eive-tmtc/eive_tmtc/tmtc/com/syrlinks_handler.py
2023-02-10 17:52:09 +01:00

427 lines
17 KiB
Python

# -*- coding: utf-8 -*-
"""
@file syrlinks_hk_handler.py
@brief Syrlinks Hk Handler tests
@author J. Meier
@date 13.12.2020
"""
import enum
import logging
import math
from eive_tmtc.pus_tm.defs import PrintWrapper
from eive_tmtc.config.definitions import CustomServiceList
from tmtccmd.config.tmtc import (
tmtc_definitions_provider,
TmtcDefinitionWrapper,
OpCodeEntry,
)
from tmtccmd.tc import DefaultPusQueueHelper
from tmtccmd.tc.pus_3_fsfw_hk import (
make_sid,
create_request_one_diag_command,
create_enable_periodic_hk_command_with_interval,
create_disable_periodic_hk_command,
create_request_one_hk_command,
)
from spacepackets.ecss.tc import PusTelecommand
from tmtccmd.tc.pus_200_fsfw_mode import Mode, create_mode_command
from eive_tmtc.config.object_ids import SYRLINKS_HANDLER_ID
import struct
from tmtccmd.util import ObjectIdU32
from tmtccmd.util.tmtc_printer import FsfwTmTcPrinter
class SetId:
RX_REGISTERS_DATASET = 1
TX_REGISTERS_DATASET = 2
TEMPERATURE_SET_ID = 3
class OpCode:
OFF = "off"
ON = "on"
NORMAL_RX_ONLY = "nml_rx_only"
NORMAL_RX_AND_TX_CW = "nml_carrier_wave"
NORMAL_RX_AND_TX_DEF_DATARATE = "nml_default_datarate"
NORMAL_RX_AND_TX_LOW_DATARATE = "nml_low_datarate"
NORMAL_RX_AND_TX_HIGH_DATARATE = "nml_high_datarate"
HK_RX_REGS = "hk_rx_regs"
HK_TEMPS = "hk_temps"
ENABLE_HK_RX_REGS = "enable_hk_rx"
DISABLE_HK_RX_REGS = "disable_hk_rx"
ENABLE_HK_TX_REGS = "enable_hk_tx"
DISABLE_HK_TX_REGS = "disable_hk_tx"
HK_TX_REGS = "hk_tx_regs"
TX_STATUS = "tx_status"
RX_STATUS = "rx_status"
class Info:
OFF = "Switch OFF"
ON = "Switch ON"
NORMAL_RX_ONLY = "NORMAL RX Only, set TX to standby"
NORMAL_RX_AND_TX_CW = "NORMAL RX and TX, TX Carrier Wave"
NORMAL_RX_AND_TX_DEF_DATARATE = "NORMAL RX and TX, TX with default datarate"
NORMAL_RX_AND_TX_LOW_DATARATE = "NORMAL RX and TX, TX with low datarate"
NORMAL_RX_AND_TX_HIGH_DATARATE = "NORMAL RX and TX, TX with high datarate"
HK_RX_REGS = "Request RX register set"
HK_TX_REGS = "Request TX register set"
HK_TEMPS = "Request Temperatures HK"
ENABLE_HK_RX_REGS = "Enable periodic RX register HK"
DISABLE_HK_RX_REGS = "Disable periodic RX register HK"
ENABLE_HK_TX_REGS = "Enable periodic TX register HK"
DISABLE_HK_TX_REGS = "Disable periodic TX register HK"
TX_STATUS = "Read TX status (always read in normal mode)"
RX_STATUS = "Read RX status (always read in normal mode)"
SET_CW = "Set TX carrier wave"
class CommandId(enum.IntEnum):
READ_RX_STATUS_REGISTERS = 2
SET_TX_MODE_STANDBY = 3
SET_TX_MODE_MODULATION = 4
SET_TX_MODE_CW = 5
READ_TX_STATUS = 7
READ_TX_WAVEFORM = 8
READ_TX_AGC_VALUE_HIGH_BYTE = 9
READ_TX_AGC_VALUE_LOW_BYTE = 10
WRITE_LCL_CONFIG = 11
READ_LCL_CONFIG_REGISTER = 12
SET_WAVEFORM_OQPSK = 17
SET_WAVEFORM_BPSK = 18
SET_SECOND_CONFIG = 19
ENABLE_DEBUG = 20
DISABLE_DEBUG = 21
class Submode(enum.IntEnum):
RX_ONLY = 0
RX_AND_TX_DEFAULT_DATARATE = 1
RX_AND_TX_LOW_DATARATE = 2
RX_AND_TX_HIGH_DATARATE = 3
RX_AND_TX_CW = 4
class Datarate(enum.IntEnum):
