#include #include #include #include #include //inet_addr #include #include #include #include #include #include #include"base64.h" #include #include #define TIMEDATE_LENGTH 32 typedef struct { uint32_t utc; char timedate[TIMEDATE_LENGTH]; float dht22_t_esp; float dht22_h_esp; float sht85_t_esp; float sht85_h_esp; float hih8121_t_esp; float hih8121_h_esp; float tmp36_0_esp; float tmp36_1_esp; float tmp36_2_esp; float hih4030_esp; float hh10d_esp; float dht22_t_mkr; float dht22_h_mkr; float sht85_t_mkr; float sht85_h_mkr; float hih8121_t_mkr; float hih8121_h_mkr; float hh10d_mkr; float dht22_t_wis; float dht22_h_wis; float sht85_t_wis; float sht85_h_wis; float hih8121_t_wis; float hih8121_h_wis; float tmp102_wis; float hh10d_wis; } sensor_data_t; typedef struct { uint8_t dev_id; int server_desc; int client_desc; struct sockaddr_in server; struct sockaddr_in client; int sock_len; } gcom_ch_t; // gateway communication channel int send_gcom_ch(gcom_ch_t *gch, uint8_t *pck, uint8_t pck_size); int recv_gcom_ch(gcom_ch_t *gch, uint8_t *pck, uint8_t *pck_length, uint16_t pck_size); void * connection_handler (void *args); uint8_t gateway_protocol_data_send_payload_decode(sensor_data_t *sensor_data, const uint8_t *payload, const uint8_t payload_length); void prepare_di_query(sensor_data_t *sensor_data, char *q, uint16_t q_size); // data insert void filter_query(char *com); void packet_encode( uint8_t dev_id, gateway_protocol_packet_type_t p_type, uint8_t payload_length, uint8_t *payload, uint8_t *packet_length, uint8_t *packet); uint8_t packet_decode( uint8_t *dev_id, gateway_protocol_packet_type_t *ptype, uint8_t *payload_length, uint8_t *payload, uint8_t packet_length, uint8_t *packet); void gateway_protocol_mk_stat( gcom_ch_t *gch, gateway_protocol_stat_t stat, uint8_t *pck, uint8_t *pck_len); void send_utc(gcom_ch_t *pch); void ctrc_handler (int sig); static volatile uint8_t working = 1; int main (int argc, char **argv) { //int server_desc, client_desc; //struct sockaddr_in server, client; //socklen_t client_socklen; gcom_ch_t gch; uint8_t buf[1024]; uint8_t buf_len = 0; uint8_t payload[256]; uint8_t payload_length = 0; //int sock_len; PGresult *res; signal(SIGINT, ctrc_handler); PGconn *conn = PQconnectdb("user=root dbname=gateway"); if (PQstatus(conn) == CONNECTION_BAD) { printf("connection to db error: %s\n", PQerrorMessage(conn)); return EXIT_FAILURE; } if ((gch.server_desc = socket(AF_INET, SOCK_DGRAM, IPPROTO_UDP)) < 0) { perror("socket creation error"); return EXIT_FAILURE; } gch.server.sin_family = AF_INET; gch.server.sin_port = htons(9043); gch.server.sin_addr.s_addr = INADDR_ANY; if (bind(gch.server_desc, (struct sockaddr *) &gch.server, sizeof(gch.server)) < 0) { perror("binding error"); return EXIT_FAILURE; } gateway_protocol_packet_type_t packet_type; while (working) { buf_len = 0; printf("listenninig...