1131 lines
44 KiB
Python
1131 lines
44 KiB
Python
import enum
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import logging
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import socket
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import struct
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import math
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from socket import AF_INET
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from typing import Tuple
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from eive_tmtc.config.definitions import CustomServiceList
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from eive_tmtc.config.object_ids import ACS_CONTROLLER
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from eive_tmtc.pus_tm.defs import PrintWrapper
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from eive_tmtc.tmtc.acs.defs import AcsMode, SafeSubmode
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from tmtccmd.config.tmtc import (
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tmtc_definitions_provider,
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TmtcDefinitionWrapper,
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OpCodeEntry,
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)
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from tmtccmd.tc import service_provider
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from tmtccmd.tc.queue import DefaultPusQueueHelper
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from tmtccmd.tc.pus_200_fsfw_mode import Mode, pack_mode_command
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from tmtccmd.tc.decorator import ServiceProviderParams
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from tmtccmd.tc.pus_3_fsfw_hk import (
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generate_one_hk_command,
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make_sid,
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enable_periodic_hk_command_with_interval,
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disable_periodic_hk_command,
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create_request_one_diag_command,
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)
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from tmtccmd.pus.s8_fsfw_funccmd import create_action_cmd
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from tmtccmd.util.tmtc_printer import FsfwTmTcPrinter
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from tmtccmd.tc.pus_20_fsfw_param import create_load_param_cmd
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from tmtccmd.pus.s20_fsfw_param_defs import (
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create_scalar_u8_parameter,
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create_scalar_u16_parameter,
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create_scalar_i32_parameter,
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create_scalar_float_parameter,
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create_scalar_double_parameter,
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create_vector_float_parameter,
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create_vector_double_parameter,
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create_matrix_float_parameter,
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create_matrix_double_parameter,
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)
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class SetId(enum.IntEnum):
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MGM_RAW_SET = 0
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MGM_PROC_SET = 1
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SUS_RAW_SET = 2
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SUS_PROC_SET = 3
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GYR_RAW_SET = 4
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GYR_PROC_SET = 5
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GPS_PROC_SET = 6
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MEKF_DATA = 7
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CTRL_VAL_DATA = 8
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ACTUATOR_CMD_DATA = 9
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class ActionId(enum.IntEnum):
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SOLAR_ARRAY_DEPLOYMENT_SUCCESSFUL = 0
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RESET_MEKF = 1
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class OpCodes:
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OFF = ["off"]
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SAFE = ["safe"]
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DTBL = ["safe_detumble"]
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IDLE = ["ptg_idle"]
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NADIR = ["ptg_nadir"]
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TARGET = ["ptg_target"]
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GS = ["ptg_target_gs"]
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INERTIAL = ["ptg_inertial"]
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SAFE_PTG = ["confirm_deployment"]
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RESET_MEKF = ["reset_mekf"]
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SET_PARAMETER_SCALAR = ["set_scalar_param"]
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SET_PARAMETER_VECTOR = ["set_vector_param"]
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SET_PARAMETER_MATRIX = ["set_matrix_param"]
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REQUEST_RAW_MGM_HK = ["mgm_raw_hk"]
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ENABLE_RAW_MGM_HK = ["mgm_raw_enable_hk"]
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DISABLE_RAW_MGM_HK = ["mgm_raw_disable_hk"]
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REQUEST_PROC_MGM_HK = ["mgm_proc_hk"]
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ENABLE_PROC_MGM_HK = ["mgm_proc_enable_hk"]
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DISABLE_PROC_MGM_HK = ["mgm_proc_disable_hk"]
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REQUEST_RAW_SUS_HK = ["sus_raw_hk"]
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ENABLE_RAW_SUS_HK = ["sus_raw_enable_hk"]
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DISABLE_RAW_SUS_HK = ["sus_raw_disable_hk"]
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REQUEST_PROC_SUS_HK = ["sus_proc_hk"]
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ENABLE_PROC_SUS_HK = ["sus_proc_enable_hk"]
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DISABLE_PROC_SUS_HK = ["sus_proc_disable_hk"]
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REQUEST_RAW_GYR_HK = ["gyr_raw_hk"]
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ENABLE_RAW_GYR_HK = ["gyr_raw_enable_hk"]
