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# MIT License
#
# Copyright (c) 2016-2022 Mark Qvist / unsigned.io
#
# Permission is hereby granted, free of charge, to any person obtaining a copy
# of this software and associated documentation files (the "Software"), to deal
# in the Software without restriction, including without limitation the rights
# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
# copies of the Software, and to permit persons to whom the Software is
# furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice shall be included in all
# copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
# SOFTWARE.
from RNS . Interfaces . Interface import Interface
from time import sleep
import sys
import threading
import time
import RNS
class KISS ( ) :
FEND = 0xC0
FESC = 0xDB
TFEND = 0xDC
TFESC = 0xDD
CMD_UNKNOWN = 0xFE
CMD_DATA = 0x00
CMD_TXDELAY = 0x01
CMD_P = 0x02
CMD_SLOTTIME = 0x03
CMD_TXTAIL = 0x04
CMD_FULLDUPLEX = 0x05
CMD_SETHARDWARE = 0x06
CMD_READY = 0x0F
CMD_RETURN = 0xFF
@staticmethod
def escape ( data ) :
data = data . replace ( bytes ( [ 0xdb ] ) , bytes ( [ 0xdb , 0xdd ] ) )
data = data . replace ( bytes ( [ 0xc0 ] ) , bytes ( [ 0xdb , 0xdc ] ) )
return data
class KISSInterface ( Interface ) :
MAX_CHUNK = 32768
BITRATE_GUESS = 1200
owner = None
port = None
speed = None
databits = None
parity = None
stopbits = None
serial = None
def __init__ ( self , owner , name , port , speed , databits , parity , stopbits , preamble , txtail , persistence , slottime , flow_control , beacon_interval , beacon_data ) :
import importlib
if RNS . vendor . platformutils . is_android ( ) :
self . on_android = True
if importlib . util . find_spec ( ' usbserial4a ' ) != None :
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if importlib . util . find_spec ( ' jnius ' ) == None :
RNS . log ( " Could not load jnius API wrapper for Android, KISS interface cannot be created. " , RNS . LOG_CRITICAL )
RNS . log ( " This probably means you are trying to use an USB-based interface from within Termux or similar. " , RNS . LOG_CRITICAL )
RNS . log ( " This is currently not possible, due to this environment limiting access to the native Android APIs. " , RNS . LOG_CRITICAL )
RNS . panic ( )
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from usbserial4a import serial4a as serial
self . parity = " N "
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else :
RNS . log ( " Could not load USB serial module for Android, KISS interface cannot be created. " , RNS . LOG_CRITICAL )
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RNS . log ( " You can install this module by issuing: pip install usbserial4a " , RNS . LOG_CRITICAL )
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RNS . panic ( )
else :
raise SystemError ( " Android-specific interface was used on non-Android OS " )
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super ( ) . __init__ ( )
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self . HW_MTU = 564
if beacon_data == None :
beacon_data = " "
self . pyserial = serial
self . serial = None
self . owner = owner
self . name = name
self . port = port
self . speed = speed
self . databits = databits
self . parity = " N "
self . stopbits = stopbits
self . timeout = 100
self . online = False
self . beacon_i = beacon_interval
self . beacon_d = beacon_data . encode ( " utf-8 " )
self . first_tx = None
self . bitrate = KISSInterface . BITRATE_GUESS
self . packet_queue = [ ]
self . flow_control = flow_control
