FreeDATA/tnc/sock.py

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# -*- coding: utf-8 -*-
"""
Created on Fri Dec 25 21:25:14 2020
@author: DJ2LS
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# GET COMMANDS
# "command" : "..."
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# SET COMMANDS
# "command" : "..."
# "parameter" : " ..."
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# DATA COMMANDS
# "command" : "..."
# "type" : "..."
# "dxcallsign" : "..."
# "data" : "..."
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"""
import atexit
import base64
import queue
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import socketserver
import sys
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import threading
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import time
import helpers
import static
import structlog
import ujson as json
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from exceptions import NoCallsign
from queues import DATA_QUEUE_TRANSMIT, RX_BUFFER
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SOCKET_QUEUE = queue.Queue()
DAEMON_QUEUE = queue.Queue()
CONNECTED_CLIENTS = set()
CLOSE_SIGNAL = False
log = structlog.get_logger("sock")
class ThreadedTCPServer(socketserver.ThreadingMixIn, socketserver.TCPServer):
"""
the socket handler base class
"""
pass
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class ThreadedTCPRequestHandler(socketserver.StreamRequestHandler):
""" """
connection_alive = False
connection_alive = False
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log = structlog.get_logger("ThreadedTCPRequestHandler")
def send_to_client(self):
"""
function called by socket handler
send data to a network client if available
"""
tempdata = b""
while self.connection_alive and not CLOSE_SIGNAL:
# send tnc state as network stream
# check server port against daemon port and send corresponding data
if self.server.server_address[1] == static.PORT and not static.TNCSTARTED:
data = send_tnc_state()
if data != tempdata:
tempdata = data
SOCKET_QUEUE.put(data)
else:
data = send_daemon_state()
if data != tempdata:
tempdata = data
SOCKET_QUEUE.put(data)
threading.Event().wait(0.5)
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while not SOCKET_QUEUE.empty():
data = SOCKET_QUEUE.get()
sock_data = bytes(data, "utf-8")
sock_data += b"\n" # append line limiter
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# send data to all clients
try:
for client in CONNECTED_CLIENTS:
try:
client.send(sock_data)
except Exception as err:
self.log.info("[SCK] Connection lost", e=err)
self.connection_alive = False
except Exception as err:
self.log.debug("[SCK] catch harmless RuntimeError: Set changed size during iteration", e=err)
# we want to transmit scatter data only once to reduce network traffic
static.SCATTER = []
# we want to display INFO messages only once
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static.INFO = []
# self.request.sendall(sock_data)
threading.Event().wait(0.15)
def receive_from_client(self):
"""
function which is called by the socket handler
it processes the data which is returned by a client
"""
data = bytes()
while self.connection_alive and not CLOSE_SIGNAL:
try:
chunk = self.request.recv(1024)
data += chunk
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if chunk == b"":
# print("connection broken. Closing...")
self.connection_alive = False
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if data.startswith(b"{") and data.endswith(b"}\n"):
# split data by \n if we have multiple commands in socket buffer
data = data.split(b"\n")
# remove empty data
data.remove(b"")
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# iterate thorugh data list
for commands in data:
if self.server.server_address[1] == static.PORT:
process_tnc_commands(commands)
else:
process_daemon_commands(commands)
# wait some time between processing multiple commands
# this is only a first test to avoid doubled transmission
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# we might improve this by only processing one command or
# doing some kind of selection to determin which commands need to be dropped
# and which one can be processed during a running transmission
threading.Event().wait(3)
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# finally delete our rx buffer to be ready for new commands
data = bytes()
except Exception as err:
self.log.info(
"[SCK] Connection closed",
ip=self.client_address[0],
port=self.client_address[1],
e=err,
)
self.connection_alive = False
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def handle(self):
"""
socket handler
"""
CONNECTED_CLIENTS.add(self.request)
self.log.debug(
"[SCK] Client connected",
ip=self.client_address[0],
port=self.client_address[1],
)
self.connection_alive = True
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self.sendThread = threading.Thread(
target=self.send_to_client, args=[], daemon=True
)
self.sendThread.start()
self.receiveThread = threading.Thread(
target=self.receive_from_client, args=[], daemon=True
)
self.receiveThread.start()
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# keep connection alive until we close it
