Module meshtastic.supported_device
Supported Meshtastic Devices - This is a class and collection of Meshtastic devices. It is used for auto detection as to which device might be connected.
Expand source code
""" Supported Meshtastic Devices - This is a class and collection of Meshtastic devices.
It is used for auto detection as to which device might be connected.
"""
import platform
import subprocess
import re
# Goal is to detect which device and port to use from the supported devices
# without installing any libraries that are not currently in the python meshtastic library
class SupportedDevice():
"""Devices supported on Meshtastic"""
def __init__(self, name, version=None, for_firmware=None, device_class="esp32",
baseport_on_linux=None, baseport_on_mac=None, baseport_on_windows="COM",
usb_vendor_id_in_hex=None, usb_product_id_in_hex=None):
""" constructor """
self.name = name
self.version = version
self.for_firmware = for_firmware
self.device_class = device_class # could be "nrf52"
# when you run "lsusb -d xxxx:" in linux
self.usb_vendor_id_in_hex = usb_vendor_id_in_hex # store in lower case
self.usb_product_id_in_hex = usb_product_id_in_hex # store in lower case
self.baseport_on_linux = baseport_on_linux # ex: ttyUSB or ttyACM
self.baseport_on_mac = baseport_on_mac
self.baseport_on_windows = baseport_on_windows
# supported devices
tbeam_v0_7 = SupportedDevice(name="T-Beam", version="0.7", for_firmware="tbeam0.7",
baseport_on_linux="ttyACM", baseport_on_mac="cu.usbmodem",
usb_vendor_id_in_hex="1a86", usb_product_id_in_hex="55d4")
tbeam_v1_1 = SupportedDevice(name="T-Beam", version="1.1", for_firmware="tbeam",
baseport_on_linux="ttyACM", baseport_on_mac="cu.usbmodem",
usb_vendor_id_in_hex="1a86", usb_product_id_in_hex="55d4")
tbeam_M8N = SupportedDevice(name="T-Beam", version="M8N", for_firmware="tbeam",
baseport_on_linux="ttyACM", baseport_on_mac="cu.usbmodem",
usb_vendor_id_in_hex="1a86", usb_product_id_in_hex="55d4")
tbeam_M8N_SX1262 = SupportedDevice(name="T-Beam", version="M8N_SX1262", for_firmware="tbeam",
baseport_on_linux="ttyACM", baseport_on_mac="cu.usbmodem",
usb_vendor_id_in_hex="1a86", usb_product_id_in_hex="55d4")
tlora_v1_1 = SupportedDevice(name="T-Lora", version="1.1", for_firmware="tlora-v1",
baseport_on_linux="ttyUSB", baseport_on_mac="cu.usbserial",
usb_vendor_id_in_hex="10c4", usb_product_id_in_hex="ea60")
tlora_v1_3 = SupportedDevice(name="T-Lora", version="1.3", for_firmware="tlora-v1-3",
baseport_on_linux="ttyUSB", baseport_on_mac="cu.usbserial",
usb_vendor_id_in_hex="10c4", usb_product_id_in_hex="ea60")
tlora_v2_0 = SupportedDevice(name="T-Lora", version="2.0", for_firmware="tlora-v2-1",
baseport_on_linux="ttyACM", baseport_on_mac="cu.usbmodem",
usb_vendor_id_in_hex="1a86", usb_product_id_in_hex="55d4")
tlora_v2_1 = SupportedDevice(name="T-Lora", version="2.1", for_firmware="tlora-v2-1",
baseport_on_linux="ttyACM", baseport_on_mac="cu.usbmodem",
usb_vendor_id_in_hex="1a86", usb_product_id_in_hex="55d4")
tlora_v2_1_1_6 = SupportedDevice(name="T-Lora", version="2.1-1.6", for_firmware="tlora-v2-1-1.6",
baseport_on_linux="ttyACM", baseport_on_mac="cu.usbmodem",
usb_vendor_id_in_hex="1a86", usb_product_id_in_hex="55d4")
heltec_v1 = SupportedDevice(name="Heltec", version="1", for_firmware="heltec-v1",
baseport_on_linux="ttyUSB", baseport_on_mac="cu.usbserial-",
usb_vendor_id_in_hex="10c4", usb_product_id_in_hex="ea60")
heltec_v2_0 = SupportedDevice(name="Heltec", version="2.0", for_firmware="heltec-v2.0",
baseport_on_linux="ttyUSB", baseport_on_mac="cu.usbserial-",
usb_vendor_id_in_hex="10c4", usb_product_id_in_hex="ea60")
heltec_v2_1 = SupportedDevice(name="Heltec", version="2.1", for_firmware="heltec-v2.1",
baseport_on_linux="ttyUSB", baseport_on_mac="cu.usbserial-",
usb_vendor_id_in_hex="10c4", usb_product_id_in_hex="ea60")
rak11200 = SupportedDevice(name="RAK 11200", version="", for_firmware="rak11200",
baseport_on_linux="ttyUSB", baseport_on_mac="cu.usbserial-",
usb_vendor_id_in_hex="1a86", usb_product_id_in_hex="7523")