self . interface_ready = False
self . flow_control_timeout = 5
self . flow_control_locked = time . time ( )
self . preamble = preamble if preamble != None else 350 ;
self . txtail = txtail if txtail != None else 20 ;
self . persistence = persistence if persistence != None else 64 ;
self . slottime = slottime if slottime != None else 20 ;
if parity . lower ( ) == " e " or parity . lower ( ) == " even " :
self . parity = " E "
if parity . lower ( ) == " o " or parity . lower ( ) == " odd " :
self . parity = " O "
try :
self . open_port ( )
except Exception as e :
RNS . log ( " Could not open serial port " + self . port , RNS . LOG_ERROR )
raise e
if self . serial . is_open :
self . configure_device ( )
else :
raise IOError ( " Could not open serial port " )
def open_port ( self ) :
RNS . log ( " Opening serial port " + self . port + " ... " )
# Get device parameters
from usb4a import usb
device = usb . get_usb_device ( self . port )
if device :
vid = device . getVendorId ( )
pid = device . getProductId ( )
# Driver overrides for speficic chips
proxy = self . pyserial . get_serial_port
if vid == 0x1A86 and pid == 0x55D4 :
# Force CDC driver for Qinheng CH34x
RNS . log ( str ( self ) + " using CDC driver for " + RNS . hexrep ( vid ) + " : " + RNS . hexrep ( pid ) , RNS . LOG_DEBUG )
from usbserial4a . cdcacmserial4a import CdcAcmSerial
proxy = CdcAcmSerial
self . serial = proxy (
self . port ,
baudrate = self . speed ,
bytesize = self . databits ,
parity = self . parity ,
stopbits = self . stopbits ,
xonxoff = False ,
rtscts = False ,
timeout = None ,
inter_byte_timeout = None ,
# write_timeout = wtimeout,
dsrdtr = False ,
)
if vid == 0x0403 :
# Hardware parameters for FTDI devices @ 115200 baud
self . serial . DEFAULT_READ_BUFFER_SIZE = 16 * 1024
self . serial . USB_READ_TIMEOUT_MILLIS = 100
self . serial . timeout = 0.1
elif vid == 0x10C4 :
# Hardware parameters for SiLabs CP210x @ 115200 baud
self . serial . DEFAULT_READ_BUFFER_SIZE = 64
self . serial . USB_READ_TIMEOUT_MILLIS = 12
self . serial . timeout = 0.012
elif vid == 0x1A86 and pid == 0x55D4 :
# Hardware parameters for Qinheng CH34x @ 115200 baud
self . serial . DEFAULT_READ_BUFFER_SIZE = 64
self . serial . USB_READ_TIMEOUT_MILLIS = 12
self . serial . timeout = 0.1
else :
# Default values
self . serial . DEFAULT_READ_BUFFER_SIZE = 1 * 1024
self . serial . USB_READ_TIMEOUT_MILLIS = 100
self . serial . timeout = 0.1
RNS . log ( str ( self ) + " USB read buffer size set to " + RNS . prettysize ( self . serial . DEFAULT_READ_BUFFER_SIZE ) , RNS . LOG_DEBUG )
RNS . log ( str ( self ) + " USB read timeout set to " + str ( self . serial . USB_READ_TIMEOUT_MILLIS ) + " ms " , RNS . LOG_DEBUG )
RNS . log ( str ( self ) + " USB write timeout set to " + str ( self . serial . USB_WRITE_TIMEOUT_MILLIS ) + " ms " , RNS . LOG_DEBUG )
def configure_device ( self ) :
# Allow time for interface to initialise before config
sleep ( 2.0 )
thread = threading . Thread ( target = self . readLoop )
thread . daemon = True
thread . start ( )
self . online = True
RNS . log ( " Serial port " + self . port + " is now open " )
RNS . log ( " Configuring KISS interface parameters... " )
self . setPreamble ( self . preamble )
self . setTxTail ( self . txtail )
self . setPersistence ( self . persistence )
self . setSlotTime ( self . slottime )
self . setFlowControl ( self . flow_control )
self . interface_ready = True
RNS . log ( " KISS interface configured " )
def setPreamble ( self , preamble ) :
