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WLE5CC_NODE_STS/hk_as923_decoder.js

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// Decode decodes an array of bytes into an object.
// - fPort contains the LoRaWAN fPort number
// - bytes is an array of bytes, e.g. [225, 230, 255, 0]
// - variables contains the device variables e.g. {"calibration": "3.5"} (both the key / value are of type string)
// The function must return an object, e.g. {"temperature": 22.5}
//
// Yunhorn SmarToilets Sensor R20241030A01
//
function Decode(fPort, data, variables) {
var data = {};
data.length = bytes.length;
switch (fPort) {
// RESPOND PORT --- bottom of swith fport
// case 1:
// break;
// CMD DOWN LINK PORT
case 2:
break;
// STS-R5 (LEGACY, ULTRASONIC WASTE-BIN)
case 3:
break;
// STS-O1/O2/O3/O5 REEDSWITCH, OCCUPANCY LED REPORT
case 4:
break;
// HEART-BEAT FOR STS-O1/O2/O3/O5 REEDSWITCH, OCCUPANCY LED REPORT
case 5:
break;
// STS-M1 water leakage sensor
case 6:
break;
// R4 soap/sanitizer sensor
case 7:
data.led_state = bytes[0] == 0x0 ? "Off" : "On";
data.mtm_code_1 = bytes[1];
data.mtm_code_2 = bytes[2];
data.hw_code = bytes[3];
data.battery_level = bytes[4] + "%";
data.size_value = bytes[5];
data.measure_tech = (bytes[6] === 0) ? "Capacitive" : "Other";
data.liquid_level_event = (bytes[7] === 0x1) ? "Liquid Detected" : "No Liquid";
return { "Yunhorn_SmarToilets_data": data };
break;
// STS-R3 soap yes no
case 8:
//data.led_state=(bytes[0] & 0x7f) === 0 ? "Off" : "On";
data.BoardLED = ((bytes[0] & 0x7F) === 0x01) ? "ON" : "OFF";
//data.battery_level = bytes[1] + " %";
data.battery_level = bytes[1] * 100 + "mV";
return { "Yunhorn_SmarToilets_data": data };
break;
// STS-M3 water tank or cistern level sensor Ultrasonic
case 9:
break;
// STS_O2_O6 V3 version 2023,pixel-network version
case 10:
switch (bytes[0]) {
case 0x00:
data.LEDcolor = "Dark";
break;
case 0x01:
data.LEDcolor = "Green";
data.cubicleOccupyStatus = "Vacant";
break;
case 0x02:
data.LEDcolor = "Red";
data.cubicleOccupyStatus = "Occupied";
break;
case 0x03:
data.LEDcolor = "Blue";
data.cubicleOccupyStatus = "Maintenance";
break;
case 0x04:
data.LEDcolor = "Yellow";
data.cubicleOccupyStatus = "TBD";
break;
case 0x05:
data.LEDcolor = "Pink";
data.cubicleOccupyStatus = "TBD";
break;
case 0x06:
data.LEDcolor = "Cyan";
data.cubicleOccupyStatus = "TBD";
break;
case 0x07:
data.LEDcolor = "White";
data.cubicleOccupyStatus = "TBD";
break;
case 0x08:
data.LEDcolor = "Red_Blue";
data.cubicleOccupyStatus = "EMERGENCY";
break;
case 0x23:
data.LEDcolor = "Red_Blue";
data.cubicleOccupyStatus = "EMERGENCY";
break;
case 0x20:
data.LEDcolor = "Red_Flash";
data.cubicleOccupyStatus = "EMERGENCY";
break;
default:
data.LEDcolor = "TBD_COLOR";
data.cubicleOccupyStatus = "TBD_status";
break;
}
switch (bytes[1]) {
case 0x0:
data.workmode = "Network_mode";
break;
case 0x01:
data.workmode = "Wired_Mode";
break;
case 0x02:
data.workmode = "Hall_element_mode";
break;
case 0x03:
data.workmode = "MotionDetect_mode";
break;
case 0x04:
data.workmode = "Dual_mode";
break;
case 0x05:
data.workmode = "Uni_Mode";
break;
default:
data.workmode = "Unknown Mode";
break;
}
// select only one below
// For NC (Normal Closed states)
data.Sensor1_Door_Contact_Open = bytes[2] === 0 ? "Door Closed" : "Door Open";
// For NC (Normal Closed states)
// data.Sensor1_Door_Contact_Open = bytes[3]===1?"Door Closed":"Door Open";
if (bytes[1] == 0x02) //Hall_element_mode
{
