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<article id="content">
<header>
<h1 class="title">Package <code>meshtastic</code></h1>
</header>
<section id="section-intro">
<h1 id="an-api-for-meshtastic-devices">an API for Meshtastic devices</h1>
<p>Primary class: SerialInterface
Install with pip: "<a href="https://pypi.org/project/meshtastic/">pip3 install meshtastic</a>"
Source code on <a href="https://github.com/meshtastic/Meshtastic-python">github</a></p>
<p>properties of SerialInterface:</p>
<ul>
<li>radioConfig - Current radio configuration and device settings, if you write to this the new settings will be applied to
the device.</li>
<li>nodes - The database of received nodes.
Includes always up-to-date location and username information for each
node in the mesh.
This is a read-only datastructure.</li>
<li>myNodeInfo - Contains read-only information about the local radio device (software version, hardware version, etc)</li>
</ul>
<h1 id="published-pubsub-topics">Published PubSub topics</h1>
<p>We use a <a href="https://pypubsub.readthedocs.io/en/v4.0.3/">publish-subscribe</a> model to communicate asynchronous events.
Available
topics:</p>
<ul>
<li>meshtastic.connection.established - published once we've successfully connected to the radio and downloaded the node DB</li>
<li>meshtastic.connection.lost - published once we've lost our link to the radio</li>
<li>meshtastic.receive.text(packet) - delivers a received packet as a dictionary, if you only care about a particular
type of packet, you should subscribe to the full topic name.
If you want to see all packets, simply subscribe to "meshtastic.receive".</li>
<li>meshtastic.receive.position(packet)</li>
<li>meshtastic.receive.user(packet)</li>
<li>meshtastic.receive.data.portnum(packet) (where portnum is an integer or well known PortNum enum)</li>
<li>meshtastic.node.updated(node = NodeInfo) - published when a node in the DB changes (appears, location changed, username changed, etc&hellip;)</li>
</ul>
<p>We receive position, user, or data packets from the mesh.
You probably only care about meshtastic.receive.data.
The first argument for
that publish will be the packet.
Text or binary data packets (from sendData or sendText) will both arrive this way.
If you print packet
you'll see the fields in the dictionary.
decoded.data.payload will contain the raw bytes that were sent.
If the packet was sent with
sendText, decoded.data.text will <strong>also</strong> be populated with the decoded string.
For ASCII these two strings will be the same, but for
unicode scripts they can be different.</p>
<h1 id="example-usage">Example Usage</h1>
<pre><code>import meshtastic
from pubsub import pub
def onReceive(packet, interface): # called when a packet arrives
print(f&quot;Received: {packet}&quot;)
def onConnection(interface, topic=pub.AUTO_TOPIC): # called when we (re)connect to the radio
# defaults to broadcast, specify a destination ID if you wish
interface.sendText(&quot;hello mesh&quot;)
pub.subscribe(onReceive, &quot;meshtastic.receive&quot;)
pub.subscribe(onConnection, &quot;meshtastic.connection.established&quot;)
# By default will try to find a meshtastic device, otherwise provide a device path like /dev/ttyUSB0
interface = meshtastic.SerialInterface()
</code></pre>
<details class="source">
<summary>
<span>Expand source code</span>
</summary>
<pre><code class="python">&#34;&#34;&#34;
# an API for Meshtastic devices
Primary class: SerialInterface
Install with pip: &#34;[pip3 install meshtastic](https://pypi.org/project/meshtastic/)&#34;
Source code on [github](https://github.com/meshtastic/Meshtastic-python)
properties of SerialInterface:
- radioConfig - Current radio configuration and device settings, if you write to this the new settings will be applied to
the device.
- nodes - The database of received nodes. Includes always up-to-date location and username information for each
node in the mesh. This is a read-only datastructure.
- myNodeInfo - Contains read-only information about the local radio device (software version, hardware version, etc)
# Published PubSub topics
We use a [publish-subscribe](https://pypubsub.readthedocs.io/en/v4.0.3/) model to communicate asynchronous events. Available
topics:
- meshtastic.connection.established - published once we&#39;ve successfully connected to the radio and downloaded the node DB
- meshtastic.connection.lost - published once we&#39;ve lost our link to the radio
- meshtastic.receive.text(packet) - delivers a received packet as a dictionary, if you only care about a particular
type of packet, you should subscribe to the full topic name. If you want to see all packets, simply subscribe to &#34;meshtastic.receive&#34;.
- meshtastic.receive.position(packet)
- meshtastic.receive.user(packet)
- meshtastic.receive.data.portnum(packet) (where portnum is an integer or well known PortNum enum)
- meshtastic.node.updated(node = NodeInfo) - published when a node in the DB changes (appears, location changed, username changed, etc...)
We receive position, user, or data packets from the mesh. You probably only care about meshtastic.receive.data. The first argument for
that publish will be the packet. Text or binary data packets (from sendData or sendText) will both arrive this way. If you print packet
you&#39;ll see the fields in the dictionary. decoded.data.payload will contain the raw bytes that were sent. If the packet was sent with
sendText, decoded.data.text will **also** be populated with the decoded string. For ASCII these two strings will be the same, but for
unicode scripts they can be different.
# Example Usage
```
import meshtastic
from pubsub import pub
def onReceive(packet, interface): # called when a packet arrives
print(f&#34;Received: {packet}&#34;)
def onConnection(interface, topic=pub.AUTO_TOPIC): # called when we (re)connect to the radio
# defaults to broadcast, specify a destination ID if you wish
interface.sendText(&#34;hello mesh&#34;)
pub.subscribe(onReceive, &#34;meshtastic.receive&#34;)
pub.subscribe(onConnection, &#34;meshtastic.connection.established&#34;)
# By default will try to find a meshtastic device, otherwise provide a device path like /dev/ttyUSB0
interface = meshtastic.SerialInterface()
```
&#34;&#34;&#34;
import socket
import pygatt
import google.protobuf.json_format
import serial
import threading
import logging
import time
import sys
import traceback
import time
import base64
import platform
from . import mesh_pb2, portnums_pb2, util
from pubsub import pub
from dotmap import DotMap
START1 = 0x94
START2 = 0xc3
HEADER_LEN = 4
MAX_TO_FROM_RADIO_SIZE = 512
BROADCAST_ADDR = &#34;^all&#34; # A special ID that means broadcast
# if using 8 bit nodenums this will be shortend on the target
BROADCAST_NUM = 0xffffffff
MY_CONFIG_ID = 42
&#34;&#34;&#34;The numeric buildnumber (shared with android apps) specifying the level of device code we are guaranteed to understand
format is Mmmss (where M is 1+the numeric major number. i.e. 20120 means 1.1.20
&#34;&#34;&#34;
OUR_APP_VERSION = 20120
class MeshInterface:
&#34;&#34;&#34;Interface class for meshtastic devices
Properties:
isConnected
nodes
debugOut
&#34;&#34;&#34;
def __init__(self, debugOut=None, noProto=False):
&#34;&#34;&#34;Constructor
Keyword Arguments:
noProto -- If True, don&#39;t try to run our protocol on the link - just be a dumb serial client.
&#34;&#34;&#34;
self.debugOut = debugOut
self.nodes = None # FIXME
self.isConnected = threading.Event()
self.noProto = noProto
self._startConfig()
def __enter__(self):
return self
def __exit__(self, exc_type, exc_value, traceback):
if exc_type is not None and exc_value is not None:
logging.error(f&#39;An exception of type {exc_type} with value {exc_value} has occurred&#39;)
if traceback is not None:
logging.error(f&#39;Traceback: {traceback}&#39;)
self.close()
def sendText(self, text, destinationId=BROADCAST_ADDR, wantAck=False, wantResponse=False):
&#34;&#34;&#34;Send a utf8 string to some other node, if the node has a display it will also be shown on the device.
Arguments:
text {string} -- The text to send
Keyword Arguments:
destinationId {nodeId or nodeNum} -- where to send this message (default: {BROADCAST_ADDR})
portNum -- the application portnum (similar to IP port numbers) of the destination, see portnums.proto for a list
wantAck -- True if you want the message sent in a reliable manner (with retries and ack/nak provided for delivery)
Returns the sent packet. The id field will be populated in this packet and can be used to track future message acks/naks.
&#34;&#34;&#34;
return self.sendData(text.encode(&#34;utf-8&#34;), destinationId,
portNum=portnums_pb2.PortNum.TEXT_MESSAGE_APP, wantAck=wantAck, wantResponse=wantResponse)
def sendData(self, data, destinationId=BROADCAST_ADDR, portNum=portnums_pb2.PortNum.PRIVATE_APP, wantAck=False, wantResponse=False):
&#34;&#34;&#34;Send a data packet to some other node
Keyword Arguments:
data -- the data to send, either as an array of bytes or as a protobuf (which will be automatically serialized to bytes)
destinationId {nodeId or nodeNum} -- where to send this message (default: {BROADCAST_ADDR})
portNum -- the application portnum (similar to IP port numbers) of the destination, see portnums.proto for a list
wantAck -- True if you want the message sent in a reliable manner (with retries and ack/nak provided for delivery)
Returns the sent packet. The id field will be populated in this packet and can be used to track future message acks/naks.
&#34;&#34;&#34;
if getattr(data, &#34;SerializeToString&#34;, None):
logging.debug(f&#34;Serializing protobuf as data: {data}&#34;)
data = data.SerializeToString()
if len(data) &gt; mesh_pb2.Constants.DATA_PAYLOAD_LEN:
raise Exception(&#34;Data payload too big&#34;)
meshPacket = mesh_pb2.MeshPacket()
meshPacket.decoded.data.payload = data
meshPacket.decoded.data.portnum = portNum
meshPacket.decoded.want_response = wantResponse
return self.sendPacket(meshPacket, destinationId, wantAck=wantAck)
def sendPosition(self, latitude=0.0, longitude=0.0, altitude=0, timeSec=0, destinationId=BROADCAST_ADDR, wantAck=False, wantResponse=False):
&#34;&#34;&#34;
Send a position packet to some other node (normally a broadcast)
Also, the device software will notice this packet and use it to automatically set its notion of
the local position.
If timeSec is not specified (recommended), we will use the local machine time.
Returns the sent packet. The id field will be populated in this packet and can be used to track future message acks/naks.
&#34;&#34;&#34;
p = mesh_pb2.Position()
if(latitude != 0.0):
p.latitude_i = int(latitude / 1e-7)
if(longitude != 0.0):
p.longitude_i = int(longitude / 1e-7)
if(altitude != 0):
p.altitude = int(altitude)
if timeSec == 0:
timeSec = time.time() # returns unix timestamp in seconds
p.time = int(timeSec)
return self.sendData(p, destinationId, portNum=portnums_pb2.PortNum.POSITION_APP, wantAck=wantAck, wantResponse=wantResponse)
def sendPacket(self, meshPacket, destinationId=BROADCAST_ADDR, wantAck=False):
&#34;&#34;&#34;Send a MeshPacket to the specified node (or if unspecified, broadcast).
You probably don&#39;t want this - use sendData instead.
Returns the sent packet. The id field will be populated in this packet and can be used to track future message acks/naks.
