eive-tmtc/eive_tmtc/tmtc/power/bpx_batt.py

239 lines
7.8 KiB
Python

import enum
import struct
from eive_tmtc.pus_tm.defs import PrintWrapper
from spacepackets.ecss import PusTelecommand
from eive_tmtc.config.definitions import CustomServiceList
from eive_tmtc.config.object_ids import BPX_HANDLER_ID
from tmtccmd.config.tmtc import (
tmtc_definitions_provider,
TmtcDefinitionWrapper,
OpCodeEntry,
)
from tmtccmd.tmtc import service_provider
from tmtccmd.tmtc.decorator import ServiceProviderParams
from tmtccmd.pus.s8_fsfw_action import create_action_cmd
from tmtccmd.pus.tc.s3_fsfw_hk import generate_one_hk_command, make_sid
from tmtccmd.pus.s200_fsfw_mode import pack_mode_data, Mode
from tmtccmd.pus.s200_fsfw_mode import Subservice as ModeSubservices
from tmtccmd.fsfw.tmtc_printer import FsfwTmTcPrinter
class BpxSetId(enum.IntEnum):
GET_HK_SET = 0
GET_CFG_SET = 5
class BpxActionId:
REBOOT = 2
RESET_COUNTERS = 3
CONFIG_CMD = 4
GET_CFG = 5
SET_CFG = 6
MAN_HEATER_ON = 10
MAN_HEATER_OFF = 11
class BpxHeaterModeSelect(enum.IntEnum):
OFF = 0
AUTO = 1
class BpxOpCode:
HK = "hk"
OFF = "off"
ON = "on"
RST_CFG = "reset_cfg"
SET_CFG = "set_cfg"
MAN_HEATER_ON = "man_heater_on"
MAN_HEATER_OFF = "man_heater_off"
RST_BOOT_CNT = "rst_boot_cnt"
REQUEST_CFG = "cfg"
REQUEST_CFG_HK = "cfg_hk"
REBOOT = "reboot"
@tmtc_definitions_provider
def add_bpx_cmd_definitions(defs: TmtcDefinitionWrapper):
oce = OpCodeEntry()
oce.add(keys=BpxOpCode.ON, info="On command")
oce.add(keys=BpxOpCode.OFF, info="Off command")
oce.add(keys=BpxOpCode.HK, info="Request BPX HK")
oce.add(keys=BpxOpCode.RST_BOOT_CNT, info="Reset Boot Count")
oce.add(keys=BpxOpCode.RST_CFG, info="Reset Config to stored default settings")
oce.add(keys=BpxOpCode.SET_CFG, info="Set BPX configuration")
oce.add(keys=BpxOpCode.MAN_HEATER_ON, info="Manual heater on")
oce.add(keys=BpxOpCode.MAN_HEATER_OFF, info="Manual heater off")
oce.add(keys=BpxOpCode.REQUEST_CFG, info="Request Configuration Struct (Step 1)")
oce.add(
keys=BpxOpCode.REQUEST_CFG_HK, info="Request Configuration Struct HK (Step 2)"
)
oce.add(keys=BpxOpCode.REBOOT, info="Reboot Command")
defs.add_service(
name=CustomServiceList.BPX_BATTERY.value,
info="BPX Battery Handler",
op_code_entry=oce,
)
@service_provider(CustomServiceList.BPX_BATTERY.value)
def pack_bpx_commands(p: ServiceProviderParams): # noqa C901: Complexity is okay here.