data.Sensor2_SOS_Pushed = bytes[3] === 0 ? "PushDown" : "RelaseUP";
} else if (bytes[1] > 0x02) {
data.Sensor2_Motion_Detected = bytes[3] === 0 ? "No Motion" : "Motion Detected";
}
return { "Yunhorn_SmarToilets_data": data };
break;
// STS R5 waste bin
case 11:
data.LED_State = (bytes[0] === 0) ? "Off" : "On";
data.mtm_code_1 = bytes[1];
data.mtm_code_2 = bytes[2];
data.hw_code = bytes[3];
data.battery_level = bytes[4] + "%";
// data.battery_level_mV = (bytes[4])*100 + " mV";
data.size_value = bytes[5];
data.distance_1_mm = bytes[6] << 8 | bytes[7];
// data.distance_2_mm = bytes[8]<<8|bytes[9];
// data.distance_3_mm = bytes[10]<<8|bytes[11];
data.distance_unit = "mm";
return { "Yunhorn_SmarToilets_data": data };
break;
// STS-M4 water flow sensor
case 12:
//data.led_state=(bytes[0] & 0x7f) === 0 ? "Off" : "On";
data.BoardLED = ((bytes[0] & 0x7F) === 0x01) ? "ON" : "OFF";
//data.battery_level = bytes[1] + " %";
data.battery_level = bytes[1] * 100 + "mV";
return { "Yunhorn_SmarToilets_data": data };
break;
// STS-M1A Water mark sensor thermal matrix
case 13:
break;
// STS-M1A Water mark sensor thermal matrix, heart-beat
case 14:
break;
// STS-T6 O6T ToF Presence Detection
case 14:
data.LED_State = bytes[0] === 0 ? "Off" : "On";
data.MTM_Code_1 = bytes[1];
data.MTM_Code_2 = bytes[2];
data.HW_Code = bytes[3];
data.Battery_Level = bytes[4] + " %";
data.Payload_Size = bytes[5];
data.Presence_State = bytes[6] == 1 ? "Occupied" : "Vacant";
return { "Yunhorn_SmarToilets_data": data };
break;
// STS-T6 heart beat
case 15:
//data.led_state=(bytes[0] & 0x7f) === 0 ? "Off" : "On";
data.BoardLED = ((bytes[0] & 0x7F) === 0x01) ? "ON" : "OFF";
//data.battery_level = bytes[1] + " %";
data.battery_level = bytes[1] * 100 + "mV";
return { "Yunhorn_SmarToilets_data": data };
break;
case 16:
break;
case 18:
//data.led_state=(bytes[0] & 0x7f) === 0 ? "Off" : "On";
data.BoardLED = ((bytes[0] & 0x7F) === 0x01) ? "ON" : "OFF";
//data.battery_level = bytes[1] + " %";
data.battery_level = bytes[1] * 100 + "mV";
return { "Yunhorn_SmarToilets_data": data };
break;
// Heart-beat for STS-O6 occupancy sensor
case 17:
// STS-O7 Fall detection sensor
case 19:
case 21:
{
data.BoardLED = ((bytes[0] & 0x7F) === 0x01) ? "ON" : "OFF";
switch (bytes[1]) {
case 0x00:
data.LEDcolor = "Dark";
break;
case 0x01:
data.LEDcolor = "Green";
data.cubicleOccupyStatus = "Vacant";
break;
case 0x02:
data.LEDcolor = "Red";
data.cubicleOccupyStatus = "Occupied";
break;
case 0x03:
data.LEDcolor = "Blue";
data.cubicleOccupyStatus = "Maintenance";
break;
case 0x04:
data.LEDcolor = "Yellow";
data.cubicleOccupyStatus = "TBD";
break;
case 0x05:
data.LEDcolor = "Pink";
data.cubicleOccupyStatus = "TBD";
break;
case 0x06:
data.LEDcolor = "Cyan";
data.cubicleOccupyStatus = "TBD";
break;
case 0x07:
data.LEDcolor = "White";
data.cubicleOccupyStatus = "TBD";
break;
case 0x08:
data.LEDcolor = "Red_Blue";
data.cubicleOccupyStatus = "EMERGENCY";
break;
case 0x23:
data.LEDcolor = "Red_Blue";
data.cubicleOccupyStatus = "EMERGENCY";
break;
case 0x20:
data.LEDcolor = "Red_Flash";
data.cubicleOccupyStatus = "EMERGENCY";
break;
default:
data.LEDcolor = "TBD_COLOR";
data.cubicleOccupyStatus = "TBD_status";
break;
}
switch (bytes[2]) {
case 0x0:
data.workmode = "Network_mode";
break;
case 0x01:
data.workmode = "Wired_Mode";
break;
case 0x02:
data.workmode = "Hall_element_mode";
break;
case 0x03:
data.workmode = "MotionDetect_mode";
break;
case 0x04:
data.workmode = "Dual_mode";
break;
case 0x05:
data.workmode = "Uni_Mode";