LOW_RATE_MODULATION_BPSK = 0
HIGH_RATE_MODULATION_0QPSK = 1
@tmtc_definitions_provider
def add_syrlinks_cmds(defs: TmtcDefinitionWrapper):
oce = OpCodeEntry()
oce.add(OpCode.OFF, Info.OFF)
oce.add(OpCode.ON, Info.ON)
oce.add(OpCode.NORMAL_RX_ONLY, Info.NORMAL_RX_ONLY)
oce.add(OpCode.NORMAL_RX_AND_TX_CW, Info.NORMAL_RX_AND_TX_CW)
oce.add(OpCode.NORMAL_RX_AND_TX_DEF_DATARATE, Info.NORMAL_RX_AND_TX_DEF_DATARATE)
oce.add(OpCode.NORMAL_RX_AND_TX_LOW_DATARATE, Info.NORMAL_RX_AND_TX_LOW_DATARATE)
oce.add(OpCode.NORMAL_RX_AND_TX_HIGH_DATARATE, Info.NORMAL_RX_AND_TX_HIGH_DATARATE)
oce.add(OpCode.HK_RX_REGS, Info.HK_RX_REGS)
oce.add(OpCode.HK_TX_REGS, Info.HK_TX_REGS)
oce.add(OpCode.TX_STATUS, Info.TX_STATUS)
oce.add(OpCode.RX_STATUS, Info.RX_STATUS)
oce.add(OpCode.ENABLE_HK_RX_REGS, Info.ENABLE_HK_RX_REGS)
oce.add(OpCode.DISABLE_HK_RX_REGS, Info.DISABLE_HK_RX_REGS)
oce.add(OpCode.ENABLE_HK_TX_REGS, Info.ENABLE_HK_TX_REGS)
oce.add(OpCode.DISABLE_HK_TX_REGS, Info.DISABLE_HK_TX_REGS)
oce.add(OpCode.HK_TEMPS, Info.HK_TEMPS)
oce.add("7", "Syrlinks Handler: Read TX waveform")
oce.add("8", "Syrlinks Handler: Read TX AGC value high byte")
oce.add("9", "Syrlinks Handler: Read TX AGC value low byte")
oce.add("12", "Syrlinks Handler: Write LCL config")
oce.add("14", "Syrlinks Handler: Read LCL config register")
oce.add("15", "Syrlinks Handler: Set waveform OQPSK")
oce.add("16", "Syrlinks Handler: Set waveform BPSK")
oce.add("17", "Syrlinks Handler: Set second config")
oce.add("18", "Syrlinks Handler: Enable debug output")
oce.add("19", "Syrlinks Handler: Disable debug output")
defs.add_service(CustomServiceList.SYRLINKS.value, "Syrlinks Handler", oce)
_PREFIX = "Syrlinks"
def normal_mode_cmd(q: DefaultPusQueueHelper, info: str, submode: int):
q.add_log_cmd(f"{_PREFIX}: {info}")
q.add_pus_tc(create_mode_command(SYRLINKS_HANDLER_ID, Mode.NORMAL, submode))
def pack_syrlinks_command(
object_id: ObjectIdU32, q: DefaultPusQueueHelper, op_code: str
):
obyt = object_id.as_bytes
prefix = "Syrlinks"
q.add_log_cmd(f"Testing Syrlinks with object id: {object_id.as_hex_string}")
if op_code == OpCode.OFF:
q.add_log_cmd(f"{prefix}: {Info.OFF}")
q.add_pus_tc(create_mode_command(obyt, Mode.OFF, 0))
if op_code == OpCode.ON:
q.add_log_cmd(f"{prefix}: {Info.ON}")
q.add_pus_tc(create_mode_command(obyt, Mode.ON, 0))
if op_code == OpCode.NORMAL_RX_ONLY:
normal_mode_cmd(q, Info.NORMAL_RX_ONLY, Submode.RX_ONLY)
if op_code == OpCode.NORMAL_RX_AND_TX_LOW_DATARATE:
normal_mode_cmd(
q, Info.NORMAL_RX_AND_TX_LOW_DATARATE, Submode.RX_AND_TX_LOW_DATARATE
)
if op_code == OpCode.NORMAL_RX_AND_TX_DEF_DATARATE:
normal_mode_cmd(
q, Info.NORMAL_RX_AND_TX_DEF_DATARATE, Submode.RX_AND_TX_DEFAULT_DATARATE
)
if op_code == OpCode.NORMAL_RX_AND_TX_HIGH_DATARATE:
normal_mode_cmd(
q, Info.NORMAL_RX_AND_TX_HIGH_DATARATE, Submode.RX_AND_TX_HIGH_DATARATE
)
if op_code in OpCode.NORMAL_RX_AND_TX_CW:
normal_mode_cmd(q, Info.NORMAL_RX_AND_TX_CW, Submode.RX_AND_TX_CW)
if op_code in OpCode.HK_RX_REGS:
q.add_log_cmd(f"{prefix}: {Info.HK_RX_REGS}")