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DISABLE_RAW_GYR_HK = ["gyr_raw_disable_hk"]
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REQUEST_PROC_GYR_HK = ["gyr_proc_hk"]
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ENABLE_PROC_GYR_HK = ["gyr_proc_enable_hk"]
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DISABLE_PROC_GYR_HK = ["gyr_proc_disable_hk"]
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REQUEST_PROC_GPS_HK = ["gps_proc_hk"]
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ENABLE_PROC_GPS_HK = ["gps_proc_enable_hk"]
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DISABLE_PROC_GPS_HK = ["gps_proc_disable_hk"]
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REQUEST_MEKF_HK = ["mekf_hk"]
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ENABLE_MEKF_HK = ["mekf_enable_hk"]
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DISABLE_MEKF_HK = ["mekf_disable_hk"]
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REQUEST_CTRL_VAL_HK = ["ctrl_val_hk"]
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ENABLE_CTRL_VAL_HK = ["ctrl_val_enable_hk"]
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DISABLE_CTRL_VAL_HK = ["ctrl_val_disable_hk"]
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REQUEST_ACT_CMD_HK = ["act_cmd_hk"]
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ENABLE_ACT_CMD_HK = ["act_cmd_enable_hk"]
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DISABLE_ACT_CMD_HK = ["act_cmd_disable_hk"]
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class Info:
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OFF = "Switch ACS CTRL off"
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SAFE = "Switch ACS CTRL - safe"
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DTBL = "Switch ACS CTRL - safe with detumble submode"
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IDLE = "Switch ACS CTRL - pointing idle"
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NADIR = "Switch ACS CTRL normal - pointing nadir"
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TARGET = "Switch ACS CTRL normal - pointing target"
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GS = "Switch ACS CTRL normal - pointing target groundstation"
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INERTIAL = "Switch ACS CTRL normal - pointing inertial"
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SAFE_PTG = "Confirm deployment of both solar arrays"
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RESET_MEKF = "Reset the MEKF"
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SET_PARAMETER_SCALAR = "Set Scalar Parameter"
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SET_PARAMETER_VECTOR = "Set Vector Parameter"
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SET_PARAMETER_MATRIX = "Set Matrix Parameter"
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REQUEST_RAW_MGM_HK = "Request Raw MGM HK once"
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ENABLE_RAW_MGM_HK = "Enable Raw MGM HK data generation"
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DISABLE_RAW_MGM_HK = "Disable Raw MGM HK data generation"
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REQUEST_PROC_MGM_HK = "Request Processed MGM HK"
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ENABLE_PROC_MGM_HK = "Enable Processed MGM HK data generation"
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DISABLE_PROC_MGM_HK = "Disable Processed MGM HK data generation"
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REQUEST_RAW_SUS_HK = "Request Raw SUS HK"
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ENABLE_RAW_SUS_HK = "Enable Raw SUS HK data generation"
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DISABLE_RAW_SUS_HK = "Disable Raw SUS HK data generation"
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REQUEST_PROC_SUS_HK = "Request Processed SUS HK"
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ENABLE_PROC_SUS_HK = "Enable Processed SUS HK data generation"
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DISABLE_PROC_SUS_HK = "Disable Processed MGM HK data generation"
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REQUEST_RAW_GYR_HK = "Request Raw GYR HK"
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ENABLE_RAW_GYR_HK = "Enable Raw GYR HK data generation"
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DISABLE_RAW_GYR_HK = "Disable Raw GYR HK data generation"
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REQUEST_PROC_GYR_HK = "Request Processed GYR HK"
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ENABLE_PROC_GYR_HK = "Enable Processed GYR HK data generation"
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DISABLE_PROC_GYR_HK = "Disable Processed GYR HK data generation"
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REQUEST_PROC_GPS_HK = "Request Processed GPS HK"
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ENABLE_PROC_GPS_HK = "Enable Processed GPS HK data generation"
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DISABLE_PROC_GPS_HK = "Disable Processed GPS HK data generation"
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REQUEST_MEKF_HK = "Request MEKF HK"
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ENABLE_MEKF_HK = "Enable MEKF HK data generation"
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DISABLE_MEKF_HK = "Disable MEKF HK data generation"
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REQUEST_CTRL_VAL_HK = "Request Control Values HK"
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ENABLE_CTRL_VAL_HK = "Enable Control Values HK data generation"
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DISABLE_CTRL_VAL_HK = "Disable Control Values HK data generation"
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REQUEST_ACT_CMD_HK = "Request Actuator Commands HK"
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ENABLE_ACT_CMD_HK = "Enable Actuator Commands HK data generation"
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DISABLE_ACT_CMD_HK = "Disable Actuator Commands HK data generation"
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PERFORM_MGM_CALIBRATION = False
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CALIBRATION_SOCKET_HOST = "localhost"
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CALIBRATION_SOCKET_PORT = 6677
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CALIBRATION_ADDR = (CALIBRATION_SOCKET_HOST, CALIBRATION_SOCKET_PORT)
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if PERFORM_MGM_CALIBRATION:
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CALIBR_SOCKET = socket.socket(AF_INET, socket.SOCK_STREAM)
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CALIBR_SOCKET.setblocking(False)
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CALIBR_SOCKET.settimeout(0.2)
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CALIBR_SOCKET.connect(CALIBRATION_ADDR)
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@tmtc_definitions_provider