break;
default:
data.workmode = "Unknown Mode";
break;
}
// select only one below
// For NC(Normal Closed states
data.Sensor1_Door_Contact_Open = bytes[3] === 0 ? "Door Closed" : "Door Open";
// For NC(Normal Closed states
//data.Sensor1_Door_Contact_Open = bytes[3]===1?"Door Closed":"Door Open";
data.Sensor2_Emergency_Button = bytes[4] === 0 ? "Alarm Push Down" : "No Alarm, Released";
data.Sensor3_Motion_Detected = bytes[5] === 0 ? "No Motion" : "Motion Detected";
data.length = bytes.length;
if (data.length === 9) {
data.Over_stay_state = (bytes[6] === 0) ? "False" : "True";
data.Over_Stay_duration_in_Seconds = (bytes[7] << 8 | bytes[8]);
return { "Yunhorn_SmarToilets_data": data };
}
else if (data.length > 9) {
data.Sensor4_ALARM_MUTE = (bytes[6] === 0) ? "Down Mute" : "No Mute";
data.Sensor5_ALARM_RESET = (bytes[7] === 0) ? "Down RESET" : "NO Reset";
data.Distance_in_mm = (bytes[8] << 8 | bytes[9]);
data.MotionLevel = (bytes[10] << 8 | bytes[11]);
data.Unconcious_State = (bytes[12] == 0) ? "False" : "True";
switch (bytes[13]) {
case 0x0:
data.Fall_Down_Detected_State = "Presence_Normal";
break;
case 0x01:
data.Fall_Down_Detected_State = "Presence_Fall_Down";
break;
case 0x02:
data.Fall_Down_Detected_State = "Presence_Rising_Up";
break;
case 0x03:
data.Fall_Down_Detected_State = "Presence_LayDown";
break;
case 0x04:
data.Fall_Down_Detected_State = "Presence_Unconcious";
break;
case 0x05:
data.Fall_Down_Detected_State = "Presence_Stay_Still";
break;
default:
data.Fall_Down_Detected_State = "Presence_Normal";
break;
}
data.OverStay_Detected_State = (bytes[14] == 0x0) ? "False" : "True";
data.OverStay_Duration_in_Seconds = (bytes[15] << 8 | bytes[16]);
data.No_Movement_Duration_in_Seconds = (bytes[17] << 8 | bytes[18]);
data.Unconcious_Duration_in_Seconds = (bytes[17] << 8 | bytes[18]);
data.Fall_Down_Speed_in_m_per_s = (bytes[19]);
data.Fall_Down_Gravity_in_g = (bytes[20]);
data.SOS_PushDown_Stamp = (bytes[21] << 24 | bytes[22] << 16 | bytes[23] << 8 | bytes[24]);
if (data.SOS_PushDown_Stamp != 0) {
var sos_start = new Date(1000 * data.SOS_PushDown_Stamp);
data.SOS_PushDown_Time = "[" + sos_start.getDate() + "." + (sos_start.getMonth() + 1) + "." + (sos_start.getFullYear()) + "] " + sos_start.getHours() + ":" + sos_start.getMinutes() + ":" + sos_start.getSeconds();
} else data.SOS_PushDown_Time = "N/A";
data.SOS_ReleaseUP_Stamp = (bytes[25] << 24 | bytes[26] << 16 | bytes[27] << 8 | bytes[28]);
if (data.SOS_ReleaseUP_Stamp != 0) {
var sos_stop = new Date(1000 * data.SOS_ReleaseUP_Stamp);
data.SOS_ReleaseUP_Time = "[" + sos_stop.getDate() + "." + (sos_stop.getMonth() + 1) + "." + (sos_stop.getFullYear()) + "] " + sos_stop.getHours() + ":" + sos_stop.getMinutes() + ":" + sos_stop.getSeconds();
} else data.SOS_ReleaseUP_Time = "N/A";
data.Fall_Down_Stamp = (bytes[29] << 24 | bytes[30] << 16 | bytes[31] << 8 | bytes[32]);
if (data.Fall_Down_Stamp != 0) {
var fall_start = new Date(1000 * data.Fall_Down_Stamp);
data.Fall_Down_Time = "[" + fall_start.getDate() + "." + (fall_start.getMonth() + 1) + "." + (fall_start.getFullYear()) + "] " + fall_start.getHours() + ":" + fall_start.getMinutes() + ":" + fall_start.getSeconds();
} else data.Fall_RiseUp_Stamp = "N/A";
data.Fall_RiseUp_Stamp = (bytes[33] << 24 | bytes[34] << 16 | bytes[35] << 8 | bytes[36]);
if (data.Fall_RiseUp_Stamp != 0) {
var fall_stop = new Date(1000 * data.Fall_RiseUp_Stamp);