sid = make_sid(obyt, SetId.RX_REGISTERS_DATASET)
q.add_pus_tc(create_request_one_diag_command(sid))
if op_code in OpCode.HK_TEMPS:
q.add_log_cmd(f"{prefix}: {Info.HK_TEMPS}")
sid = make_sid(obyt, SetId.TEMPERATURE_SET_ID)
q.add_pus_tc(create_request_one_hk_command(sid))
if op_code in OpCode.ENABLE_HK_RX_REGS:
q.add_log_cmd(f"{prefix}: {Info.ENABLE_HK_RX_REGS}")
sid = make_sid(obyt, SetId.RX_REGISTERS_DATASET)
interval = float(input("HK interval in floating point seconds"))
cmds = create_enable_periodic_hk_command_with_interval(True, sid, interval)
for cmd in cmds:
q.add_pus_tc(cmd)
if op_code in OpCode.DISABLE_HK_RX_REGS:
q.add_log_cmd(f"{prefix}: {Info.DISABLE_HK_RX_REGS}")
sid = make_sid(obyt, SetId.RX_REGISTERS_DATASET)
q.add_pus_tc(create_disable_periodic_hk_command(True, sid))
if op_code in OpCode.ENABLE_HK_TX_REGS:
q.add_log_cmd(f"{prefix}: {Info.ENABLE_HK_TX_REGS}")
sid = make_sid(obyt, SetId.TX_REGISTERS_DATASET)
interval = float(input("HK interval in floating point seconds"))
cmds = create_enable_periodic_hk_command_with_interval(True, sid, interval)
for cmd in cmds:
q.add_pus_tc(cmd)
if op_code in OpCode.DISABLE_HK_TX_REGS:
q.add_log_cmd(f"{prefix}: {Info.DISABLE_HK_TX_REGS}")
sid = make_sid(obyt, SetId.TX_REGISTERS_DATASET)
q.add_pus_tc(create_disable_periodic_hk_command(True, sid))
if op_code in OpCode.HK_TX_REGS:
q.add_log_cmd(f"{prefix}: {Info.HK_TX_REGS}")
sid = make_sid(obyt, SetId.TX_REGISTERS_DATASET)
q.add_pus_tc(create_request_one_diag_command(sid))
if op_code in OpCode.TX_STATUS:
q.add_log_cmd(f"{prefix}: {Info.TX_STATUS}")
command = obyt + struct.pack("!I", CommandId.READ_TX_STATUS)
q.add_pus_tc(PusTelecommand(service=8, subservice=128, app_data=command))
if op_code == "9":
q.add_log_cmd("Syrlinks: Read TX waveform")
command = obyt + struct.pack("!I", CommandId.READ_TX_WAVEFORM)
q.add_pus_tc(PusTelecommand(service=8, subservice=128, app_data=command))
if op_code == "10":
q.add_log_cmd("Syrlinks: Read TX AGC value high byte")
command = obyt + struct.pack("!I", CommandId.READ_TX_AGC_VALUE_HIGH_BYTE)
q.add_pus_tc(PusTelecommand(service=8, subservice=128, app_data=command))
if op_code == "11":
q.add_log_cmd("Syrlinks: Read TX AGC value low byte")
command = obyt + struct.pack("!I", CommandId.READ_TX_AGC_VALUE_LOW_BYTE)
q.add_pus_tc(PusTelecommand(service=8, subservice=128, app_data=command))
if op_code == "12":
q.add_log_cmd("Syrlinks: Write LCL config")
command = obyt + struct.pack("!I", CommandId.WRITE_LCL_CONFIG)
q.add_pus_tc(PusTelecommand(service=8, subservice=128, app_data=command))
if op_code == "13":
q.add_log_cmd("Syrlinks: Read RX status registers")
command = obyt + struct.pack("!I", CommandId.READ_RX_STATUS_REGISTERS)
q.add_pus_tc(PusTelecommand(service=8, subservice=128, app_data=command))
if op_code == "14":
q.add_log_cmd("Syrlinks: Read LCL config register")
command = obyt + struct.pack("!I", CommandId.READ_LCL_CONFIG_REGISTER)
q.add_pus_tc(PusTelecommand(service=8, subservice=128, app_data=command))
if op_code == "15":
q.add_log_cmd("Syrlinks: Set waveform OQPSK")