&#34;&#34;&#34;
self._waitConnected()
toRadio = mesh_pb2.ToRadio()
# FIXME add support for non broadcast addresses
if destinationId is None:
raise Exception(&#34;destinationId must not be None&#34;)
elif isinstance(destinationId, int):
nodeNum = destinationId
elif destinationId == BROADCAST_ADDR:
nodeNum = BROADCAST_NUM
else:
nodeNum = self.nodes[destinationId][&#39;num&#39;]
meshPacket.to = nodeNum
meshPacket.want_ack = wantAck
# if the user hasn&#39;t set an ID for this packet (likely and recommended), we should pick a new unique ID
# so the message can be tracked.
if meshPacket.id == 0:
meshPacket.id = self._generatePacketId()
toRadio.packet.CopyFrom(meshPacket)
self._sendToRadio(toRadio)
return meshPacket
def waitForConfig(self, sleep=.1, maxsecs=20, attrs=(&#39;myInfo&#39;, &#39;nodes&#39;, &#39;radioConfig&#39;)):
&#34;&#34;&#34;Block until radio config is received. Returns True if config has been received.&#34;&#34;&#34;
for _ in range(int(maxsecs/sleep)):
if all(map(lambda a: getattr(self, a, None), attrs)):
return True
time.sleep(sleep)
return False
def writeConfig(self):
&#34;&#34;&#34;Write the current (edited) radioConfig to the device&#34;&#34;&#34;
if self.radioConfig == None:
raise Exception(&#34;No RadioConfig has been read&#34;)
t = mesh_pb2.ToRadio()
t.set_radio.CopyFrom(self.radioConfig)
self._sendToRadio(t)
logging.debug(&#34;Wrote config&#34;)
def getMyNode(self):
if self.myInfo is None:
return None
myId = self.myInfo.my_node_num
for _, nodeDict in self.nodes.items():
if &#39;num&#39; in nodeDict and nodeDict[&#39;num&#39;] == myId:
if &#39;user&#39; in nodeDict:
return nodeDict[&#39;user&#39;]
return None
def getLongName(self):
user = self.getMyNode()
if user is not None:
return user.get(&#39;longName&#39;, None)
return None
def getShortName(self):
user = self.getMyNode()
if user is not None:
return user.get(&#39;shortName&#39;, None)
return None
def setOwner(self, long_name, short_name=None):
&#34;&#34;&#34;Set device owner name&#34;&#34;&#34;
nChars = 3
minChars = 2
if long_name is not None:
long_name = long_name.strip()
if short_name is None:
words = long_name.split()
if len(long_name) &lt;= nChars:
short_name = long_name
elif len(words) &gt;= minChars:
short_name = &#39;&#39;.join(map(lambda word: word[0], words))
else:
trans = str.maketrans(dict.fromkeys(&#39;aeiouAEIOU&#39;))
short_name = long_name[0] + long_name[1:].translate(trans)
if len(short_name) &lt; nChars:
short_name = long_name[:nChars]
t = mesh_pb2.ToRadio()
if long_name is not None:
t.set_owner.long_name = long_name
if short_name is not None:
short_name = short_name.strip()
if len(short_name) &gt; nChars:
short_name = short_name[:nChars]
t.set_owner.short_name = short_name
self._sendToRadio(t)
@property
def channelURL(self):
&#34;&#34;&#34;The sharable URL that describes the current channel
&#34;&#34;&#34;
bytes = self.radioConfig.channel_settings.SerializeToString()
s = base64.urlsafe_b64encode(bytes).decode(&#39;ascii&#39;)
return f&#34;https://www.meshtastic.org/c/#{s}&#34;
def setURL(self, url, write=True):
&#34;&#34;&#34;Set mesh network URL&#34;&#34;&#34;
if self.radioConfig == None:
raise Exception(&#34;No RadioConfig has been read&#34;)
# URLs are of the form https://www.meshtastic.org/c/#{base64_channel_settings}
# Split on &#39;/#&#39; to find the base64 encoded channel settings
splitURL = url.split(&#34;/#&#34;)
decodedURL = base64.urlsafe_b64decode(splitURL[-1])
self.radioConfig.channel_settings.ParseFromString(decodedURL)
if write:
self.writeConfig()
def _waitConnected(self):
&#34;&#34;&#34;Block until the initial node db download is complete, or timeout
and raise an exception&#34;&#34;&#34;
if not self.isConnected.wait(5.0): # timeout after 5 seconds
raise Exception(&#34;Timed out waiting for connection completion&#34;)
def _generatePacketId(self):
&#34;&#34;&#34;Get a new unique packet ID&#34;&#34;&#34;
if self.currentPacketId is None:
raise Exception(&#34;Not connected yet, can not generate packet&#34;)
else:
self.currentPacketId = (self.currentPacketId + 1) &amp; 0xffffffff
return self.currentPacketId
def _disconnected(self):
&#34;&#34;&#34;Called by subclasses to tell clients this interface has disconnected&#34;&#34;&#34;
self.isConnected.clear()
pub.sendMessage(&#34;meshtastic.connection.lost&#34;, interface=self)
def _connected(self):
&#34;&#34;&#34;Called by this class to tell clients we are now fully connected to a node
&#34;&#34;&#34;
self.isConnected.set()
pub.sendMessage(&#34;meshtastic.connection.established&#34;, interface=self)
def _startConfig(self):
&#34;&#34;&#34;Start device packets flowing&#34;&#34;&#34;
self.myInfo = None
self.nodes = {} # nodes keyed by ID
self._nodesByNum = {} # nodes keyed by nodenum
self.radioConfig = None
self.currentPacketId = None
startConfig = mesh_pb2.ToRadio()
startConfig.want_config_id = MY_CONFIG_ID # we don&#39;t use this value
self._sendToRadio(startConfig)
def _sendToRadio(self, toRadio):
&#34;&#34;&#34;Send a ToRadio protobuf to the device&#34;&#34;&#34;
if self.noProto:
logging.warn(f&#34;Not sending packet because protocol use is disabled by noProto&#34;)
else:
self._sendToRadioImpl(toRadio)
def _sendToRadioImpl(self, toRadio):
&#34;&#34;&#34;Send a ToRadio protobuf to the device&#34;&#34;&#34;
logging.error(f&#34;Subclass must provide toradio: {toRadio}&#34;)
def _handleFromRadio(self, fromRadioBytes):
&#34;&#34;&#34;
Handle a packet that arrived from the radio(update model and publish events)
Called by subclasses.&#34;&#34;&#34;
fromRadio = mesh_pb2.FromRadio()
fromRadio.ParseFromString(fromRadioBytes)
asDict = google.protobuf.json_format.MessageToDict(fromRadio)
logging.debug(f&#34;Received: {asDict}&#34;)
if fromRadio.HasField(&#34;my_info&#34;):
self.myInfo = fromRadio.my_info
if self.myInfo.min_app_version &gt; OUR_APP_VERSION:
raise Exception(
&#34;This device needs a newer python client, please \&#34;pip install --upgrade meshtastic\&#34;&#34;)
# start assigning our packet IDs from the opposite side of where our local device is assigning them
self.currentPacketId = (
self.myInfo.current_packet_id + 0x80000000) &amp; 0xffffffff
elif fromRadio.HasField(&#34;radio&#34;):
self.radioConfig = fromRadio.radio
elif fromRadio.HasField(&#34;node_info&#34;):
node = asDict[&#34;nodeInfo&#34;]
try:
self._fixupPosition(node[&#34;position&#34;])
except:
logging.debug(&#34;Node without position&#34;)
self._nodesByNum[node[&#34;num&#34;]] = node
if &#34;user&#34; in node: # Some nodes might not have user/ids assigned yet
self.nodes[node[&#34;user&#34;][&#34;id&#34;]] = node
pub.sendMessage(&#34;meshtastic.node.updated&#34;, node=node, interface=self)
elif fromRadio.config_complete_id == MY_CONFIG_ID:
# we ignore the config_complete_id, it is unneeded for our stream API fromRadio.config_complete_id
self._connected()
elif fromRadio.HasField(&#34;packet&#34;):
self._handlePacketFromRadio(fromRadio.packet)
elif fromRadio.rebooted:
# Tell clients the device went away. Careful not to call the overridden subclass version that closes the serial port
MeshInterface._disconnected(self)
self._startConfig() # redownload the node db etc...
else:
logging.debug(&#34;Unexpected FromRadio payload&#34;)
def _fixupPosition(self, position):
&#34;&#34;&#34;Convert integer lat/lon into floats
Arguments:
position {Position dictionary} -- object ot fix up
&#34;&#34;&#34;
if &#34;latitudeI&#34; in position:
position[&#34;latitude&#34;] = position[&#34;latitudeI&#34;] * 1e-7
if &#34;longitudeI&#34; in position:
position[&#34;longitude&#34;] = position[&#34;longitudeI&#34;] * 1e-7
def _nodeNumToId(self, num):
&#34;&#34;&#34;Map a node node number to a node ID
Arguments:
num {int} -- Node number
Returns:
string -- Node ID
&#34;&#34;&#34;
if num == BROADCAST_NUM:
return BROADCAST_ADDR
try:
return self._nodesByNum[num][&#34;user&#34;][&#34;id&#34;]
except:
logging.warn(&#34;Node not found for fromId&#34;)
return None
def _getOrCreateByNum(self, nodeNum):
&#34;&#34;&#34;Given a nodenum find the NodeInfo in the DB (or create if necessary)&#34;&#34;&#34;
if nodeNum == BROADCAST_NUM:
raise Exception(&#34;Can not create/find nodenum by the broadcast num&#34;)
if nodeNum in self._nodesByNum:
return self._nodesByNum[nodeNum]
else:
n = {&#34;num&#34;: nodeNum} # Create a minimial node db entry
self._nodesByNum[nodeNum] = n
return n
def _handlePacketFromRadio(self, meshPacket):
&#34;&#34;&#34;Handle a MeshPacket that just arrived from the radio
Will publish one of the following events:
- meshtastic.receive.text(packet = MeshPacket dictionary)
- meshtastic.receive.position(packet = MeshPacket dictionary)
- meshtastic.receive.user(packet = MeshPacket dictionary)
- meshtastic.receive.data(packet = MeshPacket dictionary)
&#34;&#34;&#34;
asDict = google.protobuf.json_format.MessageToDict(meshPacket)
# /add fromId and toId fields based on the node ID
asDict[&#34;fromId&#34;] = self._nodeNumToId(asDict[&#34;from&#34;])
asDict[&#34;toId&#34;] = self._nodeNumToId(asDict[&#34;to&#34;])
# We could provide our objects as DotMaps - which work with . notation or as dictionaries
# asObj = DotMap(asDict)
topic = &#34;meshtastic.receive&#34; # Generic unknown packet type
# Warn users if firmware doesn&#39;t use new portnum based data encodings
# But do not crash, because the lib will still basically work and ignore those packet types
if meshPacket.decoded.HasField(&#34;user&#34;) or meshPacket.decoded.HasField(&#34;position&#34;):
logging.warn(&#34;Ignoring old position/user message. Recommend you update firmware to 1.1.20 or later&#34;)
if meshPacket.decoded.HasField(&#34;data&#34;):
# The default MessageToDict converts byte arrays into base64 strings.
# We don&#39;t want that - it messes up data payload. So slam in the correct
# byte array.
asDict[&#34;decoded&#34;][&#34;data&#34;][&#34;payload&#34;] = meshPacket.decoded.data.payload
# UNKNOWN_APP is the default protobuf portnum value, and therefore if not set it will not be populated at all
# to make API usage easier, set it to prevent confusion
if not &#34;portnum&#34; in asDict[&#34;decoded&#34;][&#34;data&#34;]:
asDict[&#34;decoded&#34;][&#34;data&#34;][&#34;portnum&#34;] = portnums_pb2.PortNum.Name(portnums_pb2.PortNum.UNKNOWN_APP)
portnum = asDict[&#34;decoded&#34;][&#34;data&#34;][&#34;portnum&#34;]
topic = f&#34;meshtastic.receive.data.{portnum}&#34;
# For text messages, we go ahead and decode the text to ascii for our users
if portnum == portnums_pb2.PortNum.Name(portnums_pb2.PortNum.TEXT_MESSAGE_APP):
topic = &#34;meshtastic.receive.text&#34;
