import datetime import struct import logging from spacepackets.ccsds import CdsShortTimestamp from spacepackets.ecss import PusTelecommand from tmtccmd.config import CmdTreeNode from tmtccmd.pus.tc.s200_fsfw_mode import Mode from tmtccmd.tmtc import DefaultPusQueueHelper from tmtccmd.pus.s11_tc_sched import create_time_tagged_cmd from tmtccmd.pus.s200_fsfw_mode import Subservice as ModeSubservice from opssat_tmtc.camera_params import CameraParameters from opssat_tmtc.common import ( EXPERIMENT_APID, UniqueId, make_action_cmd_header, ) _LOGGER = logging.getLogger(__name__) def create_set_mode_cmd( apid: int, unique_id: int, mode: int, submode: int ) -> PusTelecommand: app_data = bytearray() app_data.extend(struct.pack("!I", unique_id)) app_data.extend(struct.pack("!I", mode)) app_data.extend(struct.pack("!H", submode)) return PusTelecommand( service=200, subservice=ModeSubservice.TC_MODE_COMMAND, apid=apid, app_data=app_data, ) def create_cmd_definition_tree() -> CmdTreeNode: root_node = CmdTreeNode.root_node() hk_node = CmdTreeNode("hk", "Housekeeping Node", hide_children_for_print=True) hk_node.add_child(CmdTreeNode("one_shot_hk", "Request One Shot HK set")) hk_node.add_child( CmdTreeNode("enable", "Enable periodic housekeeping data generation") ) hk_node.add_child( CmdTreeNode("disable", "Disable periodic housekeeping data generation") ) mode_node = CmdTreeNode("mode", "Mode Node", hide_children_for_print=True) set_mode_node = CmdTreeNode( "set_mode", "Set Node", hide_children_which_are_leaves=True ) set_mode_node.add_child(CmdTreeNode("off", "Set OFF Mode")) set_mode_node.add_child(CmdTreeNode("on", "Set ON Mode")) set_mode_node.add_child(CmdTreeNode("normal", "Set NORMAL Mode")) mode_node.add_child(set_mode_node) mode_node.add_child(CmdTreeNode("read_mode", "Read Mode")) test_node = CmdTreeNode("test", "Test Node") test_node.add_child(CmdTreeNode("ping", "Send PUS ping TC")) test_node.add_child(CmdTreeNode("trigger_event", "Send PUS test to trigger event")) root_node.add_child(test_node) scheduler_node = CmdTreeNode("scheduler", "Scheduler Node") scheduler_node.add_child( CmdTreeNode( "schedule_ping_10_secs_ahead", "Schedule Ping to execute in 10 seconds" ) ) root_node.add_child(scheduler_node) action_node = CmdTreeNode("action", "Action Node") cam_node = CmdTreeNode("take_image", "Take Image with IMS Imager") cam_node.add_child( CmdTreeNode("default_single", "Default Single Image Camera Parameters") ) cam_node.add_child( CmdTreeNode("balanced_single", "Balanced Single Image Camera Parameters") ) cam_node.add_child( CmdTreeNode( "default_single_flatsat", "Default Single Image Camera Parameters for use on FlatSat", ) ) cam_node.add_child( CmdTreeNode( "balanced_single_flatsat", "Balanced Single Image Camera Parameters for use on FlatSat", ) ) cam_node.add_child( CmdTreeNode("custom_params", "Custom Camera Parameters as specified from file") ) action_node.add_child(cam_node) root_node.add_child(action_node) return root_node def pack_pus_telecommands(q: DefaultPusQueueHelper, cmd_path: str): # It should always be at least the root path "/", so we split of the empty portion left of it. cmd_path_list = cmd_path.split("/")[1:] if len(cmd_path_list) == 0: _LOGGER.warning("empty command path") return if cmd_path_list[0] == "test": assert len(cmd_path_list) >= 2 if cmd_path_list[1] == "ping": q.add_log_cmd("Sending PUS ping telecommand") return q.add_pus_tc(PusTelecommand(service=17, subservice=1)) elif cmd_path_list[1] == "trigger_event": q.add_log_cmd("Triggering test event") return q.add_pus_tc(PusTelecommand(service=17, subservice=128)) if cmd_path_list[0] == "scheduler": assert len(cmd_path_list) >= 2 if cmd_path_list[1] == "schedule_ping_10_secs_ahead": 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), ) ) if cmd_path_list[0] == "acs": assert len(cmd_path_list) >= 2 if cmd_path_list[0] == "action": assert len(cmd_path_list) >= 2 if cmd_path_list[1] == "take_image": assert len(cmd_path_list) >= 3 q.add_log_cmd( "Sending PUS take image action request with " + cmd_path_list[2] + " params." ) data = bytearray() if cmd_path_list[2] == "default_single": data.extend(make_action_cmd_header(UniqueId.CameraHandler, 1)) if cmd_path_list[2] == "balanced_single": data.extend(make_action_cmd_header(UniqueId.CameraHandler, 2)) if cmd_path_list[2] == "default_single_flatsat": data.extend(make_action_cmd_header(UniqueId.CameraHandler, 3)) if cmd_path_list[2] == "balanced_single_flatsat": data.extend(make_action_cmd_header(UniqueId.CameraHandler, 4)) if cmd_path_list[2] == "custom": data.extend(make_action_cmd_header(UniqueId.CameraHandler, 5)) params = CameraParameters(8, 8, 8, 1, True, 200, 1000) data.extend(params.serialize_for_uplink()) return q.add_pus_tc( PusTelecommand( service=8, subservice=128, apid=EXPERIMENT_APID, app_data=data ) ) def handle_set_mode_cmd( q: DefaultPusQueueHelper, target_str: str, mode_str: str, apid: int, unique_id: int ): if mode_str == "off": q.add_log_cmd(f"Sending Mode OFF to {target_str}") q.add_pus_tc(create_set_mode_cmd(apid, unique_id, Mode.OFF, 0)) elif mode_str == "on": q.add_log_cmd(f"Sending Mode ON to {target_str}") q.add_pus_tc(create_set_mode_cmd(apid, unique_id, Mode.ON, 0)) elif mode_str == "normal": q.add_log_cmd(f"Sending Mode NORMAL to {target_str}") q.add_pus_tc(create_set_mode_cmd(apid, unique_id, Mode.NORMAL, 0))