"""HK Handling for EIVE OBSW""" import struct import os import datetime from tmtccmd.config.definitions import HkReplyUnpacked from tmtccmd.tm.service_3_fsfw_housekeeping import Service3Base from tmtccmd.utility.logger import get_console_logger from pus_tc.devs.bpx_batt import BpxSetIds from pus_tc.devs.syrlinks_hk_handler import SetIds from pus_tc.devs.imtq import ImtqSetIds from config.object_ids import ( SYRLINKS_HANDLER_ID, IMTQ_HANDLER_ID, GPS_HANDLER_0_ID, GPS_HANDLER_1_ID, BPX_HANDLER_ID, CORE_CONTROLLER_ID, ) LOGGER = get_console_logger() def handle_user_hk_packet( object_id: bytes, set_id: int, hk_data: bytearray, service3_packet: Service3Base ) -> HkReplyUnpacked: """This function is called when a Service 3 Housekeeping packet is received.""" if object_id == SYRLINKS_HANDLER_ID: if set_id == SetIds.RX_REGISTERS_DATASET: return handle_syrlinks_rx_registers_dataset(hk_data) elif set_id == SetIds.TX_REGISTERS_DATASET: return handle_syrlinks_tx_registers_dataset(hk_data) else: LOGGER.info("Serive 3 TM: Syrlinks handler reply with unknown set id") elif object_id == IMTQ_HANDLER_ID: if (set_id >= ImtqSetIds.POSITIVE_X_TEST) and ( set_id <= ImtqSetIds.NEGATIVE_Z_TEST ): return handle_self_test_data(hk_data) else: LOGGER.info("Serive 3 TM: Syrlinks handler reply with unknown set id") elif object_id == GPS_HANDLER_0_ID or object_id == GPS_HANDLER_1_ID: return handle_gps_data(hk_data=hk_data) elif object_id == BPX_HANDLER_ID: return handle_bpx_hk_data(hk_data=hk_data, set_id=set_id) elif object_id == CORE_CONTROLLER_ID: return handle_core_hk_data(hk_data=hk_data, set_id=set_id) else: LOGGER.info("Service 3 TM: Parsing for this SID has not been implemented.") return HkReplyUnpacked() def handle_syrlinks_rx_registers_dataset( hk_data: bytearray, ) -> HkReplyUnpacked: reply = HkReplyUnpacked() reply.header_list = [ "RX Status", "RX Sensitivity", "RX Frequency Shift", "RX IQ Power", "RX AGC Value", "RX Demod Eb", "RX Demod N0", "RX Datarate", ] rx_status = hk_data[0] rx_sensitivity = struct.unpack("!I", hk_data[1:5]) rx_frequency_shift = struct.unpack("!I", hk_data[5:9]) rx_iq_power = struct.unpack("!H", hk_data[9:11]) rx_agc_value = struct.unpack("!H", hk_data[11:13]) rx_demod_eb = struct.unpack("!I", hk_data[13:17]) rx_demod_n0 = struct.unpack("!I", hk_data[17:21]) rx_data_rate = hk_data[21] reply.content_list = [ rx_status, rx_sensitivity, rx_frequency_shift, rx_iq_power, rx_agc_value, rx_demod_eb, rx_demod_n0, rx_data_rate, ] reply.validity_buffer = hk_data[22:] reply.num_of_vars = 8 return reply def handle_syrlinks_tx_registers_dataset( hk_data: bytearray, ) -> HkReplyUnpacked: reply = HkReplyUnpacked() reply.header_list = ["TX Status", "TX Waveform", "TX AGC value"] tx_status = hk_data[0] tx_waveform = hk_data[1] tx_agc_value = struct.unpack("!H", hk_data[2:4]) reply.content_list = [tx_status, tx_waveform, tx_agc_value] reply.validity_buffer = hk_data[4:] reply.num_of_vars = 3 return reply def handle_self_test_data(hk_data: bytearray) -> HkReplyUnpacked: reply = HkReplyUnpacked() reply.hk_header = [ "Init Err", "Init Raw Mag X [nT]", "Init Raw Mag Y [nT]", "Init Raw Mag Z [nT]", "Init Cal Mag X [nT]", "Init Cal Mag Y [nT]", "Init Cal Mag Z [nT]", "Init Coil X Current [mA]", "Init Coil Y Current [mA]", "Init Coil Z Current [mA]", "Init Coil X Temperature [°C]", "Init Coil Y Temperature [°C]", "Init Coil Z Temperature [°C]", "Err", "Raw Mag X [nT]", "Raw Mag Y [nT]", "Raw Mag Z [nT]", "Cal Mag X [nT]", "Cal Mag Y [nT]", "Cal Mag Z [nT]", "Coil X Current [mA]", "Coil Y Current [mA]", "Coil Z Current [mA]", "Coil X Temperature [°C]", "Coil Y Temperature [°C]", "Coil Z Temperature [°C]", "Fina Err", "Fina Raw Mag X [nT]", "Fina Raw Mag Y [nT]", "Fina Raw Mag Z [nT]", "Fina Cal Mag X [nT]", "Fina Cal Mag Y [nT]", "Fina Cal Mag Z [nT]", "Fina Coil X Current [mA]", "Fina Coil Y Current [mA]", "Fina Coil Z Current [mA]", "Fina Coil X Temperature [°C]", "Fina Coil Y Temperature [°C]", "Fina Coil Z Temperature [°C]", ] # INIT step (no coil actuation) init_err = hk_data[0] init_raw_mag_x = struct.unpack("!f", hk_data[1:5])[0] init_raw_mag_y = struct.unpack("!f", hk_data[5:9])[0] init_raw_mag_z = struct.unpack("!f", hk_data[9:13])[0] init_cal_mag_x = struct.unpack("!f", hk_data[13:17])[0] init_cal_mag_y = struct.unpack("!f", hk_data[17:21])[0] init_cal_mag_z = struct.unpack("!f", hk_data[21:25])[0] init_coil_x_current = struct.unpack("!f", hk_data[25:29])[0] init_coil_y_current = struct.unpack("!f", hk_data[29:33])[0] init_coil_z_current = struct.unpack("!f", hk_data[33:37])[0] init_coil_x_temperature = struct.unpack("!H", hk_data[37:39])[0] init_coil_y_temperature = struct.unpack("!H", hk_data[39:41])[0] init_coil_z_temperature = struct.unpack("!H", hk_data[41:43])[0] # Actuation step err = hk_data[43] raw_mag_x = struct.unpack("!f", hk_data[44:48])[0] raw_mag_y = struct.unpack("!f", hk_data[48:52])[0] raw_mag_z = struct.unpack("!f", hk_data[52:56])[0] cal_mag_x = struct.unpack("!f", hk_data[56:60])[0] cal_mag_y = struct.unpack("!f", hk_data[60:64])[0] cal_mag_z = struct.unpack("!f", hk_data[64:68])[0] coil_x_current = struct.unpack("!f", hk_data[68:72])[0] coil_y_current = struct.unpack("!f", hk_data[72:76])[0] coil_z_current = struct.unpack("!f", hk_data[76:80])[0] coil_x_temperature = struct.unpack("!H", hk_data[80:82])[0] coil_y_temperature = struct.unpack("!H", hk_data[82:84])[0] coil_z_temperature = struct.unpack("!H", hk_data[84:86])[0] # FINA step (no coil actuation) fina_err = hk_data[86] fina_raw_mag_x = struct.unpack("!f", hk_data[87:91])[0] fina_raw_mag_y = struct.unpack("!f", hk_data[91:95])[0] fina_raw_mag_z = struct.unpack("!f", hk_data[95:99])[0] fina_cal_mag_x = struct.unpack("!f", hk_data[99:103])[0] fina_cal_mag_y = struct.unpack("!f", hk_data[103:107])[0] fina_cal_mag_z = struct.unpack("!f", hk_data[107:111])[0] fina_coil_x_current = struct.unpack("!f", hk_data[111:115])[0] fina_coil_y_current = struct.unpack("!f", hk_data[115:119])[0] fina_coil_z_current = struct.unpack("!f", hk_data[119:123])[0] fina_coil_x_temperature = struct.unpack("!H", hk_data[123:125])[0] fina_coil_y_temperature = struct.unpack("!H", hk_data[125:127])[0] fina_coil_z_temperature = struct.unpack("!H", hk_data[127:129])[0] reply.validity_buffer = hk_data[129:] reply.content_list = [ init_err, init_raw_mag_x, init_raw_mag_y, init_raw_mag_z, init_cal_mag_x, init_cal_mag_y, init_cal_mag_z, init_coil_x_current, init_coil_y_current, init_coil_z_current, init_coil_x_temperature, init_coil_y_temperature, init_coil_z_temperature, err, raw_mag_x, init_raw_mag_y, raw_mag_z, cal_mag_x, cal_mag_y, cal_mag_z, coil_x_current, coil_y_current, coil_z_current, coil_x_temperature, coil_y_temperature, coil_z_temperature, fina_err, fina_raw_mag_x, fina_raw_mag_y, fina_raw_mag_z, fina_cal_mag_x, fina_cal_mag_y, fina_cal_mag_z, fina_coil_x_current, fina_coil_y_current, fina_coil_z_current, fina_coil_x_temperature, fina_coil_y_temperature, fina_coil_z_temperature, ] reply.num_of_vars = len(reply.hk_header) return reply def handle_gps_data(hk_data: bytearray) -> HkReplyUnpacked: LOGGER.info(f"Received GPS data, HK data length {len(hk_data)}") reply = HkReplyUnpacked() var_index = 0 header_array = [] content_array = [] reply.header_list = [ "Latitude", "Longitude", "Altitude", "Fix Mode", "Sats in Use", "Date", "Unix Seconds", ] latitude = struct.unpack("!d", hk_data[0:8])[0] longitude = struct.unpack("!d", hk_data[8:16])[0] altitude = struct.unpack("!d", hk_data[16:24])[0] fix_mode = hk_data[24] sat_in_use = hk_data[25] year = struct.unpack("!H", hk_data[26:28])[0] month = hk_data[28] day = hk_data[29] hours = hk_data[30] minutes = hk_data[31] seconds = hk_data[32] date_string = f"{day}.{month}.{year} {hours}:{minutes}:{seconds}" unix_seconds = struct.unpack("!I", hk_data[33:37])[0] content_array = [ latitude, longitude, altitude, fix_mode, sat_in_use, date_string, unix_seconds, ] var_index += 13 reply.num_of_vars = var_index if not os.path.isfile("gps_log.txt"): with open("gps_log.txt", "w") as gps_file: gps_file.write( "Time, Latitude [deg], Longitude [deg], Altitude [m], Fix Mode, Sats in Use, " "Date, Unix Seconds\n" ) with open("gps_log.txt", "a") as gps_file: gps_file.write( f"{datetime.datetime.now()}, {latitude}, {longitude}, {altitude}, " f"{fix_mode}, {sat_in_use}, {date_string}, {unix_seconds}\n" ) reply.header_list = header_array reply.content_list = content_array reply.validity_buffer = hk_data[37:39] return reply def handle_bpx_hk_data(hk_data: bytes, set_id: int) -> HkReplyUnpacked: LOGGER.info(f"Received BPX data, HK data length {len(hk_data)}") reply = HkReplyUnpacked() if set_id == BpxSetIds.GET_HK_SET: charge_current = struct.unpack("!H", hk_data[0:2])[0] discharge_current = struct.unpack("!H", hk_data[2:4])[0] heater_current = struct.unpack("!H", hk_data[4:6])[0] batt_voltage = struct.unpack("!H", hk_data[6:8])[0] batt_temp_1 = struct.unpack("!h", hk_data[8:10])[0] batt_temp_2 = struct.unpack("!h", hk_data[10:12])[0] batt_temp_3 = struct.unpack("!h", hk_data[12:14])[0] batt_temp_4 = struct.unpack("!h", hk_data[14:16])[0] reboot_cntr = struct.unpack("!I", hk_data[16:20])[0] boot_cause = hk_data[20] reply.header_list = [ "Charge Current", "Discharge Current", "Heater Current", "Battery Voltage", "Batt Temp 1", "Batt Temp 2", "Batt Temp 3", "Batt Temp 4", "Reboot Counter", "Boot Cause", ] reply.content_list = [ charge_current, discharge_current, heater_current, batt_voltage, batt_temp_1, batt_temp_2, batt_temp_3, batt_temp_4, reboot_cntr, boot_cause, ] reply.validity_buffer = hk_data[21:] elif set_id == BpxSetIds.GET_CFG_SET: battheat_mode = hk_data[0] battheat_low = struct.unpack("!b", hk_data[1:2])[0] battheat_high = struct.unpack("!b", hk_data[2:3])[0] reply.header_list = [ "Battery Heater Mode", "Battery Heater Low Limit", "Battery Heater High Limit", ] reply.content_list = [battheat_mode, battheat_low, battheat_high] reply.validity_buffer = hk_data[3:] return reply def handle_core_hk_data(hk_data: bytes, set_id: int) -> HkReplyUnpacked: reply = HkReplyUnpacked() reply.header_list = ["Chip Temperature [°C]", "PS Voltage [mV]", "PL Voltage [mV]"] temperature = struct.unpack("!f", hk_data[0:4]) ps_voltage = struct.unpack("!f", hk_data[4:8]) pl_voltage = struct.unpack("!f", hk_data[8:12]) tx_agc_value = struct.unpack("!H", hk_data[2:4]) reply.content_list = [temperature, ps_voltage, pl_voltage] reply.validity_buffer = hk_data[12:] reply.num_of_vars = 3 return reply