# We don&#39;t throw if the utf8 is invalid in the text message. Instead we just don&#39;t populate
# the decoded.data.text and we log an error message. This at least allows some delivery to
# the app and the app can deal with the missing decoded representation.
#
# Usually btw this problem is caused by apps sending binary data but setting the payload type to
# text.
try:
asDict[&#34;decoded&#34;][&#34;data&#34;][&#34;text&#34;] = meshPacket.decoded.data.payload.decode(&#34;utf-8&#34;)
except Exception as ex:
logging.error(f&#34;Malformatted utf8 in text message: {ex}&#34;)
# decode position protobufs and update nodedb, provide decoded version as &#34;position&#34; in the published msg
if portnum == portnums_pb2.PortNum.Name(portnums_pb2.PortNum.POSITION_APP):
topic = &#34;meshtastic.receive.position&#34;
pb = mesh_pb2.Position()
pb.ParseFromString(meshPacket.decoded.data.payload)
p = google.protobuf.json_format.MessageToDict(pb)
self._fixupPosition(p)
asDict[&#34;decoded&#34;][&#34;data&#34;][&#34;position&#34;] = p
# update node DB as needed
self._getOrCreateByNum(asDict[&#34;from&#34;])[&#34;position&#34;] = p
# decode user protobufs and update nodedb, provide decoded version as &#34;position&#34; in the published msg
if portnum == portnums_pb2.PortNum.Name(portnums_pb2.PortNum.NODEINFO_APP):
topic = &#34;meshtastic.receive.user&#34;
pb = mesh_pb2.User()
pb.ParseFromString(meshPacket.decoded.data.payload)
u = google.protobuf.json_format.MessageToDict(pb)
asDict[&#34;decoded&#34;][&#34;data&#34;][&#34;user&#34;] = u
# update node DB as needed
n = self._getOrCreateByNum(asDict[&#34;from&#34;])
n[&#34;user&#34;] = u
# We now have a node ID, make sure it is uptodate in that table
self.nodes[u[&#34;id&#34;]] = u
logging.debug(f&#34;Publishing topic {topic}&#34;)
pub.sendMessage(topic, packet=asDict, interface=self)
# Our standard BLE characteristics
TORADIO_UUID = &#34;f75c76d2-129e-4dad-a1dd-7866124401e7&#34;
FROMRADIO_UUID = &#34;8ba2bcc2-ee02-4a55-a531-c525c5e454d5&#34;
FROMNUM_UUID = &#34;ed9da18c-a800-4f66-a670-aa7547e34453&#34;
class BLEInterface(MeshInterface):
&#34;&#34;&#34;A not quite ready - FIXME - BLE interface to devices&#34;&#34;&#34;
def __init__(self, address, debugOut=None):
self.address = address
self.adapter = pygatt.GATTToolBackend() # BGAPIBackend()
self.adapter.start()
logging.debug(f&#34;Connecting to {self.address}&#34;)
self.device = self.adapter.connect(address)
logging.debug(&#34;Connected to device&#34;)
# fromradio = self.device.char_read(FROMRADIO_UUID)
MeshInterface.__init__(self, debugOut=debugOut)
self._readFromRadio() # read the initial responses
def handle_data(handle, data):
self._handleFromRadio(data)
self.device.subscribe(FROMNUM_UUID, callback=handle_data)
def _sendToRadioImpl(self, toRadio):
&#34;&#34;&#34;Send a ToRadio protobuf to the device&#34;&#34;&#34;
logging.debug(f&#34;Sending: {toRadio}&#34;)
b = toRadio.SerializeToString()
self.device.char_write(TORADIO_UUID, b)
def close(self):
self.adapter.stop()
def _readFromRadio(self):
wasEmpty = False
while not wasEmpty:
b = self.device.char_read(FROMRADIO_UUID)
wasEmpty = len(b) == 0
if not wasEmpty:
self._handleFromRadio(b)
class StreamInterface(MeshInterface):
&#34;&#34;&#34;Interface class for meshtastic devices over a stream link (serial, TCP, etc)&#34;&#34;&#34;
def __init__(self, debugOut=None, noProto=False, connectNow=True):
&#34;&#34;&#34;Constructor, opens a connection to self.stream
Keyword Arguments:
devPath {string} -- A filepath to a device, i.e. /dev/ttyUSB0 (default: {None})
debugOut {stream} -- If a stream is provided, any debug serial output from the device will be emitted to that stream. (default: {None})
Raises:
Exception: [description]
Exception: [description]
&#34;&#34;&#34;
if not hasattr(self, &#39;stream&#39;):
raise Exception(
&#34;StreamInterface is now abstract (to update existing code create SerialInterface instead)&#34;)
self._rxBuf = bytes() # empty
self._wantExit = False
# FIXME, figure out why daemon=True causes reader thread to exit too early
self._rxThread = threading.Thread(target=self.__reader, args=())
MeshInterface.__init__(self, debugOut=debugOut, noProto=noProto)
# Start the reader thread after superclass constructor completes init
if connectNow:
self.connect()
def connect(self):
&#34;&#34;&#34;Connect to our radio
Normally this is called automatically by the constructor, but if you passed in connectNow=False you can manually
start the reading thread later.
&#34;&#34;&#34;
# Send some bogus UART characters to force a sleeping device to wake
self._writeBytes(bytes([START1, START1, START1, START1]))
time.sleep(0.1) # wait 100ms to give device time to start running
self._rxThread.start()
if not self.noProto: # Wait for the db download if using the protocol
self._waitConnected()
def _disconnected(self):
&#34;&#34;&#34;We override the superclass implementation to close our port&#34;&#34;&#34;
MeshInterface._disconnected(self)
logging.debug(&#34;Closing our port&#34;)
if not self.stream is None:
self.stream.close()
def _writeBytes(self, b):
&#34;&#34;&#34;Write an array of bytes to our stream and flush&#34;&#34;&#34;
self.stream.write(b)
self.stream.flush()
def _readBytes(self, len):
&#34;&#34;&#34;Read an array of bytes from our stream&#34;&#34;&#34;
return self.stream.read(len)
def _sendToRadioImpl(self, toRadio):
&#34;&#34;&#34;Send a ToRadio protobuf to the device&#34;&#34;&#34;
logging.debug(f&#34;Sending: {toRadio}&#34;)
b = toRadio.SerializeToString()
bufLen = len(b)
# We convert into a string, because the TCP code doesn&#39;t work with byte arrays
header = bytes([START1, START2, (bufLen &gt;&gt; 8) &amp; 0xff, bufLen &amp; 0xff])
self._writeBytes(header + b)
def close(self):
&#34;&#34;&#34;Close a connection to the device&#34;&#34;&#34;
logging.debug(&#34;Closing serial stream&#34;)
# pyserial cancel_read doesn&#39;t seem to work, therefore we ask the reader thread to close things for us
self._wantExit = True
if self._rxThread != threading.current_thread():
self._rxThread.join() # wait for it to exit
def __reader(self):
&#34;&#34;&#34;The reader thread that reads bytes from our stream&#34;&#34;&#34;
empty = bytes()
try:
while not self._wantExit:
b = self._readBytes(1)
if len(b) &gt; 0:
# logging.debug(f&#34;read returned {b}&#34;)
c = b[0]
ptr = len(self._rxBuf)
# Assume we want to append this byte, fixme use bytearray instead
self._rxBuf = self._rxBuf + b
if ptr == 0: # looking for START1
if c != START1:
self._rxBuf = empty # failed to find start
if self.debugOut != None:
try:
self.debugOut.write(b.decode(&#34;utf-8&#34;))
except:
self.debugOut.write(&#39;?&#39;)
elif ptr == 1: # looking for START2
if c != START2:
self._rxBuf = empty # failed to find start2
elif ptr &gt;= HEADER_LEN: # we&#39;ve at least got a header
# big endian length follos header
packetlen = (self._rxBuf[2] &lt;&lt; 8) + self._rxBuf[3]
if ptr == HEADER_LEN: # we _just_ finished reading the header, validate length
if packetlen &gt; MAX_TO_FROM_RADIO_SIZE:
self._rxBuf = empty # length ws out out bounds, restart
if len(self._rxBuf) != 0 and ptr + 1 == packetlen + HEADER_LEN:
try:
self._handleFromRadio(self._rxBuf[HEADER_LEN:])
except Exception as ex:
logging.error(
f&#34;Error while handling message from radio {ex}&#34;)
traceback.print_exc()
self._rxBuf = empty
else:
# logging.debug(f&#34;timeout&#34;)
pass
except serial.SerialException as ex:
logging.warn(
f&#34;Meshtastic serial port disconnected, disconnecting... {ex}&#34;)
finally:
logging.debug(&#34;reader is exiting&#34;)
self._disconnected()
class SerialInterface(StreamInterface):
&#34;&#34;&#34;Interface class for meshtastic devices over a serial link&#34;&#34;&#34;
def __init__(self, devPath=None, debugOut=None, noProto=False, connectNow=True):
&#34;&#34;&#34;Constructor, opens a connection to a specified serial port, or if unspecified try to
find one Meshtastic device by probing
Keyword Arguments:
devPath {string} -- A filepath to a device, i.e. /dev/ttyUSB0 (default: {None})
debugOut {stream} -- If a stream is provided, any debug serial output from the device will be emitted to that stream. (default: {None})
&#34;&#34;&#34;
if devPath is None:
ports = util.findPorts()
if len(ports) == 0:
raise Exception(&#34;No Meshtastic devices detected&#34;)
elif len(ports) &gt; 1:
raise Exception(
f&#34;Multiple ports detected, you must specify a device, such as {ports[0]}&#34;)
else:
devPath = ports[0]
logging.debug(f&#34;Connecting to {devPath}&#34;)
# Note: we provide None for port here, because we will be opening it later
self.stream = serial.Serial(
None, 921600, exclusive=True, timeout=0.5)
# rts=False Needed to prevent TBEAMs resetting on OSX, because rts is connected to reset
self.stream.port = devPath
# OS-X/Windows seems to have a bug in its serial driver. It ignores that we asked for no RTSCTS
# control and will always drive RTS either high or low (rather than letting the CP102 leave
# it as an open-collector floating pin). Since it is going to drive it anyways we want to make
# sure it is driven low, so that the TBEAM won&#39;t reset
self.stream.rts = False
self.stream.open()
StreamInterface.__init__(
self, debugOut=debugOut, noProto=noProto, connectNow=connectNow)
def _disconnected(self):
&#34;&#34;&#34;We override the superclass implementation to close our port&#34;&#34;&#34;
StreamInterface._disconnected(self)
class TCPInterface(StreamInterface):
&#34;&#34;&#34;Interface class for meshtastic devices over a TCP link&#34;&#34;&#34;
def __init__(self, hostname, debugOut=None, noProto=False, connectNow=True, portNumber=4403):
&#34;&#34;&#34;Constructor, opens a connection to a specified IP address/hostname
Keyword Arguments:
hostname {string} -- Hostname/IP address of the device to connect to
&#34;&#34;&#34;
logging.debug(f&#34;Connecting to {hostname}&#34;)
server_address = (hostname, portNumber)
sock = socket.create_connection(server_address)
# Instead of wrapping as a stream, we use the native socket API
# self.stream = sock.makefile(&#39;rw&#39;)
self.stream = None
self.socket = sock
StreamInterface.__init__(
self, debugOut=debugOut, noProto=noProto, connectNow=connectNow)
def _disconnected(self):
&#34;&#34;&#34;We override the superclass implementation to close our port&#34;&#34;&#34;
StreamInterface._disconnected(self)
logging.debug(&#34;Closing our socket&#34;)
if not self.socket is None:
self.socket.close()
def _writeBytes(self, b):
&#34;&#34;&#34;Write an array of bytes to our stream and flush&#34;&#34;&#34;
self.socket.send(b)
def _readBytes(self, len):
&#34;&#34;&#34;Read an array of bytes from our stream&#34;&#34;&#34;