\n"); gch.sock_len = sizeof(gch.client); recv_gcom_ch(&gch, buf, &buf_len, 1024); if (gateway_protocol_packet_decode( &gch.dev_id, &packet_type, &payload_length, payload, buf_len, buf)) { if (packet_type == GATEWAY_PROTOCOL_PACKET_TYPE_TIME_REQ) { printf("TIME REQ received\n"); send_utc(&gch); } else if (packet_type == GATEWAY_PROTOCOL_PACKET_TYPE_DATA_SEND) { sensor_data_t sensor_data; printf("DATA SEND received\n"); if (gateway_protocol_data_send_payload_decode(&sensor_data, payload, payload_length)) { prepare_di_query(&sensor_data, buf, sizeof(buf)); filter_query(buf); printf("%s\n", buf); res = PQexec(conn, buf); if (PQresultStatus(res) == PGRES_COMMAND_OK) { PQclear(res); sprintf(buf, "SELECT * FROM pend_msgs WHERE dev_id = %d", gch.dev_id); res = PQexec(conn, buf); if (PQresultStatus(res) == PGRES_TUPLES_OK && PQntuples(res)) { gateway_protocol_mk_stat( &gch, GATEWAY_PROTOCOL_STAT_ACK_PEND, buf, &buf_len); printf("ACK_PEND prepared\n"); } else { gateway_protocol_mk_stat( &gch, GATEWAY_PROTOCOL_STAT_ACK, buf, &buf_len); printf("ACK prepared\n"); } send_gcom_ch(&gch, buf, buf_len); } else { fprintf(stderr, "database error : %s\n", PQerrorMessage(conn)); } PQclear(res); } else { gateway_protocol_mk_stat( &gch, GATEWAY_PROTOCOL_STAT_NACK, buf, &buf_len); send_gcom_ch(&gch, buf, buf_len); fprintf(stderr, "payload decode error\n"); } } else if (packet_type == GATEWAY_PROTOCOL_PACKET_TYPE_PEND_REQ) { sprintf(buf, "SELECT * FROM pend_msgs WHERE dev_id = %d", gch.dev_id); res = PQexec(conn, buf); if (PQresultStatus(res) == PGRES_TUPLES_OK && PQntuples(res)) { char msg_cont[150]; strncpy(msg_cont, PQgetvalue(res, 0, 1), sizeof(msg_cont)); printf("PEND_SEND prepared : %s\n", PQgetvalue(res, 0, 1)); base64_decode(PQgetvalue(res, 0, 1), strlen(PQgetvalue(res, 0, 1)), payload); payload_length = BASE64_DECODE_OUT_SIZE(strlen(PQgetvalue(res, 0, 1))); PQclear(res); printf("prepared to send %d bytes\n", payload_length); packet_encode( gch.dev_id, GATEWAY_PROTOCOL_PACKET_TYPE_PEND_SEND, payload_length, payload, &buf_len, buf); send_gcom_ch(&gch, buf, buf_len); recv_gcom_ch(&gch, buf, &buf_len, 1024); if (packet_decode( &gch.dev_id, &packet_type, &payload_length, payload, buf_len, buf)) { if (packet_type == GATEWAY_PROTOCOL_PACKET_TYPE_STAT && payload_length == 1 && payload[0] == GATEWAY_PROTOCOL_STAT_ACK) { sprintf(buf, "DELETE FROM pend_msgs WHERE dev_id = %d AND msg = '%s'", gch.dev_id, msg_cont); printf("%s", buf); res = PQexec(conn, buf); if (PQresultStatus(res) != PGRES_COMMAND_OK) { fprintf(stderr, "error db deleting : %s", PQerrorMessage(conn)); } PQclear(res); printf("ACK received\n"); } } } } else { fprintf(stderr, "packet type error : %02X\n", packet_type); } } else { fprintf(stderr, "packet decode error (type : %02X, pck_len = %d, pay_len = %d\n", packet_type, buf_len, payload_length); } } close(gch.server_desc); PQfinish(conn); return EXIT_SUCCESS; } void