Asynchronous AX.25 interface in pure Python using asyncio
Project description
aioax25
: AX.25 and APRS library in asyncio
The aim of this project is to implement a simple-to-understand asynchronous
AX.25 library built on asyncio
and pyserial
, implementing a AX.25 and APRS
stack in pure Python.
What works
- We can put a Kantronics KPC-3 TNC into KISS mode automatically
- Multi-port KISS TNCs (tested with Direwolf and the NWDR UDRC-II)
- We can receive AX.25 UI frames
- We can send AX.25 UI frames
What doesn't work
- Connecting to AX.25 nodes
- Accepting connections from AX.25 nodes
What isn't tested
- Platforms other than GNU/Linux
Current plans
Right now, I intend to get enough going for APRS operation, as that is my immediate need now. Hence the focus on UI frames.
I intend to write a core class that will take care of some core AX.25 message handling work and provide the basis of what's needed to implement APRS.
After that, some things I'd like to tackle in no particular order:
- Connected mode operation
- NET/ROM support
Supported platforms will be GNU/Linux, and possibly BSD variants. I don't have access to recent Apple hardware (my 2008-era MacBook will not run contemporary MacOS X) so I'm unable to test this software there, but it should work nonetheless.
It might work on Windows -- most probably using Cygwin or Subsystem for Linux. While I do have a Windows 7 machine handy, life's too short to muck around with an OS that can't decide if it's pretending to be Linux, VMS or CP/M. There's an abundance of AX.25 stacks and tools for that platform, I'll accept patches here on the proviso they don't break things or make the code unmaintainable.
Usage
This is a rough guide regarding how to use aioax25
in your programs.
Create a KISS device interface and ports
Right now we only support serial KISS interfaces (patches for TCP-based
interfaces are welcome). Import SerialKISSDevice
from aioax25.kiss
, then
create an instance as shown:
kissdev = SerialKISSDevice(
device='/dev/ttyS4', baudrate=9600,
log=logging.getLogger('your.kiss.log')
)
Some optional parameters:
reset_on_close
: When asked to close the device, try to issue ac0 ff c0
reset sequence to the TNC to put it back into CMD mode.send_block_size
,send_block_delay
: If a KISS frame is larger than this size, break the transmissions out the serial port into chunks of the given size, and waitsend_block_delay
seconds between each chunk. (If your TNC has a small buffer, this may help.)
This represents the KISS TNC itself, with its ports accessible using the usual
__getitem__
syntax:
kissport0 = kissdev[0]
kissport1 = kissdev[1]
These KISS port interfaces just spit out the content of raw AX.25 frames via
their received
signals and accept raw AX.25 frames via the send
method.
Any object passed to send
is wrapped in a bytes
call -- this will
implicitly call the __bytes__
method on the object you pass in.
Setting up an AX.25 Interface
The AX.25 interface is a logical routing and queueing layer which decodes the data received from a KISS port and routes it according to the destination call-sign.
AX25Interface
is found in the aioax25.interface
package. Import that, then
do the following to set up your interface:
ax25int = AX25Interface(
kissport=kissdev[0], # or whatever port number you need
log=logging.getLogger('your.ax25.log')
)
Some optional parameters:
cts_delay
,cts_rand
: The number of seconds to wait after making a transmission/receiving a transmission, before we send another transmission. The delay time iscts_delay + (random.random() * cts_rand)
, the idea being to avoid doubling when two stations attempt transmission.
The AX25Interface
is a subclass of Router
(see aioax25.router
), which
exposes the following methods and properties:
-
received_msg
: This is aSignal
object which is fired for every AX.25 frame received. Slots are expected to take two keyword arguments:interface
(the interface that received the frame) andframe
(the AX.25 frame itself). -
bind(callback, callsign, ssid=0, regex=False)
: This method allows you to bind a call-back function to receive AX.25 frames whosedestination
field is addressed to the call-sign and SSID specified. The call-sign may be a regular expression ifregex=True
. This will be compiled and matched against all incoming traffic. Regardless of the value ofregex
, thecallsign
parameter must be a string. -
unbind(callback, callsign, ssid=0, regex=False)
: This method un-binds a previously bound call-back method from receiving the nominated traffic.
Additionally, for transmitting frames, AX25Interface
adds the following:
-
transmit(frame, callback=None)
: This method allows you to transmit arbitrary AX.25 frames. They are assumed to be instances ofAX25Frame
(fromaioax25.frame
). Thecallback
, if given, will be called once the frame is sent with the following keyword arguments:interface
(theAX25Interface
that sent the frame),frame
(the frame that was sent). -
cancel_transmit(frame)
: This cancels a pending transmission of a frame. If the frame has been sent, this has no effect.
APRS Traffic handling
The AX25Interface
just deals in AX.25 traffic, and does not provide any
special handling of APRS UI frames. For this, one may look at APRSInterface
.