return self.socket.recv(len)</code></pre>
</details>
</section>
<section>
<h2 class="section-title" id="header-submodules">Sub-modules</h2>
<dl>
<dt><code class="name"><a title="meshtastic.ble" href="ble.html">meshtastic.ble</a></code></dt>
<dd>
<div class="desc"></div>
</dd>
<dt><code class="name"><a title="meshtastic.mesh_pb2" href="mesh_pb2.html">meshtastic.mesh_pb2</a></code></dt>
<dd>
<div class="desc"><p>Generated protocol buffer code.</p></div>
</dd>
<dt><code class="name"><a title="meshtastic.portnums_pb2" href="portnums_pb2.html">meshtastic.portnums_pb2</a></code></dt>
<dd>
<div class="desc"><p>Generated protocol buffer code.</p></div>
</dd>
<dt><code class="name"><a title="meshtastic.remote_hardware" href="remote_hardware.html">meshtastic.remote_hardware</a></code></dt>
<dd>
<div class="desc"></div>
</dd>
<dt><code class="name"><a title="meshtastic.remote_hardware_pb2" href="remote_hardware_pb2.html">meshtastic.remote_hardware_pb2</a></code></dt>
<dd>
<div class="desc"><p>Generated protocol buffer code.</p></div>
</dd>
<dt><code class="name"><a title="meshtastic.test" href="test.html">meshtastic.test</a></code></dt>
<dd>
<div class="desc"></div>
</dd>
<dt><code class="name"><a title="meshtastic.util" href="util.html">meshtastic.util</a></code></dt>
<dd>
<div class="desc"></div>
</dd>
</dl>
</section>
<section>
<h2 class="section-title" id="header-variables">Global variables</h2>
<dl>
<dt id="meshtastic.MY_CONFIG_ID"><code class="name">var <span class="ident">MY_CONFIG_ID</span></code></dt>
<dd>
<div class="desc"><p>The numeric buildnumber (shared with android apps) specifying the level of device code we are guaranteed to understand</p>
<p>format is Mmmss (where M is 1+the numeric major number. i.e. 20120 means 1.1.20</p></div>
</dd>
</dl>
</section>
<section>
</section>
<section>
<h2 class="section-title" id="header-classes">Classes</h2>
<dl>
<dt id="meshtastic.BLEInterface"><code class="flex name class">
<span>class <span class="ident">BLEInterface</span></span>
<span>(</span><span>address, debugOut=None)</span>
</code></dt>
<dd>
<div class="desc"><p>A not quite ready - FIXME - BLE interface to devices</p>
<p>Constructor</p>
<p>Keyword Arguments:
noProto &ndash; If True, don't try to run our protocol on the link - just be a dumb serial client.</p></div>
<details class="source">
<summary>
<span>Expand source code</span>
</summary>
<pre><code class="python">class BLEInterface(MeshInterface):
&#34;&#34;&#34;A not quite ready - FIXME - BLE interface to devices&#34;&#34;&#34;
def __init__(self, address, debugOut=None):
self.address = address
self.adapter = pygatt.GATTToolBackend() # BGAPIBackend()
self.adapter.start()
logging.debug(f&#34;Connecting to {self.address}&#34;)
self.device = self.adapter.connect(address)
logging.debug(&#34;Connected to device&#34;)
# fromradio = self.device.char_read(FROMRADIO_UUID)
MeshInterface.__init__(self, debugOut=debugOut)
self._readFromRadio() # read the initial responses
def handle_data(handle, data):
self._handleFromRadio(data)
self.device.subscribe(FROMNUM_UUID, callback=handle_data)
def _sendToRadioImpl(self, toRadio):
&#34;&#34;&#34;Send a ToRadio protobuf to the device&#34;&#34;&#34;
logging.debug(f&#34;Sending: {toRadio}&#34;)
b = toRadio.SerializeToString()
self.device.char_write(TORADIO_UUID, b)
def close(self):
self.adapter.stop()
def _readFromRadio(self):
wasEmpty = False
while not wasEmpty:
b = self.device.char_read(FROMRADIO_UUID)
wasEmpty = len(b) == 0
if not wasEmpty:
self._handleFromRadio(b)</code></pre>
</details>
<h3>Ancestors</h3>
<ul class="hlist">
<li><a title="meshtastic.MeshInterface" href="#meshtastic.MeshInterface">MeshInterface</a></li>
</ul>
<h3>Methods</h3>
<dl>
<dt id="meshtastic.BLEInterface.close"><code class="name flex">
<span>def <span class="ident">close</span></span>(<span>self)</span>
</code></dt>
<dd>
<div class="desc"></div>
<details class="source">
<summary>
<span>Expand source code</span>
</summary>
<pre><code class="python">def close(self):
self.adapter.stop()</code></pre>
</details>
</dd>
</dl>
<h3>Inherited members</h3>
<ul class="hlist">
<li><code><b><a title="meshtastic.MeshInterface" href="#meshtastic.MeshInterface">MeshInterface</a></b></code>:
<ul class="hlist">
<li><code><a title="meshtastic.MeshInterface.channelURL" href="#meshtastic.MeshInterface.channelURL">channelURL</a></code></li>
<li><code><a title="meshtastic.MeshInterface.sendData" href="#meshtastic.MeshInterface.sendData">sendData</a></code></li>
<li><code><a title="meshtastic.MeshInterface.sendPacket" href="#meshtastic.MeshInterface.sendPacket">sendPacket</a></code></li>
<li><code><a title="meshtastic.MeshInterface.sendPosition" href="#meshtastic.MeshInterface.sendPosition">sendPosition</a></code></li>
<li><code><a title="meshtastic.MeshInterface.sendText" href="#meshtastic.MeshInterface.sendText">sendText</a></code></li>
<li><code><a title="meshtastic.MeshInterface.setOwner" href="#meshtastic.MeshInterface.setOwner">setOwner</a></code></li>
<li><code><a title="meshtastic.MeshInterface.setURL" href="#meshtastic.MeshInterface.setURL">setURL</a></code></li>
<li><code><a title="meshtastic.MeshInterface.waitForConfig" href="#meshtastic.MeshInterface.waitForConfig">waitForConfig</a></code></li>
<li><code><a title="meshtastic.MeshInterface.writeConfig" href="#meshtastic.MeshInterface.writeConfig">writeConfig</a></code></li>
</ul>
</li>
</ul>
</dd>
<dt id="meshtastic.MeshInterface"><code class="flex name class">
<span>class <span class="ident">MeshInterface</span></span>
<span>(</span><span>debugOut=None, noProto=False)</span>
</code></dt>
<dd>
<div class="desc"><p>Interface class for meshtastic devices</p>
<p>Properties:</p>
<p>isConnected
nodes
debugOut</p>
<p>Constructor</p>
<p>Keyword Arguments:
noProto &ndash; If True, don't try to run our protocol on the link - just be a dumb serial client.</p></div>
<details class="source">
<summary>
<span>Expand source code</span>
</summary>
<pre><code class="python">class MeshInterface:
&#34;&#34;&#34;Interface class for meshtastic devices
Properties:
isConnected
nodes
debugOut
&#34;&#34;&#34;
def __init__(self, debugOut=None, noProto=False):
&#34;&#34;&#34;Constructor
Keyword Arguments:
noProto -- If True, don&#39;t try to run our protocol on the link - just be a dumb serial client.
&#34;&#34;&#34;
self.debugOut = debugOut
self.nodes = None # FIXME
self.isConnected = threading.Event()
self.noProto = noProto
self._startConfig()
def __enter__(self):
return self
def __exit__(self, exc_type, exc_value, traceback):
if exc_type is not None and exc_value is not None:
logging.error(f&#39;An exception of type {exc_type} with value {exc_value} has occurred&#39;)
if traceback is not None:
logging.error(f&#39;Traceback: {traceback}&#39;)
self.close()
def sendText(self, text, destinationId=BROADCAST_ADDR, wantAck=False, wantResponse=False):
&#34;&#34;&#34;Send a utf8 string to some other node, if the node has a display it will also be shown on the device.
Arguments:
text {string} -- The text to send
Keyword Arguments:
destinationId {nodeId or nodeNum} -- where to send this message (default: {BROADCAST_ADDR})
portNum -- the application portnum (similar to IP port numbers) of the destination, see portnums.proto for a list
wantAck -- True if you want the message sent in a reliable manner (with retries and ack/nak provided for delivery)
Returns the sent packet. The id field will be populated in this packet and can be used to track future message acks/naks.
&#34;&#34;&#34;
return self.sendData(text.encode(&#34;utf-8&#34;), destinationId,
portNum=portnums_pb2.PortNum.TEXT_MESSAGE_APP, wantAck=wantAck, wantResponse=wantResponse)
def sendData(self, data, destinationId=BROADCAST_ADDR, portNum=portnums_pb2.PortNum.PRIVATE_APP, wantAck=False, wantResponse=False):
&#34;&#34;&#34;Send a data packet to some other node
Keyword Arguments:
data -- the data to send, either as an array of bytes or as a protobuf (which will be automatically serialized to bytes)
destinationId {nodeId or nodeNum} -- where to send this message (default: {BROADCAST_ADDR})
portNum -- the application portnum (similar to IP port numbers) of the destination, see portnums.proto for a list
wantAck -- True if you want the message sent in a reliable manner (with retries and ack/nak provided for delivery)
Returns the sent packet. The id field will be populated in this packet and can be used to track future message acks/naks.
&#34;&#34;&#34;
if getattr(data, &#34;SerializeToString&#34;, None):
logging.debug(f&#34;Serializing protobuf as data: {data}&#34;)
data = data.SerializeToString()
if len(data) &gt; mesh_pb2.Constants.DATA_PAYLOAD_LEN:
raise Exception(&#34;Data payload too big&#34;)
meshPacket = mesh_pb2.MeshPacket()
meshPacket.decoded.data.payload = data
meshPacket.decoded.data.portnum = portNum
meshPacket.decoded.want_response = wantResponse
return self.sendPacket(meshPacket, destinationId, wantAck=wantAck)
def sendPosition(self, latitude=0.0, longitude=0.0, altitude=0, timeSec=0, destinationId=BROADCAST_ADDR, wantAck=False, wantResponse=False):
&#34;&#34;&#34;
Send a position packet to some other node (normally a broadcast)
Also, the device software will notice this packet and use it to automatically set its notion of
the local position.
If timeSec is not specified (recommended), we will use the local machine time.
Returns the sent packet. The id field will be populated in this packet and can be used to track future message acks/naks.
&#34;&#34;&#34;
p = mesh_pb2.Position()
if(latitude != 0.0):
p.latitude_i = int(latitude / 1e-7)
if(longitude != 0.0):
p.longitude_i = int(longitude / 1e-7)
if(altitude != 0):
p.altitude = int(altitude)
if timeSec == 0:
timeSec = time.time() # returns unix timestamp in seconds
p.time = int(timeSec)
return self.sendData(p, destinationId, portNum=portnums_pb2.PortNum.POSITION_APP, wantAck=wantAck, wantResponse=wantResponse)
def sendPacket(self, meshPacket, destinationId=BROADCAST_ADDR, wantAck=False):
&#34;&#34;&#34;Send a MeshPacket to the specified node (or if unspecified, broadcast).
You probably don&#39;t want this - use sendData instead.
Returns the sent packet. The id field will be populated in this packet and can be used to track future message acks/naks.
&#34;&#34;&#34;
self._waitConnected()
toRadio = mesh_pb2.ToRadio()
# FIXME add support for non broadcast addresses
if destinationId is None:
raise Exception(&#34;destinationId must not be None&#34;)
elif isinstance(destinationId, int):
nodeNum = destinationId
elif destinationId == BROADCAST_ADDR:
nodeNum = BROADCAST_NUM
else:
nodeNum = self.nodes[destinationId][&#39;num&#39;]