preamble_ms = preamble
preamble = int ( preamble_ms / 10 )
if preamble < 0 :
preamble = 0
if preamble > 255 :
preamble = 255
kiss_command = bytes ( [ KISS . FEND ] ) + bytes ( [ KISS . CMD_TXDELAY ] ) + bytes ( [ preamble ] ) + bytes ( [ KISS . FEND ] )
written = self . serial . write ( kiss_command )
if written != len ( kiss_command ) :
raise IOError ( " Could not configure KISS interface preamble to " + str ( preamble_ms ) + " (command value " + str ( preamble ) + " ) " )
def setTxTail ( self , txtail ) :
txtail_ms = txtail
txtail = int ( txtail_ms / 10 )
if txtail < 0 :
txtail = 0
if txtail > 255 :
txtail = 255
kiss_command = bytes ( [ KISS . FEND ] ) + bytes ( [ KISS . CMD_TXTAIL ] ) + bytes ( [ txtail ] ) + bytes ( [ KISS . FEND ] )
written = self . serial . write ( kiss_command )
if written != len ( kiss_command ) :
raise IOError ( " Could not configure KISS interface TX tail to " + str ( txtail_ms ) + " (command value " + str ( txtail ) + " ) " )
def setPersistence ( self , persistence ) :
if persistence < 0 :
persistence = 0
if persistence > 255 :
persistence = 255
kiss_command = bytes ( [ KISS . FEND ] ) + bytes ( [ KISS . CMD_P ] ) + bytes ( [ persistence ] ) + bytes ( [ KISS . FEND ] )
written = self . serial . write ( kiss_command )
if written != len ( kiss_command ) :
raise IOError ( " Could not configure KISS interface persistence to " + str ( persistence ) )
def setSlotTime ( self , slottime ) :
slottime_ms = slottime
slottime = int ( slottime_ms / 10 )
if slottime < 0 :
slottime = 0
if slottime > 255 :
slottime = 255
kiss_command = bytes ( [ KISS . FEND ] ) + bytes ( [ KISS . CMD_SLOTTIME ] ) + bytes ( [ slottime ] ) + bytes ( [ KISS . FEND ] )
written = self . serial . write ( kiss_command )
if written != len ( kiss_command ) :
raise IOError ( " Could not configure KISS interface slot time to " + str ( slottime_ms ) + " (command value " + str ( slottime ) + " ) " )
def setFlowControl ( self , flow_control ) :
kiss_command = bytes ( [ KISS . FEND ] ) + bytes ( [ KISS . CMD_READY ] ) + bytes ( [ 0x01 ] ) + bytes ( [ KISS . FEND ] )
written = self . serial . write ( kiss_command )
if written != len ( kiss_command ) :
if ( flow_control ) :
raise IOError ( " Could not enable KISS interface flow control " )
else :
raise IOError ( " Could not enable KISS interface flow control " )
def processIncoming ( self , data ) :
self . rxb + = len ( data )
def af ( ) :
self . owner . inbound ( data , self )
threading . Thread ( target = af , daemon = True ) . start ( )
def processOutgoing ( self , data ) :
datalen = len ( data )
if self . online :
if self . interface_ready :
if self . flow_control :
self . interface_ready = False
self . flow_control_locked = time . time ( )
data = data . replace ( bytes ( [ 0xdb ] ) , bytes ( [ 0xdb ] ) + bytes ( [ 0xdd ] ) )
data = data . replace ( bytes ( [ 0xc0 ] ) , bytes ( [ 0xdb ] ) + bytes ( [ 0xdc ] ) )
frame = bytes ( [ KISS . FEND ] ) + bytes ( [ 0x00 ] ) + data + bytes ( [ KISS . FEND ] )
written = self . serial . write ( frame )
self . txb + = datalen
if data == self . beacon_d :
self . first_tx = None
else :
if self . first_tx == None :
self . first_tx = time . time ( )
if written != len ( frame ) :
raise IOError ( " Serial interface only wrote " + str ( written ) + " bytes of " + str ( len ( data ) ) )
else :
self . queue ( data )
def queue ( self , data ) :
self . packet_queue . append ( data )
def process_queue ( self ) :
if len ( self . packet_queue ) > 0 :