while self.connection_alive and not CLOSE_SIGNAL:
threading.Event().wait(1)
def finish(self):
""" """
self.log.warning(
"[SCK] Closing client socket",
ip=self.client_address[0],
port=self.client_address[1],
)
try:
CONNECTED_CLIENTS.remove(self.request)
except Exception:
self.log.warning(
"[SCK] client connection already removed from client list",
client=self.request,
)
def process_tnc_commands(data):
"""
process tnc commands
Args:
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data:
Returns:
"""
log = structlog.get_logger("process_tnc_commands")
# we need to do some error handling in case of socket timeout or decoding issue
try:
# convert data to json object
received_json = json.loads(data)
log.debug("[SCK] CMD", command=received_json)
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# ENABLE TNC LISTENING STATE -----------------------------------------------------
if received_json["type"] == "set" and received_json["command"] == "listen":
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try:
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static.LISTEN = received_json["state"] in ['true', 'True', True, "ON", "on"]
command_response("listen", True)
# if tnc is connected, force disconnect when static.LISTEN == False
if not static.LISTEN and static.ARQ_SESSION_STATE not in ["disconnecting", "disconnected", "failed"]:
DATA_QUEUE_TRANSMIT.put(["DISCONNECT"])
# set early disconnecting state so we can interrupt connection attempts
static.ARQ_SESSION_STATE = "disconnecting"
command_response("disconnect", True)
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except Exception as err:
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command_response("listen", False)
log.warning(
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"[SCK] CQ command execution error", e=err, command=received_json
)
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# SET ENABLE/DISABLE RESPOND TO CALL -----------------------------------------------------
if received_json["type"] == "set" and received_json["command"] == "respond_to_call":
try:
static.RESPOND_TO_CALL = received_json["state"] in ['true', 'True', True]
command_response("respond_to_call", True)
except Exception as err:
command_response("respond_to_call", False)
log.warning(
"[SCK] CQ command execution error", e=err, command=received_json
)
# SET ENABLE RESPOND TO CQ -----------------------------------------------------
if received_json["type"] == "set" and received_json["command"] == "respond_to_cq":
try:
static.RESPOND_TO_CQ = received_json["state"] in ['true', 'True', True]
command_response("respond_to_cq", True)
except Exception as err:
command_response("respond_to_cq", False)
log.warning(
"[SCK] CQ command execution error", e=err, command=received_json
)
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# SET TX AUDIO LEVEL -----------------------------------------------------
if (
received_json["type"] == "set"
and received_json["command"] == "tx_audio_level"
):
try:
static.TX_AUDIO_LEVEL = int(received_json["value"])
command_response("tx_audio_level", True)
except Exception as err:
command_response("tx_audio_level", False)
log.warning(
"[SCK] TX audio command execution error",
e=err,
command=received_json,
)
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# TRANSMIT TEST FRAME ----------------------------------------------------
if (
received_json["type"] == "set"
and received_json["command"] == "send_test_frame"
):
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try:
DATA_QUEUE_TRANSMIT.put(["SEND_TEST_FRAME"])
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command_response("send_test_frame", True)
except Exception as err:
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command_response("send_test_frame", False)
log.warning(
"[SCK] Send test frame command execution error",
e=err,
command=received_json,
)
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# CQ CQ CQ -----------------------------------------------------
if received_json["command"] == "cqcqcq":
try:
DATA_QUEUE_TRANSMIT.put(["CQ"])
command_response("cqcqcq", True)
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except Exception as err:
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command_response("cqcqcq", False)
log.warning(
"[SCK] CQ command execution error", e=err, command=received_json
)
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# START_BEACON -----------------------------------------------------
if received_json["command"] == "start_beacon":
try:
static.BEACON_STATE = True
interval = int(received_json["parameter"])
DATA_QUEUE_TRANSMIT.put(["BEACON", interval, True])
command_response("start_beacon", True)
except Exception as err:
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command_response("start_beacon", False)
log.warning(
"[SCK] Start beacon command execution error",
e=err,
command=received_json,
)
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# STOP_BEACON -----------------------------------------------------
if received_json["command"] == "stop_beacon":
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try:
log.warning("[SCK] Stopping beacon!")