meshPacket.to = nodeNum
meshPacket.want_ack = wantAck
# if the user hasn&#39;t set an ID for this packet (likely and recommended), we should pick a new unique ID
# so the message can be tracked.
if meshPacket.id == 0:
meshPacket.id = self._generatePacketId()
toRadio.packet.CopyFrom(meshPacket)
self._sendToRadio(toRadio)
return meshPacket
def waitForConfig(self, sleep=.1, maxsecs=20, attrs=(&#39;myInfo&#39;, &#39;nodes&#39;, &#39;radioConfig&#39;)):
&#34;&#34;&#34;Block until radio config is received. Returns True if config has been received.&#34;&#34;&#34;
for _ in range(int(maxsecs/sleep)):
if all(map(lambda a: getattr(self, a, None), attrs)):
return True
time.sleep(sleep)
return False
def writeConfig(self):
&#34;&#34;&#34;Write the current (edited) radioConfig to the device&#34;&#34;&#34;
if self.radioConfig == None:
raise Exception(&#34;No RadioConfig has been read&#34;)
t = mesh_pb2.ToRadio()
t.set_radio.CopyFrom(self.radioConfig)
self._sendToRadio(t)
logging.debug(&#34;Wrote config&#34;)
def getMyNode(self):
if self.myInfo is None:
return None
myId = self.myInfo.my_node_num
for _, nodeDict in self.nodes.items():
if &#39;num&#39; in nodeDict and nodeDict[&#39;num&#39;] == myId:
if &#39;user&#39; in nodeDict:
return nodeDict[&#39;user&#39;]
return None
def getLongName(self):
user = self.getMyNode()
if user is not None:
return user.get(&#39;longName&#39;, None)
return None
def getShortName(self):
user = self.getMyNode()
if user is not None:
return user.get(&#39;shortName&#39;, None)
return None
def setOwner(self, long_name, short_name=None):
&#34;&#34;&#34;Set device owner name&#34;&#34;&#34;
nChars = 3
minChars = 2
if long_name is not None:
long_name = long_name.strip()
if short_name is None:
words = long_name.split()
if len(long_name) &lt;= nChars:
short_name = long_name
elif len(words) &gt;= minChars:
short_name = &#39;&#39;.join(map(lambda word: word[0], words))
else:
trans = str.maketrans(dict.fromkeys(&#39;aeiouAEIOU&#39;))
short_name = long_name[0] + long_name[1:].translate(trans)
if len(short_name) &lt; nChars:
short_name = long_name[:nChars]
t = mesh_pb2.ToRadio()
if long_name is not None:
t.set_owner.long_name = long_name
if short_name is not None:
short_name = short_name.strip()
if len(short_name) &gt; nChars:
short_name = short_name[:nChars]
t.set_owner.short_name = short_name
self._sendToRadio(t)
@property
def channelURL(self):
&#34;&#34;&#34;The sharable URL that describes the current channel
&#34;&#34;&#34;
bytes = self.radioConfig.channel_settings.SerializeToString()
s = base64.urlsafe_b64encode(bytes).decode(&#39;ascii&#39;)
return f&#34;https://www.meshtastic.org/c/#{s}&#34;
def setURL(self, url, write=True):
&#34;&#34;&#34;Set mesh network URL&#34;&#34;&#34;
if self.radioConfig == None:
raise Exception(&#34;No RadioConfig has been read&#34;)
# URLs are of the form https://www.meshtastic.org/c/#{base64_channel_settings}
# Split on &#39;/#&#39; to find the base64 encoded channel settings
splitURL = url.split(&#34;/#&#34;)
decodedURL = base64.urlsafe_b64decode(splitURL[-1])
self.radioConfig.channel_settings.ParseFromString(decodedURL)
if write:
self.writeConfig()
def _waitConnected(self):
&#34;&#34;&#34;Block until the initial node db download is complete, or timeout
and raise an exception&#34;&#34;&#34;
if not self.isConnected.wait(5.0): # timeout after 5 seconds
raise Exception(&#34;Timed out waiting for connection completion&#34;)
def _generatePacketId(self):
&#34;&#34;&#34;Get a new unique packet ID&#34;&#34;&#34;
if self.currentPacketId is None:
raise Exception(&#34;Not connected yet, can not generate packet&#34;)
else:
self.currentPacketId = (self.currentPacketId + 1) &amp; 0xffffffff
return self.currentPacketId
def _disconnected(self):
&#34;&#34;&#34;Called by subclasses to tell clients this interface has disconnected&#34;&#34;&#34;
self.isConnected.clear()
pub.sendMessage(&#34;meshtastic.connection.lost&#34;, interface=self)
def _connected(self):
&#34;&#34;&#34;Called by this class to tell clients we are now fully connected to a node
&#34;&#34;&#34;
self.isConnected.set()
pub.sendMessage(&#34;meshtastic.connection.established&#34;, interface=self)
def _startConfig(self):
&#34;&#34;&#34;Start device packets flowing&#34;&#34;&#34;
self.myInfo = None
self.nodes = {} # nodes keyed by ID
self._nodesByNum = {} # nodes keyed by nodenum
self.radioConfig = None
self.currentPacketId = None
startConfig = mesh_pb2.ToRadio()
startConfig.want_config_id = MY_CONFIG_ID # we don&#39;t use this value
self._sendToRadio(startConfig)
def _sendToRadio(self, toRadio):
&#34;&#34;&#34;Send a ToRadio protobuf to the device&#34;&#34;&#34;
if self.noProto:
logging.warn(f&#34;Not sending packet because protocol use is disabled by noProto&#34;)
else:
self._sendToRadioImpl(toRadio)
def _sendToRadioImpl(self, toRadio):
&#34;&#34;&#34;Send a ToRadio protobuf to the device&#34;&#34;&#34;
logging.error(f&#34;Subclass must provide toradio: {toRadio}&#34;)
def _handleFromRadio(self, fromRadioBytes):
&#34;&#34;&#34;
Handle a packet that arrived from the radio(update model and publish events)
Called by subclasses.&#34;&#34;&#34;
fromRadio = mesh_pb2.FromRadio()
fromRadio.ParseFromString(fromRadioBytes)
asDict = google.protobuf.json_format.MessageToDict(fromRadio)
logging.debug(f&#34;Received: {asDict}&#34;)
if fromRadio.HasField(&#34;my_info&#34;):
self.myInfo = fromRadio.my_info
if self.myInfo.min_app_version &gt; OUR_APP_VERSION:
raise Exception(
&#34;This device needs a newer python client, please \&#34;pip install --upgrade meshtastic\&#34;&#34;)
# start assigning our packet IDs from the opposite side of where our local device is assigning them
self.currentPacketId = (
self.myInfo.current_packet_id + 0x80000000) &amp; 0xffffffff
elif fromRadio.HasField(&#34;radio&#34;):
self.radioConfig = fromRadio.radio
elif fromRadio.HasField(&#34;node_info&#34;):
node = asDict[&#34;nodeInfo&#34;]
try:
self._fixupPosition(node[&#34;position&#34;])
except:
logging.debug(&#34;Node without position&#34;)
self._nodesByNum[node[&#34;num&#34;]] = node
if &#34;user&#34; in node: # Some nodes might not have user/ids assigned yet
self.nodes[node[&#34;user&#34;][&#34;id&#34;]] = node
pub.sendMessage(&#34;meshtastic.node.updated&#34;, node=node, interface=self)
elif fromRadio.config_complete_id == MY_CONFIG_ID:
# we ignore the config_complete_id, it is unneeded for our stream API fromRadio.config_complete_id
self._connected()
elif fromRadio.HasField(&#34;packet&#34;):
self._handlePacketFromRadio(fromRadio.packet)
elif fromRadio.rebooted:
# Tell clients the device went away. Careful not to call the overridden subclass version that closes the serial port
MeshInterface._disconnected(self)
self._startConfig() # redownload the node db etc...
else:
logging.debug(&#34;Unexpected FromRadio payload&#34;)
def _fixupPosition(self, position):
&#34;&#34;&#34;Convert integer lat/lon into floats
Arguments:
position {Position dictionary} -- object ot fix up
&#34;&#34;&#34;
if &#34;latitudeI&#34; in position:
position[&#34;latitude&#34;] = position[&#34;latitudeI&#34;] * 1e-7
if &#34;longitudeI&#34; in position:
position[&#34;longitude&#34;] = position[&#34;longitudeI&#34;] * 1e-7
def _nodeNumToId(self, num):
&#34;&#34;&#34;Map a node node number to a node ID
Arguments:
num {int} -- Node number
Returns:
string -- Node ID
&#34;&#34;&#34;
if num == BROADCAST_NUM:
return BROADCAST_ADDR
try:
return self._nodesByNum[num][&#34;user&#34;][&#34;id&#34;]
except:
logging.warn(&#34;Node not found for fromId&#34;)
return None
def _getOrCreateByNum(self, nodeNum):
&#34;&#34;&#34;Given a nodenum find the NodeInfo in the DB (or create if necessary)&#34;&#34;&#34;
if nodeNum == BROADCAST_NUM:
raise Exception(&#34;Can not create/find nodenum by the broadcast num&#34;)
if nodeNum in self._nodesByNum:
return self._nodesByNum[nodeNum]
else:
n = {&#34;num&#34;: nodeNum} # Create a minimial node db entry
self._nodesByNum[nodeNum] = n
return n
def _handlePacketFromRadio(self, meshPacket):
&#34;&#34;&#34;Handle a MeshPacket that just arrived from the radio
Will publish one of the following events:
- meshtastic.receive.text(packet = MeshPacket dictionary)
- meshtastic.receive.position(packet = MeshPacket dictionary)
- meshtastic.receive.user(packet = MeshPacket dictionary)
- meshtastic.receive.data(packet = MeshPacket dictionary)
&#34;&#34;&#34;
asDict = google.protobuf.json_format.MessageToDict(meshPacket)
# /add fromId and toId fields based on the node ID
asDict[&#34;fromId&#34;] = self._nodeNumToId(asDict[&#34;from&#34;])
asDict[&#34;toId&#34;] = self._nodeNumToId(asDict[&#34;to&#34;])
# We could provide our objects as DotMaps - which work with . notation or as dictionaries
# asObj = DotMap(asDict)
topic = &#34;meshtastic.receive&#34; # Generic unknown packet type
# Warn users if firmware doesn&#39;t use new portnum based data encodings
# But do not crash, because the lib will still basically work and ignore those packet types
if meshPacket.decoded.HasField(&#34;user&#34;) or meshPacket.decoded.HasField(&#34;position&#34;):
logging.warn(&#34;Ignoring old position/user message. Recommend you update firmware to 1.1.20 or later&#34;)
if meshPacket.decoded.HasField(&#34;data&#34;):
# The default MessageToDict converts byte arrays into base64 strings.
# We don&#39;t want that - it messes up data payload. So slam in the correct
# byte array.
asDict[&#34;decoded&#34;][&#34;data&#34;][&#34;payload&#34;] = meshPacket.decoded.data.payload
# UNKNOWN_APP is the default protobuf portnum value, and therefore if not set it will not be populated at all
# to make API usage easier, set it to prevent confusion
if not &#34;portnum&#34; in asDict[&#34;decoded&#34;][&#34;data&#34;]:
asDict[&#34;decoded&#34;][&#34;data&#34;][&#34;portnum&#34;] = portnums_pb2.PortNum.Name(portnums_pb2.PortNum.UNKNOWN_APP)
portnum = asDict[&#34;decoded&#34;][&#34;data&#34;][&#34;portnum&#34;]
topic = f&#34;meshtastic.receive.data.{portnum}&#34;
# For text messages, we go ahead and decode the text to ascii for our users
if portnum == portnums_pb2.PortNum.Name(portnums_pb2.PortNum.TEXT_MESSAGE_APP):
topic = &#34;meshtastic.receive.text&#34;