ctrc_handler (int sig) { working = 0; } uint8_t gateway_protocol_data_send_payload_decode( sensor_data_t *sensor_data, const uint8_t *payload, const uint8_t payload_length) { uint8_t p_len = 0; memcpy(&sensor_data->utc, &payload[p_len], sizeof(sensor_data->utc)); p_len += sizeof(sensor_data->utc); memcpy(&sensor_data->timedate, &payload[p_len], sizeof(sensor_data->timedate)); //p_len += sizeof(sensor_data->timedate); p_len += TIMEDATE_LENGTH; memcpy(&sensor_data->dht22_t_esp, &payload[p_len], sizeof(sensor_data->dht22_t_esp)); p_len += sizeof(sensor_data->dht22_t_esp); memcpy(&sensor_data->dht22_h_esp, &payload[p_len], sizeof(sensor_data->dht22_h_esp)); p_len += sizeof(sensor_data->dht22_h_esp); memcpy(&sensor_data->sht85_t_esp, &payload[p_len], sizeof(sensor_data->sht85_t_esp)); p_len += sizeof(sensor_data->sht85_t_esp); memcpy(&sensor_data->sht85_h_esp, &payload[p_len], sizeof(sensor_data->sht85_h_esp)); p_len += sizeof(sensor_data->sht85_h_esp); memcpy(&sensor_data->hih8121_t_esp, &payload[p_len], sizeof(sensor_data->hih8121_t_esp)); p_len += sizeof(sensor_data->hih8121_t_esp); memcpy(&sensor_data->hih8121_h_esp, &payload[p_len], sizeof(sensor_data->hih8121_h_esp)); p_len += sizeof(sensor_data->hih8121_h_esp); memcpy(&sensor_data->tmp36_0_esp, &payload[p_len], sizeof(sensor_data->tmp36_0_esp)); p_len += sizeof(sensor_data->tmp36_0_esp); memcpy(&sensor_data->tmp36_1_esp, &payload[p_len], sizeof(sensor_data->tmp36_1_esp)); p_len += sizeof(sensor_data->tmp36_1_esp); memcpy(&sensor_data->tmp36_2_esp, &payload[p_len], sizeof(sensor_data->tmp36_2_esp)); p_len += sizeof(sensor_data->tmp36_2_esp); memcpy(&sensor_data->hih4030_esp, &payload[p_len], sizeof(sensor_data->hih4030_esp)); p_len += sizeof(sensor_data->hih4030_esp); memcpy(&sensor_data->hh10d_esp, &payload[p_len], sizeof(sensor_data->hh10d_esp)); p_len += sizeof(sensor_data->hh10d_esp); memcpy(&sensor_data->dht22_t_mkr, &payload[p_len], sizeof(sensor_data->dht22_t_mkr)); p_len += sizeof(sensor_data->dht22_t_mkr); memcpy(&sensor_data->dht22_h_mkr, &payload[p_len], sizeof(sensor_data->dht22_h_mkr)); p_len += sizeof(sensor_data->dht22_h_mkr); memcpy(&sensor_data->sht85_t_mkr, &payload[p_len], sizeof(sensor_data->sht85_t_mkr)); p_len += sizeof(sensor_data->sht85_t_mkr); memcpy(&sensor_data->sht85_h_mkr, &payload[p_len], sizeof(sensor_data->sht85_h_mkr)); p_len += sizeof(sensor_data->sht85_h_esp); memcpy(&sensor_data->hih8121_t_mkr, &payload[p_len], sizeof(sensor_data->hih8121_t_mkr)); p_len += sizeof(sensor_data->hih8121_t_mkr); memcpy(&sensor_data->hih8121_h_mkr, &payload[p_len], sizeof(sensor_data->hih8121_h_mkr)); p_len += sizeof(sensor_data->hih8121_h_mkr); memcpy(&sensor_data->hh10d_mkr, &payload[p_len], sizeof(sensor_data->hh10d_mkr)); p_len += sizeof(sensor_data->hh10d_mkr); memcpy(&sensor_data->dht22_t_wis, &payload[p_len], sizeof(sensor_data->dht22_t_wis)); p_len += sizeof(sensor_data->dht22_t_wis); memcpy(&sensor_data->dht22_h_wis, &payload[p_len], sizeof(sensor_data->dht22_h_wis)); p_len += sizeof(sensor_data->dht22_h_wis); memcpy(&sensor_data->sht85_t_wis, &payload[p_len], sizeof(sensor_data->sht85_t_wis)); p_len += sizeof(sensor_data->sht85_t_wis); memcpy(&sensor_data->sht85_h_wis, &payload[p_len], sizeof(sensor_data->sht85_h_wis)); p_len += sizeof(sensor_data->sht85_h_wis); memcpy(&sensor_data->hih8121_t_wis, &payload[p_len], sizeof(sensor_data->hih8121_t_wis)); p_len += sizeof(sensor_data->hih8121_t_wis); memcpy(&sensor_data->hih8121_h_wis, &payload[p_len], sizeof(sensor_data->hih8121_h_wis)); p_len += sizeof(sensor_data->hih8121_h_wis); memcpy(&sensor_data->tmp102_wis, &payload[p_len], sizeof(sensor_data->tmp102_wis)); p_len += sizeof(sensor_data->tmp102_wis); memcpy(&sensor_data->hh10d_wis, &payload[p_len], sizeof(sensor_data->hh10d_wis)); p_len += sizeof(sensor_data->hh10d_wis); //printf("p_len = %d, payload_length = %d\n", p_len, payload_length); return (p_len == payload_length); } void prepare_di_query(sensor_data_t *sensor_data, char *q, uint16_t q_size) { snprintf(q, q_size, "INSERT INTO esp32 (" "utc, timedate, " "dht22_t_esp, dht22_h_esp, " "sht85_t_esp, sht85_h_esp, " "hih8121_t_esp, hih8121_h_esp, " "tmp36_0_esp, tmp36_1_esp, tmp36_2_esp, " "hih4030_esp, " "hh10d_esp, " "dht22_t_mkr, dht22_h_mkr, " "sht85_t_mkr, sht85_h_mkr, " "hih8121_t_mkr, hih8121_h_mkr, " "hh10d_mkr, " "dht22_t_wis, dht22_h_wis, " "sht85_t_wis, sht85_h_wis, " "hih8121_t_wis, hih8121_h_wis, " "tmp102_wis, " "hh10d_wis) " "VALUES(" "%lu, '%s', " "%.2f, %.2f, " // esp "%.2f, %.2f, " "%.2f, %.2f, " "%.2f, %.2f, %.2f, " "%.2f, " "%.2f, " "%.2f, %.2f, " // mkr "%.2f, %.2f, " "%.2f, %.2f, " "%.2f, " "%.2f, %.2f, " // wis "%.2f, %.2f, " "%.2f, %.2f, " "%.2f, " "%.2f)", sensor_data->utc, sensor_data->timedate, sensor_data->dht22_t_esp, sensor_data->dht22_h_esp, sensor_data->sht85_t_esp, sensor_data->sht85_h_esp, sensor_data->hih8121_t_esp, sensor_data->hih8121_h_esp, sensor_data->tmp36_0_esp, sensor_data->tmp36_1_esp, sensor_data->tmp36_2_esp, sensor_data->hih4030_esp, sensor_data->hh10d_esp, sensor_data->dht22_t_mkr, sensor_data->dht22_h_mkr, sensor_data->sht85_t_mkr, sensor_data->sht85_h_mkr, sensor_data->hih8121_t_mkr, sensor_data->hih8121_h_mkr, sensor_data->hh10d_mkr, sensor_data->dht22_t_wis, sensor_data->dht22_h_wis, sensor_data->sht85_t_wis, sensor_data->sht85_h_wis, sensor_data->hih8121_t_wis, sensor_data->hih8121_h_wis, sensor_data->tmp102_wis, sensor_data->hh10d_wis ); } void filter_query(char *q) { char *pchr; const char nanstr[] = "'NaN'"; while((pchr = strstr(q, "nan"))) { memmove(&pchr[5], &pchr[3], strlen(pchr)+1); memcpy(pchr, nanstr, sizeof(nanstr)-1); } while(pchr = strchr(q, '-')) { memmove(pchr, &pchr[1], strlen(pchr)); } } void packet_encode( uint8_t dev_id, gateway_protocol_packet_type_t