Import this from aioax25.aprs
. It too, is a subclass of Router
, and so
bind
, unbind
and received_msg
are there -- the messages received will
be instances of APRSFrame
(see aioax25.aprs.frame
), otherwise the behaviour
is identical.
aprsint = APRSInterface(
ax25int=ax25int, # Your AX25Interface object
mycall='VK4MSL-9', # Your call-sign and SSID
log=logging.getLogger('your.aprs.log')
)
Other optional parameters:
retransmit_count
,retransmit_timeout_base
,retransmit_timeout_rand
,retransmit_timeout_scale
: These control the timing of retransmissions when sending confirmable APRS messages. Before transmission, a time-out is computed astimeout = retransmit_timeout_base + (random.random() * retransmit_timeout_rand)
, and a retry counter is initialised toretransmit_count
. On each re-transmission, the retry counter is decremented and the timeout is multiplied byretransmit_timeout_scale
.aprs_destination
: This sets the destination call-sign used for APRS traffic. Right now, we use the experimental call ofAPZAIO
for all traffic except direct messages (which instead are sent directly to the station addressed).aprs_path
specifies the digipeater path to use when sending APRS traffic.listen_destinations
is a list of AX.25 destinations. Behind the scenes, these are values passed toRouter.bind
, and thus are given asdict
s of the form:{callsign: "CALL", regex: True/False, ssid: None/int}
.listen_altnets
is an additional list of AX.25 destinations, given using the same scheme aslisten_destinations
.msgid_modulo
sets the modulo value used when generating a message ID. The default value (1000) results in a message ID that starts at 1 and wraps around at 999.deduplication_expiry
sets the number of seconds we store message hashes for de-duplication purposes. The default is 28 seconds.
To send APRS messages, there is send_message
and send_response
:
-
send_message(addressee, path=None, oneshot=False)
: This sends an APRS message to the addressed station. Ifpath
isNone
, then theaprs_path
is used. Ifoneshot=True
, then the message is sent without a message ID, no ACK/REJ is expected and no retransmissions will be made, the method returnsNone
. Otherwise, aAPRSMessageHandler
(fromaioax25.aprs.message
) is returned. -
send_response(message, ack=True)
: This is used when you have received a message from another station -- passing that message to this function will send aACK
orREJ
message to that station.
The APRSMessageHandler
class
The APRSMessageHandler
class implements the APRS message retransmission
logic. The objects have a done
signal which is emitted upon any of the
following events:
- Message time-out (no ACK/REJ received) (
state=HandlerState.TIMEOUT
) - Message was cancelled (via the
cancel()
method) (state=HandlerState.CANCEL
) - An ACK or REJ frame was received (
state=HandlerState.SUCCESS
orstate=HandlerState.REJECT
)
The signal will call call-back functions with the following keyword arguments:
handler
: TheAPRSMessageHandler
object emitting the signalstate
: The state of theAPRSMessageHandler
object.
APRS Digipeating
aioax25
includes a module that implements basic digipeating for APRS
including handling of the WIDEn-N
SSIDs. The implementation treats WIDE
like TRACE
: inserting the station's own call-sign in the path (which I
believe is more compliant with the Amateur License Conditions
Determination in that it
ensures each digipeater "identifies" itself).
The aioax25.aprs.uidigi
module can be configured to digipeat for other
aliases such as the legacy WIDE
and RELAY
, or any alias of your choosing.
It is capable of handling multiple interfaces, but will repeat incoming messages on the interface they were received from ONLY. (i.e. if you connect a 2m interface and a HF interface, it will NOT digipeat from HF to 2m).
Set-up is pretty simple:
from aioax25.aprs.uidigi import APRSDigipeater
# Given an APRSInterface class (aprsint)
# Create a digipeater instance
digipeater = APRSDigipeater()
# Connect your interface
digipeater.connect(aprsint)
# Optionally add any aliases you want handled
digipeater.addaliases('WIDE', 'GATE')
You're now digipeating. The digipeater will automatically handle WIDEn-N
and
TRACEn-N
, and in the above example, will also digipeat for WIDE
, GATE
.
Preventing message loops on busy networks
If you have a lot of digipeaters in close proximity (say about 6) and there's a lot of traffic, you can get the situation where a message queued up to be digipeated sits in the transmit queue longer than the 28 seconds needed for other digipeaters to "forget" the message.
This leads to a network with the memory of an elephant, it almost never forgets a message because the digipeats come more than 30 seconds after the original.
The APRSDigipeater
class constructor can take a single parameter,
digipeater_timeout
, which sets an expiry (default of 5 seconds) on queued
digipeat messages. If a message is not sent by the time this timeout expires,
the message is quietly dropped, preventing the memory effect.
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