data.Fall_RiseUp_Time = "[" + fall_stop.getDate() + "." + (fall_stop.getMonth() + 1) + "." + (fall_stop.getFullYear()) + "] " + fall_stop.getHours() + ":" + fall_stop.getMinutes() + ":" + fall_stop.getSeconds();
} else data.Fall_RiseUp_Time = "N/A";
}
return { "Yunhorn_SmarToilets_data": data };
}
break;
break;
// STS-O6 occupancy sensor heart-beat
case 18:
//data.led_state=(bytes[0] & 0x7f) === 0 ? "Off" : "On";
data.BoardLED = ((bytes[0] & 0x7F) === 0x01) ? "ON" : "OFF";
//data.battery_level = bytes[1] + " %";
data.battery_level = bytes[1] * 100 + "mV";
return { "Yunhorn_SmarToilets_data": data };
break;
// STS-O7 Fall detection sensor heart-beat
case 20:
break;
// STS-M7 Vibration sensor
case 20:
break;
// STS R3 Soap Yes_No sensor
case 51:
data.LED_State = (bytes[0] === 0) ? "Off" : "On";
data.mtm_code_1 = bytes[1];
data.mtm_code_2 = bytes[2];
data.hw_code = bytes[3];
data.battery_level = bytes[4] + "%";
// data.battery_level_mV = (bytes[4])*100 + " mV";
data.size_value = bytes[5];
data.Liquid_detected = bytes[6];
data.Detect_method = (bytes[7] === 0) ? "Capacitive" : "ToF";
return { "Yunhorn_SmarToilets_data": data };
break;
// STS R2 Tissue paper sensor
case 52:
data.LED_State = (bytes[0] === 0) ? "Off" : "On";
data.mtm_code_1 = bytes[1];
data.mtm_code_2 = bytes[2];
data.hw_code = bytes[3];
data.battery_level = bytes[4] + "%";
// data.battery_level_mV = (bytes[4])*100 + " mV";
data.size_value = bytes[5];
data.distance_1_mm = bytes[6] << 8 | bytes[7];
// data.distance_2_mm = bytes[8]<<8|bytes[9];
// data.distance_3_mm = bytes[10]<<8|bytes[11];
data.distance_unit = "mm";
return { "Yunhorn_SmarToilets_data": data };
break;
// STS-M8 QUEUE BAR SENSOR
case 55:
// STS-O4 URINAL OCCUPANCY SENSOR
case 56:
break;
// R1D dual roll toilet paper sensor
case 57:
data.LED_State = (bytes[0] === 0) ? "Off" : "On";
data.mtm_code_1 = bytes[1];
data.mtm_code_2 = bytes[2];
data.hw_code = bytes[3];
data.battery_level = bytes[4] + "%";
//data.battery_level_mV = (bytes[4])*100 + " mV";
data.size_value = bytes[5];
data.distance_1_mm = bytes[6] << 8 | bytes[7];
data.distance_2_mm = bytes[8] << 8 | bytes[9];
// data.distance_3_mm = bytes[10]<<8|bytes[11];
data.distance_unit = "mm";
return { "Yunhorn_SmarToilets_data": data };
break;
// STS-R1 Single roll toilet paper sensor
case 58:
data.LED_State = (bytes[0] === 0) ? "Off" : "On";
//data.mtm_code_1 = bytes[1];
//data.mtm_code_2 = bytes[2];
//data.hw_code = bytes[3];
//data.battery_level = bytes[1]+"%";
data.battery_level_mV = (bytes[1]) * 100 + " mV";
//data.size_value = bytes[5];
//data.distance_1_mm = bytes[6]<<8|bytes[7];
//data.distance_2_mm = bytes[8]<<8|bytes[9];
// data.distance_3_mm = bytes[10]<<8|bytes[11];
//data.distance_unit = "mm";
return { "Yunhorn_SmarToilets_data": data };
break;
// STS-M2 TOILET CLOGGING SENSOR
case 59:
break;
// STS-E4 PTAQ, ODOR LEVEL Sensor 4-IN-1
case 70:
break;
// STS-E6 PTAQ, ODOR LEVEL Sensor 6-IN-1
case 72:
break;
// STS-E5 PTAQ, ODOR LEVEL Sensor 5-IN-1
case 74:
break;
// STS-E2 PTAQ, ODOR LEVEL Sensor
case 101:
break;
// STS-E1 Smoking Sensor
case 102:
break;
// STS-P1 QUEUEING SENSOR
case 104:
break;
// STS-M6 POWER RELAY SENSOR
case 105:
break;
// STS-P2 IN-OUT PEOPLE COUNTING SENSOR
case 106:
{
// STS-P2 bi-directional people counting
data.LED_State = bytes[0] === 0 ? "Off" : "On";
data.MTM_Code_1 = bytes[1];
data.MTM_Code_2 = bytes[2];
data.HW_Code = bytes[3];
data.Battery_Level = bytes[4] + " %";
data.Payload_Size = bytes[5];
data.Walk_In_People_Count = bytes[6] << 8 | bytes[7];