op_code = p.op_code
q = p.queue_helper
if op_code == BpxOpCode.HK:
q.add_log_cmd("Requesting BPX battery HK set")
sid = make_sid(object_id=BPX_HANDLER_ID, set_id=BpxSetId.GET_HK_SET)
q.add_pus_tc(generate_one_hk_command(sid=sid))
if op_code == BpxOpCode.OFF:
q.add_log_cmd("Off mode")
mode_cmd = pack_mode_data(BPX_HANDLER_ID, Mode.OFF, 0)
q.add_pus_tc(
PusTelecommand(
service=200,
subservice=ModeSubservices.TC_MODE_COMMAND,
app_data=mode_cmd,
)
)
if op_code == BpxOpCode.ON:
q.add_log_cmd("On mode")
mode_cmd = pack_mode_data(BPX_HANDLER_ID, Mode.ON, 0)
q.add_pus_tc(
PusTelecommand(
service=200,
subservice=ModeSubservices.TC_MODE_COMMAND,
app_data=mode_cmd,
)
)
if op_code == BpxOpCode.RST_BOOT_CNT:
q.add_log_cmd("Resetting reboot counters")
q.add_pus_tc(
create_action_cmd(
object_id=BPX_HANDLER_ID, action_id=BpxActionId.RESET_COUNTERS
)
)
if op_code == BpxOpCode.RST_CFG:
q.add_log_cmd("Reset BPX configuration")
q.add_pus_tc(
create_action_cmd(
object_id=BPX_HANDLER_ID, action_id=BpxActionId.CONFIG_CMD
)
)
if op_code == BpxOpCode.SET_CFG:
q.add_log_cmd("Setting BPX configuration")
user_data = bytearray()
batt_mode = BpxHeaterModeSelect(
int(input("BPX heater mode select, 0 for OFF 1 for AUTO: "))
)
user_data.append(batt_mode)
lower_limit = int(input("Lower heater limit (-2 default): "))
user_data.append(struct.pack("!b", lower_limit)[0])
upper_limit = int(input("Upper heater limit (3 default): "))
user_data.append(struct.pack("!b", upper_limit)[0])
q.add_pus_tc(
create_action_cmd(
object_id=BPX_HANDLER_ID,
action_id=BpxActionId.SET_CFG,
user_data=user_data,
)
)
if op_code == BpxOpCode.REQUEST_CFG:
q.add_log_cmd("Requesting configuration struct")
q.add_pus_tc(
create_action_cmd(object_id=BPX_HANDLER_ID, action_id=BpxActionId.GET_CFG)
)
if op_code == BpxOpCode.REQUEST_CFG_HK:
q.add_log_cmd("Requesting configuration struct HK")
sid = make_sid(object_id=BPX_HANDLER_ID, set_id=BpxSetId.GET_CFG_SET)
q.add_pus_tc(generate_one_hk_command(sid=sid))
if op_code == BpxOpCode.REBOOT:
q.add_log_cmd("Rebooting BPX battery")
q.add_pus_tc(
create_action_cmd(object_id=BPX_HANDLER_ID, action_id=BpxActionId.REBOOT)
)
if op_code == BpxOpCode.MAN_HEATER_ON:
q.add_log_cmd("BPX manual heater on with seconds burntime")
burn_time = int(input("BPX heater burn time in seconds [1-65535]: "))
if burn_time < 1 or burn_time > 65535:
raise ValueError("Invalid burntime, smaller than 0 or larger than 65535")
q.add_pus_tc(
create_action_cmd(
object_id=BPX_HANDLER_ID,
action_id=BpxActionId.MAN_HEATER_ON,
user_data=struct.pack("!H", burn_time),
)
)
if op_code == BpxOpCode.MAN_HEATER_OFF:
q.add_log_cmd("BPX manual heater off")
q.add_pus_tc(
create_action_cmd(
object_id=BPX_HANDLER_ID, action_id=BpxActionId.MAN_HEATER_OFF
)
)
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",
]
def handle_bpx_hk_data(pw: PrintWrapper, set_id: int, hk_data: bytes):
if set_id == BpxSetId.GET_HK_SET:
fmt_str = "!HHHHhhhhIB"
inc_len = struct.calcsize(fmt_str)
(
charge_current,
discharge_current,
heater_current,
batt_voltage,
batt_temp_1,
batt_temp_2,
batt_temp_3,
batt_temp_4,
reboot_cntr,
boot_cause,
) = struct.unpack(fmt_str, hk_data[0:inc_len])
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,
]
validity_buffer = hk_data[inc_len:]
pw.dlog(str(HEADER_LIST))
pw.dlog(str(content_list))
FsfwTmTcPrinter.get_validity_buffer(
validity_buffer=validity_buffer, num_vars=10
)
elif set_id == BpxSetId.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]
header_list = [
"Battery Heater Mode",
"Battery Heater Low Limit",
"Battery Heater High Limit",
]
content_list = [battheat_mode, battheat_low, battheat_high]
validity_buffer = hk_data[3:]
pw.dlog(str(header_list))
pw.dlog(str(content_list))
FsfwTmTcPrinter.get_validity_buffer(
validity_buffer=validity_buffer, num_vars=10
)