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def acs_cmd_defs(defs: TmtcDefinitionWrapper):
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oce = OpCodeEntry()
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oce.add(keys=OpCodes.OFF, info=Info.OFF)
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oce.add(keys=OpCodes.SAFE, info=Info.SAFE)
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oce.add(keys=OpCodes.DTBL, info=Info.DTBL)
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oce.add(keys=OpCodes.IDLE, info=Info.IDLE)
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oce.add(keys=OpCodes.NADIR, info=Info.NADIR)
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oce.add(keys=OpCodes.TARGET, info=Info.TARGET)
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oce.add(keys=OpCodes.GS, info=Info.GS)
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oce.add(keys=OpCodes.INERTIAL, info=Info.INERTIAL)
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oce.add(keys=OpCodes.SAFE_PTG, info=Info.SAFE_PTG)
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oce.add(keys=OpCodes.RESET_MEKF, info=Info.RESET_MEKF)
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oce.add(keys=OpCodes.SET_PARAMETER_SCALAR, info=Info.SET_PARAMETER_SCALAR)
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oce.add(keys=OpCodes.SET_PARAMETER_VECTOR, info=Info.SET_PARAMETER_VECTOR)
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oce.add(keys=OpCodes.SET_PARAMETER_MATRIX, info=Info.SET_PARAMETER_MATRIX)
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oce.add(keys=OpCodes.REQUEST_RAW_MGM_HK, info=Info.REQUEST_RAW_MGM_HK)
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oce.add(keys=OpCodes.ENABLE_RAW_MGM_HK, info=Info.ENABLE_RAW_MGM_HK)
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oce.add(keys=OpCodes.DISABLE_RAW_MGM_HK, info=Info.DISABLE_RAW_MGM_HK)
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oce.add(keys=OpCodes.REQUEST_PROC_MGM_HK, info=Info.REQUEST_PROC_MGM_HK)
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oce.add(keys=OpCodes.ENABLE_PROC_MGM_HK, info=Info.ENABLE_PROC_MGM_HK)
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oce.add(keys=OpCodes.DISABLE_PROC_MGM_HK, info=Info.DISABLE_PROC_MGM_HK)
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oce.add(keys=OpCodes.REQUEST_RAW_SUS_HK, info=Info.REQUEST_RAW_SUS_HK)
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oce.add(keys=OpCodes.ENABLE_RAW_SUS_HK, info=Info.ENABLE_RAW_SUS_HK)
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oce.add(keys=OpCodes.DISABLE_RAW_SUS_HK, info=Info.DISABLE_RAW_SUS_HK)
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oce.add(keys=OpCodes.REQUEST_PROC_SUS_HK, info=Info.REQUEST_PROC_SUS_HK)
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oce.add(keys=OpCodes.ENABLE_PROC_SUS_HK, info=Info.ENABLE_PROC_SUS_HK)
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oce.add(keys=OpCodes.DISABLE_PROC_SUS_HK, info=Info.DISABLE_PROC_SUS_HK)
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oce.add(keys=OpCodes.REQUEST_RAW_GYR_HK, info=Info.REQUEST_RAW_GYR_HK)
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oce.add(keys=OpCodes.ENABLE_RAW_GYR_HK, info=Info.ENABLE_RAW_GYR_HK)
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oce.add(keys=OpCodes.DISABLE_RAW_GYR_HK, info=Info.DISABLE_RAW_GYR_HK)
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oce.add(keys=OpCodes.REQUEST_PROC_GYR_HK, info=Info.REQUEST_PROC_GYR_HK)
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oce.add(keys=OpCodes.ENABLE_PROC_GYR_HK, info=Info.ENABLE_PROC_GYR_HK)
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oce.add(keys=OpCodes.DISABLE_PROC_GYR_HK, info=Info.DISABLE_PROC_GYR_HK)
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oce.add(keys=OpCodes.REQUEST_PROC_GPS_HK, info=Info.REQUEST_PROC_GPS_HK)
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oce.add(keys=OpCodes.ENABLE_PROC_GPS_HK, info=Info.ENABLE_PROC_GPS_HK)
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oce.add(keys=OpCodes.DISABLE_PROC_GPS_HK, info=Info.DISABLE_PROC_GPS_HK)
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oce.add(keys=OpCodes.REQUEST_MEKF_HK, info=Info.REQUEST_MEKF_HK)
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oce.add(keys=OpCodes.ENABLE_MEKF_HK, info=Info.ENABLE_MEKF_HK)
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oce.add(keys=OpCodes.DISABLE_MEKF_HK, info=Info.DISABLE_MEKF_HK)
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oce.add(keys=OpCodes.REQUEST_CTRL_VAL_HK, info=Info.REQUEST_CTRL_VAL_HK)
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oce.add(keys=OpCodes.ENABLE_CTRL_VAL_HK, info=Info.ENABLE_CTRL_VAL_HK)
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oce.add(keys=OpCodes.DISABLE_CTRL_VAL_HK, info=Info.DISABLE_CTRL_VAL_HK)
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oce.add(keys=OpCodes.REQUEST_ACT_CMD_HK, info=Info.REQUEST_ACT_CMD_HK)
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oce.add(keys=OpCodes.ENABLE_ACT_CMD_HK, info=Info.ENABLE_ACT_CMD_HK)
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oce.add(keys=OpCodes.DISABLE_ACT_CMD_HK, info=Info.DISABLE_ACT_CMD_HK)
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defs.add_service(
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name=CustomServiceList.ACS_CTRL.value, info="ACS Controller", op_code_entry=oce
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)
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@service_provider(CustomServiceList.ACS_CTRL.value)
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def pack_acs_ctrl_command(p: ServiceProviderParams):
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op_code = p.op_code
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q = p.queue_helper
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if op_code in OpCodes.OFF:
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q.add_log_cmd(f"{Info.OFF}")
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q.add_pus_tc(pack_mode_command(ACS_CONTROLLER, Mode.OFF, 0))
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elif op_code in OpCodes.SAFE:
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q.add_log_cmd(f"{Info.SAFE}")
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q.add_pus_tc(
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pack_mode_command(ACS_CONTROLLER, AcsMode.SAFE, SafeSubmode.DEFAULT)
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)
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elif op_code in OpCodes.DTBL:
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q.add_log_cmd(f"{Info.DTBL}")
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q.add_pus_tc(
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pack_mode_command(ACS_CONTROLLER, AcsMode.SAFE, SafeSubmode.DETUMBLE)
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)