meshtastic_diy_v1 = SupportedDevice(name="Meshtastic DIY", version="1", for_firmware="meshtastic-diy-v1",
baseport_on_linux="ttyUSB", baseport_on_mac="cu.usbserial-",
usb_vendor_id_in_hex="10c4", usb_product_id_in_hex="ea60")
# Note: The T-Echo reports product id in boot mode
techo_1 = SupportedDevice(name="T-Echo", version="1", for_firmware="t-echo-1", device_class="nrf52",
baseport_on_linux="ttyACM", baseport_on_mac="cu.usbmodem",
usb_vendor_id_in_hex="239a", usb_product_id_in_hex="0029")
rak4631_5005 = SupportedDevice(name="RAK 4631 5005", version="", for_firmware="rak4631_5005",
device_class="nrf52",
baseport_on_linux="ttyACM", baseport_on_mac="cu.usbmodem",
usb_vendor_id_in_hex="239a", usb_product_id_in_hex="0029")
# Note: The 19003 reports same product id as 5005 in boot mode
rak4631_19003 = SupportedDevice(name="RAK 4631 19003", version="", for_firmware="rak4631_19003",
device_class="nrf52",
baseport_on_linux="ttyACM", baseport_on_mac="cu.usbmodem",
usb_vendor_id_in_hex="239a", usb_product_id_in_hex="8029")
supported_devices = [tbeam_v0_7, tbeam_v1_1, tbeam_M8N, tbeam_M8N_SX1262,
tlora_v1_1, tlora_v1_3, tlora_v2_0, tlora_v2_1, tlora_v2_1_1_6,
heltec_v1, heltec_v2_0, heltec_v2_1,
meshtastic_diy_v1, techo_1, rak4631_5005, rak4631_19003,
rak11200]
def get_unique_vendor_ids():
"""Return a set of unique vendor ids"""
vids = set()
for d in supported_devices:
if d.usb_vendor_id_in_hex:
vids.add(d.usb_vendor_id_in_hex)
return vids
def get_devices_with_vendor_id(vid):
"""Return a set of unique devices with the vendor id"""
sd = set()
for d in supported_devices:
if d.usb_vendor_id_in_hex == vid:
sd.add(d)
return sd
def active_ports_on_supported_devices(sds):
"""Return a set of active ports based on the supplied supported devices"""
ports = set()
baseports = set()
system = platform.system()
# figure out what possible base ports there are
for d in sds:
if system == "Linux":
baseports.add(d.baseport_on_linux)
elif system == "Darwin":
baseports.add(d.baseport_on_mac)
elif system == "Windows":
baseports.add(d.baseport_on_windows)
for bp in baseports:
if system == "Linux":
# see if we have any devices (ignoring any stderr output)
command = f'ls -al /dev/{bp}* 2> /dev/null'
#print(f'command:{command}')
_, ls_output = subprocess.getstatusoutput(command)
#print(f'ls_output:{ls_output}')
# if we got output, there are ports
if len(ls_output) > 0:
#print('got output')
# for each line of output
lines = ls_output.split('\n')
#print(f'lines:{lines}')
for line in lines:
parts = line.split(' ')
#print(f'parts:{parts}')
port = parts[-1]
#print(f'port:{port}')
ports.add(port)
elif system == "Darwin":
# see if we have any devices (ignoring any stderr output)
command = f'ls -al /dev/{bp}* 2> /dev/null'
#print(f'command:{command}')
_, ls_output = subprocess.getstatusoutput(command)
#print(f'ls_output:{ls_output}')
# if we got output, there are ports
if len(ls_output) > 0:
#print('got output')
# for each line of output
lines = ls_output.split('\n')
#print(f'lines:{lines}')
for line in lines:
parts = line.split(' ')
#print(f'parts:{parts}')
port = parts[-1]
#print(f'port:{port}')
ports.add(port)
elif system == "Windows":
# for each device in supported devices found
for d in sds:
# find the port(s)
com_ports = detect_windows_port(d)
#print(f'com_ports:{com_ports}')
# add all ports
for com_port in com_ports:
ports.add(com_port)
return ports
def detect_windows_port(sd):
"""detect if Windows port"""
ports = set()
if sd:
system = platform.system()
if system == "Windows":
command = ('powershell.exe "[Console]::OutputEncoding = [Text.UTF8Encoding]::UTF8;'
'Get-PnpDevice -PresentOnly | Where-Object{ ($_.DeviceId -like ')
command += f"'*{sd.usb_vendor_id_in_hex.upper()}*'"
command += ')} | Format-List"'
#print(f'command:{command}')
_, sp_output = subprocess.getstatusoutput(command)
#print(f'sp_output:{sp_output}')
p = re.compile(r'\(COM(.*)\)')
for x in p.findall(sp_output):
#print(f'x:{x}')
ports.add(f'COM{x}')
return portsFunctions
def active_ports_on_supported_devices(sds)-
Return a set of active ports based on the supplied supported devices