command = obyt + struct.pack("!I", CommandId.SET_WAVEFORM_OQPSK)
q.add_pus_tc(PusTelecommand(service=8, subservice=128, app_data=command))
if op_code == "16":
q.add_log_cmd("Syrlinks: Set waveform BPSK")
command = obyt + struct.pack("!I", CommandId.SET_WAVEFORM_BPSK)
q.add_pus_tc(PusTelecommand(service=8, subservice=128, app_data=command))
if op_code == "17":
q.add_log_cmd("Syrlinks: Set second config")
command = obyt + struct.pack("!I", CommandId.SET_SECOND_CONFIG)
q.add_pus_tc(PusTelecommand(service=8, subservice=128, app_data=command))
if op_code == "18":
q.add_log_cmd("Syrlinks: Enable debug printout")
command = obyt + struct.pack("!I", CommandId.ENABLE_DEBUG)
q.add_pus_tc(PusTelecommand(service=8, subservice=128, app_data=command))
if op_code == "19":
q.add_log_cmd("Syrlinks: Disable debug printout")
command = obyt + struct.pack("!I", CommandId.DISABLE_DEBUG)
q.add_pus_tc(PusTelecommand(service=8, subservice=128, app_data=command))
def handle_syrlinks_hk_data(printer: FsfwTmTcPrinter, set_id: int, hk_data: bytes):
if set_id == SetId.RX_REGISTERS_DATASET:
return handle_syrlinks_rx_registers_dataset(printer, hk_data)
elif set_id == SetId.TX_REGISTERS_DATASET:
return handle_syrlinks_tx_registers_dataset(printer, hk_data)
elif set_id == SetId.TEMPERATURE_SET_ID:
return handle_syrlinks_temp_dataset(printer, hk_data)
else:
pw = PrintWrapper(printer)
pw.dlog(f"Service 3 TM: Syrlinks handler reply with unknown set ID {set_id}")
def handle_syrlinks_temp_dataset(printer: FsfwTmTcPrinter, hk_data: bytes):
pw = PrintWrapper(printer)
if len(hk_data) < 8:
raise ValueError("expected at least 8 bytes of HK data")
temp_power_amplifier = struct.unpack("!f", hk_data[0:4])[0]
temp_baseband_board = struct.unpack("!f", hk_data[4:8])[0]
pw.dlog(f"Temperatur Power Amplifier [C]: {temp_power_amplifier}")
pw.dlog(f"Temperatur Baseband Board [C]: {temp_baseband_board}")
printer.print_validity_buffer(hk_data[8:], 2)
def handle_syrlinks_rx_registers_dataset(printer: FsfwTmTcPrinter, hk_data: bytes):
pw = PrintWrapper(printer)
header_list = [
"RX Status",
"RX Sensitivity",
"RX Frequency Shift",
"RX IQ Power",
"RX AGC Value (Raw)",
"RX Demod Eb",
"RX Demod N0",
"RX Datarate [kbps]",
]
rx_status = hk_data[0]
carrier_detect = rx_status & 0b1
carrier_lock = (rx_status >> 1) & 0b1
data_lock = (rx_status >> 2) & 0b1
data_valid = (rx_status >> 3) & 0b1
rx_sensitivity = struct.unpack("!I", hk_data[1:5])[0]
rx_frequency_shift = struct.unpack("!i", hk_data[5:9])[0]
freq_shift_hz = rx_frequency_shift / 8.0
freq_shift_printout = f"Raw: {rx_frequency_shift}, Eng: {freq_shift_hz} Hz"
rx_iq_power = struct.unpack("!H", hk_data[9:11])[0]
rx_agc_value = struct.unpack("!H", hk_data[11:13])[0]
rx_agc_inhibit = (rx_agc_value >> 15) & 0b1
rx_agc = rx_agc_value & 0xFFF
rx_demod_eb = struct.unpack("!I", hk_data[13:17])[0] & 0xFFFFFF
rx_demod_n0 = struct.unpack("!I", hk_data[17:21])[0] & 0xFFFFFF
eb_to_n0 = 20 * math.log10(rx_demod_eb / rx_demod_n0) - 3
rx_data_rate_raw = hk_data[21]
rx_data_rate = -1
if rx_data_rate_raw == 0:
rx_data_rate = 256
