eurosim-obsw/pyclient/main copy.py
2023-02-14 17:01:44 +01:00

402 lines
15 KiB
Python

#!/usr/bin/env python3
"""Example client for the sat-rs example application"""
import enum
import logging
import struct
import sys
import time
from typing import Optional
import datetime
import json
import pprint
import tmtccmd
from spacepackets.ecss import PusTelemetry, PusTelecommand, PusVerificator
from spacepackets.ecss.pus_17_test import Service17Tm
from spacepackets.ecss.pus_1_verification import UnpackParams, Service1Tm
from spacepackets.ccsds.time import CdsShortTimestamp
from tmtccmd import CcsdsTmtcBackend, TcHandlerBase, ProcedureParamsWrapper
from tmtccmd.tc.pus_3_fsfw_hk import generate_one_hk_command, make_sid
from tmtccmd.tc.pus_11_tc_sched import create_time_tagged_cmd
from tmtccmd.core.base import BackendRequest
from tmtccmd.pus import VerificationWrapper
from tmtccmd.tm import CcsdsTmHandler, SpecificApidHandlerBase
from tmtccmd.com import ComInterface
from tmtccmd.config import (
default_json_path,
SetupParams,
HookBase,
TmtcDefinitionWrapper,
CoreServiceList,
OpCodeEntry,
params_to_procedure_conversion,
)
from tmtccmd.config import PreArgsParsingWrapper, SetupWrapper
from tmtccmd.logging import add_colorlog_console_logger
from tmtccmd.logging.pus import (
RegularTmtcLogWrapper,
RawTmtcTimedLogWrapper,
TimedLogWhen,
)
from tmtccmd.tc import (
TcQueueEntryType,
ProcedureWrapper,
TcProcedureType,
FeedWrapper,
SendCbParams,
DefaultPusQueueHelper,
QueueWrapper,
)
from tmtccmd.tm.pus_5_fsfw_event import Service5Tm
from tmtccmd.util import FileSeqCountProvider, PusFileSeqCountProvider
from tmtccmd.util.obj_id import ObjectIdDictT
from tmtccmd.util.tmtc_printer import FsfwTmTcPrinter
_LOGGER = logging.getLogger(__name__)
EXAMPLE_PUS_APID = 0x02
class SatRsConfigHook(HookBase):
def __init__(self, json_cfg_path: str):
super().__init__(json_cfg_path=json_cfg_path)
def assign_communication_interface(self, com_if_key: str) -> Optional[ComInterface]:
from tmtccmd.config.com import (
create_com_interface_default,
create_com_interface_cfg_default,
)
cfg = create_com_interface_cfg_default(
com_if_key=com_if_key,
json_cfg_path=self.cfg_path,
space_packet_ids=None,
)
return create_com_interface_default(cfg)
def get_tmtc_definitions(self) -> TmtcDefinitionWrapper:
from tmtccmd.config.globals import get_default_tmtc_defs
defs = get_default_tmtc_defs()
srv_5 = OpCodeEntry()
srv_5.add("0", "Event Test")
defs.add_service(
name=CoreServiceList.SERVICE_5.value,
info="PUS Service 5 Event",
op_code_entry=srv_5,
)
srv_17 = OpCodeEntry()
srv_17.add("0", "Ping Test")
defs.add_service(
name=CoreServiceList.SERVICE_17_ALT,
info="PUS Service 17 Test",
op_code_entry=srv_17,
)
srv_3 = OpCodeEntry()
srv_3.add(HkOpCodes.GENERATE_ONE_SHOT, "Generate AOCS one shot HK")
defs.add_service(
name=CoreServiceList.SERVICE_3,
info="PUS Service 3 Housekeeping",
op_code_entry=srv_3,
)
srv_8 = OpCodeEntry()
srv_8.add("1", "Camera Image Request")
defs.add_service(
name=CoreServiceList.SERVICE_8,
info="PUS Service 8 Action",
op_code_entry=srv_8,
)
srv_11 = OpCodeEntry()
srv_11.add("0", "Scheduled TC Test")
srv_11.add("1", "Scheduled Camera Request TC")
defs.add_service(
name=CoreServiceList.SERVICE_11,
info="PUS Service 11 TC Scheduling",
op_code_entry=srv_11,
)
return defs
def perform_mode_operation(self, tmtc_backend: CcsdsTmtcBackend, mode: int):
_LOGGER.info("Mode operation hook was called")
pass
def get_object_ids(self) -> ObjectIdDictT:
from tmtccmd.config.objects import get_core_object_ids
return get_core_object_ids()
class PusHandler(SpecificApidHandlerBase):
def __init__(
self,
verif_wrapper: VerificationWrapper,
printer: FsfwTmTcPrinter,
raw_logger: RawTmtcTimedLogWrapper,
):
super().__init__(EXAMPLE_PUS_APID, None)
self.printer = printer
self.raw_logger = raw_logger
self.verif_wrapper = verif_wrapper
def handle_tm(self, packet: bytes, _user_args: any):
try:
tm_packet = PusTelemetry.unpack(
packet, time_reader=CdsShortTimestamp.empty()