static.BEACON_STATE = False
DATA_QUEUE_TRANSMIT.put(["BEACON", None, False])
command_response("stop_beacon", True)
except Exception as err:
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command_response("stop_beacon", False)
log.warning(
"[SCK] Stop beacon command execution error",
e=err,
command=received_json,
)
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# PING ----------------------------------------------------------
if received_json["type"] == "ping" and received_json["command"] == "ping":
# send ping frame and wait for ACK
try:
dxcallsign = received_json["dxcallsign"]
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if not str(dxcallsign).strip():
raise NoCallsign
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# additional step for being sure our callsign is correctly
# in case we are not getting a station ssid
# then we are forcing a station ssid = 0
dxcallsign = helpers.callsign_to_bytes(dxcallsign)
dxcallsign = helpers.bytes_to_callsign(dxcallsign)
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# check if specific callsign is set with different SSID than the TNC is initialized
try:
mycallsign = received_json["mycallsign"]
mycallsign = helpers.callsign_to_bytes(mycallsign)
mycallsign = helpers.bytes_to_callsign(mycallsign)
except Exception:
mycallsign = static.MYCALLSIGN
DATA_QUEUE_TRANSMIT.put(["PING", mycallsign, dxcallsign])
command_response("ping", True)
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except NoCallsign:
command_response("ping", False)
log.warning("[SCK] callsign required for ping", command=received_json)
except Exception as err:
command_response("ping", False)
log.warning(
"[SCK] PING command execution error", e=err, command=received_json
)
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# CONNECT ----------------------------------------------------------
if received_json["type"] == "arq" and received_json["command"] == "connect":
# pause our beacon first
static.BEACON_PAUSE = True
# check for connection attempts key
try:
attempts = int(received_json["attempts"])
except Exception:
# 15 == self.session_connect_max_retries
attempts = 15
dxcallsign = received_json["dxcallsign"]
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# check if specific callsign is set with different SSID than the TNC is initialized
try:
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mycallsign = received_json["mycallsign"]
mycallsign = helpers.callsign_to_bytes(mycallsign)
mycallsign = helpers.bytes_to_callsign(mycallsign)
except Exception:
mycallsign = static.MYCALLSIGN
# additional step for being sure our callsign is correctly
# in case we are not getting a station ssid
# then we are forcing a station ssid = 0
dxcallsign = helpers.callsign_to_bytes(dxcallsign)
dxcallsign = helpers.bytes_to_callsign(dxcallsign)
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if static.ARQ_SESSION_STATE not in ["disconnected", "failed"]:
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command_response("connect", False)
log.warning(
"[SCK] Connect command execution error",
e=f"already connected to station:{static.DXCALLSIGN}",
command=received_json,
)
else:
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# finally check again if we are disconnected or failed
# try connecting
try:
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DATA_QUEUE_TRANSMIT.put(["CONNECT", mycallsign, dxcallsign, attempts])
command_response("connect", True)
except Exception as err:
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command_response("connect", False)
log.warning(
"[SCK] Connect command execution error",
e=err,
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command=received_json,
)
# allow beacon transmission again
static.BEACON_PAUSE = False
# allow beacon transmission again
static.BEACON_PAUSE = False
# DISCONNECT ----------------------------------------------------------
if received_json["type"] == "arq" and received_json["command"] == "disconnect":
try:
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if static.ARQ_SESSION_STATE not in ["disconnecting", "disconnected", "failed"]:
DATA_QUEUE_TRANSMIT.put(["DISCONNECT"])
# set early disconnecting state so we can interrupt connection attempts
static.ARQ_SESSION_STATE = "disconnecting"
command_response("disconnect", True)
else:
command_response("disconnect", False)
log.warning(
"[SCK] Disconnect command not possible",
state=static.ARQ_SESSION_STATE,
command=received_json,
)
except Exception as err:
command_response("disconnect", False)
log.warning(
"[SCK] Disconnect command execution error",
e=err,
command=received_json,
)
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# TRANSMIT RAW DATA -------------------------------------------
if received_json["type"] == "arq" and received_json["command"] == "send_raw":
static.BEACON_PAUSE = True
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try:
if not static.ARQ_SESSION:
dxcallsign = received_json["parameter"][0]["dxcallsign"]
# additional step for beeing sure our callsign is correctly
# in case we are not getting a station ssid
# then we are forcing a station ssid = 0
dxcallsign = helpers.callsign_to_bytes(dxcallsign)
dxcallsign = helpers.bytes_to_callsign(dxcallsign)
static.DXCALLSIGN = dxcallsign
static.DXCALLSIGN_CRC = helpers.get_crc_24(static.DXCALLSIGN)
command_response("send_raw", True)
else:
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dxcallsign = static.DXCALLSIGN
static.DXCALLSIGN_CRC = helpers.get_crc_24(static.DXCALLSIGN)