data.Walk_Out_People_Count = bytes[8] << 8 | bytes[8];
data.Walk_Around_People_Count = bytes[10] << 8 | bytes[11];
data.Count_Period = bytes[12];
data.Count_Period_Unit = String.fromCharCode(bytes[13]);
data.Sum_Day_Walk_In_People_Count = bytes[14] << 8 | bytes[15];
data.Sum_Day_Walk_Out_People_Count = bytes[16] << 8 | bytes[17];
data.Sum_Day_Walk_Around_People_Count = bytes[18] << 8 | bytes[19];
data.Count_Valid = (bytes[20] == 0x0) ? "Error" : "OK";
return { "Yunhorn_SmarToilets_data": data };
}
break;
// HEART-BEAT FOR STS-P2 IN-OUT PEOPLE COUNTING SENSOR
case 107:
//data.led_state=(bytes[0] & 0x7f) === 0 ? "Off" : "On";
data.BoardLED = ((bytes[0] & 0x7F) === 0x01) ? "ON" : "OFF";
//data.battery_level = bytes[1] + " %";
data.battery_level = bytes[1] * 100 + "mV";
return { "Yunhorn_SmarToilets_data": data };
break;
// respond port
case 1:
switch (bytes[0]) {
// NVM config 'C'
case 0x43:
// report current nvm config
data.mtm_code1 = bytes[1];
data.mtm_code2 = bytes[2];
data.sts_verion = bytes[3];
data.sts_hw_ver = bytes[4];
data.sts_uplink_interval = bytes[5];
data.sts_uplink_interval_unit = String.fromCharCode(bytes[6]);
data.sts_sampling_interval = bytes[7];
data.sts_sampling_interval_unit = String.fromCharCode(bytes[8]);
data.sts_work_mode = bytes[9];
data.sts_service_mask = bytes[10];
data.sts_reserve01 = bytes[11];
data.sts_payload_length = bytes[12];
data.rss_start_distance = bytes[13] * 0.1 + " meter";
data.rss_range_length = bytes[14] * 0.1 + " meter";
data.rss_threshold = bytes[15] * 0.1;
data.rss_receiving_gain = bytes[16] + " %";
data.rss_profile = bytes[17];
data.rss_rate_tracking = bytes[18];
data.rss_rate_presence = bytes[19];
data.rss_HWAAS = bytes[20];
data.rss_nbr_removed_pc = bytes[21];
data.rss_inter_frame_deviation_time_const = bytes[22] * 0.1;
data.rss_inter_frame_fast_cutoff = bytes[23];
data.rss_inter_frame_slow_cutoff = bytes[24];
data.rss_intra_frame_time_const = bytes[25];
data.rss_intra_frame_weight = bytes[26] * 0.1;
data.rss_output_time_const = bytes[27] * 0.1;
data.rss_downsampling_factor = bytes[28];
data.rss_power_saving_mode_active = bytes[29];
data.rss_reserve02 = bytes[30];
data.rss_reserve03 = bytes[31];
data.rss_reserve04 = bytes[32];
data.reserve2 = bytes[33];
data.reserve3 = bytes[34];
data.sensor_install_height = bytes[35] * 10 + " cm";
data.alarm_parameter05 = bytes[36];
data.alarm_mute_expire_timer = bytes[37];
data.alarm_lamp_bar_flashing_color = bytes[38];
data.occupancy_overtime_threshold = bytes[39];
data.motionless_duration_threshold = bytes[40];
data.unconcious_threshold = bytes[41];
data.fall_detection_acc_threshold = bytes[42];
data.fall_detection_depth_threshold = bytes[43];
data.fall_down_confirm_threshold = bytes[44];
break;
// D DISTANCE , INSTALLATION HEIGHT REPORT
case 0x44:
// MEASURE INSTALLATION HEIGHT
data.mtm_code1 = bytes[1];
data.mtm_code2 = bytes[2];
data.sts_verion = bytes[3];
data.sts_hw_ver = bytes[4];
data.battery_level = bytes[5];
data.payload_length = bytes[6];
data.Measure_Distance = String.fromCharCode(bytes[7]) + String.fromCharCode(bytes[8]) + String.fromCharCode(bytes[9]) + String.fromCharCode(bytes[10]);
data.Distance_unit = "mm";
break;
// LoRa Class 'L'
case 0x4c:
// LoRaWAN Class A/B/C
data.mtm_code1 = bytes[1];
data.mtm_code2 = bytes[2];
data.sts_verion = bytes[3];
data.LoRaWAN_Class = String.fromCharCode(bytes[4]);
break;
// CONTROL COMMAND 'P'
case 0x50:
// P-CMD work mode change
switch (data.length) {
case 4:
