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PyMeshCore GUI is an open-source desktop application for interacting with the MeshCore network.
It focuses on **chatting, prototyping, and development** on top of MeshCore, with an emphasis on
desktop workflows and developer accessibility.

The project is built using PySide6 (Qt for Python) and meshcore-py.
This commit is contained in:
Stefan de Konink
2026-01-04 20:54:12 +01:00
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For more information on this, and how to apply and follow the GNU GPL, see
<https://www.gnu.org/licenses/>.
The GNU General Public License does not permit incorporating your program
into proprietary programs. If your program is a subroutine library, you
may consider it more useful to permit linking proprietary applications with
the library. If this is what you want to do, use the GNU Lesser General
Public License instead of this License. But first, please read
<https://www.gnu.org/licenses/why-not-lgpl.html>.

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# PyMeshCore GUI
**PyMeshCore GUI** is an open-source desktop application for interacting with the MeshCore network.
It focuses on **chatting, prototyping, and development** on top of MeshCore, with an emphasis on
desktop workflows and developer accessibility.
The project is built using **PySide6 (Qt for Python)** and **meshcore-py**.
This is an early, experimental release.
---
## Motivation
MeshCore provides powerful mesh networking capabilities, but existing clients are closed source.
PyMeshCore GUI aims to explore what an **open, extensible desktop client** can look like, while also
serving as a platform for experimentation and future development.
The long-term vision is a **full Qt-based stack**, potentially including a native C++ core
(`QMeshCore`) with a clean GUI layered on top.
---
## Features (Current)
- Desktop GUI built with PySide6
- MeshCore connectivity via `meshcore-py`
- Chat-oriented interface
- Designed for experimentation and prototyping
- Cross-platform (where supported by dependencies)
---
## Installation
This project uses **uv**.
```bash
uv sync
```
---
## Running
```bash
uv run meshcore_gui
```
---
## Project Status
PyMeshCore GUI is under active development and should be considered alpha software.
APIs, UI, and internal structure may change at any time.
Contributions, feedback, and experimentation are welcome.
---
## License
This project is licensed under the GNU General Public License v3 (GPLv3).

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[project]
name = "PyMeshCoreGUI"
version = "0.1.0"
description = "An open source Qt application build on MeshCore."
authors = [
{ name = "Stefan de Konink", email = "stefan@konink.de" },
]
dependencies = [
"PySide6",
"meshcore",
]
requires-python = ">=3.12"
[project.scripts]
meshcore-gui = "meshcore_gui.main:main"
[build-system]
requires = ["setuptools"]
build-backend = "setuptools.build_meta"
[tool.ruff]
line-length = 88
[tool.black]
line-length = 88
[tool.ty]
# Configuration for ty (if any) can go here

8
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Metadata-Version: 2.4
Name: PyMeshCoreGUI
Version: 0.1.0
Summary: An open source Qt application build on MeshCore.
Author-email: Stefan de Konink <stefan@konink.de>
Requires-Python: >=3.12
Requires-Dist: PySide6
Requires-Dist: meshcore

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pyproject.toml
src/PyMeshCoreGUI.egg-info/PKG-INFO
src/PyMeshCoreGUI.egg-info/SOURCES.txt
src/PyMeshCoreGUI.egg-info/dependency_links.txt
src/PyMeshCoreGUI.egg-info/entry_points.txt
src/PyMeshCoreGUI.egg-info/requires.txt
src/PyMeshCoreGUI.egg-info/top_level.txt
src/meshcore_gui/__init__.py
src/meshcore_gui/main.py
src/meshcore_gui/controllers/__init__.py
src/meshcore_gui/controllers/channel_controller.py
src/meshcore_gui/controllers/contact_controller.py
src/meshcore_gui/controllers/meshcore_controller.py
src/meshcore_gui/controllers/message_controller.py
src/meshcore_gui/models/__init__.py
src/meshcore_gui/models/channel.py
src/meshcore_gui/models/channel_list_model.py
src/meshcore_gui/models/contact.py
src/meshcore_gui/models/contact_list_model.py
src/meshcore_gui/models/message.py
src/meshcore_gui/models/message_list_model.py
src/meshcore_gui/utils/__init__.py
src/meshcore_gui/utils/async_executor.py
src/meshcore_gui/utils/parsing.py
src/meshcore_gui/views/__init__.py
src/meshcore_gui/views/main_window.py
src/meshcore_gui/wizard/__init__.py
src/meshcore_gui/wizard/wizard_companion.py
src/meshcore_gui/wizard/companion/__init__.py
src/meshcore_gui/wizard/companion/community_presets.py
src/meshcore_gui/wizard/companion/connection.py
src/meshcore_gui/wizard/companion/deviceselection.py
src/meshcore_gui/wizard/companion/devicestatus.py
src/meshcore_gui/wizard/companion/mc_bluetooth.py
src/meshcore_gui/wizard/companion/mc_serial.py