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elif op_code in OpCodes.IDLE:
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q.add_log_cmd(f"{Info.IDLE}")
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q.add_pus_tc(pack_mode_command(ACS_CONTROLLER, AcsMode.IDLE, 0))
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elif op_code in OpCodes.NADIR:
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q.add_log_cmd(f"{Info.NADIR}")
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q.add_pus_tc(pack_mode_command(ACS_CONTROLLER, AcsMode.PTG_NADIR, 0))
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elif op_code in OpCodes.TARGET:
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q.add_log_cmd(f"{Info.TARGET}")
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q.add_pus_tc(pack_mode_command(ACS_CONTROLLER, AcsMode.PTG_TARGET, 0))
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elif op_code in OpCodes.GS:
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q.add_log_cmd(f"{Info.GS}")
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q.add_pus_tc(pack_mode_command(ACS_CONTROLLER, AcsMode.PTG_TARGET_GS, 0))
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elif op_code in OpCodes.INERTIAL:
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q.add_log_cmd(f"{Info.INERTIAL}")
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q.add_pus_tc(pack_mode_command(ACS_CONTROLLER, AcsMode.PTG_INERTIAL, 0))
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elif op_code in OpCodes.SAFE_PTG:
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q.add_log_cmd(f"{Info.SAFE_PTG}")
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q.add_pus_tc(
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create_action_cmd(
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ACS_CONTROLLER, ActionId.SOLAR_ARRAY_DEPLOYMENT_SUCCESSFUL
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)
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)
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elif op_code in OpCodes.RESET_MEKF:
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q.add_log_cmd(f"{Info.RESET_MEKF}")
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q.add_pus_tc(create_action_cmd(ACS_CONTROLLER, ActionId.RESET_MEKF))
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elif op_code in OpCodes.SET_PARAMETER_SCALAR:
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q.add_log_cmd(f"{Info.SET_PARAMETER_SCALAR}")
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set_acs_ctrl_param_scalar(q)
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elif op_code in OpCodes.SET_PARAMETER_VECTOR:
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q.add_log_cmd(f"{Info.SET_PARAMETER_VECTOR}")
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set_acs_ctrl_param_vector(q)
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elif op_code in OpCodes.SET_PARAMETER_MATRIX:
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q.add_log_cmd(f"{Info.SET_PARAMETER_MATRIX}")
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set_acs_ctrl_param_matrix(q)
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elif op_code in OpCodes.REQUEST_RAW_MGM_HK:
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q.add_log_cmd(Info.REQUEST_RAW_MGM_HK)
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q.add_pus_tc(
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generate_one_hk_command(make_sid(ACS_CONTROLLER, SetId.MGM_RAW_SET))
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)
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elif op_code in OpCodes.ENABLE_RAW_MGM_HK:
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interval = float(input("Please specify interval in floating point seconds: "))
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q.add_log_cmd(Info.ENABLE_RAW_MGM_HK)
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cmd_tuple = enable_periodic_hk_command_with_interval(
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False, make_sid(ACS_CONTROLLER, SetId.MGM_RAW_SET), interval
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)
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q.add_pus_tc(cmd_tuple[0])
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q.add_pus_tc(cmd_tuple[1])
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elif op_code in OpCodes.DISABLE_RAW_MGM_HK:
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q.add_log_cmd(Info.DISABLE_RAW_MGM_HK)
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q.add_pus_tc(
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disable_periodic_hk_command(
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False, make_sid(ACS_CONTROLLER, SetId.MGM_RAW_SET)
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)
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)
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elif op_code in OpCodes.REQUEST_PROC_MGM_HK:
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q.add_log_cmd(Info.REQUEST_PROC_MGM_HK)
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q.add_pus_tc(
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generate_one_hk_command(make_sid(ACS_CONTROLLER, SetId.MGM_PROC_SET))
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)
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elif op_code in OpCodes.ENABLE_PROC_MGM_HK:
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interval = float(input("Please specify interval in floating point seconds: "))
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q.add_log_cmd(Info.ENABLE_PROC_MGM_HK)
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cmd_tuple = enable_periodic_hk_command_with_interval(
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False, make_sid(ACS_CONTROLLER, SetId.MGM_PROC_SET), interval
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)
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q.add_pus_tc(cmd_tuple[0])
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q.add_pus_tc(cmd_tuple[1])
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elif op_code in OpCodes.DISABLE_PROC_MGM_HK:
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q.add_log_cmd(Info.DISABLE_PROC_MGM_HK)
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q.add_pus_tc(
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disable_periodic_hk_command(
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False, make_sid(ACS_CONTROLLER, SetId.MGM_PROC_SET)
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)
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)
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elif op_code in OpCodes.REQUEST_RAW_SUS_HK:
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q.add_log_cmd(Info.REQUEST_RAW_SUS_HK)
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q.add_pus_tc(
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generate_one_hk_command(make_sid(ACS_CONTROLLER, SetId.SUS_RAW_SET))
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)