# We don&#39;t throw if the utf8 is invalid in the text message. Instead we just don&#39;t populate
# the decoded.data.text and we log an error message. This at least allows some delivery to
# the app and the app can deal with the missing decoded representation.
#
# Usually btw this problem is caused by apps sending binary data but setting the payload type to
# text.
try:
asDict[&#34;decoded&#34;][&#34;data&#34;][&#34;text&#34;] = meshPacket.decoded.data.payload.decode(&#34;utf-8&#34;)
except Exception as ex:
logging.error(f&#34;Malformatted utf8 in text message: {ex}&#34;)
# decode position protobufs and update nodedb, provide decoded version as &#34;position&#34; in the published msg
if portnum == portnums_pb2.PortNum.Name(portnums_pb2.PortNum.POSITION_APP):
topic = &#34;meshtastic.receive.position&#34;
pb = mesh_pb2.Position()
pb.ParseFromString(meshPacket.decoded.data.payload)
p = google.protobuf.json_format.MessageToDict(pb)
self._fixupPosition(p)
asDict[&#34;decoded&#34;][&#34;data&#34;][&#34;position&#34;] = p
# update node DB as needed
self._getOrCreateByNum(asDict[&#34;from&#34;])[&#34;position&#34;] = p
# decode user protobufs and update nodedb, provide decoded version as &#34;position&#34; in the published msg
if portnum == portnums_pb2.PortNum.Name(portnums_pb2.PortNum.NODEINFO_APP):
topic = &#34;meshtastic.receive.user&#34;
pb = mesh_pb2.User()
pb.ParseFromString(meshPacket.decoded.data.payload)
u = google.protobuf.json_format.MessageToDict(pb)
asDict[&#34;decoded&#34;][&#34;data&#34;][&#34;user&#34;] = u
# update node DB as needed
n = self._getOrCreateByNum(asDict[&#34;from&#34;])
n[&#34;user&#34;] = u
# We now have a node ID, make sure it is uptodate in that table
self.nodes[u[&#34;id&#34;]] = u
logging.debug(f&#34;Publishing topic {topic}&#34;)
pub.sendMessage(topic, packet=asDict, interface=self)</code></pre>
</details>
<h3>Subclasses</h3>
<ul class="hlist">
<li><a title="meshtastic.BLEInterface" href="#meshtastic.BLEInterface">BLEInterface</a></li>
<li><a title="meshtastic.StreamInterface" href="#meshtastic.StreamInterface">StreamInterface</a></li>
</ul>
<h3>Instance variables</h3>
<dl>
<dt id="meshtastic.MeshInterface.channelURL"><code class="name">var <span class="ident">channelURL</span></code></dt>
<dd>
<div class="desc"><p>The sharable URL that describes the current channel</p></div>
<details class="source">
<summary>
<span>Expand source code</span>
</summary>
<pre><code class="python">@property
def channelURL(self):
&#34;&#34;&#34;The sharable URL that describes the current channel
&#34;&#34;&#34;
bytes = self.radioConfig.channel_settings.SerializeToString()
s = base64.urlsafe_b64encode(bytes).decode(&#39;ascii&#39;)
return f&#34;https://www.meshtastic.org/c/#{s}&#34;</code></pre>
</details>
</dd>
</dl>
<h3>Methods</h3>
<dl>
<dt id="meshtastic.MeshInterface.getLongName"><code class="name flex">
<span>def <span class="ident">getLongName</span></span>(<span>self)</span>
</code></dt>
<dd>
<div class="desc"></div>
<details class="source">
<summary>
<span>Expand source code</span>
</summary>
<pre><code class="python">def getLongName(self):
user = self.getMyNode()
if user is not None:
return user.get(&#39;longName&#39;, None)
return None</code></pre>
</details>
</dd>
<dt id="meshtastic.MeshInterface.getMyNode"><code class="name flex">
<span>def <span class="ident">getMyNode</span></span>(<span>self)</span>
</code></dt>
<dd>
<div class="desc"></div>
<details class="source">
<summary>
<span>Expand source code</span>
</summary>
<pre><code class="python">def getMyNode(self):
if self.myInfo is None:
return None
myId = self.myInfo.my_node_num
for _, nodeDict in self.nodes.items():
if &#39;num&#39; in nodeDict and nodeDict[&#39;num&#39;] == myId:
if &#39;user&#39; in nodeDict:
return nodeDict[&#39;user&#39;]
return None</code></pre>
</details>
</dd>
<dt id="meshtastic.MeshInterface.getShortName"><code class="name flex">
<span>def <span class="ident">getShortName</span></span>(<span>self)</span>
</code></dt>
<dd>
<div class="desc"></div>
<details class="source">
<summary>
<span>Expand source code</span>
</summary>
<pre><code class="python">def getShortName(self):
user = self.getMyNode()
if user is not None:
return user.get(&#39;shortName&#39;, None)
return None</code></pre>
</details>
</dd>
<dt id="meshtastic.MeshInterface.sendData"><code class="name flex">
<span>def <span class="ident">sendData</span></span>(<span>self, data, destinationId='^all', portNum=256, wantAck=False, wantResponse=False)</span>
</code></dt>
<dd>
<div class="desc"><p>Send a data packet to some other node</p>
<p>Keyword Arguments:
data &ndash; the data to send, either as an array of bytes or as a protobuf (which will be automatically serialized to bytes)
destinationId {nodeId or nodeNum} &ndash; where to send this message (default: {BROADCAST_ADDR})
portNum &ndash; the application portnum (similar to IP port numbers) of the destination, see portnums.proto for a list
wantAck &ndash; True if you want the message sent in a reliable manner (with retries and ack/nak provided for delivery)</p>
<p>Returns the sent packet. The id field will be populated in this packet and can be used to track future message acks/naks.</p></div>
<details class="source">
<summary>
<span>Expand source code</span>
</summary>
<pre><code class="python">def sendData(self, data, destinationId=BROADCAST_ADDR, portNum=portnums_pb2.PortNum.PRIVATE_APP, wantAck=False, wantResponse=False):
&#34;&#34;&#34;Send a data packet to some other node
Keyword Arguments:
data -- the data to send, either as an array of bytes or as a protobuf (which will be automatically serialized to bytes)
destinationId {nodeId or nodeNum} -- where to send this message (default: {BROADCAST_ADDR})
portNum -- the application portnum (similar to IP port numbers) of the destination, see portnums.proto for a list
wantAck -- True if you want the message sent in a reliable manner (with retries and ack/nak provided for delivery)
Returns the sent packet. The id field will be populated in this packet and can be used to track future message acks/naks.
&#34;&#34;&#34;
if getattr(data, &#34;SerializeToString&#34;, None):
logging.debug(f&#34;Serializing protobuf as data: {data}&#34;)
data = data.SerializeToString()
if len(data) &gt; mesh_pb2.Constants.DATA_PAYLOAD_LEN:
raise Exception(&#34;Data payload too big&#34;)
meshPacket = mesh_pb2.MeshPacket()
meshPacket.decoded.data.payload = data
meshPacket.decoded.data.portnum = portNum
meshPacket.decoded.want_response = wantResponse
return self.sendPacket(meshPacket, destinationId, wantAck=wantAck)</code></pre>
</details>
</dd>
<dt id="meshtastic.MeshInterface.sendPacket"><code class="name flex">
<span>def <span class="ident">sendPacket</span></span>(<span>self, meshPacket, destinationId='^all', wantAck=False)</span>
</code></dt>
<dd>
<div class="desc"><p>Send a MeshPacket to the specified node (or if unspecified, broadcast).
You probably don't want this - use sendData instead.</p>
<p>Returns the sent packet. The id field will be populated in this packet and can be used to track future message acks/naks.</p></div>
<details class="source">
<summary>
<span>Expand source code</span>
</summary>
<pre><code class="python">def sendPacket(self, meshPacket, destinationId=BROADCAST_ADDR, wantAck=False):
&#34;&#34;&#34;Send a MeshPacket to the specified node (or if unspecified, broadcast).
You probably don&#39;t want this - use sendData instead.
Returns the sent packet. The id field will be populated in this packet and can be used to track future message acks/naks.
&#34;&#34;&#34;
self._waitConnected()
toRadio = mesh_pb2.ToRadio()
# FIXME add support for non broadcast addresses
if destinationId is None:
raise Exception(&#34;destinationId must not be None&#34;)
elif isinstance(destinationId, int):
nodeNum = destinationId
elif destinationId == BROADCAST_ADDR:
nodeNum = BROADCAST_NUM
else:
nodeNum = self.nodes[destinationId][&#39;num&#39;]
meshPacket.to = nodeNum
meshPacket.want_ack = wantAck
# if the user hasn&#39;t set an ID for this packet (likely and recommended), we should pick a new unique ID
# so the message can be tracked.
if meshPacket.id == 0:
meshPacket.id = self._generatePacketId()
toRadio.packet.CopyFrom(meshPacket)
self._sendToRadio(toRadio)
return meshPacket</code></pre>
</details>
</dd>
<dt id="meshtastic.MeshInterface.sendPosition"><code class="name flex">
<span>def <span class="ident">sendPosition</span></span>(<span>self, latitude=0.0, longitude=0.0, altitude=0, timeSec=0, destinationId='^all', wantAck=False, wantResponse=False)</span>
</code></dt>
<dd>
<div class="desc"><p>Send a position packet to some other node (normally a broadcast)</p>
<p>Also, the device software will notice this packet and use it to automatically set its notion of
the local position.</p>
<p>If timeSec is not specified (recommended), we will use the local machine time.</p>
<p>Returns the sent packet. The id field will be populated in this packet and can be used to track future message acks/naks.</p></div>
<details class="source">
<summary>
<span>Expand source code</span>
</summary>
<pre><code class="python">def sendPosition(self, latitude=0.0, longitude=0.0, altitude=0, timeSec=0, destinationId=BROADCAST_ADDR, wantAck=False, wantResponse=False):
&#34;&#34;&#34;
Send a position packet to some other node (normally a broadcast)
Also, the device software will notice this packet and use it to automatically set its notion of
the local position.
If timeSec is not specified (recommended), we will use the local machine time.
Returns the sent packet. The id field will be populated in this packet and can be used to track future message acks/naks.
&#34;&#34;&#34;
p = mesh_pb2.Position()
if(latitude != 0.0):
p.latitude_i = int(latitude / 1e-7)
if(longitude != 0.0):
p.longitude_i = int(longitude / 1e-7)
if(altitude != 0):
p.altitude = int(altitude)
if timeSec == 0:
timeSec = time.time() # returns unix timestamp in seconds
p.time = int(timeSec)
return self.sendData(p, destinationId, portNum=portnums_pb2.PortNum.POSITION_APP, wantAck=wantAck, wantResponse=wantResponse)</code></pre>
</details>
</dd>
<dt id="meshtastic.MeshInterface.sendText"><code class="name flex">
<span>def <span class="ident">sendText</span></span>(<span>self, text, destinationId='^all', wantAck=False, wantResponse=False)</span>
</code></dt>
<dd>
<div class="desc"><p>Send a utf8 string to some other node, if the node has a display it will also be shown on the device.</p>
<h2 id="arguments">Arguments</h2>
<p>text {string} &ndash; The text to send</p>
<p>Keyword Arguments:
destinationId {nodeId or nodeNum} &ndash; where to send this message (default: {BROADCAST_ADDR})
portNum &ndash; the application portnum (similar to IP port numbers) of the destination, see portnums.proto for a list
wantAck &ndash; True if you want the message sent in a reliable manner (with retries and ack/nak provided for delivery)</p>
<p>Returns the sent packet. The id field will be populated in this packet and can be used to track future message acks/naks.</p></div>
<details class="source">
<summary>
<span>Expand source code</span>
</summary>
<pre><code class="python">def sendText(self, text, destinationId=BROADCAST_ADDR, wantAck=False, wantResponse=False):
&#34;&#34;&#34;Send a utf8 string to some other node, if the node has a display it will also be shown on the device.
Arguments:
text {string} -- The text to send
Keyword Arguments:
destinationId {nodeId or nodeNum} -- where to send this message (default: {BROADCAST_ADDR})
portNum -- the application portnum (similar to IP port numbers) of the destination, see portnums.proto for a list
wantAck -- True if you want the message sent in a reliable manner (with retries and ack/nak provided for delivery)
Returns the sent packet. The id field will be populated in this packet and can be used to track future message acks/naks.