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[console_scripts]
meshcore-gui = meshcore_gui.main:main

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PySide6
meshcore

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meshcore_gui

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from PySide6.QtCore import QObject, Slot, Signal, Qt, QItemSelection
from PySide6.QtWidgets import QListView
from meshcore import EventType
from meshcore.events import Event
from ..models.channel import Channel
from ..models.channel_list_model import ChannelListModel
class ChannelController(QObject):
selected = Signal(object)
def __init__(self, view: QListView, parent: QObject | None = None):
super().__init__(parent)
self.view = view
self.model = ChannelListModel()
self.view.setModel(self.model)
self.view.setSelectionMode(QListView.SingleSelection)
selection_model = self.view.selectionModel()
selection_model.selectionChanged.connect(self._on_selected)
def _on_selected(self, selected: QItemSelection, deselected: QItemSelection):
if not selected.indexes():
return
index = selected.indexes()[0]
data = index.data(Qt.UserRole)
if data and "channel_idx" in data:
self.model.set_new_message(data["channel_idx"], True)
self.selected.emit(data)
@Slot(int)
def new_channel_message(self, channel_idx: int):
self.model.set_new_message(channel_idx, False)
@Slot()
def deselect(self):
if self.view.selectionModel().hasSelection():
self.view.selectionModel().clearSelection()
@Slot(object)
def process_event(self, event: Event):
if event.type == EventType.CHANNEL_INFO:
channel = Channel(event.payload)
if not channel.is_valid():
return # Ignore invalid channel
self.model.add_or_update(channel)

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from PySide6.QtCore import QObject, Slot, Signal, Qt, QItemSelection
from PySide6.QtWidgets import QListView
from meshcore import EventType
from meshcore.events import Event
from ..models.contact import Contact
from ..models.contact_list_model import ContactListModel
class ContactController(QObject):
selected = Signal(object)
def __init__(self, view: QListView, parent: QObject | None = None):
super().__init__(parent)
self.view = view
self.model = ContactListModel()
self.view.setModel(self.model)
self.view.setSelectionMode(QListView.SingleSelection)
selection_model = self.view.selectionModel()
selection_model.selectionChanged.connect(self._on_selected)
def _on_selected(self, selected: QItemSelection, deselected: QItemSelection):
if not selected.indexes():
return
index = selected.indexes()[0]
data = index.data(Qt.UserRole)
if data and "public_key" in data:
self.model.set_new_message(data["public_key"], True)
self.selected.emit(data)
@Slot(str)
def new_private_message(self, pubkey_prefix: str):
self.model.set_new_message(pubkey_prefix, False)
@Slot()
def deselect(self):
if self.view.selectionModel().hasSelection():
self.view.selectionModel().clearSelection()
@Slot(object)
def process_event(self, event: Event):
if event.type == EventType.CONTACTS:
for contact_payload in event.payload.values():
contact = Contact(contact_payload)
self.model.add_contact(contact)
elif (
event.type == EventType.NEW_CONTACT or event.type == EventType.NEXT_CONTACT
):
contact = Contact(event.payload)
self.model.add_contact(contact)