mode = int(received_json["parameter"][0]["mode"])
n_frames = int(received_json["parameter"][0]["n_frames"])
base64data = received_json["parameter"][0]["data"]
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# check if specific callsign is set with different SSID than the TNC is initialized
try:
mycallsign = received_json["parameter"][0]["mycallsign"]
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mycallsign = helpers.callsign_to_bytes(mycallsign)
mycallsign = helpers.bytes_to_callsign(mycallsign)
except Exception:
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mycallsign = static.MYCALLSIGN
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# check for connection attempts key
try:
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attempts = int(received_json["parameter"][0]["attempts"])
except Exception:
# 15 == self.session_connect_max_retries
attempts = 15
# check if transmission uuid provided else set no-uuid
try:
arq_uuid = received_json["uuid"]
except Exception:
arq_uuid = "no-uuid"
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if len(base64data) % 4:
raise TypeError
binarydata = base64.b64decode(base64data)
DATA_QUEUE_TRANSMIT.put(
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["ARQ_RAW", binarydata, mode, n_frames, arq_uuid, mycallsign, dxcallsign, attempts]
)
except Exception as err:
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command_response("send_raw", False)
log.warning(
"[SCK] Send raw command execution error",
e=err,
command=received_json,
)
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# STOP TRANSMISSION ----------------------------------------------------------
if (
received_json["type"] == "arq"
and received_json["command"] == "stop_transmission"
):
try:
if static.TNC_STATE == "BUSY" or static.ARQ_STATE:
DATA_QUEUE_TRANSMIT.put(["STOP"])
log.warning("[SCK] Stopping transmission!")
static.TNC_STATE = "IDLE"
static.ARQ_STATE = False
command_response("stop_transmission", True)
except Exception as err:
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command_response("stop_transmission", False)
log.warning(
"[SCK] STOP command execution error", e=err, command=received_json
)
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if received_json["type"] == "get" and received_json["command"] == "rx_buffer":
try:
output = {
"command": "rx_buffer",
"data-array": [],
}
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if not RX_BUFFER.empty():
for _buffer_length in range(RX_BUFFER.qsize()):
base64_data = RX_BUFFER.queue[_buffer_length][4]
output["data-array"].append(
{
"uuid": RX_BUFFER.queue[_buffer_length][0],
"timestamp": RX_BUFFER.queue[_buffer_length][1],
"dxcallsign": str(RX_BUFFER.queue[_buffer_length][2], "utf-8"),
"dxgrid": str(RX_BUFFER.queue[_buffer_length][3], "utf-8"),
"data": base64_data,
}
)
jsondata = json.dumps(output)
# self.request.sendall(bytes(jsondata, encoding))
SOCKET_QUEUE.put(jsondata)
command_response("rx_buffer", True)
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except Exception as err:
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command_response("rx_buffer", False)
log.warning(
"[SCK] Send RX buffer command execution error",
e=err,
command=received_json,
)
if (
received_json["type"] == "set"
and received_json["command"] == "del_rx_buffer"
):
try:
RX_BUFFER.queue.clear()
command_response("del_rx_buffer", True)
except Exception as err:
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command_response("del_rx_buffer", False)
log.warning(
"[SCK] Delete RX buffer command execution error",
e=err,
command=received_json,
)
# exception, if JSON cant be decoded
except Exception as err:
log.error("[SCK] JSON decoding error", e=err)
def send_tnc_state():
"""
send the tnc state to network
"""
encoding = "utf-8"
output = {
"command": "tnc_state",
"ptt_state": str(static.PTT_STATE),
"tnc_state": str(static.TNC_STATE),
"arq_state": str(static.ARQ_STATE),
"arq_session": str(static.ARQ_SESSION),
"arq_session_state": str(static.ARQ_SESSION_STATE),
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"audio_dbfs": str(static.AUDIO_DBFS),
"snr": str(static.SNR),
"frequency": str(static.HAMLIB_FREQUENCY),
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"speed_level": str(static.ARQ_SPEED_LEVEL),
"mode": str(static.HAMLIB_MODE),
"bandwidth": str(static.HAMLIB_BANDWIDTH),
"fft": str(static.FFT),
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"channel_busy": str(static.CHANNEL_BUSY),
"scatter": static.SCATTER,
"rx_buffer_length": str(RX_BUFFER.qsize()),
"rx_msg_buffer_length": str(len(static.RX_MSG_BUFFER)),
"arq_bytes_per_minute": str(static.ARQ_BYTES_PER_MINUTE),
"arq_bytes_per_minute_burst": str(static.ARQ_BYTES_PER_MINUTE_BURST),
"arq_compression_factor": str(static.ARQ_COMPRESSION_FACTOR),
"arq_transmission_percent": str(static.ARQ_TRANSMISSION_PERCENT),
"total_bytes": str(static.TOTAL_BYTES),
"beacon_state": str(static.BEACON_STATE),
"stations": [],
"mycallsign": str(static.MYCALLSIGN, encoding),
"dxcallsign": str(static.DXCALLSIGN, encoding),
"dxgrid": str(static.DXGRID, encoding),
"hamlib_status": static.HAMLIB_STATUS,
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"listen": str(static.LISTEN),
}
# add heard stations to heard stations object
for heard in static.HEARD_STATIONS:
output["stations"].append(
{
"dxcallsign": str(heard[0], "utf-8"),
"dxgrid": str(heard[1], "utf-8"),
"timestamp": heard[2],
"datatype": heard[3],
"snr": heard[4],
"offset": heard[5],
"frequency": heard[6],
}
)
return json.dumps(output)