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elif op_code in OpCodes.ENABLE_RAW_SUS_HK:
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interval = float(input("Please specify interval in floating point seconds: "))
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q.add_log_cmd(Info.ENABLE_RAW_SUS_HK)
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cmd_tuple = enable_periodic_hk_command_with_interval(
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False, make_sid(ACS_CONTROLLER, SetId.SUS_RAW_SET), interval
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)
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q.add_pus_tc(cmd_tuple[0])
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q.add_pus_tc(cmd_tuple[1])
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elif op_code in OpCodes.DISABLE_RAW_SUS_HK:
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q.add_log_cmd(Info.DISABLE_RAW_SUS_HK)
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q.add_pus_tc(
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disable_periodic_hk_command(
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False, make_sid(ACS_CONTROLLER, SetId.SUS_RAW_SET)
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)
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)
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elif op_code in OpCodes.REQUEST_PROC_SUS_HK:
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q.add_log_cmd(Info.REQUEST_PROC_SUS_HK)
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q.add_pus_tc(
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generate_one_hk_command(make_sid(ACS_CONTROLLER, SetId.SUS_PROC_SET))
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)
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elif op_code in OpCodes.ENABLE_PROC_SUS_HK:
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interval = float(input("Please specify interval in floating point seconds: "))
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q.add_log_cmd(Info.ENABLE_PROC_SUS_HK)
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cmd_tuple = enable_periodic_hk_command_with_interval(
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False, make_sid(ACS_CONTROLLER, SetId.SUS_PROC_SET), interval
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)
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q.add_pus_tc(cmd_tuple[0])
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q.add_pus_tc(cmd_tuple[1])
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elif op_code in OpCodes.DISABLE_PROC_SUS_HK:
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q.add_log_cmd(Info.DISABLE_PROC_SUS_HK)
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q.add_pus_tc(
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disable_periodic_hk_command(
|
|
False, make_sid(ACS_CONTROLLER, SetId.SUS_PROC_SET)
|
|
)
|
|
)
|
|
elif op_code in OpCodes.REQUEST_RAW_GYR_HK:
|
|
q.add_log_cmd(Info.REQUEST_RAW_GYR_HK)
|
|
q.add_pus_tc(
|
|
create_request_one_diag_command(make_sid(ACS_CONTROLLER, SetId.GYR_RAW_SET))
|
|
)
|
|
elif op_code in OpCodes.ENABLE_RAW_GYR_HK:
|
|
interval = float(input("Please specify interval in floating point seconds: "))
|
|
q.add_log_cmd(Info.ENABLE_RAW_GYR_HK)
|
|
cmd_tuple = enable_periodic_hk_command_with_interval(
|
|
True, make_sid(ACS_CONTROLLER, SetId.GYR_RAW_SET), interval
|
|
)
|
|
q.add_pus_tc(cmd_tuple[0])
|
|
q.add_pus_tc(cmd_tuple[1])
|
|
elif op_code in OpCodes.DISABLE_RAW_GYR_HK:
|
|
q.add_log_cmd(Info.DISABLE_RAW_GYR_HK)
|
|
q.add_pus_tc(
|
|
disable_periodic_hk_command(
|
|
True, make_sid(ACS_CONTROLLER, SetId.GYR_RAW_SET)
|
|
)
|
|
)
|
|
elif op_code in OpCodes.REQUEST_PROC_GYR_HK:
|
|
q.add_log_cmd(Info.REQUEST_PROC_GYR_HK)
|
|
q.add_pus_tc(
|
|
create_request_one_diag_command(
|
|
make_sid(ACS_CONTROLLER, SetId.GYR_PROC_SET)
|
|
)
|
|
)
|
|
elif op_code in OpCodes.ENABLE_PROC_GYR_HK:
|
|
interval = float(input("Please specify interval in floating point seconds: "))
|
|
q.add_log_cmd(Info.ENABLE_PROC_GYR_HK)
|
|
cmd_tuple = enable_periodic_hk_command_with_interval(
|
|
True, make_sid(ACS_CONTROLLER, SetId.GYR_PROC_SET), interval
|
|
)
|
|
q.add_pus_tc(cmd_tuple[0])
|
|
q.add_pus_tc(cmd_tuple[1])
|
|
elif op_code in OpCodes.DISABLE_PROC_GYR_HK:
|
|
q.add_log_cmd(Info.DISABLE_PROC_GYR_HK)
|
|
q.add_pus_tc(
|
|
disable_periodic_hk_command(
|
|
True, make_sid(ACS_CONTROLLER, SetId.GYR_PROC_SET)
|
|
)
|
|
)
|
|
elif op_code in OpCodes.REQUEST_PROC_GPS_HK:
|
|
q.add_log_cmd(Info.REQUEST_PROC_GPS_HK)
|
|
q.add_pus_tc(
|
|
generate_one_hk_command(make_sid(ACS_CONTROLLER, SetId.GPS_PROC_SET))
|
|
)
|
|
elif op_code in OpCodes.ENABLE_PROC_GPS_HK:
|
|
interval = float(input("Please specify interval in floating point seconds: "))
|
|
q.add_log_cmd(Info.ENABLE_PROC_GPS_HK)
|
|
cmd_tuple = enable_periodic_hk_command_with_interval(
|
|
False, make_sid(ACS_CONTROLLER, SetId.GPS_PROC_SET), interval
|
|
)
|
|
q.add_pus_tc(cmd_tuple[0])
|
|
q.add_pus_tc(cmd_tuple[1])
|
|
elif op_code in OpCodes.DISABLE_PROC_GPS_HK:
|
|
q.add_log_cmd(Info.DISABLE_PROC_GPS_HK)
|
|
q.add_pus_tc(
|
|
disable_periodic_hk_command(
|
|
False, make_sid(ACS_CONTROLLER, SetId.GPS_PROC_SET)
|
|
)
|
|
)
|
|
elif op_code in OpCodes.REQUEST_MEKF_HK:
|
|
q.add_log_cmd(Info.REQUEST_MEKF_HK)
|
|
q.add_pus_tc(
|
|
create_request_one_diag_command(make_sid(ACS_CONTROLLER, SetId.MEKF_DATA))
|
|
)
|
|
elif op_code in OpCodes.ENABLE_MEKF_HK:
|
|
interval = float(input("Please specify interval in floating point seconds: "))
|
|
q.add_log_cmd(Info.ENABLE_MEKF_HK)
|
|
cmd_tuple = enable_periodic_hk_command_with_interval(
|
|
True, make_sid(ACS_CONTROLLER, SetId.MEKF_DATA), interval
|
|
)
|
|
q.add_pus_tc(cmd_tuple[0])
|
|
q.add_pus_tc(cmd_tuple[1])
|
|
elif op_code in OpCodes.DISABLE_MEKF_HK:
|
|
q.add_log_cmd(Info.DISABLE_MEKF_HK)
|
|
q.add_pus_tc(
|
|
disable_periodic_hk_command(True, make_sid(ACS_CONTROLLER, SetId.MEKF_DATA))
|
|
)
|
|
elif op_code in OpCodes.REQUEST_CTRL_VAL_HK:
|
|
q.add_log_cmd(Info.REQUEST_CTRL_VAL_HK)
|
|
q.add_pus_tc(
|
|
generate_one_hk_command(make_sid(ACS_CONTROLLER, SetId.CTRL_VAL_DATA))
|
|
)
|
|
elif op_code in OpCodes.ENABLE_CTRL_VAL_HK:
|
|
interval = float(input("Please specify interval in floating point seconds: "))
|
|
q.add_log_cmd(Info.ENABLE_CTRL_VAL_HK)
|
|
cmd_tuple = enable_periodic_hk_command_with_interval(
|
|
False, make_sid(ACS_CONTROLLER, SetId.CTRL_VAL_DATA), interval
|
|
)
|
|
q.add_pus_tc(cmd_tuple[0])
|
|
q.add_pus_tc(cmd_tuple[1])
|
|
elif op_code in OpCodes.DISABLE_CTRL_VAL_HK:
|
|
q.add_log_cmd(Info.DISABLE_CTRL_VAL_HK)
|
|
q.add_pus_tc(
|
|
disable_periodic_hk_command(
|
|
False, make_sid(ACS_CONTROLLER, SetId.CTRL_VAL_DATA)
|
|
)
|
|
)
|
|
elif op_code in OpCodes.REQUEST_ACT_CMD_HK:
|
|
q.add_log_cmd(Info.REQUEST_ACT_CMD_HK)
|
|
q.add_pus_tc(
|
|
generate_one_hk_command(make_sid(ACS_CONTROLLER, SetId.ACTUATOR_CMD_DATA))
|
|
)
|
|
elif op_code in OpCodes.ENABLE_ACT_CMD_HK:
|
|