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import asyncio
from typing import Any
from PySide6.QtCore import QObject, Signal, Slot
from meshcore import MeshCore, EventType
from meshcore.events import Event
from ..utils.async_executor import AsyncExecutor
from ..utils.parsing import parse_rx_log_data
class MeshCoreController(QObject):
self_info_ready = Signal(object)
contacts_ready = Signal(object)
channels_ready = Signal(object)
event_received = Signal(object)
message_sent = Signal(object)
def __init__(self, mc: MeshCore, executor: AsyncExecutor):
super().__init__()
self.mc = mc
self.executor = executor
self._subscriptions = []
self._shutdown_called = False
@Slot(object)
def process_event(self, event: Event):
if event.type == EventType.RX_LOG_DATA:
# TODO: Publish this to a dedicated debugging tab
print("RX_LOG_DATA", parse_rx_log_data(event.payload))
elif event.type == EventType.NO_MORE_MSGS:
pass
@Slot()
def get_self_info(self):
"""Emit self_info immediately"""
self.self_info_ready.emit(self.mc.self_info)
@Slot()
def fetch_contacts(self):
"""Fetch contacts async via executor"""
self.executor.submit_async(
self.mc.commands.get_contacts_async(), self.contacts_ready
)
@Slot()
def channel_info(self):
"""Fetch contacts async via executor"""
async def all_channels():
for channel_idx in range(0, 40):
await self.mc.commands.get_channel(channel_idx)
self.executor.submit_async(all_channels(), self.channels_ready)
@Slot()
def send_adv(self):
self.executor.submit_async(self.mc.commands.send_advert(True), None)
def set_radio(self, freq: float, bw: float, sf: int, cr: int):
self.executor.submit_async(self.mc.commands.set_radio(freq, bw, sf, cr), None)
def reboot(self):
self.executor.submit_async(self.mc.commands.reboot(), self.reboot)
def set_name(self, name: str):
self.executor.submit_async(self.mc.commands.set_name(name), None)
def start_message_stream(self):
"""
Subscribe to MeshCore native message events.
Each event triggers a Qt signal to the GUI.
"""
async def handle_message(event: Event):
self.event_received.emit(event)
sub1 = self.mc.subscribe(None, handle_message)
# Keep track of subscriptions so we can unsubscribe them later
self._subscriptions.extend([sub1])
# Start MeshCore automatic fetching
asyncio.run_coroutine_threadsafe(
self.mc.start_auto_message_fetching(), self.executor.loop
)
@Slot(dict, str)
def send_message(self, target: dict[str, Any], text: str):
if "channel_idx" in target:
self.executor.submit_async(
self.mc.commands.send_chan_msg(target["channel_idx"], text),
self.message_sent,
)
elif "public_key" in target:
self.executor.submit_async(
self.mc.commands.send_msg(target["public_key"], text),
self.message_sent,
)
def shutdown(self):
"""Idempotent shutdown"""
if self._shutdown_called:
return
self._shutdown_called = True
# Cancel subscriptions
for sub in self._subscriptions:
try:
self.mc.unsubscribe(sub)
except Exception:
pass
self._subscriptions.clear()
async def stop_fetching():
try:
await self.mc.stop_auto_message_fetching()
await self.mc.disconnect()
except Exception:
pass
asyncio.run_coroutine_threadsafe(stop_fetching(), self.executor.loop)
self.executor.shutdown()

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import time
from typing import Any
from PySide6.QtCore import QObject, Signal, Slot
from PySide6.QtWidgets import QListView
from meshcore import EventType
from meshcore.events import Event
from ..models.message import Message
from ..models.message_list_model import MessageListModel
class MessageController(QObject):
new_channel_message = Signal(int)
new_private_message = Signal(str)
def __init__(self, view: QListView, parent: QObject | None = None):
super().__init__(parent)
self.view: QListView = view
self.current_chat: int | str | None = None
self.channel_models: dict[int | str, MessageListModel] = {}
def get_channel_model(self, chat: int | str) -> MessageListModel:
if chat not in self.channel_models:
self.channel_models[chat] = MessageListModel()
return self.channel_models[chat]
@Slot(object)
def set_chat(self, payload: dict[str, Any]):
chat_id = None
if "channel_idx" in payload:
chat_id = payload["channel_idx"]
elif "public_key" in payload:
chat_id = payload["public_key"][0:12]
if chat_id is not None:
self.current_chat = chat_id
model = self.get_channel_model(chat_id)
self.view.setModel(model)
@Slot(dict, str)
def send_message(self, target: dict[str, Any], text: str):
chat_id = None
if "channel_idx" in target:
chat_id = target["channel_idx"]
elif "public_key" in target:
chat_id = target["public_key"][0:12]
if chat_id is not None:
model = self.get_channel_model(chat_id)
model.add_message(
Message({"text": text, "sender_timestamp": int(time.time())})
)
@Slot(object)
def process_event(self, event: Event):
if event.type == EventType.CHANNEL_MSG_RECV:
payload = event.payload
chat = payload["channel_idx"]
model = self.get_channel_model(chat)
model.add_message(Message(payload))
if self.current_chat != chat:
self.new_channel_message.emit(chat)
elif event.type == EventType.CONTACT_MSG_RECV:
payload = event.payload
chat = payload["pubkey_prefix"]
model = self.get_channel_model(chat)
model.add_message(Message(payload))
if self.current_chat != chat:
self.new_private_message.emit(chat)