data = self . packet_queue . pop ( 0 )
self . interface_ready = True
self . processOutgoing ( data )
elif len ( self . packet_queue ) == 0 :
self . interface_ready = True
def readLoop ( self ) :
try :
in_frame = False
escape = False
command = KISS . CMD_UNKNOWN
data_buffer = b " "
last_read_ms = int ( time . time ( ) * 1000 )
while self . serial . is_open :
serial_bytes = self . serial . read ( )
got = len ( serial_bytes )
for byte in serial_bytes :
last_read_ms = int ( time . time ( ) * 1000 )
if ( in_frame and byte == KISS . FEND and command == KISS . CMD_DATA ) :
in_frame = False
self . processIncoming ( data_buffer )
elif ( byte == KISS . FEND ) :
in_frame = True
command = KISS . CMD_UNKNOWN
data_buffer = b " "
elif ( in_frame and len ( data_buffer ) < self . HW_MTU ) :
if ( len ( data_buffer ) == 0 and command == KISS . CMD_UNKNOWN ) :
# We only support one HDLC port for now, so
# strip off the port nibble
byte = byte & 0x0F
command = byte
elif ( command == KISS . CMD_DATA ) :
if ( byte == KISS . FESC ) :
escape = True
else :
if ( escape ) :
if ( byte == KISS . TFEND ) :
byte = KISS . FEND
if ( byte == KISS . TFESC ) :
byte = KISS . FESC
escape = False
data_buffer = data_buffer + bytes ( [ byte ] )
elif ( command == KISS . CMD_READY ) :
self . process_queue ( )
if got == 0 :
time_since_last = int ( time . time ( ) * 1000 ) - last_read_ms
if len ( data_buffer ) > 0 and time_since_last > self . timeout :
data_buffer = b " "
in_frame = False
command = KISS . CMD_UNKNOWN
escape = False
sleep ( 0.05 )
if self . flow_control :
if not self . interface_ready :
if time . time ( ) > self . flow_control_locked + self . flow_control_timeout :
RNS . log ( " Interface " + str ( self ) + " is unlocking flow control due to time-out. This should not happen. Your hardware might have missed a flow-control READY command, or maybe it does not support flow-control. " , RNS . LOG_WARNING )
self . process_queue ( )
if self . beacon_i != None and self . beacon_d != None :
if self . first_tx != None :
if time . time ( ) > self . first_tx + self . beacon_i :
RNS . log ( " Interface " + str ( self ) + " is transmitting beacon data: " + str ( self . beacon_d . decode ( " utf-8 " ) ) , RNS . LOG_DEBUG )
self . first_tx = None
self . processOutgoing ( self . beacon_d )
except Exception as e :
self . online = False
RNS . log ( " A serial port error occurred, the contained exception was: " + str ( e ) , RNS . LOG_ERROR )
RNS . log ( " The interface " + str ( self ) + " experienced an unrecoverable error and is now offline. " , RNS . LOG_ERROR )
if RNS . Reticulum . panic_on_interface_error :
RNS . panic ( )
RNS . log ( " Reticulum will attempt to reconnect the interface periodically. " , RNS . LOG_ERROR )
self . online = False
self . serial . close ( )
self . reconnect_port ( )
def reconnect_port ( self ) :
while not self . online :
try :
time . sleep ( 5 )
RNS . log ( " Attempting to reconnect serial port " + str ( self . port ) + " for " + str ( self ) + " ... " , RNS . LOG_VERBOSE )
self . open_port ( )
if self . serial . is_open :
self . configure_device ( )
except Exception as e :
RNS . log ( " Error while reconnecting port, the contained exception was: " + str ( e ) , RNS . LOG_ERROR )
RNS . log ( " Reconnected serial port for " + str ( self ) )
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def should_ingress_limit ( self ) :
return False
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def __str__ ( self ) :
return " KISSInterface[ " + self . name + " ] "