interval = float(input("Please specify interval in floating point seconds: "))
|
|
q.add_log_cmd(Info.ENABLE_ACT_CMD_HK)
|
|
cmd_tuple = enable_periodic_hk_command_with_interval(
|
|
False, make_sid(ACS_CONTROLLER, SetId.ACTUATOR_CMD_DATA), interval
|
|
)
|
|
q.add_pus_tc(cmd_tuple[0])
|
|
q.add_pus_tc(cmd_tuple[1])
|
|
elif op_code in OpCodes.DISABLE_ACT_CMD_HK:
|
|
q.add_log_cmd(Info.DISABLE_ACT_CMD_HK)
|
|
q.add_pus_tc(
|
|
disable_periodic_hk_command(
|
|
False, make_sid(ACS_CONTROLLER, SetId.ACTUATOR_CMD_DATA)
|
|
)
|
|
)
|
|
else:
|
|
logging.getLogger(__name__).info(f"Unknown op code {op_code}")
|
|
|
|
|
|
def set_acs_ctrl_param_scalar(q: DefaultPusQueueHelper):
|
|
pt = int(
|
|
input(
|
|
'Specify parameter type to set {0: "uint8", 1: "uint16", 2: "int32", 3: "float", '
|
|
'4: "double"}: '
|
|
)
|
|
)
|
|
sid = int(input("Specify parameter struct ID to set: "))
|
|
pid = int(input("Specify parameter ID to set: "))
|
|
match pt:
|
|
case 0:
|
|
param = int(input("Specify parameter value to set: "))
|
|
q.add_pus_tc(
|
|
create_load_param_cmd(
|
|
create_scalar_u8_parameter(
|
|
object_id=ACS_CONTROLLER,
|
|
domain_id=sid,
|
|
unique_id=pid,
|
|
parameter=param,
|
|
).pack()
|
|
)
|
|
)
|
|
case 1:
|
|
param = int(input("Specify parameter value to set: "))
|
|
q.add_pus_tc(
|
|
create_load_param_cmd(
|
|
create_scalar_u16_parameter(
|
|
object_id=ACS_CONTROLLER,
|
|
domain_id=sid,
|
|
unique_id=pid,
|
|
parameter=param,
|
|
).pack()
|
|
)
|
|
)
|
|
case 2:
|
|
param = int(input("Specify parameter value to set: "))
|
|
q.add_pus_tc(
|
|
create_load_param_cmd(
|
|
create_scalar_i32_parameter(
|
|
object_id=ACS_CONTROLLER,
|
|
domain_id=sid,
|
|
unique_id=pid,
|
|
parameter=param,
|
|
).pack()
|
|
)
|
|
)
|
|
case 3:
|
|
param = float(input("Specify parameter value to set: "))
|
|
q.add_pus_tc(
|
|
create_load_param_cmd(
|
|
create_scalar_float_parameter(
|
|
object_id=ACS_CONTROLLER,
|
|
domain_id=sid,
|
|
unique_id=pid,
|
|
parameter=param,
|
|
).pack()
|
|
)
|
|
)
|
|
case 4:
|
|
param = float(input("Specify parameter value to set: "))
|
|
q.add_pus_tc(
|
|
create_load_param_cmd(
|
|
create_scalar_double_parameter(
|
|
object_id=ACS_CONTROLLER,
|
|
domain_id=sid,
|
|
unique_id=pid,
|
|
parameter=param,
|
|
).pack()
|
|
)
|
|
)
|
|
|
|
|
|
def set_acs_ctrl_param_vector(q: DefaultPusQueueHelper):
|
|
pt = int(input('Specify parameter type to set {0: "float", 1: "double"}: '))
|
|
sid = int(input("Specify parameter struct ID to set: "))
|
|
pid = int(input("Specify parameter ID to set: "))
|
|
match pt:
|
|
case 0:
|
|
elms = int(input("Specify number of elements in vector to set: "))
|
|
param = []
|
|
for _ in range(elms):
|
|
param.append(
|
|
float(input("Specify parameter vector entry value to set: "))
|
|
)
|
|
print(param)
|
|
if input("Confirm selected parameter values (Y/N): ") == "Y":
|
|
q.add_pus_tc(
|
|
create_load_param_cmd(
|
|
create_vector_float_parameter(
|
|
object_id=ACS_CONTROLLER,
|
|
domain_id=sid,
|
|
unique_id=pid,
|
|
parameters=param,
|
|
).pack()
|
|
)
|
|
)
|
|
else:
|
|
q.add_log_cmd("Aborted by user input")
|
|
return
|
|
case 1:
|
|
elms = int(input("Specify number of elements in vector to set: "))
|
|
param = []
|
|
for _ in range(elms):
|
|
param.append(
|
|
float(input("Specify parameter vector entry value to set: "))
|
|
)
|
|
print(param)
|
|
if input("Confirm selected parameter values (Y/N): ") == "Y":
|
|
q.add_pus_tc(
|
|
create_load_param_cmd(
|
|
create_vector_double_parameter(
|
|
object_id=ACS_CONTROLLER,
|
|
domain_id=sid,
|
|
unique_id=pid,
|
|
parameters=param,
|
|
).pack()
|
|
)
|
|
)
|
|
else:
|
|
q.add_log_cmd("Aborted by user input")
|
|
return
|
|
|
|
|
|
def set_acs_ctrl_param_matrix(q: DefaultPusQueueHelper):
|
|
pt = int(input('Specify parameter type to set {0: "float", 1: "double"}: '))
|
|
sid = int(input("Specify parameter struct ID to set: "))
|
|
pid = int(input("Specify parameter ID to set: "))
|
|
match pt:
|
|
case 0:
|
|
rows = int(input("Specify number of rows in matrix to set: "))
|
|
cols = int(input("Specify number of columns in matrix to set: "))
|
|
row = []
|
|
param = []
|
|
for _ in range(rows):
|
|
for _ in range(cols):
|
|
row.append(
|
|
float(input("Specify parameter vector entry value to set: "))
|
|
)
|
|
param.append(row)
|
|
print(param)
|
|
if input("Confirm selected parameter values (Y/N): ") == "Y":
|
|
q.add_pus_tc(
|
|
create_load_param_cmd(
|
|
create_matrix_float_parameter(
|
|
object_id=ACS_CONTROLLER,
|
|
domain_id=sid,
|
|
unique_id=pid,
|
|
parameters=param,
|
|
).pack()
|
|
)
|
|
)
|
|
else:
|
|
q.add_log_cmd("Aborted by user input")
|
|
return
|
|
case 1:
|
|
rows = int(input("Specify number of rows in matrix to set: "))
|
|
cols = int(input("Specify number of columns in matrix to set: "))
|
|
row = []
|
|
param = []
|
|
for _ in range(rows):
|
|
for _ in range(cols):
|
|
row.append(
|
|
float(input("Specify parameter vector entry value to set: "))
|
|
)
|
|
param.append(row)
|
|
row = []
|
|
print(param)
|
|
if input("Confirm selected parameter values (Y/N): ") == "Y":
|
|
q.add_pus_tc(
|
|
create_load_param_cmd(
|
|
create_matrix_double_parameter(
|
|
object_id=ACS_CONTROLLER,
|
|
domain_id=sid,
|
|
unique_id=pid,
|
|
parameters=param,
|
|
).pack()
|
|
)
|
|
)
|
|
else:
|
|
q.add_log_cmd("Aborted by user input")
|
|
return
|
|
|
|
|
|
def handle_acs_ctrl_hk_data(printer: FsfwTmTcPrinter, set_id: int, hk_data: bytes):
|
|
pw = PrintWrapper(printer)
|
|
match set_id:
|
|
case SetId.MGM_RAW_SET:
|
|
handle_raw_mgm_data(pw, hk_data)
|
|
case SetId.MGM_PROC_SET:
|
|
handle_mgm_data_processed(pw, hk_data)
|
|
case SetId.SUS_RAW_SET:
|
|
handle_acs_ctrl_sus_raw_data(pw, hk_data)
|
|
case SetId.SUS_PROC_SET:
|
|
handle_acs_ctrl_sus_processed_data(pw, hk_data)
|
|
case SetId.GYR_RAW_SET:
|
|
handle_gyr_data_raw(pw, hk_data)
|
|
case SetId.GYR_PROC_SET:
|
|
handle_gyr_data_processed(pw, hk_data)
|
|
case SetId.GPS_PROC_SET:
|
|
handle_gps_data_processed(pw, hk_data)
|
|
case SetId.MEKF_DATA:
|
|
handle_mekf_data(pw, hk_data)
|
|
case SetId.CTRL_VAL_DATA:
|
|
handle_ctrl_val_data(pw, hk_data)
|
|
case SetId.ACTUATOR_CMD_DATA:
|
|
handle_act_cmd_data(pw, hk_data)
|
|
|
|
|
|
def handle_acs_ctrl_sus_raw_data(pw: PrintWrapper, hk_data: bytes):
|
|
if len(hk_data) < 6 * 2 * 12:
|
|
pw.dlog(
|
|
f"SUS Raw dataset with size {len(hk_data)} does not have expected size"
|
|
f" of {6 * 2 * 12} bytes"
|
|
)
|
|
return
|
|
current_idx = 0
|
|
vec_fmt = "["
|
|
for _ in range(5):
|
|
vec_fmt += "{:#06x}, "
|
|
vec_fmt += "{:#06x}]"
|
|
for idx in range(12):
|
|
fmt_str = "!HHHHHH"
|
|
length = struct.calcsize(fmt_str)
|
|
sus_list = struct.unpack(fmt_str, hk_data[current_idx : current_idx + length])
|
|
sus_list_formatted = vec_fmt.format(*sus_list)
|
|
current_idx += length
|
|
pw.dlog(f"SUS {idx} RAW: {sus_list_formatted}")
|
|
pw.printer.print_validity_buffer(hk_data[current_idx:], num_vars=12)
|
|
|
|
|
|
def handle_acs_ctrl_sus_processed_data(pw: PrintWrapper, hk_data: bytes):
|
|
if len(hk_data) < 3 * 4 * 12 + 3 * 8 * 3:
|
|
pw.dlog(
|
|
f"SUS Processed dataset with size {len(hk_data)} does not have expected size"
|
|
f" of {3 * 4 * 12 + 3 * 8 * 3} bytes"
|
|
)
|
|
return
|
|
current_idx = 0
|
|
vec_fmt = "[{:8.3f}, {:8.3f}, {:8.3f}]"
|
|
for idx in range(12):
|
|
fmt_str = "!fff"
|
|
length = struct.calcsize(fmt_str)
|
|
sus_list = struct.unpack(fmt_str, hk_data[current_idx : current_idx + length])
|
|
sus_list_formatted = vec_fmt.format(*sus_list)
|
|
current_idx += length
|
|
pw.dlog(f"{f'SUS {idx} CALIB'.ljust(25)}: {sus_list_formatted}")
|
|
fmt_str = "!ddd"
|
|
inc_len = struct.calcsize(fmt_str)
|
|
sus_vec_tot = struct.unpack(fmt_str, hk_data[current_idx : current_idx + inc_len])
|
|
|
|
sus_vec_tot = vec_fmt.format(*sus_vec_tot)
|
|
current_idx += inc_len
|
|
pw.dlog(f"{'SUS Vector Total'.ljust(25)}: {sus_vec_tot}")
|
|
sus_vec_tot_deriv = struct.unpack(
|
|
fmt_str, hk_data[current_idx : current_idx + inc_len]
|
|
)
|
|
sus_vec_tot_deriv = vec_fmt.format(*sus_vec_tot_deriv)
|
|
current_idx += inc_len
|
|
pw.dlog(f"{'SUS Vector Derivative'.ljust(25)}: {sus_vec_tot_deriv}")
|
|
sun_ijk_model = struct.unpack(fmt_str, hk_data[current_idx : current_idx + inc_len])
|
|
sun_ijk_model = vec_fmt.format(*sun_ijk_model)
|
|
current_idx += inc_len
|
|
pw.dlog(f"{'SUS ijk Model'.ljust(25)}: {sun_ijk_model}")
|
|
pw.printer.print_validity_buffer(hk_data[current_idx:], num_vars=15)
|
|
|
|
|
|
def handle_raw_mgm_data(pw: PrintWrapper, hk_data: bytes):
|
|
current_idx = 0
|
|
|
|
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)
|
|
isis_floats_nt, current_idx = unpack_float_tuple(current_idx)
|
|
imtq_mgm_ut = tuple(val / 1000.0 for val in isis_floats_nt)
|
|
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(float_str_fmt.format(*mgm_lists[4]))
|
|
formatted_list.append(hk_data[current_idx])
|
|
print_str_list = [
|
|
"ACS Board MGM 0 LIS3MDL",
|
|
"ACS Board MGM 1 RM3100",
|
|
"ACS Board MGM 2 LIS3MDL",
|
|
"ACS Board MGM 3 RM3100",
|
|
"IMTQ MGM:",
|
|
"IMTQ Actuation Status:",
|
|
]
|
|
for entry in zip(print_str_list, formatted_list):
|
|
pw.dlog(f"{entry[0].ljust(28)}: {entry[1]}")
|
|
current_idx += 1
|
|
assert current_idx == 61
|
|
pw.printer.print_validity_buffer(hk_data[current_idx:], num_vars=6)
|
|
|
|
|
|
def handle_mgm_data_processed(pw: PrintWrapper, hk_data: bytes):
|
|
pw.dlog("Received Processed MGM Set")
|
|
fmt_str = "!fffffddd"
|
|
inc_len = struct.calcsize(fmt_str)
|
|
if len(hk_data) < inc_len:
|
|
pw.dlog("Recieved HK set too small")
|
|
return
|
|
current_idx = 0
|
|
fmt_str = "!fff"
|
|
vec_fmt = "[{:8.3f}, {:8.3f}, {:8.3f}]"
|
|
inc_len = struct.calcsize(fmt_str)
|
|
mgm_0 = struct.unpack(fmt_str, hk_data[current_idx : current_idx + inc_len])
|
|
mgm_0_str = vec_fmt.format(*mgm_0)
|
|
pw.dlog(f"{'MGM 0 Vec'.ljust(25)}: {mgm_0_str}")
|
|
current_idx += inc_len
|
|
mgm_1 = struct.unpack(fmt_str, hk_data[current_idx : current_idx + inc_len])
|
|
mgm_1_str = vec_fmt.format(*mgm_1)
|
|
pw.dlog(f"{'MGM 1 Vec'.ljust(25)}: {mgm_1_str}")
|
|
current_idx += inc_len
|
|
mgm_2 = struct.unpack(fmt_str, hk_data[current_idx : current_idx + inc_len])
|
|
mgm_2_str = vec_fmt.format(*mgm_2)
|
|
pw.dlog(f"{'MGM 2 Vec'.ljust(25)}: {mgm_2_str}")
|
|
current_idx += inc_len
|
|
mgm_3 = struct.unpack(fmt_str, hk_data[current_idx : current_idx + inc_len])
|
|
mgm_3_str = vec_fmt.format(*mgm_3)
|
|
pw.dlog(f"{'MGM 3 Vec'.ljust(25)}: {mgm_3_str}")
|
|
current_idx += inc_len
|
|
mgm_4 = struct.unpack(fmt_str, hk_data[current_idx : current_idx + inc_len])
|
|
mgm_4_str = vec_fmt.format(*mgm_4)
|
|
pw.dlog(f"{'MGM 4 Vec'.ljust(25)}: {mgm_4_str}")
|
|
current_idx += inc_len
|
|
fmt_str = "!ddd"
|
|
inc_len = struct.calcsize(fmt_str)
|
|
mgm_vec_tot = struct.unpack(fmt_str, hk_data[current_idx : current_idx + inc_len])
|
|
mgm_vec_tot = vec_fmt.format(*mgm_vec_tot)
|
|
current_idx += inc_len
|
|
pw.dlog(f"{'MGM Total Vec'.ljust(25)}: {mgm_vec_tot}")
|
|
mgm_vec_tot_deriv = struct.unpack(
|
|
fmt_str, hk_data[current_idx : current_idx + inc_len]
|
|
)
|
|
mgm_vec_tot_deriv = vec_fmt.format(*mgm_vec_tot_deriv)
|
|
pw.dlog(f"{'MGM Total Vec Deriv'.ljust(25)}: {mgm_vec_tot_deriv}")
|
|
current_idx += inc_len
|
|
mag_igrf_model = struct.unpack(
|
|
fmt_str, hk_data[current_idx : current_idx + inc_len]
|
|
)
|
|
mag_igrf_model = vec_fmt.format(*mag_igrf_model)
|
|
pw.dlog(f"{'MAG IGRF Model'.ljust(25)}: {mag_igrf_model}")
|
|
current_idx += inc_len
|
|
if PERFORM_MGM_CALIBRATION:
|
|
perform_mgm_calibration(pw, mgm_3)
|
|
pw.printer.print_validity_buffer(hk_data[current_idx:], num_vars=8)
|
|
|
|
|
|
def handle_gyr_data_raw(pw: PrintWrapper, hk_data: bytes):
|
|
pw.dlog("Received GYR Raw Set with rotation rates in deg per second")
|
|
float_fmt = "!fff"
|
|
double_fmt = "!ddd"
|
|
inc_len_flt = struct.calcsize(float_fmt)
|
|
inc_len_double = struct.calcsize(double_fmt)
|
|
if len(hk_data) < 2 * inc_len_double + 2 * inc_len_flt:
|
|
pw.dlog("HK data too small")
|
|
return
|
|
current_idx = 0
|
|
float_str_fmt = "[{:8.3f}, {:8.3f}, {:8.3f}]"
|
|
gyr_0_adis = struct.unpack(
|
|
double_fmt, hk_data[current_idx : current_idx + inc_len_double]
|
|
)
|
|
current_idx += inc_len_double
|
|
gyr_1_l3 = struct.unpack(
|
|
float_fmt, hk_data[current_idx : current_idx + inc_len_flt]
|
|
)
|
|
current_idx += inc_len_flt
|
|
gyr_2_adis = struct.unpack(
|
|
double_fmt, hk_data[current_idx : current_idx + inc_len_double]
|
|
)
|
|
current_idx += inc_len_double
|
|
gyr_3_l3 = struct.unpack(
|
|
float_fmt, hk_data[current_idx : current_idx + inc_len_flt]
|
|
)
|
|
current_idx += inc_len_flt
|
|
pw.dlog(f"{'GYR 0 ADIS'.ljust(15)}: {float_str_fmt.format(*gyr_0_adis)}")
|
|
pw.dlog(f"{'GYR 1 L3'.ljust(15)}: {float_str_fmt.format(*gyr_1_l3)}")
|
|
pw.dlog(f"{'GYR 2 ADIS'.ljust(15)}: {float_str_fmt.format(*gyr_2_adis)}")
|
|
pw.dlog(f"{'GYR 3 L3'.ljust(15)}: {float_str_fmt.format(*gyr_3_l3)}")
|
|
pw.printer.print_validity_buffer(hk_data[current_idx:], 4)
|
|
|
|
|
|
GYR_NAMES = ["GYR 0 ADIS", "GYR 1 L3", "GYR 2 ADIS", "GYR 3 L3"]
|
|
|
|
|
|
def handle_gyr_data_processed(pw: PrintWrapper, hk_data: bytes):
|
|
pw.dlog("Received GYR Processed Set with rotation rates in deg per second")
|
|
fmt_str = "!ddd"
|
|
inc_len = struct.calcsize(fmt_str)
|
|
current_idx = 0
|
|
for i in range(4):
|
|
gyr_vec = [
|
|
f"{val*180/math.pi:8.3f}"
|
|
for val in struct.unpack(
|
|
fmt_str, hk_data[current_idx : current_idx + inc_len]
|
|
)
|
|
]
|
|
pw.dlog(f"{GYR_NAMES[i]}: {gyr_vec}")
|
|
current_idx += inc_len
|
|
gyr_vec_tot = [
|
|
f"{val*180/math.pi:8.3f}"
|
|
for val in struct.unpack(fmt_str, hk_data[current_idx : current_idx + inc_len])
|
|
]
|
|
pw.dlog(f"GYR Vec Total: {gyr_vec_tot}")
|
|
current_idx += inc_len
|
|
pw.printer.print_validity_buffer(hk_data[current_idx:], num_vars=5)
|
|
|
|
|
|
def handle_gps_data_processed(pw: PrintWrapper, hk_data: bytes):
|
|
pw.dlog("Received GPS Processed Set")
|
|
fmt_scalar = "!d"
|
|
fmt_vec = "!ddd"
|
|
inc_len_scalar = struct.calcsize(fmt_scalar)
|
|
inc_len_vec = struct.calcsize(fmt_vec)