# This appears to have been taken out of a class, but is never called because
# the `self.request.sendall` call is a syntax error as `self` is undefined and
# we don't see errors in use.
def process_daemon_commands(data):
"""
process daemon commands
Args:
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data:
Returns:
"""
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log = structlog.get_logger("process_daemon_commands")
# convert data to json object
received_json = json.loads(data)
log.debug("[SCK] CMD", command=received_json)
if received_json["type"] == "set" and received_json["command"] == "mycallsign":
try:
callsign = received_json["parameter"]
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if bytes(callsign, "utf-8") == b"":
self.request.sendall(b"INVALID CALLSIGN")
log.warning(
"[SCK] SET MYCALL FAILED",
call=static.MYCALLSIGN,
crc=static.MYCALLSIGN_CRC.hex(),
)
else:
static.MYCALLSIGN = bytes(callsign, "utf-8")
static.MYCALLSIGN_CRC = helpers.get_crc_24(static.MYCALLSIGN)
command_response("mycallsign", True)
log.info(
"[SCK] SET MYCALL",
call=static.MYCALLSIGN,
crc=static.MYCALLSIGN_CRC.hex(),
)
except Exception as err:
command_response("mycallsign", False)
log.warning("[SCK] command execution error", e=err, command=received_json)
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if received_json["type"] == "set" and received_json["command"] == "mygrid":
try:
mygrid = received_json["parameter"]
if bytes(mygrid, "utf-8") == b"":
self.request.sendall(b"INVALID GRID")
command_response("mygrid", False)
else:
static.MYGRID = bytes(mygrid, "utf-8")
log.info("[SCK] SET MYGRID", grid=static.MYGRID)
command_response("mygrid", True)
except Exception as err:
command_response("mygrid", False)
log.warning("[SCK] command execution error", e=err, command=received_json)
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if (
received_json["type"] == "set"
and received_json["command"] == "start_tnc"
and not static.TNCSTARTED
):
try:
mycall = str(received_json["parameter"][0]["mycall"])
mygrid = str(received_json["parameter"][0]["mygrid"])
rx_audio = str(received_json["parameter"][0]["rx_audio"])
tx_audio = str(received_json["parameter"][0]["tx_audio"])
devicename = str(received_json["parameter"][0]["devicename"])
deviceport = str(received_json["parameter"][0]["deviceport"])
serialspeed = str(received_json["parameter"][0]["serialspeed"])
pttprotocol = str(received_json["parameter"][0]["pttprotocol"])
pttport = str(received_json["parameter"][0]["pttport"])
data_bits = str(received_json["parameter"][0]["data_bits"])
stop_bits = str(received_json["parameter"][0]["stop_bits"])
handshake = str(received_json["parameter"][0]["handshake"])
radiocontrol = str(received_json["parameter"][0]["radiocontrol"])
rigctld_ip = str(received_json["parameter"][0]["rigctld_ip"])
rigctld_port = str(received_json["parameter"][0]["rigctld_port"])
enable_scatter = str(received_json["parameter"][0]["enable_scatter"])
enable_fft = str(received_json["parameter"][0]["enable_fft"])
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enable_fsk = str(received_json["parameter"][0]["enable_fsk"])
low_bandwidth_mode = str(
received_json["parameter"][0]["low_bandwidth_mode"]
)
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tuning_range_fmin = str(received_json["parameter"][0]["tuning_range_fmin"])
tuning_range_fmax = str(received_json["parameter"][0]["tuning_range_fmax"])
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tx_audio_level = str(received_json["parameter"][0]["tx_audio_level"])
respond_to_cq = str(received_json["parameter"][0]["respond_to_cq"])
rx_buffer_size = str(received_json["parameter"][0]["rx_buffer_size"])
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enable_explorer = str(received_json["parameter"][0]["enable_explorer"])
try:
# convert ssid list to python list
ssid_list = str(received_json["parameter"][0]["ssid_list"])
ssid_list = ssid_list.replace(" ", "")
ssid_list = ssid_list.split(",")
# convert str to int
ssid_list = list(map(int, ssid_list))
except KeyError:
ssid_list = [0]
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# print some debugging parameters