elif rx_data_rate_raw == 1:
rx_data_rate = 128
elif rx_data_rate_raw == 3:
rx_data_rate = 64
elif rx_data_rate_raw == 7:
rx_data_rate = 32
elif rx_data_rate_raw == 15:
rx_data_rate = 16
elif rx_data_rate_raw == 31:
rx_data_rate = 8
content_list = [
rx_status,
rx_sensitivity,
freq_shift_printout,
rx_iq_power,
rx_agc_value,
rx_demod_eb,
rx_demod_n0,
rx_data_rate,
]
validity_buffer = hk_data[22:]
for header, content in zip(header_list, content_list):
pw.dlog(f"{header}: {content}")
printer.print_validity_buffer(validity_buffer=validity_buffer, num_vars=8)
pw.dlog(f"Carrier Detect: {carrier_detect}")
pw.dlog(f"Carrier Lock: {carrier_lock}")
pw.dlog(f"Data Lock (data clock recovery loop lock status): {data_lock}")
pw.dlog(f"Data Valid (valid if TEB < 10e-5): {data_valid}")
pw.dlog(f"Data Lock (data clock recovery loop lock status): {data_lock}")
pw.dlog(f"RX AGC Inhibit: {rx_agc_inhibit}")
pw.dlog(f"RX AGC: {rx_agc}")
pw.dlog(f"Eb / E0RX [dB]: {eb_to_n0}")
class TxConv(enum.IntEnum):
NO_CODING = 0b000
VITERBI_HALF_G1G2INV = 0b010
VITERBI_HALF = 0b111
class TxStatus(enum.IntEnum):
NOT_AVAILABLE = 0b00
MODULATION = 0b01
CW = 0b10
STANDBY = 0b11
class TxCfgSet(enum.IntEnum):
START_WITH_CURRENT_CFG = 0b00
START_WITH_CONF_0 = 0b01
START_WITH_CONF_1 = 0b10
WAVEFORM_STRINGS = ["OFF", "CW", "QPSK", "0QPSK", "PCM/PM", "PSK/PM", "BPSK"]
def handle_syrlinks_tx_registers_dataset(
printer: FsfwTmTcPrinter,
hk_data: bytes,
):
pw = PrintWrapper(printer)
header_list = ["TX Status Raw", "TX Waveform", "TX AGC value"]
tx_status = hk_data[0]
"""
try:
tx_conv = TxConv(tx_status & 0b111)
except ValueError:
logging.getLogger(__name__).warning(
f"invalid TX conv value {tx_status & 0b111}"
)
tx_conv = -1
tx_diff_encoder_enable = (tx_status >> 3) & 0b1
"""
tx_status_status = TxStatus(tx_status & 0b11)
try:
tx_conf_set = TxCfgSet((tx_status >> 2) & 0b11)
except ValueError:
logging.getLogger(__name__).warning(
f"invalid TX conf set {(tx_status >> 2) & 0b11}"
)
tx_conf_set = -1
tx_clock_detect = (tx_status >> 4) & 0b1
tx_waveform = hk_data[1]
waveform = tx_waveform & 0b1111
try:
waveform_str = WAVEFORM_STRINGS[waveform]
except IndexError:
logging.getLogger(__name__).warning(f"Unknown waveform value {waveform}")
waveform_str = "Unknown"
pcm_mode = (tx_waveform >> 4) & 0b1
tx_agc_value = struct.unpack("!H", hk_data[2:4])[0]
tx_agc_inhibit = (tx_agc_value >> 15) & 0b1
tx_agc = tx_agc_value & 0xFFF
content_list = [tx_status, tx_waveform, tx_agc_value]
validity_buffer = hk_data[4:]
for header, content in zip(header_list, content_list):
pw.dlog(f"{header}: {content}")
printer.print_validity_buffer(validity_buffer=validity_buffer, num_vars=3)
# pw.dlog(f"TX CONV: {tx_conv!r}")
# pw.dlog(f"TX DIFF (differential encoder enable): {tx_diff_encoder_enable}")
pw.dlog(f"TX Status: {tx_status_status!r}")
pw.dlog(f"TX Config Set: {tx_conf_set!r}")
pw.dlog(f"TX Clock Detect: {tx_clock_detect}")
pw.dlog(f"Waveform: {waveform_str}")
pw.dlog(f"PCM Mode: {pcm_mode}")
pw.dlog(f"TX AGC Inhibit: {tx_agc_inhibit}")
pw.dlog(f"TX AGC: {tx_agc}")