|
|
if len(hk_data) < 2 * inc_len_scalar + 2 * inc_len_vec:
|
|
pw.dlog("Received HK set too small")
|
|
return
|
|
current_idx = 0
|
|
lat = [
|
|
f"{val*180/math.pi:8.3f}"
|
|
for val in struct.unpack(
|
|
fmt_scalar, hk_data[current_idx : current_idx + inc_len_scalar]
|
|
)
|
|
]
|
|
current_idx += inc_len_scalar
|
|
long = [
|
|
f"{val*180/math.pi:8.3f}"
|
|
for val in struct.unpack(
|
|
fmt_scalar, hk_data[current_idx : current_idx + inc_len_scalar]
|
|
)
|
|
]
|
|
current_idx += inc_len_scalar
|
|
alt = [
|
|
f"{val:8.3f}"
|
|
for val in struct.unpack(
|
|
fmt_scalar, hk_data[current_idx : current_idx + inc_len_scalar]
|
|
)
|
|
]
|
|
current_idx += inc_len_scalar
|
|
pos = [
|
|
f"{val:8.3f}"
|
|
for val in struct.unpack(
|
|
fmt_vec, hk_data[current_idx : current_idx + inc_len_vec]
|
|
)
|
|
]
|
|
current_idx += inc_len_vec
|
|
velo = [
|
|
f"{val:8.3f}"
|
|
for val in struct.unpack(
|
|
fmt_vec, hk_data[current_idx : current_idx + inc_len_vec]
|
|
)
|
|
]
|
|
current_idx += inc_len_vec
|
|
pw.dlog(f"GPS Latitude: {lat} [deg]")
|
|
pw.dlog(f"GPS Longitude: {long} [deg]")
|
|
pw.dlog(f"GPS Altitude: {alt} [m]")
|
|
pw.dlog(f"GPS Position: {pos} [m]")
|
|
pw.dlog(f"GPS Velocity: {velo} [m/s]")
|
|
pw.printer.print_validity_buffer(hk_data[current_idx:], num_vars=4)
|
|
|
|
|
|
def handle_mekf_data(pw: PrintWrapper, hk_data: bytes):
|
|
mekf_status = {
|
|
0: "UNINITIALIZED",
|
|
1: "NO_GYR_DATA",
|
|
2: "NO_MODEL_VECTORS",
|
|
3: "NO_SUS_MGM_STR_DATA",
|
|
4: "COVARIANCE_INVERSION_FAILED",
|
|
10: "INITIALIZED",
|
|
11: "RUNNING",
|
|
}
|
|
pw.dlog("Received MEKF Set")
|
|
fmt_quat = "!dddd"
|
|
fmt_str_4 = "[{:8.3f}, {:8.3f}, {:8.3f}, {:8.3f}]"
|
|
fmt_str_3 = "[{:8.3f}, {:8.3f}, {:8.3f}]"
|
|
fmt_vec = "!ddd"
|
|
fmt_sts = "!B"
|
|
inc_len_quat = struct.calcsize(fmt_quat)
|
|
inc_len_vec = struct.calcsize(fmt_vec)
|
|
inc_len_sts = struct.calcsize(fmt_sts)
|
|
if len(hk_data) < inc_len_quat + inc_len_vec + inc_len_sts:
|
|
pw.dlog("Received HK set too small")
|
|
return
|
|
current_idx = 0
|
|
quat = struct.unpack(fmt_quat, hk_data[current_idx : current_idx + inc_len_quat])
|
|
current_idx += inc_len_quat
|
|
rate = (
|
|
struct.unpack(fmt_vec, hk_data[current_idx : current_idx + inc_len_vec])
|
|
* 180
|
|
/ math.pi
|
|
)
|
|
current_idx += inc_len_vec
|
|
status = struct.unpack(fmt_sts, hk_data[current_idx : current_idx + inc_len_sts])[0]
|
|
current_idx += inc_len_sts
|
|
pw.dlog(f"{'MEKF Status'.ljust(25)}: {mekf_status[status]}")
|
|
pw.dlog(f"{'MEKF Quaternion'.ljust(25)}: {fmt_str_4.format(*quat)}")
|
|
pw.dlog(f"{'MEKF Rotational Rate'.ljust(25)}: {fmt_str_3.format(*rate)}")
|
|
pw.printer.print_validity_buffer(hk_data[current_idx:], num_vars=3)
|
|
|
|
|
|
def handle_ctrl_val_data(pw: PrintWrapper, hk_data: bytes):
|
|
pw.dlog("Received CTRL Values Set")
|
|
fmt_quat = "!dddd"
|
|
fmt_scalar = "!d"
|
|
fmt_vec = "!ddd"
|
|
inc_len_quat = struct.calcsize(fmt_quat)
|
|
inc_len_scalar = struct.calcsize(fmt_scalar)
|
|
inc_len_vec = struct.calcsize(fmt_vec)
|
|
if len(hk_data) < 2 * inc_len_quat + inc_len_scalar + inc_len_vec:
|
|
pw.dlog("Received HK set too small")
|
|
return
|
|
current_idx = 0
|
|
tgt_quat = [
|
|
f"{val:8.3f}"
|
|
for val in struct.unpack(
|
|
fmt_quat, hk_data[current_idx : current_idx + inc_len_quat]
|
|
)
|
|
]
|
|
current_idx += inc_len_quat
|
|
err_quat = [
|
|
f"{val:8.3f}"
|
|
for val in struct.unpack(
|
|
fmt_quat, hk_data[current_idx : current_idx + inc_len_quat]
|
|
)
|
|
]
|
|
current_idx += inc_len_quat
|
|
err_ang = [
|
|
f"{val*180/math.pi:8.3f}"
|
|
for val in struct.unpack(
|
|
fmt_scalar, hk_data[current_idx : current_idx + inc_len_scalar]
|
|
)
|
|
]
|
|
current_idx += inc_len_scalar
|
|
tgt_rot = [
|
|
f"{val*180/math.pi:8.3f}"
|
|
for val in struct.unpack(
|
|
fmt_vec, hk_data[current_idx : current_idx + inc_len_vec]
|
|
)
|
|
]
|
|
current_idx += inc_len_vec
|
|
pw.dlog(f"Control Values Target Quaternion: {tgt_quat}")
|
|
pw.dlog(f"Control Values Error Quaternion: {err_quat}")
|
|
pw.dlog(f"Control Values Error Angle: {err_ang} [deg]")
|
|
pw.dlog(f"Control Values Target Rotational Rate: {tgt_rot} [deg/s]")
|
|
pw.printer.print_validity_buffer(hk_data[current_idx:], num_vars=4)
|
|
|
|
|
|
def handle_act_cmd_data(pw: PrintWrapper, hk_data: bytes):
|
|
pw.dlog("Received Actuator Command Values Set")
|
|
fmt_vec4_double = "!dddd"
|
|
fmt_vec4_int32 = "!iiii"
|
|
fmt_vec3_int16 = "!hhh"
|
|
inc_len_vec4_double = struct.calcsize(fmt_vec4_double)
|
|
inc_len_vec4_int32 = struct.calcsize(fmt_vec4_int32)
|
|
inc_len_vec3_int16 = struct.calcsize(fmt_vec3_int16)
|
|
if len(hk_data) < inc_len_vec4_double + inc_len_vec4_int32 + inc_len_vec3_int16:
|
|
pw.dlog("Received HK set too small")
|
|
return
|
|
current_idx = 0
|
|
rw_tgt_torque = [
|
|
f"{val:8.3f}"
|
|
for val in struct.unpack(
|
|
fmt_vec4_double, hk_data[current_idx : current_idx + inc_len_vec4_double]
|
|
)
|
|
]
|
|
current_idx += inc_len_vec4_double
|
|
rw_tgt_speed = [
|
|
f"{val:d}"
|
|
for val in struct.unpack(
|
|
fmt_vec4_int32, hk_data[current_idx : current_idx + inc_len_vec4_int32]
|
|
)
|
|
]
|
|
current_idx += inc_len_vec4_int32
|
|
mtq_tgt_dipole = [
|
|
f"{val:d}"
|
|
for val in struct.unpack(
|
|
fmt_vec3_int16, hk_data[current_idx : current_idx + inc_len_vec3_int16]
|
|
)
|
|
]
|
|
current_idx += inc_len_vec3_int16
|
|
pw.dlog(f"Actuator Commands RW Target Torque: {rw_tgt_torque}")
|
|
pw.dlog(f"Actuator Commands RW Target Speed: {rw_tgt_speed}")
|
|
pw.dlog(f"Actuator Commands MTQ Target Dipole: {mtq_tgt_dipole}")
|
|
pw.printer.print_validity_buffer(hk_data[current_idx:], num_vars=3)
|
|
|
|
|
|
def perform_mgm_calibration(pw: PrintWrapper, mgm_tuple: Tuple):
|
|
global CALIBR_SOCKET, CALIBRATION_ADDR
|
|
try:
|
|
declare_api_cmd = "declare_api_version 2"
|
|
CALIBR_SOCKET.sendall(f"{declare_api_cmd}\n".encode())
|
|
reply = CALIBR_SOCKET.recv(1024)
|
|
if len(reply) != 2:
|
|
pw.dlog(
|
|
f"MGM calibration: Reply received command {declare_api_cmd} has"
|
|
f" invalid length {len(reply)}"
|
|
)
|
|
return
|
|
else:
|
|
if str(reply[0]) == "0":
|
|
pw.dlog(f"MGM calibration: API version 2 was not accepted")
|
|
return
|
|
if len(mgm_tuple) != 3:
|
|
pw.dlog(f"MGM tuple has invalid length {len(mgm_tuple)}")
|
|
mgm_list = [mgm / 1e6 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)
|
|
if len(reply) != 2:
|
|
pw.dlog(
|
|
f"MGM calibration: Reply received command magnetometer_field has invalid "
|
|
f"length {len(reply)}"
|
|
)
|
|
return
|
|
else:
|
|
if str(reply[0]) == "0":
|
|
pw.dlog(f"MGM calibration: magnetmeter field format was not accepted")
|
|
return
|
|
pw.dlog(f"Sent data {mgm_list} to Helmholtz Testbench successfully")
|
|
except socket.timeout:
|
|
pw.dlog("Socket timeout")
|
|
except BlockingIOError as e:
|
|
pw.dlog(f"Error {e}")
|
|
except ConnectionResetError as e:
|
|
pw.dlog("Socket was closed")
|
|
except ConnectionRefusedError or OSError:
|
|
pw.dlog("Connecting to Calibration Socket on addrss {} failed")
|