for item in received_json["parameter"][0]:
log.debug(
f"[SCK] TNC Startup Config : {item}",
value=received_json["parameter"][0][item],
)
DAEMON_QUEUE.put(
[
"STARTTNC",
mycall,
mygrid,
rx_audio,
tx_audio,
devicename,
deviceport,
serialspeed,
pttprotocol,
pttport,
data_bits,
stop_bits,
handshake,
radiocontrol,
rigctld_ip,
rigctld_port,
enable_scatter,
enable_fft,
low_bandwidth_mode,
tuning_range_fmin,
tuning_range_fmax,
enable_fsk,
tx_audio_level,
respond_to_cq,
rx_buffer_size,
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enable_explorer,
ssid_list,
]
)
command_response("start_tnc", True)
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except Exception as err:
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command_response("start_tnc", False)
log.warning("[SCK] command execution error", e=err, command=received_json)
if received_json["type"] == "get" and received_json["command"] == "test_hamlib":
try:
devicename = str(received_json["parameter"][0]["devicename"])
deviceport = str(received_json["parameter"][0]["deviceport"])
serialspeed = str(received_json["parameter"][0]["serialspeed"])
pttprotocol = str(received_json["parameter"][0]["pttprotocol"])
pttport = str(received_json["parameter"][0]["pttport"])
data_bits = str(received_json["parameter"][0]["data_bits"])
stop_bits = str(received_json["parameter"][0]["stop_bits"])
handshake = str(received_json["parameter"][0]["handshake"])
radiocontrol = str(received_json["parameter"][0]["radiocontrol"])
rigctld_ip = str(received_json["parameter"][0]["rigctld_ip"])
rigctld_port = str(received_json["parameter"][0]["rigctld_port"])
DAEMON_QUEUE.put(
[
"TEST_HAMLIB",
devicename,
deviceport,
serialspeed,
pttprotocol,
pttport,
data_bits,
stop_bits,
handshake,
radiocontrol,
rigctld_ip,
rigctld_port,
]
)
command_response("test_hamlib", True)
except Exception as err:
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command_response("test_hamlib", False)
log.warning("[SCK] command execution error", e=err, command=received_json)
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if received_json["type"] == "set" and received_json["command"] == "stop_tnc":
try:
static.TNCPROCESS.kill()
# unregister process from atexit to avoid process zombies
atexit.unregister(static.TNCPROCESS.kill)
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log.warning("[SCK] Stopping TNC")
static.TNCSTARTED = False
command_response("stop_tnc", True)
except Exception as err:
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command_response("stop_tnc", False)
log.warning("[SCK] command execution error", e=err, command=received_json)
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def send_daemon_state():
"""
send the daemon state to network
"""
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log = structlog.get_logger("send_daemon_state")
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try:
python_version = f"{str(sys.version_info[0])}.{str(sys.version_info[1])}"
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output = {
"command": "daemon_state",
"daemon_state": [],
"python_version": str(python_version),
"hamlib_version": static.HAMLIB_VERSION,
"input_devices": static.AUDIO_INPUT_DEVICES,
"output_devices": static.AUDIO_OUTPUT_DEVICES,
"serial_devices": static.SERIAL_DEVICES,
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#'cpu': str(psutil.cpu_percent()),
#'ram': str(psutil.virtual_memory().percent),
"version": "0.1",
}
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if static.TNCSTARTED:
output["daemon_state"].append({"status": "running"})
else:
output["daemon_state"].append({"status": "stopped"})
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return json.dumps(output)
except Exception as err:
log.warning("[SCK] error", e=err)
return None
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def command_response(command, status):
s_status = "OK" if status else "Failed"
jsondata = {"command_response": command, "status": s_status}
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data_out = json.dumps(jsondata)
SOCKET_QUEUE.put(data_out)