Expand source code
def active_ports_on_supported_devices(sds): """Return a set of active ports based on the supplied supported devices""" ports = set() baseports = set() system = platform.system() # figure out what possible base ports there are for d in sds: if system == "Linux": baseports.add(d.baseport_on_linux) elif system == "Darwin": baseports.add(d.baseport_on_mac) elif system == "Windows": baseports.add(d.baseport_on_windows) for bp in baseports: if system == "Linux": # see if we have any devices (ignoring any stderr output) command = f'ls -al /dev/{bp}* 2> /dev/null' #print(f'command:{command}') _, ls_output = subprocess.getstatusoutput(command) #print(f'ls_output:{ls_output}') # if we got output, there are ports if len(ls_output) > 0: #print('got output') # for each line of output lines = ls_output.split('\n') #print(f'lines:{lines}') for line in lines: parts = line.split(' ') #print(f'parts:{parts}') port = parts[-1] #print(f'port:{port}') ports.add(port) elif system == "Darwin": # see if we have any devices (ignoring any stderr output) command = f'ls -al /dev/{bp}* 2> /dev/null' #print(f'command:{command}') _, ls_output = subprocess.getstatusoutput(command) #print(f'ls_output:{ls_output}') # if we got output, there are ports if len(ls_output) > 0: #print('got output') # for each line of output lines = ls_output.split('\n') #print(f'lines:{lines}') for line in lines: parts = line.split(' ') #print(f'parts:{parts}') port = parts[-1] #print(f'port:{port}') ports.add(port) elif system == "Windows": # for each device in supported devices found for d in sds: # find the port(s) com_ports = detect_windows_port(d) #print(f'com_ports:{com_ports}') # add all ports for com_port in com_ports: ports.add(com_port) return ports def detect_windows_port(sd)-
detect if Windows port
Expand source code
def detect_windows_port(sd): """detect if Windows port""" ports = set() if sd: system = platform.system() if system == "Windows": command = ('powershell.exe "[Console]::OutputEncoding = [Text.UTF8Encoding]::UTF8;' 'Get-PnpDevice -PresentOnly | Where-Object{ ($_.DeviceId -like ') command += f"'*{sd.usb_vendor_id_in_hex.upper()}*'" command += ')} | Format-List"' #print(f'command:{command}') _, sp_output = subprocess.getstatusoutput(command) #print(f'sp_output:{sp_output}') p = re.compile(r'\(COM(.*)\)') for x in p.findall(sp_output): #print(f'x:{x}') ports.add(f'COM{x}') return ports def get_devices_with_vendor_id(vid)-
Return a set of unique devices with the vendor id
Expand source code
def get_devices_with_vendor_id(vid): """Return a set of unique devices with the vendor id""" sd = set() for d in supported_devices: if d.usb_vendor_id_in_hex == vid: sd.add(d) return sd def get_unique_vendor_ids()-
Return a set of unique vendor ids
Expand source code
def get_unique_vendor_ids(): """Return a set of unique vendor ids""" vids = set() for d in supported_devices: if d.usb_vendor_id_in_hex: vids.add(d.usb_vendor_id_in_hex) return vids
Classes
class SupportedDevice (name, version=None, for_firmware=None, device_class='esp32', baseport_on_linux=None, baseport_on_mac=None, baseport_on_windows='COM', usb_vendor_id_in_hex=None, usb_product_id_in_hex=None)-
Devices supported on Meshtastic
constructor
Expand source code
class SupportedDevice(): """Devices supported on Meshtastic""" def __init__(self, name, version=None, for_firmware=None, device_class="esp32", baseport_on_linux=None, baseport_on_mac=None, baseport_on_windows="COM", usb_vendor_id_in_hex=None, usb_product_id_in_hex=None): """ constructor """ self.name = name self.version = version self.for_firmware = for_firmware self.device_class = device_class # could be "nrf52" # when you run "lsusb -d xxxx:" in linux self.usb_vendor_id_in_hex = usb_vendor_id_in_hex # store in lower case self.usb_product_id_in_hex = usb_product_id_in_hex # store in lower case self.baseport_on_linux = baseport_on_linux # ex: ttyUSB or ttyACM self.baseport_on_mac = baseport_on_mac self.baseport_on_windows = baseport_on_windows