (json_object_object_get_ex(metric, "pressure", &val)) { log->pressure = json_object_get_double(val); } } json_object_put(jobj); /* * Because co2meters are not so smart and don't hold product information * search the missing pieces in the database. */ snprintf(buf, 127, "SELECT beercode,beername,beeruuid FROM mon_co2meters WHERE uuid='%s'", log->uuid); if (mysql_query(con, buf)) { syslog(LOG_NOTICE, "MySQL: %s error %u (%s))", buf, mysql_errno(con), mysql_error(con)); } else { res_set = mysql_store_result(con); if (res_set == NULL) { syslog(LOG_NOTICE, "MySQL: mysq_store_result error %u (%s))", mysql_errno(con), mysql_error(con)); } else { if ((row = mysql_fetch_row(res_set)) != NULL) { /* * Ignore when the beer_name or beer_code is not set. */ if ((int)strlen(row[0]) == 0 || (int)strlen(row[1]) == 0) { if (log->datetime) free(log->datetime); if (log->uuid) free(log->uuid); if (log->node) free(log->node); if (log->alias) free(log->alias); free(log); return; } log->product_code = xstrcpy(row[0]); log->product_name = xstrcpy(row[1]); log->product_uuid = xstrcpy(row[2]); } } } /* * Build the MySQL log */ if (trigger) { snprintf(query, 511, "INSERT IGNORE INTO log_co2pressure SET code='%s', datetime='%s', temperature='%.4f', " \ "pressure='%.4f', uuid='%s'", log->product_code, log->datetime, log->temperature, log->pressure, log->uuid); //syslog(LOG_NOTICE, "%s", query); bms_mysql_query(query); } /* * Build csv log line */ line = xstrcpy(log->datetime); line = xstrcat(line, (char *)","); snprintf(buf, 64, "%.3f", log->temperature); line = xstrcat(line, buf); line = xstrcat(line, (char *)","); snprintf(buf, 64, "%.3f", log->pressure); line = xstrcat(line, buf); line = xstrcat(line, (char *)","); line = xstrcat(line, log->uuid); /* * Build logfile name */ logfile = xstrcpy(Config.web_root); logfile = xstrcat(logfile, (char *)"/log/co2pressure/"); logfile = xstrcat(logfile, log->product_code); logfile = xstrcat(logfile, (char *)" "); logfile = xstrcat(logfile, log->product_name); logfile = xstrcat(logfile, (char *)".log"); if (debug) fprintf(stdout, "%s %s\n", logfile, line); fp = fopen(logfile, "a"); if (fp) { fprintf(fp, "%s\n", line); fclose(fp); } else { syslog(LOG_NOTICE, "cannot append to `%s'", logfile); } free(logfile); logfile = NULL; free(line); line = NULL; if (log->datetime) free(log->datetime); if (log->product_uuid ) free(log->product_uuid ); if (log->product_code ) free(log->product_code ); if (log->product_name ) free(log->product_name ); if (log->uuid) free(log->uuid); if (log->node) free(log->node); if (log->alias) free(log->alias); free(log); } void co2meter_dump(sys_co2meter_list *co2meter) { if (debug) { printf("uuid %s\n", co2meter->uuid); printf("alias %s\n", co2meter->alias); printf("node %s\n", co2meter->node); printf("online %s\n", co2meter->online ? "yes":"no"); printf("product %s / %s\n", co2meter->beercode, co2meter->beername); printf("Temperature %-16s %10s %8.3f\n", co2meter->temperature_address, co2meter->temperature_state, co2meter->temperature); printf("Pressure %10s %d %.3f %.3f %.3f\n", co2meter->pressure_state, co2meter->pressure_channel, co2meter->pressure_voltage, co2meter->pressure_zero, co2meter->pressure_bar); printf("mode %s\n", co2meter->mode); } }