&#34;&#34;&#34;
return self.sendData(text.encode(&#34;utf-8&#34;), destinationId,
portNum=portnums_pb2.PortNum.TEXT_MESSAGE_APP, wantAck=wantAck, wantResponse=wantResponse)</code></pre>
</details>
</dd>
<dt id="meshtastic.MeshInterface.setOwner"><code class="name flex">
<span>def <span class="ident">setOwner</span></span>(<span>self, long_name, short_name=None)</span>
</code></dt>
<dd>
<div class="desc"><p>Set device owner name</p></div>
<details class="source">
<summary>
<span>Expand source code</span>
</summary>
<pre><code class="python">def setOwner(self, long_name, short_name=None):
&#34;&#34;&#34;Set device owner name&#34;&#34;&#34;
nChars = 3
minChars = 2
if long_name is not None:
long_name = long_name.strip()
if short_name is None:
words = long_name.split()
if len(long_name) &lt;= nChars:
short_name = long_name
elif len(words) &gt;= minChars:
short_name = &#39;&#39;.join(map(lambda word: word[0], words))
else:
trans = str.maketrans(dict.fromkeys(&#39;aeiouAEIOU&#39;))
short_name = long_name[0] + long_name[1:].translate(trans)
if len(short_name) &lt; nChars:
short_name = long_name[:nChars]
t = mesh_pb2.ToRadio()
if long_name is not None:
t.set_owner.long_name = long_name
if short_name is not None:
short_name = short_name.strip()
if len(short_name) &gt; nChars:
short_name = short_name[:nChars]
t.set_owner.short_name = short_name
self._sendToRadio(t)</code></pre>
</details>
</dd>
<dt id="meshtastic.MeshInterface.setURL"><code class="name flex">
<span>def <span class="ident">setURL</span></span>(<span>self, url, write=True)</span>
</code></dt>
<dd>
<div class="desc"><p>Set mesh network URL</p></div>
<details class="source">
<summary>
<span>Expand source code</span>
</summary>
<pre><code class="python">def setURL(self, url, write=True):
&#34;&#34;&#34;Set mesh network URL&#34;&#34;&#34;
if self.radioConfig == None:
raise Exception(&#34;No RadioConfig has been read&#34;)
# URLs are of the form https://www.meshtastic.org/c/#{base64_channel_settings}
# Split on &#39;/#&#39; to find the base64 encoded channel settings
splitURL = url.split(&#34;/#&#34;)
decodedURL = base64.urlsafe_b64decode(splitURL[-1])
self.radioConfig.channel_settings.ParseFromString(decodedURL)
if write:
self.writeConfig()</code></pre>
</details>
</dd>
<dt id="meshtastic.MeshInterface.waitForConfig"><code class="name flex">
<span>def <span class="ident">waitForConfig</span></span>(<span>self, sleep=0.1, maxsecs=20, attrs=('myInfo', 'nodes', 'radioConfig'))</span>
</code></dt>
<dd>
<div class="desc"><p>Block until radio config is received. Returns True if config has been received.</p></div>
<details class="source">
<summary>
<span>Expand source code</span>
</summary>
<pre><code class="python">def waitForConfig(self, sleep=.1, maxsecs=20, attrs=(&#39;myInfo&#39;, &#39;nodes&#39;, &#39;radioConfig&#39;)):
&#34;&#34;&#34;Block until radio config is received. Returns True if config has been received.&#34;&#34;&#34;
for _ in range(int(maxsecs/sleep)):
if all(map(lambda a: getattr(self, a, None), attrs)):
return True
time.sleep(sleep)
return False</code></pre>
</details>
</dd>
<dt id="meshtastic.MeshInterface.writeConfig"><code class="name flex">
<span>def <span class="ident">writeConfig</span></span>(<span>self)</span>
</code></dt>
<dd>
<div class="desc"><p>Write the current (edited) radioConfig to the device</p></div>
<details class="source">
<summary>
<span>Expand source code</span>
</summary>
<pre><code class="python">def writeConfig(self):
&#34;&#34;&#34;Write the current (edited) radioConfig to the device&#34;&#34;&#34;
if self.radioConfig == None:
raise Exception(&#34;No RadioConfig has been read&#34;)
t = mesh_pb2.ToRadio()
t.set_radio.CopyFrom(self.radioConfig)
self._sendToRadio(t)
logging.debug(&#34;Wrote config&#34;)</code></pre>
</details>
</dd>
</dl>
</dd>
<dt id="meshtastic.SerialInterface"><code class="flex name class">
<span>class <span class="ident">SerialInterface</span></span>
<span>(</span><span>devPath=None, debugOut=None, noProto=False, connectNow=True)</span>
</code></dt>
<dd>
<div class="desc"><p>Interface class for meshtastic devices over a serial link</p>
<p>Constructor, opens a connection to a specified serial port, or if unspecified try to
find one Meshtastic device by probing</p>
<p>Keyword Arguments:
devPath {string} &ndash; A filepath to a device, i.e. /dev/ttyUSB0 (default: {None})
debugOut {stream} &ndash; If a stream is provided, any debug serial output from the device will be emitted to that stream. (default: {None})</p></div>
<details class="source">
<summary>
<span>Expand source code</span>
</summary>
<pre><code class="python">class SerialInterface(StreamInterface):
&#34;&#34;&#34;Interface class for meshtastic devices over a serial link&#34;&#34;&#34;
def __init__(self, devPath=None, debugOut=None, noProto=False, connectNow=True):
&#34;&#34;&#34;Constructor, opens a connection to a specified serial port, or if unspecified try to
find one Meshtastic device by probing
Keyword Arguments:
devPath {string} -- A filepath to a device, i.e. /dev/ttyUSB0 (default: {None})
debugOut {stream} -- If a stream is provided, any debug serial output from the device will be emitted to that stream. (default: {None})
&#34;&#34;&#34;
if devPath is None:
ports = util.findPorts()
if len(ports) == 0:
raise Exception(&#34;No Meshtastic devices detected&#34;)
elif len(ports) &gt; 1:
raise Exception(
f&#34;Multiple ports detected, you must specify a device, such as {ports[0]}&#34;)
else:
devPath = ports[0]
logging.debug(f&#34;Connecting to {devPath}&#34;)
# Note: we provide None for port here, because we will be opening it later
self.stream = serial.Serial(
None, 921600, exclusive=True, timeout=0.5)
# rts=False Needed to prevent TBEAMs resetting on OSX, because rts is connected to reset
self.stream.port = devPath
# OS-X/Windows seems to have a bug in its serial driver. It ignores that we asked for no RTSCTS
# control and will always drive RTS either high or low (rather than letting the CP102 leave
# it as an open-collector floating pin). Since it is going to drive it anyways we want to make
# sure it is driven low, so that the TBEAM won&#39;t reset
self.stream.rts = False
self.stream.open()
StreamInterface.__init__(
self, debugOut=debugOut, noProto=noProto, connectNow=connectNow)
def _disconnected(self):
&#34;&#34;&#34;We override the superclass implementation to close our port&#34;&#34;&#34;
StreamInterface._disconnected(self)</code></pre>
</details>
<h3>Ancestors</h3>
<ul class="hlist">
<li><a title="meshtastic.StreamInterface" href="#meshtastic.StreamInterface">StreamInterface</a></li>
<li><a title="meshtastic.MeshInterface" href="#meshtastic.MeshInterface">MeshInterface</a></li>
</ul>
<h3>Inherited members</h3>
<ul class="hlist">
<li><code><b><a title="meshtastic.StreamInterface" href="#meshtastic.StreamInterface">StreamInterface</a></b></code>:
<ul class="hlist">
<li><code><a title="meshtastic.StreamInterface.channelURL" href="#meshtastic.MeshInterface.channelURL">channelURL</a></code></li>
<li><code><a title="meshtastic.StreamInterface.close" href="#meshtastic.StreamInterface.close">close</a></code></li>
<li><code><a title="meshtastic.StreamInterface.connect" href="#meshtastic.StreamInterface.connect">connect</a></code></li>
<li><code><a title="meshtastic.StreamInterface.sendData" href="#meshtastic.MeshInterface.sendData">sendData</a></code></li>
<li><code><a title="meshtastic.StreamInterface.sendPacket" href="#meshtastic.MeshInterface.sendPacket">sendPacket</a></code></li>
<li><code><a title="meshtastic.StreamInterface.sendPosition" href="#meshtastic.MeshInterface.sendPosition">sendPosition</a></code></li>
<li><code><a title="meshtastic.StreamInterface.sendText" href="#meshtastic.MeshInterface.sendText">sendText</a></code></li>
<li><code><a title="meshtastic.StreamInterface.setOwner" href="#meshtastic.MeshInterface.setOwner">setOwner</a></code></li>
<li><code><a title="meshtastic.StreamInterface.setURL" href="#meshtastic.MeshInterface.setURL">setURL</a></code></li>
<li><code><a title="meshtastic.StreamInterface.waitForConfig" href="#meshtastic.MeshInterface.waitForConfig">waitForConfig</a></code></li>
<li><code><a title="meshtastic.StreamInterface.writeConfig" href="#meshtastic.MeshInterface.writeConfig">writeConfig</a></code></li>
</ul>
</li>
</ul>
</dd>
<dt id="meshtastic.StreamInterface"><code class="flex name class">
<span>class <span class="ident">StreamInterface</span></span>
<span>(</span><span>debugOut=None, noProto=False, connectNow=True)</span>
</code></dt>
<dd>
<div class="desc"><p>Interface class for meshtastic devices over a stream link (serial, TCP, etc)</p>
<p>Constructor, opens a connection to self.stream </p>
<p>Keyword Arguments:
devPath {string} &ndash; A filepath to a device, i.e. /dev/ttyUSB0 (default: {None})
debugOut {stream} &ndash; If a stream is provided, any debug serial output from the device will be emitted to that stream. (default: {None})</p>
<h2 id="raises">Raises</h2>
<dl>
<dt><code>Exception</code></dt>
<dd>[description]</dd>
<dt><code>Exception</code></dt>
<dd>[description]</dd>
</dl></div>
<details class="source">
<summary>
<span>Expand source code</span>
</summary>
<pre><code class="python">class StreamInterface(MeshInterface):
&#34;&#34;&#34;Interface class for meshtastic devices over a stream link (serial, TCP, etc)&#34;&#34;&#34;
def __init__(self, debugOut=None, noProto=False, connectNow=True):
&#34;&#34;&#34;Constructor, opens a connection to self.stream
Keyword Arguments:
devPath {string} -- A filepath to a device, i.e. /dev/ttyUSB0 (default: {None})
debugOut {stream} -- If a stream is provided, any debug serial output from the device will be emitted to that stream. (default: {None})
Raises:
Exception: [description]
Exception: [description]
&#34;&#34;&#34;
if not hasattr(self, &#39;stream&#39;):
raise Exception(
&#34;StreamInterface is now abstract (to update existing code create SerialInterface instead)&#34;)
self._rxBuf = bytes() # empty
self._wantExit = False
# FIXME, figure out why daemon=True causes reader thread to exit too early
self._rxThread = threading.Thread(target=self.__reader, args=())
MeshInterface.__init__(self, debugOut=debugOut, noProto=noProto)
# Start the reader thread after superclass constructor completes init
if connectNow:
self.connect()
def connect(self):
&#34;&#34;&#34;Connect to our radio
Normally this is called automatically by the constructor, but if you passed in connectNow=False you can manually
start the reading thread later.
&#34;&#34;&#34;
# Send some bogus UART characters to force a sleeping device to wake
self._writeBytes(bytes([START1, START1, START1, START1]))
time.sleep(0.1) # wait 100ms to give device time to start running
self._rxThread.start()
if not self.noProto: # Wait for the db download if using the protocol
self._waitConnected()
def _disconnected(self):
&#34;&#34;&#34;We override the superclass implementation to close our port&#34;&#34;&#34;
MeshInterface._disconnected(self)
logging.debug(&#34;Closing our port&#34;)
if not self.stream is None:
self.stream.close()
def _writeBytes(self, b):
&#34;&#34;&#34;Write an array of bytes to our stream and flush&#34;&#34;&#34;
self.stream.write(b)
self.stream.flush()
def _readBytes(self, len):
&#34;&#34;&#34;Read an array of bytes from our stream&#34;&#34;&#34;
return self.stream.read(len)
def _sendToRadioImpl(self, toRadio):
&#34;&#34;&#34;Send a ToRadio protobuf to the device&#34;&#34;&#34;
logging.debug(f&#34;Sending: {toRadio}&#34;)
b = toRadio.SerializeToString()
bufLen = len(b)
# We convert into a string, because the TCP code doesn&#39;t work with byte arrays
header = bytes([START1, START2, (bufLen &gt;&gt; 8) &amp; 0xff, bufLen &amp; 0xff])
self._writeBytes(header + b)
def close(self):
&#34;&#34;&#34;Close a connection to the device&#34;&#34;&#34;
logging.debug(&#34;Closing serial stream&#34;)
# pyserial cancel_read doesn&#39;t seem to work, therefore we ask the reader thread to close things for us
self._wantExit = True
if self._rxThread != threading.current_thread():
self._rxThread.join() # wait for it to exit
def __reader(self):
&#34;&#34;&#34;The reader thread that reads bytes from our stream&#34;&#34;&#34;
empty = bytes()
try:
while not self._wantExit:
b = self._readBytes(1)
if len(b) &gt; 0:
# logging.debug(f&#34;read returned {b}&#34;)
c = b[0]
ptr = len(self._rxBuf)
# Assume we want to append this byte, fixme use bytearray instead
self._rxBuf = self._rxBuf + b
if ptr == 0: # looking for START1
if c != START1:
self._rxBuf = empty # failed to find start
if self.debugOut != None:
try:
self.debugOut.write(b.decode(&#34;utf-8&#34;))
except:
self.debugOut.write(&#39;?&#39;)
elif ptr == 1: # looking for START2
if c != START2:
self._rxBuf = empty # failed to find start2
elif ptr &gt;= HEADER_LEN: # we&#39;ve at least got a header
# big endian length follos header
packetlen = (self._rxBuf[2] &lt;&lt; 8) + self._rxBuf[3]
if ptr == HEADER_LEN: # we _just_ finished reading the header, validate length
if packetlen &gt; MAX_TO_FROM_RADIO_SIZE:
self._rxBuf = empty # length ws out out bounds, restart
if len(self._rxBuf) != 0 and ptr + 1 == packetlen + HEADER_LEN:
try:
self._handleFromRadio(self._rxBuf[HEADER_LEN:])
except Exception as ex:
logging.error(
f&#34;Error while handling message from radio {ex}&#34;)
traceback.print_exc()
self._rxBuf = empty
else:
# logging.debug(f&#34;timeout&#34;)
pass
except serial.SerialException as ex:
logging.warn(
f&#34;Meshtastic serial port disconnected, disconnecting... {ex}&#34;)
finally:
logging.debug(&#34;reader is exiting&#34;)
self._disconnected()</code></pre>
</details>
<h3>Ancestors</h3>
<ul class="hlist">
<li><a title="meshtastic.MeshInterface" href="#meshtastic.MeshInterface">MeshInterface</a></li>
</ul>
<h3>Subclasses</h3>
<ul class="hlist">
<li><a title="meshtastic.SerialInterface" href="#meshtastic.SerialInterface">SerialInterface</a></li>
<li><a title="meshtastic.TCPInterface" href="#meshtastic.TCPInterface">TCPInterface</a></li>
</ul>
<h3>Methods</h3>
<dl>
<dt id="meshtastic.StreamInterface.close"><code class="name flex">
<span>def <span class="ident">close</span></span>(<span>self)</span>
</code></dt>
<dd>
<div class="desc"><p>Close a connection to the device</p></div>
<details class="source">
<summary>
<span>Expand source code</span>
</summary>
<pre><code class="python">def close(self):
&#34;&#34;&#34;Close a connection to the device&#34;&#34;&#34;
logging.debug(&#34;Closing serial stream&#34;)
# pyserial cancel_read doesn&#39;t seem to work, therefore we ask the reader thread to close things for us
self._wantExit = True
if self._rxThread != threading.current_thread():
self._rxThread.join() # wait for it to exit</code></pre>
</details>
</dd>
<dt id="meshtastic.StreamInterface.connect"><code class="name flex">
<span>def <span class="ident">connect</span></span>(<span>self)</span>
</code></dt>
<dd>
<div class="desc"><p>Connect to our radio</p>
<p>Normally this is called automatically by the constructor, but if you passed in connectNow=False you can manually
start the reading thread later.</p></div>
<details class="source">
<summary>
<span>Expand source code</span>
</summary>
<pre><code class="python">def connect(self):
&#34;&#34;&#34;Connect to our radio
Normally this is called automatically by the constructor, but if you passed in connectNow=False you can manually
start the reading thread later.