if ((data.length === 4) && (bytes[1] === 0x31) && (bytes[2] === 0x31)) {
data.Work_Mode_Switch = "OK";
switch (bytes[3] - 0x30) {
case 0x0:
data.workmode = "Network_mode";
break;
case 0x01:
data.workmode = "Wired_Mode";
break;
case 0x02:
data.workmode = "Hall_element_mode";
break;
case 0x03:
data.workmode = "MotionDetect_mode";
break;
case 0x04:
data.workmode = "Dual_mode";
break;
case 0x05:
data.workmode = "Uni_Mode";
break;
default:
data.workmode = "Unknown Mode";
break;
}
}
break;
case 7:
if (bytes[3] === 0x46) {
// F --- fall down & unconscious detection threshold
data.FALL_acceleration = (bytes[4] == 0x30 ? "Disabled" : ((bytes[4] - 0x30) * 10) + " mg/s2");
data.FALL_depth_measure = (bytes[5] == 0x30 ? "Disabled" : ((bytes[5] - 0x30) * 10) + " cm");
data.FALL_confirm_threshold = (bytes[6] == 0x30 ? "Disabled" : ((bytes[6] - 0x30) * 10) + " seconds");
//data.FALL_reserved = (bytes[7]==0x0?"Disabled":((bytes[6]-0x30)*10)+" min");
}
break;
case 8:
if (bytes[3] === 0x4f) {
// O -- over stay, onconscious, long stay
data.OMU_Motionless_duration_in_min = (bytes[4] == 0x30 ? "Disabled" : ((bytes[4] - 0x30)) + " Min");
data.OMU_Long_Occupy_duration_in_Min = (bytes[5] == 0x30 ? "Disabled" : ((bytes[5] - 0x30) * 10) + " Min");
data.OMU_Unconcious_Threshold = (bytes[6] == 0x30 ? "Disabled" : ((bytes[6] - 0x30) * 100) + "ml");
data.OMU_Alarm_Mute_Reset_Timer = (bytes[7] == 0x30 ? "Disabled" : ((bytes[7] - 0x30) * 10) + " Seconds");
} else if (bytes[3] === 0x46) {
// F --- fall down & unconscious detection threshold
data.FALL_acceleration = (bytes[4] == 0x30 ? "Disabled" : ((bytes[4] - 0x30) * 10) + " mg/s2");
data.FALL_depth_measure = (bytes[5] == 0x30 ? "Disabled" : ((bytes[5] - 0x30) * 10) + " cm");
data.FALL_confirm_threshold = (bytes[6] == 0x30 ? "Disabled" : ((bytes[6] - 0x30) * 10) + " seconds");
data.FALL_reserved = (bytes[7] == 0x30 ? "Disabled" : ((bytes[6] - 0x30) * 10) + " min");
}
break;
case 11:
// P 1108201365
data.RSS_SIMPLE_Start = ((bytes[3] - 0x30) * 100 + (bytes[4] - 0x30) * 10) + " cm";
data.RSS_SIMPLE_Length = ((bytes[5] - 0x30) * 100 + (bytes[6] - 0x030) * 10) + " cm";
data.RSS_SIMPLE_Threshold = ((bytes[7] - 0x30) * 1000 + (bytes[8] - 0x30) * 100) + " ml";
data.RSS_SIMPLE_Gain = ((bytes[9] - 0x30) * 10 + (bytes[10] - 0x30)) + " %";
break;
case 33:
// P 11
data.RSS_FULL_Start = ((bytes[3] - 0x30) * 100 + (bytes[4] - 0x30) * 10) + " cm";
data.RSS_FULL_Length = ((bytes[5] - 0x30) * 100 + (bytes[6] - 0x30) * 10) + " cm";
data.RSS_FULL_Threshold = ((bytes[7] - 0x30) * 1000 + (bytes[8] - 0x30) * 100) + " ml";
data.RSS_FULL_Gain = ((bytes[9] - 0x30) * 10 + (bytes[10] - 0x30)) + " %";
data.RSS_FULL_Profile = (bytes[11] - 0x30);
data.RSS_FULL_Rate_Tracking = ((bytes[12] - 0x30) * 10 + (bytes[13] - 0x30));
data.RSS_FULL_Rate_Presence = ((bytes[14] - 0x30) * 10 + (bytes[15] - 0x30));
data.RSS_FULL_HWAAS = ((bytes[16] - 0x30) * 10 + (bytes[17] - 0x30));
data.RSS_FULL_Num_Removed_PC = (bytes[18] - 0x30);
data.RSS_FULL_Inter_Deviation_Time_Const_in_Sec = ((bytes[19] - 0x30) + (bytes[20] - 0x30) * 0.1);
data.RSS_FULL_Inter_Fast_Cut_Off = ((bytes[21] - 0x30) * 10 + (bytes[22] - 0x30));
data.RSS_FULL_Inter_Slow_Cut_Off = ((bytes[23] - 0x30) * 0.1 + (bytes[24] - 0x30) * 0.001);
data.RSS_FULL_Inter_Time_Const_in_Sec = ((bytes[25] - 0x30) * 10 + (bytes[26] - 0x30));
data.RSS_FULL_Inter_Weight = ((bytes[27] - 0x30) + (bytes[28] - 0x30) * 0.1);
data.RSS_FULL_Output_Time_Const_in_Sec = ((bytes[29] - 0x30) + (bytes[30] - 0x30) * 0.1);