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import argparse
import asyncio
import signal
import sys
from meshcore import MeshCore
from PySide6.QtCore import QCoreApplication, QObject, QSettings, QThread, QTimer, Slot
from PySide6.QtWidgets import QApplication
from .controllers.channel_controller import ChannelController
from .controllers.contact_controller import ContactController
from .controllers.message_controller import MessageController
from .controllers.meshcore_controller import MeshCoreController
from .utils.async_executor import AsyncExecutor
from .views.main_window import MeshCoreWidget
from .wizard.wizard_companion import CompanionWizard
class ApplicationController(QObject):
def __init__(self, executor, loop):
self.mc = None
self.meshcore_controller = None
self.executor = executor
self.loop = loop
def attempt_connection(self):
async def init_mc(port, interace_type: str):
try:
if interface_type == "serial":
mc = await MeshCore.create_serial(port)
return mc
elif interface_type == "bluetooth":
mc = await MeshCore.create_ble(port)
return mc
except:
pass
return None
async def disconnect_mc(mc):
try:
await mc.disconnect()
except:
pass
if self.mc is not None:
future = asyncio.run_coroutine_threadsafe(disconnect_mc(self.mc), self.loop)
self.mc = None
port = None
settings = QSettings()
settings.beginGroup("interface")
interface_type = settings.value("type", False)
if interface_type == "serial":
port = settings.value("port")
elif interface_type == "bluetooth":
port = settings.value("addr")
settings.endGroup()
if port is None:
return None
future = asyncio.run_coroutine_threadsafe(
init_mc(port, interface_type), self.loop
)
self.mc = future.result()
self.meshcore_controller = MeshCoreController(self.mc, self.executor)
return self.mc is not None
def start(self, force_wizard=False):
if force_wizard:
self.start_wizard()
else:
if self.mc is None:
self.attempt_connection()
if self.mc is not None:
self.start_main()
else:
self.start_wizard()
@Slot(bool)
def on_wizard_done(self, success: bool):
if success:
self.start()
def start_wizard(self):
self.wizard = CompanionWizard(self)
self.wizard.completed.connect(self.on_wizard_done)
self.wizard.show()
def start_main(self):
# --- GUI ---
self.widget = MeshCoreWidget()
self.widget.setWindowTitle("MeshCore Chat")
self.widget.resize(400, 600)
self.widget.show()
# --- Controllers ---
self.message_controller = MessageController(self.widget.list_msgs)
self.contact_controller = ContactController(self.widget.list_contacts)
self.channel_controller = ChannelController(self.widget.list_channels)
# --- Signal/Slot Connections ---
self.meshcore_controller.event_received.connect(
self.meshcore_controller.process_event
)
self.meshcore_controller.event_received.connect(
self.message_controller.process_event
)
self.meshcore_controller.event_received.connect(
self.contact_controller.process_event
)
self.meshcore_controller.event_received.connect(
self.channel_controller.process_event
)
self.meshcore_controller.self_info_ready.connect(self.widget.update_self_info)
self.meshcore_controller.message_sent.connect(self.widget.on_sent)
self.contact_controller.selected.connect(self.message_controller.set_chat)
self.contact_controller.selected.connect(self.channel_controller.deselect)
self.contact_controller.selected.connect(self.widget.set_target)
self.channel_controller.selected.connect(self.contact_controller.deselect)
self.channel_controller.selected.connect(self.message_controller.set_chat)
self.channel_controller.selected.connect(self.widget.set_target)
self.message_controller.new_channel_message.connect(
self.channel_controller.new_channel_message
)
self.message_controller.new_private_message.connect(
self.contact_controller.new_private_message
)
self.widget.text_submitted.connect(self.meshcore_controller.send_message)
self.widget.text_submitted.connect(self.message_controller.send_message)
self.widget.button_adv.clicked.connect(self.meshcore_controller.send_adv)
# --- Initial actions ---
self.meshcore_controller.start_message_stream()
self.meshcore_controller.channel_info()
self.meshcore_controller.get_self_info()
self.meshcore_controller.fetch_contacts()
def main():
parser = argparse.ArgumentParser(description="MeshCore GUI")
parser.add_argument(
"--port", default="/dev/ttyACM0", help="Serial port for the MeshCore device"
)
parser.add_argument(
"--wizard", default=False, action="store_true", help="Start the wizard"
)
args = parser.parse_args()
if args.port is not None:
settings = QSettings()
settings.beginGroup("interface")
settings.setValue("port", args.port)
settings.endGroup()
app = QApplication(sys.argv)
app.setQuitOnLastWindowClosed(True)
# --- asyncio loop in background thread ---
loop = asyncio.new_event_loop()
asyncio.set_event_loop(loop)
loop_thread = QThread()
def start_loop():
asyncio.set_event_loop(loop)
loop.run_forever()
loop_thread.run = start_loop
loop_thread.start()
executor = AsyncExecutor(loop)
controller = ApplicationController(executor, loop)
controller.start(args.wizard)
# --- Idempotent shutdown ---
shutdown_called = False
def shutdown(*args):
nonlocal shutdown_called
if shutdown_called:
return
shutdown_called = True
if controller.meshcore_controller:
controller.meshcore_controller.shutdown()
loop.call_soon_threadsafe(loop.stop)
loop_thread.quit()
loop_thread.wait()
app.quit()
# --- Signal Handlers ---
signal.signal(signal.SIGINT, shutdown)
app.aboutToQuit.connect(shutdown)
# Timer to allow Python's signal handler to run
timer = QTimer()
timer.start(500)
timer.timeout.connect(lambda: None)
sys.exit(app.exec())
if __name__ == "__main__":
QCoreApplication.setOrganizationName("Bliksem Labs B.V.")
QCoreApplication.setOrganizationDomain("bliksemlabs.com")
QCoreApplication.setApplicationName("MeshCoreGUI")
main()