&#34;&#34;&#34;
# Send some bogus UART characters to force a sleeping device to wake
self._writeBytes(bytes([START1, START1, START1, START1]))
time.sleep(0.1) # wait 100ms to give device time to start running
self._rxThread.start()
if not self.noProto: # Wait for the db download if using the protocol
self._waitConnected()</code></pre>
</details>
</dd>
</dl>
<h3>Inherited members</h3>
<ul class="hlist">
<li><code><b><a title="meshtastic.MeshInterface" href="#meshtastic.MeshInterface">MeshInterface</a></b></code>:
<ul class="hlist">
<li><code><a title="meshtastic.MeshInterface.channelURL" href="#meshtastic.MeshInterface.channelURL">channelURL</a></code></li>
<li><code><a title="meshtastic.MeshInterface.sendData" href="#meshtastic.MeshInterface.sendData">sendData</a></code></li>
<li><code><a title="meshtastic.MeshInterface.sendPacket" href="#meshtastic.MeshInterface.sendPacket">sendPacket</a></code></li>
<li><code><a title="meshtastic.MeshInterface.sendPosition" href="#meshtastic.MeshInterface.sendPosition">sendPosition</a></code></li>
<li><code><a title="meshtastic.MeshInterface.sendText" href="#meshtastic.MeshInterface.sendText">sendText</a></code></li>
<li><code><a title="meshtastic.MeshInterface.setOwner" href="#meshtastic.MeshInterface.setOwner">setOwner</a></code></li>
<li><code><a title="meshtastic.MeshInterface.setURL" href="#meshtastic.MeshInterface.setURL">setURL</a></code></li>
<li><code><a title="meshtastic.MeshInterface.waitForConfig" href="#meshtastic.MeshInterface.waitForConfig">waitForConfig</a></code></li>
<li><code><a title="meshtastic.MeshInterface.writeConfig" href="#meshtastic.MeshInterface.writeConfig">writeConfig</a></code></li>
</ul>
</li>
</ul>
</dd>
<dt id="meshtastic.TCPInterface"><code class="flex name class">
<span>class <span class="ident">TCPInterface</span></span>
<span>(</span><span>hostname, debugOut=None, noProto=False, connectNow=True, portNumber=4403)</span>
</code></dt>
<dd>
<div class="desc"><p>Interface class for meshtastic devices over a TCP link</p>
<p>Constructor, opens a connection to a specified IP address/hostname</p>
<p>Keyword Arguments:
hostname {string} &ndash; Hostname/IP address of the device to connect to</p></div>
<details class="source">
<summary>
<span>Expand source code</span>
</summary>
<pre><code class="python">class TCPInterface(StreamInterface):
&#34;&#34;&#34;Interface class for meshtastic devices over a TCP link&#34;&#34;&#34;
def __init__(self, hostname, debugOut=None, noProto=False, connectNow=True, portNumber=4403):
&#34;&#34;&#34;Constructor, opens a connection to a specified IP address/hostname
Keyword Arguments:
hostname {string} -- Hostname/IP address of the device to connect to
&#34;&#34;&#34;
logging.debug(f&#34;Connecting to {hostname}&#34;)
server_address = (hostname, portNumber)
sock = socket.create_connection(server_address)
# Instead of wrapping as a stream, we use the native socket API
# self.stream = sock.makefile(&#39;rw&#39;)
self.stream = None
self.socket = sock
StreamInterface.__init__(
self, debugOut=debugOut, noProto=noProto, connectNow=connectNow)
def _disconnected(self):
&#34;&#34;&#34;We override the superclass implementation to close our port&#34;&#34;&#34;
StreamInterface._disconnected(self)
logging.debug(&#34;Closing our socket&#34;)
if not self.socket is None:
self.socket.close()
def _writeBytes(self, b):
&#34;&#34;&#34;Write an array of bytes to our stream and flush&#34;&#34;&#34;
self.socket.send(b)
def _readBytes(self, len):
&#34;&#34;&#34;Read an array of bytes from our stream&#34;&#34;&#34;
return self.socket.recv(len)</code></pre>
</details>
<h3>Ancestors</h3>
<ul class="hlist">
<li><a title="meshtastic.StreamInterface" href="#meshtastic.StreamInterface">StreamInterface</a></li>
<li><a title="meshtastic.MeshInterface" href="#meshtastic.MeshInterface">MeshInterface</a></li>
</ul>
<h3>Inherited members</h3>
<ul class="hlist">
<li><code><b><a title="meshtastic.StreamInterface" href="#meshtastic.StreamInterface">StreamInterface</a></b></code>:
<ul class="hlist">
<li><code><a title="meshtastic.StreamInterface.channelURL" href="#meshtastic.MeshInterface.channelURL">channelURL</a></code></li>
<li><code><a title="meshtastic.StreamInterface.close" href="#meshtastic.StreamInterface.close">close</a></code></li>
<li><code><a title="meshtastic.StreamInterface.connect" href="#meshtastic.StreamInterface.connect">connect</a></code></li>
<li><code><a title="meshtastic.StreamInterface.sendData" href="#meshtastic.MeshInterface.sendData">sendData</a></code></li>
<li><code><a title="meshtastic.StreamInterface.sendPacket" href="#meshtastic.MeshInterface.sendPacket">sendPacket</a></code></li>
<li><code><a title="meshtastic.StreamInterface.sendPosition" href="#meshtastic.MeshInterface.sendPosition">sendPosition</a></code></li>
<li><code><a title="meshtastic.StreamInterface.sendText" href="#meshtastic.MeshInterface.sendText">sendText</a></code></li>
<li><code><a title="meshtastic.StreamInterface.setOwner" href="#meshtastic.MeshInterface.setOwner">setOwner</a></code></li>
<li><code><a title="meshtastic.StreamInterface.setURL" href="#meshtastic.MeshInterface.setURL">setURL</a></code></li>
<li><code><a title="meshtastic.StreamInterface.waitForConfig" href="#meshtastic.MeshInterface.waitForConfig">waitForConfig</a></code></li>
<li><code><a title="meshtastic.StreamInterface.writeConfig" href="#meshtastic.MeshInterface.writeConfig">writeConfig</a></code></li>
</ul>
</li>
</ul>
</dd>
</dl>
</section>
</article>
<nav id="sidebar">
<h1>Index</h1>
<div class="toc">
<ul>
<li><a href="#an-api-for-meshtastic-devices">an API for Meshtastic devices</a></li>
<li><a href="#published-pubsub-topics">Published PubSub topics</a></li>
<li><a href="#example-usage">Example Usage</a></li>
</ul>
</div>
<ul id="index">
<li><h3><a href="#header-submodules">Sub-modules</a></h3>
<ul>
<li><code><a title="meshtastic.ble" href="ble.html">meshtastic.ble</a></code></li>
<li><code><a title="meshtastic.mesh_pb2" href="mesh_pb2.html">meshtastic.mesh_pb2</a></code></li>
<li><code><a title="meshtastic.portnums_pb2" href="portnums_pb2.html">meshtastic.portnums_pb2</a></code></li>
<li><code><a title="meshtastic.remote_hardware" href="remote_hardware.html">meshtastic.remote_hardware</a></code></li>
<li><code><a title="meshtastic.remote_hardware_pb2" href="remote_hardware_pb2.html">meshtastic.remote_hardware_pb2</a></code></li>
<li><code><a title="meshtastic.test" href="test.html">meshtastic.test</a></code></li>
<li><code><a title="meshtastic.util" href="util.html">meshtastic.util</a></code></li>
</ul>
</li>
<li><h3><a href="#header-variables">Global variables</a></h3>
<ul class="">
<li><code><a title="meshtastic.MY_CONFIG_ID" href="#meshtastic.MY_CONFIG_ID">MY_CONFIG_ID</a></code></li>
</ul>
</li>
<li><h3><a href="#header-classes">Classes</a></h3>
<ul>
<li>
<h4><code><a title="meshtastic.BLEInterface" href="#meshtastic.BLEInterface">BLEInterface</a></code></h4>
<ul class="">
<li><code><a title="meshtastic.BLEInterface.close" href="#meshtastic.BLEInterface.close">close</a></code></li>
</ul>
</li>
<li>
<h4><code><a title="meshtastic.MeshInterface" href="#meshtastic.MeshInterface">MeshInterface</a></code></h4>
<ul class="two-column">
<li><code><a title="meshtastic.MeshInterface.channelURL" href="#meshtastic.MeshInterface.channelURL">channelURL</a></code></li>
<li><code><a title="meshtastic.MeshInterface.getLongName" href="#meshtastic.MeshInterface.getLongName">getLongName</a></code></li>
<li><code><a title="meshtastic.MeshInterface.getMyNode" href="#meshtastic.MeshInterface.getMyNode">getMyNode</a></code></li>
<li><code><a title="meshtastic.MeshInterface.getShortName" href="#meshtastic.MeshInterface.getShortName">getShortName</a></code></li>
<li><code><a title="meshtastic.MeshInterface.sendData" href="#meshtastic.MeshInterface.sendData">sendData</a></code></li>
<li><code><a title="meshtastic.MeshInterface.sendPacket" href="#meshtastic.MeshInterface.sendPacket">sendPacket</a></code></li>
<li><code><a title="meshtastic.MeshInterface.sendPosition" href="#meshtastic.MeshInterface.sendPosition">sendPosition</a></code></li>
<li><code><a title="meshtastic.MeshInterface.sendText" href="#meshtastic.MeshInterface.sendText">sendText</a></code></li>
<li><code><a title="meshtastic.MeshInterface.setOwner" href="#meshtastic.MeshInterface.setOwner">setOwner</a></code></li>
<li><code><a title="meshtastic.MeshInterface.setURL" href="#meshtastic.MeshInterface.setURL">setURL</a></code></li>
<li><code><a title="meshtastic.MeshInterface.waitForConfig" href="#meshtastic.MeshInterface.waitForConfig">waitForConfig</a></code></li>
<li><code><a title="meshtastic.MeshInterface.writeConfig" href="#meshtastic.MeshInterface.writeConfig">writeConfig</a></code></li>
</ul>
</li>
<li>
<h4><code><a title="meshtastic.SerialInterface" href="#meshtastic.SerialInterface">SerialInterface</a></code></h4>
</li>
<li>
<h4><code><a title="meshtastic.StreamInterface" href="#meshtastic.StreamInterface">StreamInterface</a></code></h4>
<ul class="">
<li><code><a title="meshtastic.StreamInterface.close" href="#meshtastic.StreamInterface.close">close</a></code></li>
<li><code><a title="meshtastic.StreamInterface.connect" href="#meshtastic.StreamInterface.connect">connect</a></code></li>
</ul>
</li>
<li>
<h4><code><a title="meshtastic.TCPInterface" href="#meshtastic.TCPInterface">TCPInterface</a></code></h4>
</li>
</ul>
</li>
</ul>
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