data.RSS_FULL_DownSampling_factor = (bytes[31] - 0x30);
data.RSS_FULL_Power_Saving_mode = (bytes[32] - 0x30);
break;
default:
break;
}
break;
// CONTROL COMMAND 'R'
case 0x52:
if (bytes[1] === 0x46) {
data.RFAC_Process_Request = "OK";
data.RFAC_Req = String.fromCharCode(bytes);
}
break;
// Self-Test function 'S'
case 0x53:
// SELF TEST FUNCTION
data.mtm_code1 = bytes[1];
data.mtm_code2 = bytes[2];
data.sts_verion = bytes[3];
data.sts_hw_ver = bytes[4];
data.battery_level = bytes[5];
if ((bytes[6] === 0x03)) { // report sensor install height
data.sts_sensor_install_height = (bytes[7] << 8 | bytes[8]);
data.sts_sensor_install_height_unit = "mm";
}
else if ((bytes[6] === 0x58)) {
data.sts_Test_Result = "### Motion Sensor Not Detected ###";
} else if ((bytes[6] === 0x0E)) //result length, 10 rss bytes, 4 distance bytes
{
data.sts_Test_Result = "Motion Sensor Test Result:";
data.sts_test_result_length = bytes[6];
data.sts_rss_sub_code1 = bytes[7];
data.sts_rss_sub_code2 = bytes[8];
data.sts_rss_sub_code3 = bytes[9];
data.sts_rss_sub_code4 = bytes[10];
data.sts_rss_sub_code5 = bytes[11];
data.sts_rss_sub_code6 = bytes[12];
data.sts_rss_sub_code7 = bytes[13];
data.sts_rss_sub_code8 = bytes[14];
data.sts_rss_sub_code9 = bytes[15];
data.sts_rss_sub_code10 = bytes[16];
data.sts_sensor_install_height = String.fromCharCode(bytes[17]) + String.fromCharCode(bytes[18]) + String.fromCharCode(bytes[19]) + String.fromCharCode(bytes[20]) + " mm";
}
break;
case 0x54:
//T: date & time
data.L_year = (bytes[1] << 8 | bytes[2]);
data.L_mon = bytes[3];
data.L_day = bytes[4];
data.L_hour = bytes[5];
data.L_min = bytes[6];
data.L_sec = bytes[7];
data.LocalTime_UTC = "UTC: " + data.L_year + "/" + data.L_mon + "/" + data.L_day + " " + data.L_hour + ":" + data.L_min + ":" + data.L_sec;
break;
// Firmware version 'V'
case 0x56:
// FIRMWARE VERSION
data.mtm_code1 = bytes[1];
data.mtm_code2 = bytes[2];
data.sts_verion = bytes[3];
data.sts_hw_ver = bytes[4];
data.sts_major = bytes[5];
data.sts_minor = bytes[6];
data.subminor = bytes[7];
if (data.length === 15) {
data.L_year = (bytes[8] << 8 | bytes[9]);
data.L_mon = bytes[10];
data.L_day = bytes[11];
data.L_hour = bytes[12];
data.L_min = bytes[13];
data.L_sec = bytes[14];
data.LocalTime_UTC = "UTC: " + data.L_year + "/" + data.L_mon + "/" + data.L_day + " " + data.L_hour + ":" + data.L_min + ":" + data.L_sec;
data.LocalTime_EST8 = "GMT+8: " + data.L_year + "/" + data.L_mon + "/" + data.L_day + " " + (data.L_hour + 8) + ":" + data.L_min + ":" + data.L_sec;
}
break;
// Respond 'Y'
case 0x59:
switch (bytes[1]) {
// Uplink Duration interval
case 0x44:
data.Uplink_interval = (bytes[2] - 0x30) * 10 + (bytes[3] - 0x30);
data.Uplink_interval_unit = String.fromCharCode(bytes[4]);
break;
// Sampling interval or Heart-beat interval, 'YSaab', 'YLaab'
case 0x4C:
case 0x53:
data.Heart_Beat_interval = (bytes[2] - 0x30) * 10 + (bytes[3] - 0x30);
data.Heart_Beat_interval_unit = String.fromCharCode(bytes[4]);
// if sts_mtm1 == O6/O7 ....TODO XXXX
// data.Wakeup_sampling_interval = (bytes[2]-0x30)*10 + (bytes[3]-0x30);
// data.Unit = String.fromCharCode(bytes[4]);
break;
}
if (bytes[9] == 0x38) {
data.Yunhorn_PRD = "True";
data.PRD_String = String.fromCharCode(bytes[10], bytes[11], bytes[12], bytes[13], bytes[14], bytes[15], bytes[16]);
}
break;
default:
break;
}
switch (data.length) {
// RFAC process
case 4:
if ((bytes[0] == 0x52) && (bytes[1] == 0x46)) {
data.RFAC_Process_Request = "OK";
