import enum import socket import struct from socket import AF_INET from typing import Tuple from config.definitions import CustomServiceList from config.object_ids import ACS_CONTROLLER from pus_tm.defs import PrintWrapper from tmtccmd import DefaultProcedureInfo, get_console_logger from tmtccmd.config.tmtc import ( tmtc_definitions_provider, TmtcDefinitionWrapper, OpCodeEntry, ) from tmtccmd.tc import DefaultPusQueueHelper, service_provider from tmtccmd.tc.pus_3_fsfw_hk import ( generate_one_hk_command, make_sid, enable_periodic_hk_command_with_interval, disable_periodic_hk_command, ) from tmtccmd.util.tmtc_printer import FsfwTmTcPrinter LOGGER = get_console_logger() class SetIds(enum.IntEnum): MGM_SET = 0 class OpCodes: REQUEST_MGM_HK = ["0", "req-mgm-hk"] ENABLE_MGM_HK = ["1", "enable-mgm-hk"] DISABLE_MGM_HK = ["1", "disable-mgm-hk"] class Info: REQUEST_MGM_HK = "Request MGM HK once" ENABLE_MGM_HK = "Enable MGM HK data generation" DISABLE_MGM_HK = "Disable MGM HK data generation" PERFORM_MGM_CALIBRATION = False CALIBRATION_SOCKET_HOST = "localhost" CALIBRATION_SOCKET_PORT = 6677 CALIBRATION_ADDR = (CALIBRATION_SOCKET_HOST, CALIBRATION_SOCKET_PORT) @tmtc_definitions_provider def acs_cmd_defs(defs: TmtcDefinitionWrapper): oce = OpCodeEntry() oce.add(keys=OpCodes.REQUEST_MGM_HK, info=Info.REQUEST_MGM_HK) oce.add(keys=OpCodes.ENABLE_MGM_HK, info=Info.ENABLE_MGM_HK) oce.add(keys=OpCodes.DISABLE_MGM_HK, info=Info.DISABLE_MGM_HK) defs.add_service( name=CustomServiceList.ACS_CTRL.value, info="ACS Controller", op_code_entry=oce ) @service_provider(CustomServiceList.ACS_CTRL.value) def pack_acs_ctrl_command( _info: DefaultProcedureInfo, q: DefaultPusQueueHelper, op_code: str ): sid = make_sid(ACS_CONTROLLER, SetIds.MGM_SET) if op_code in OpCodes.REQUEST_MGM_HK: q.add_log_cmd(Info.REQUEST_MGM_HK) q.add_pus_tc(generate_one_hk_command(sid)) elif op_code in OpCodes.ENABLE_MGM_HK: q.add_log_cmd(Info.ENABLE_MGM_HK) cmd_tuple = enable_periodic_hk_command_with_interval(False, sid, 2.0) q.add_pus_tc(cmd_tuple[0]) q.add_pus_tc(cmd_tuple[1]) elif op_code in OpCodes.DISABLE_MGM_HK: q.add_log_cmd(Info.DISABLE_MGM_HK) q.add_pus_tc(disable_periodic_hk_command(False, sid)) else: LOGGER.info(f"Unknown op code {op_code}") def handle_acs_ctrl_mgm_data(printer: FsfwTmTcPrinter, hk_data: bytes): current_idx = 0 pw = PrintWrapper(printer) if len(hk_data) < 61: pw.dlog( f"ACS CTRL HK: MGM HK data with length {len(hk_data)} shorter than expected 61 bytes" ) pw.dlog(f"Raw Data: {hk_data.hex(sep=',')}") return def unpack_float_tuple(idx: int) -> (tuple, int): f_tuple = struct.unpack( float_tuple_fmt_str, hk_data[idx : idx + struct.calcsize(float_tuple_fmt_str)], ) idx += struct.calcsize(float_tuple_fmt_str) return f_tuple, idx float_tuple_fmt_str = "!fff" mgm_0_lis3_floats_ut, current_idx = unpack_float_tuple(current_idx) mgm_1_rm3100_floats_ut, current_idx = unpack_float_tuple(current_idx) mgm_2_lis3_floats_ut, current_idx = unpack_float_tuple(current_idx) mgm_3_rm3100_floats_ut, current_idx = unpack_float_tuple(current_idx) i32_tuple_fmt = "!iii" imtq_mgm_nt = struct.unpack( i32_tuple_fmt, hk_data[current_idx : current_idx + struct.calcsize(i32_tuple_fmt)], ) imtq_mgm_ut = tuple(val / 1000.0 for val in imtq_mgm_nt) current_idx += struct.calcsize(i32_tuple_fmt) pw.dlog("ACS CTRL HK: MGM values [X,Y,Z] in floating point uT: ") mgm_lists = [ mgm_0_lis3_floats_ut, mgm_1_rm3100_floats_ut, mgm_2_lis3_floats_ut, mgm_3_rm3100_floats_ut, imtq_mgm_ut, ] formatted_list = [] # Reserve 8 decimal digits, use precision 3 float_str_fmt = "[{:8.3f}, {:8.3f}, {:8.3f}]" for mgm_entry in mgm_lists[0:4]: formatted_list.append(float_str_fmt.format(*mgm_entry)) formatted_list.append(hk_data[current_idx]) formatted_list.append(float_str_fmt.format(*mgm_lists[4])) print_str_list = [ "ACS Board MGM 0 LIS3MDL", "ACS Board MGM 1 RM3100", "ACS Board MGM 2 LIS3MDL", "ACS Board MGM 3 RM3100", "IMTQ Actuation Status:", "IMTQ MGM:", ] for entry in zip(print_str_list, formatted_list): pw.dlog(f"{entry[0].ljust(28)}: {entry[1]}") current_idx += 1 if PERFORM_MGM_CALIBRATION: perform_mgm_calibration(pw, mgm_0_lis3_floats_ut) assert current_idx == 61 def perform_mgm_calibration(pw: PrintWrapper, mgm_tuple: Tuple): calibr_socket = socket.socket(AF_INET, socket.SOCK_STREAM) try: declare_api_cmd = "declare_api_version 2" calibr_socket.connect(CALIBRATION_ADDR) calibr_socket.sendall(f"{declare_api_cmd}\n".encode()) calibr_socket.settimeout(0.2) calibr_socket.setblocking(False) reply = calibr_socket.recv(1024) pw.dlog( f"Received reply {reply} from Helmholtz Socket for command {declare_api_cmd}" ) if len(mgm_tuple) != 3: pw.dlog(f"MGM tuple has invalid length {len(mgm_tuple)}") mgm_list = [mgm / 10e6 for mgm in mgm_tuple] command = ( f"magnetometer_field {mgm_list[0]} {mgm_list[1]} {mgm_list[2]}\n".encode() ) calibr_socket.sendall(command) reply = calibr_socket.recv(1024) pw.dlog( f"Received reply {reply} from Helmholtz Socket for command magnetometer_field" ) except socket.timeout: pw.dlog("Socket timeout") except ConnectionRefusedError or OSError: pw.dlog("Connecting to Calibration Socket on addrss {} failed")