)
except ValueError as e:
_LOGGER.warning("Could not generate PUS TM object from raw data")
_LOGGER.warning(f"Raw Packet: [{packet.hex(sep=',')}], REPR: {packet!r}")
raise e
service = tm_packet.service
dedicated_handler = False
if service == 1:
tm_packet = Service1Tm.unpack(
data=packet, params=UnpackParams(CdsShortTimestamp.empty(), 1, 2)
)
res = self.verif_wrapper.add_tm(tm_packet)
if res is None:
_LOGGER.info(
f"Received Verification TM[{tm_packet.service}, {tm_packet.subservice}] "
f"with Request ID {tm_packet.tc_req_id.as_u32():#08x}"
)
_LOGGER.warning(
f"No matching telecommand found for {tm_packet.tc_req_id}"
)
else:
self.verif_wrapper.log_to_console(tm_packet, res)
self.verif_wrapper.log_to_file(tm_packet, res)
dedicated_handler = True
if service == 3:
# _LOGGER.info("No handling for HK packets implemented")
# _LOGGER.info(f"Raw packet: 0x[{packet.hex(sep=',')}]")
pus_tm = PusTelemetry.unpack(packet, time_reader=CdsShortTimestamp.empty())
if pus_tm.subservice == 25:
if len(pus_tm.source_data) < 8:
raise ValueError("No addressable ID in HK packet")
json_str = str(pus_tm.source_data[8:].decode('utf8'))
json_object = json.loads(json_str)
pprint.pprint(json_object)
dedicated_handler = True
if service == 5:
tm_packet = Service5Tm.unpack(packet, time_reader=CdsShortTimestamp.empty())
if service == 17:
tm_packet = Service17Tm.unpack(
packet, time_reader=CdsShortTimestamp.empty()
)
dedicated_handler = True
if tm_packet.subservice == 2:
self.printer.file_logger.info("Received Ping Reply TM[17,2]")
_LOGGER.info("Received Ping Reply TM[17,2]")
else:
self.printer.file_logger.info(
f"Received Test Packet with unknown subservice {tm_packet.subservice}"
)
_LOGGER.info(
f"Received Test Packet with unknown subservice {tm_packet.subservice}"
)
if tm_packet is None:
_LOGGER.info(
f"The service {service} is not implemented in Telemetry Factory"
)
tm_packet = PusTelemetry.unpack(
packet, time_reader=CdsShortTimestamp.empty()
)
self.raw_logger.log_tm(tm_packet)
if not dedicated_handler and tm_packet is not None:
pass
# self.printer.handle_long_tm_print(packet_if=tm_packet, info_if=tm_packet)
def make_addressable_id(target_id: int, unique_id: int) -> bytes:
byte_string = bytearray(struct.pack("!I", target_id))
byte_string.extend(struct.pack("!I", unique_id))
return byte_string
def read_addressable_id(data: bytes) -> tuple[int, int]:
target_id = struct.unpack("!I", data[0:4])[0]
set_id = struct.unpack("!I", data[4:8])[0]
return (target_id, set_id)
class RequestTargetId(enum.IntEnum):
ACS = 1
PLD = 2
class AcsHkIds(enum.IntEnum):
MGM_SET = 1
class HkOpCodes:
GENERATE_ONE_SHOT = ["0", "oneshot"]
def make_target_id(target_id: int) -> bytes:
byte_string = bytearray(struct.pack("!I", target_id))
return byte_string
class TcHandler(TcHandlerBase):
def __init__(
self,
seq_count_provider: FileSeqCountProvider,
verif_wrapper: VerificationWrapper,
):
super(TcHandler, self).__init__()
self.seq_count_provider = seq_count_provider
self.verif_wrapper = verif_wrapper
self.queue_helper = DefaultPusQueueHelper(
queue_wrapper=QueueWrapper.empty(),
tc_sched_timestamp_len=CdsShortTimestamp.TIMESTAMP_SIZE,
seq_cnt_provider=seq_count_provider,
pus_verificator=self.verif_wrapper.pus_verificator,
default_pus_apid=EXAMPLE_PUS_APID,
)
def send_cb(self, send_params: SendCbParams):
entry_helper = send_params.entry
if entry_helper.is_tc:
if entry_helper.entry_type == TcQueueEntryType.PUS_TC:
pus_tc_wrapper = entry_helper.to_pus_tc_entry()
raw_tc = pus_tc_wrapper.pus_tc.pack()
_LOGGER.info(f"Sending {pus_tc_wrapper.pus_tc}")
send_params.com_if.send(raw_tc)
elif entry_helper.entry_type == TcQueueEntryType.LOG:
log_entry = entry_helper.to_log_entry()
_LOGGER.info(log_entry.log_str)
def queue_finished_cb(self, helper: ProcedureWrapper):
if helper.proc_type == TcProcedureType.DEFAULT:
def_proc = helper.to_def_procedure()
_LOGGER.info(
f"Queue handling finished for service {def_proc.service} and "
f"op code {def_proc.op_code}"