data.RFAC_Req = String.fromCharCode(bytes);
} else {
if ((bytes[0] === 0x50) && (bytes[1] === 0x31) && (bytes[2] === 0x31)) {
data.Work_Mode_Switch = "OK";
switch (bytes[3] - 0x30) {
case 0x0:
data.workmode = "Network_mode";
break;
case 0x01:
data.workmode = "Wired_Mode";
break;
case 0x02:
data.workmode = "Hall_element_mode";
break;
case 0x03:
data.workmode = "MotionDetect_mode";
break;
case 0x04:
data.workmode = "Dual_mode";
break;
case 0x05:
data.workmode = "Uni_Mode";
break;
default:
data.workmode = "Unknown Mode";
break;
}
} else if ((bytes[0] === 0x59) && (bytes[1] === 0x44)) //Duration interval
{
data.Uplink_interval = (bytes[2] - 0x30) * 10 + (bytes[3] - 0x30);
data.Uplink_interval_unit = String.fromCharCode(bytes[4]);
//data.Heart_beat_Duration = (bytes[2]-0x30)*10 + (bytes[3]-0x30);
//data.Unit = String.fromCharCode(bytes[4]);
} else if ((bytes[0] === 0x59) && (bytes[1] === 0x53)) //Sampling interval or Heart-beat interval
{
data.Heart_Beat_interval = (bytes[2] - 0x30) * 10 + (bytes[3] - 0x30);
data.Heart_Beat_interval_unit = String.fromCharCode(bytes[4]);
//data.Wakeup_sampling_interval = (bytes[2]-0x30)*10 + (bytes[3]-0x30);
//data.Unit = String.fromCharCode(bytes[4]);
}
}
break;
// YUNHORN PRD MARK
case 10:
if ((bytes[0] == 0x59) && (bytes[9] == 0x38))
data.Yunhorn_PRD = "True";
data.PRD_String = String.fromCharCode(bytes[0], bytes[1], bytes[2], bytes[3], bytes[4], bytes[5], bytes[6]);
break;
// YUNHORN NVM CONFIG LENGTH
case 44:
if (bytes[0] === 0x43) { // report current nvm config
data.mtm_code1 = bytes[1];
data.mtm_code2 = bytes[2];
data.sts_verion = bytes[3];
data.sts_hw_ver = bytes[4];
data.sts_uplink_interval = bytes[5];
data.sts_uplink_interval_unit = String.fromCharCode(bytes[6]);
data.sts_sampling_interval = bytes[7];
data.sts_sampling_interval_unit = String.fromCharCode(bytes[8]);
data.sts_work_mode = bytes[9];
data.sts_service_mask = bytes[10];
data.sts_reserve01 = bytes[11];
data.sts_payload_length = bytes[12];
data.rss_start_distance = bytes[13] * 0.1 + " meter";
data.rss_range_length = bytes[14] * 0.1 + " meter";
data.rss_threshold = bytes[15] * 0.1;
data.rss_receiving_gain = bytes[16] + " %";
data.rss_profile = bytes[17];
data.rss_rate_tracking = bytes[18];
data.rss_rate_presence = bytes[19];
data.rss_HWAAS = bytes[20];
data.rss_nbr_removed_pc = bytes[21];
data.rss_inter_frame_deviation_time_const = bytes[22] * 0.1;
data.rss_inter_frame_fast_cutoff = bytes[23];
data.rss_inter_frame_slow_cutoff = bytes[24];
data.rss_intra_frame_time_const = bytes[25];
data.rss_intra_frame_weight = bytes[26] * 0.1;
data.rss_output_time_const = bytes[27] * 0.1;
data.rss_downsampling_factor = bytes[28];
data.rss_power_saving_mode_active = bytes[29];
data.rss_reserve02 = bytes[30];
data.rss_reserve03 = bytes[31];
data.rss_reserve04 = bytes[32];
data.reserve2 = bytes[33];
data.reserve3 = bytes[34];
data.sensor_install_height = bytes[35] * 10 + " cm";
data.alarm_parameter05 = bytes[36];
data.alarm_mute_expire_timer = bytes[37];
data.alarm_lamp_bar_flashing_color = bytes[38];
data.occupancy_overtime_threshold = bytes[39];
data.motionless_duration_threshold = bytes[40];
data.unconcious_threshold = bytes[41];
data.fall_detection_acc_threshold = bytes[42];
data.fall_detection_depth_threshold = bytes[43];
data.fall_down_confirm_threshold = bytes[44];
}
break;
default:
break;
}
}
return { "Yunhorn_SmarToilets_data": data };
}
//
// Yunhorn SmarToilets Sensor Decoder
//
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