p_type, uint8_t payload_length, uint8_t *payload, uint8_t *packet_length, uint8_t *packet) { *packet_length = 0; packet[*packet_length] = dev_id; (*packet_length)++; packet[*packet_length] = p_type; (*packet_length)++; packet[*packet_length] = payload_length; (*packet_length)++; memcpy(&packet[*packet_length], payload, payload_length); *packet_length += payload_length; } uint8_t packet_decode( uint8_t *dev_id, gateway_protocol_packet_type_t *ptype, uint8_t *payload_length, uint8_t *payload, uint8_t packet_length, uint8_t *packet) { uint8_t p_len = 0; *dev_id = packet[p_len]; p_len++; *ptype = (gateway_protocol_packet_type_t) packet[p_len]; p_len++; *payload_length = packet[p_len]; p_len++; memcpy(payload, &packet[p_len], *payload_length); p_len += *payload_length; return p_len == packet_length; } void gateway_protocol_mk_stat( gcom_ch_t *gch, gateway_protocol_stat_t stat, uint8_t *pck, uint8_t *pck_len) { pck[0] = gch->dev_id; pck[1] = GATEWAY_PROTOCOL_PACKET_TYPE_STAT; pck[2] = 1; pck[3] = stat; *pck_len = 4; } void send_utc(gcom_ch_t *gch) { uint8_t buf[10]; uint8_t buf_len = 0; struct timeval tv; gettimeofday(&tv, NULL); packet_encode ( gch->dev_id, GATEWAY_PROTOCOL_PACKET_TYPE_TIME_SEND, sizeof(tv.tv_sec), (uint8_t *)&tv.tv_sec, &buf_len, buf ); send_gcom_ch(gch, buf, buf_len); } int send_gcom_ch(gcom_ch_t *gch, uint8_t *pck, uint8_t pck_size) { int ret; for(uint8_t i = 0; i < pck_size; i++) { printf("%02X : ", pck[i]); } printf("\n"); if (sendto(gch->server_desc, (char *)pck, pck_size, 0, (struct sockaddr *)&gch->client, gch->sock_len) < 0) { perror("sendto error"); } return ret; } int recv_gcom_ch(gcom_ch_t *gch, uint8_t *pck, uint8_t *pck_length, uint16_t pck_size) { if ((*pck_length = recvfrom(gch->server_desc, (char *)pck, pck_size, MSG_WAITALL, (struct sockaddr *)&gch->client, &gch->sock_len)) < 0) { perror("socket receive error"); } for(uint8_t i = 0; i < *pck_length; i++) { printf("%02X : ", pck[i]); } printf("\n"); } /* connection handler for multithreading version */ #ifdef MULTITHREADING_VER void *connection_handler(void *args) { int client_desc = *(int *)args; uint8_t buf[128] = ""; uint8_t buf_len = 0; uint8_t payload[128]; uint8_t payload_length = 0; if ((buf_len = recv(client_desc, buf, sizeof(buf), 0)) > 0) { uint8_t dev_id = 0xFF; gateway_protocol_packet_type_t packet_type; if (gateway_protocol_packet_decode( &dev_id, &packet_type, &payload_length, payload, buf_len, buf)) { if (packet_type == GATEWAY_PROTOCOL_PACKET_TYPE_TIME_REQ) { printf("TIME REQ received\n"); struct timeval tv; buf_len = 0; buf[0] = dev_id; buf_len++; buf[1] = GATEWAY_PROTOCOL_PACKET_TYPE_TIME_SEND; buf_len++; gettimeofday(&tv, NULL); memcpy(&buf[buf_len], &tv.tv_sec, sizeof(uint32_t)); buf_len += sizeof(uint32_t); write(client_desc, buf, buf_len); } else { perror("packet type error"); } } else { perror("packet decode error"); } } } #endif