)
def feed_cb(self, helper: ProcedureWrapper, wrapper: FeedWrapper):
q = self.queue_helper
q.queue_wrapper = wrapper.queue_wrapper
if helper.proc_type == TcProcedureType.DEFAULT:
def_proc = helper.to_def_procedure()
service = def_proc.service
op_code = def_proc.op_code
if (
service == CoreServiceList.SERVICE_17
or service == CoreServiceList.SERVICE_17_ALT
):
q.add_log_cmd("Sending PUS ping telecommand")
return q.add_pus_tc(PusTelecommand(service=17, subservice=1))
if service == CoreServiceList.SERVICE_11:
if op_code == "0":
q.add_log_cmd("Sending PUS scheduled TC telecommand")
crt_time = CdsShortTimestamp.from_now()
time_stamp = crt_time + datetime.timedelta(seconds=10)
time_stamp = time_stamp.pack()
return q.add_pus_tc(
create_time_tagged_cmd(
time_stamp,
PusTelecommand(service=17, subservice=1),
apid=EXAMPLE_PUS_APID,
)
)
if op_code == "1":
q.add_log_cmd("Sending PUS scheduled TC telecommand")
crt_time = CdsShortTimestamp.from_now()
time_stamp = crt_time + datetime.timedelta(seconds=10)
time_stamp = time_stamp.pack()
return q.add_pus_tc(
create_time_tagged_cmd(
time_stamp,
PusTelecommand(service=8, subservice=1, app_data=make_target_id(RequestTargetId.PLD)),
apid=EXAMPLE_PUS_APID,
)
)
if service == CoreServiceList.SERVICE_8:
q.add_log_cmd("Sending PUS action request telecommand")
return q.add_pus_tc(
PusTelecommand(service=8, subservice=1, app_data=make_target_id(RequestTargetId.PLD))
)
if service == CoreServiceList.SERVICE_3:
if op_code in HkOpCodes.GENERATE_ONE_SHOT:
q.add_log_cmd("Sending HK one shot request")
q.add_pus_tc(
generate_one_hk_command(
make_addressable_id(RequestTargetId.ACS, AcsHkIds.MGM_SET)
)
)
pass
def main():
add_colorlog_console_logger(_LOGGER)
tmtccmd.init_printout(False)
hook_obj = SatRsConfigHook(json_cfg_path=default_json_path())
parser_wrapper = PreArgsParsingWrapper()
parser_wrapper.create_default_parent_parser()
parser_wrapper.create_default_parser()
parser_wrapper.add_def_proc_args()
params = SetupParams()
post_args_wrapper = parser_wrapper.parse(hook_obj, params)
proc_wrapper = ProcedureParamsWrapper()
if post_args_wrapper.use_gui:
post_args_wrapper.set_params_without_prompts(proc_wrapper)
else:
post_args_wrapper.set_params_with_prompts(proc_wrapper)
params.apid = EXAMPLE_PUS_APID
setup_args = SetupWrapper(
hook_obj=hook_obj, setup_params=params, proc_param_wrapper=proc_wrapper
)
# Create console logger helper and file loggers
tmtc_logger = RegularTmtcLogWrapper()
printer = FsfwTmTcPrinter(tmtc_logger.logger)
raw_logger = RawTmtcTimedLogWrapper(when=TimedLogWhen.PER_HOUR, interval=1)
verificator = PusVerificator()
verification_wrapper = VerificationWrapper(
verificator, _LOGGER, printer.file_logger
)
# Create primary TM handler and add it to the CCSDS Packet Handler
tm_handler = PusHandler(verification_wrapper, printer, raw_logger)
ccsds_handler = CcsdsTmHandler(generic_handler=None)
ccsds_handler.add_apid_handler(tm_handler)
# Create TC handler
seq_count_provider = PusFileSeqCountProvider()
tc_handler = TcHandler(seq_count_provider, verification_wrapper)
tmtccmd.setup(setup_args=setup_args)
init_proc = params_to_procedure_conversion(setup_args.proc_param_wrapper)
tmtc_backend = tmtccmd.create_default_tmtc_backend(
setup_wrapper=setup_args,
tm_handler=ccsds_handler,
tc_handler=tc_handler,
init_procedure=init_proc,
)
tmtccmd.start(tmtc_backend=tmtc_backend, hook_obj=hook_obj)
try:
while True:
state = tmtc_backend.periodic_op(None)
if state.request == BackendRequest.TERMINATION_NO_ERROR:
sys.exit(0)
elif state.request == BackendRequest.DELAY_IDLE:
_LOGGER.info("TMTC Client in IDLE mode")
time.sleep(3.0)
elif state.request == BackendRequest.DELAY_LISTENER:
time.sleep(0.8)
elif state.request == BackendRequest.DELAY_CUSTOM:
if state.next_delay.total_seconds() <= 0.4:
time.sleep(state.next_delay.total_seconds())
else:
time.sleep(0.4)
elif state.request == BackendRequest.CALL_NEXT:
pass
except KeyboardInterrupt:
sys.exit(0)
if __name__ == "__main__":
main()