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from typing import Any
class Channel:
def __init__(self, payload: dict[str, Any]):
self.payload = payload
self.new_message = 0
def set_new_message(self, value: int):
if value == 0:
self.new_message = 0
else:
self.new_message += value
@property
def channel_idx(self) -> int | None:
return self.payload.get("channel_idx")
@property
def name(self) -> str:
return self.payload.get("channel_name", "Unnamed channel")
@property
def secret(self) -> bytes | None:
return self.payload.get("channel_secret")
def is_valid(self) -> bool:
# Ignore channel if secret is 16 null-bytes
return self.secret is not None and self.secret != b"\x00" * 16

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from PySide6.QtCore import QAbstractListModel, QModelIndex, Qt
from PySide6.QtGui import QFont, QBrush, QColor
from .channel import Channel
class ChannelListModel(QAbstractListModel):
def __init__(self, channels: list[Channel] | None = None):
super().__init__()
self._channels: list[Channel] = channels or []
def rowCount(self, parent: QModelIndex = QModelIndex()) -> int:
return len(self._channels)
def data(self, index: QModelIndex, role: int = Qt.DisplayRole):
if not index.isValid():
return None
channel = self._channels[index.row()]
if role == Qt.DisplayRole:
return channel.name
elif role == Qt.UserRole:
return channel.payload
elif role == Qt.FontRole and channel.new_message > 0:
font = QFont()
font.setBold(True)
return font
elif role == Qt.ForegroundRole and channel.new_message > 0:
return QBrush(QColor("red")) # Mark new messages
return None
def add_or_update(self, channel: Channel):
# Update existing channel by channel_idx
for row, existing in enumerate(self._channels):
if existing.channel_idx == channel.channel_idx:
self._channels[row] = channel
idx = self.index(row)
self.dataChanged.emit(idx, idx, [Qt.DisplayRole, Qt.UserRole])
return
# New channel
self.beginInsertRows(QModelIndex(), len(self._channels), len(self._channels))
self._channels.append(channel)
self.endInsertRows()
def set_new_message(self, channel_idx: int, reset: bool = False):
for row, item in enumerate(self._channels):
if item.channel_idx == channel_idx:
if reset:
item.set_new_message(0)
else:
item.set_new_message(1)
idx = self.index(row, 0)
self.dataChanged.emit(
idx, idx, [Qt.DisplayRole, Qt.FontRole, Qt.ForegroundRole]
)
break

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from typing import Any
class Contact:
"""Simple container for contact payload"""
def __init__(self, payload: dict[str, Any]):
self.payload = payload
self.new_message = 0
def set_new_message(self, value: int):
if value == 0:
self.new_message = 0
else:
self.new_message += value
@property
def name(self) -> str:
return self.payload.get("adv_name", "Unknown")
@property
def public_key(self) -> str | None:
return self.payload.get("public_key")

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from PySide6.QtCore import QAbstractListModel, QModelIndex, Qt
from PySide6.QtGui import QFont, QBrush, QColor
from .contact import Contact
class ContactListModel(QAbstractListModel):
"""Model that manages a list of contacts for a QListView"""
def __init__(self, contacts: list[Contact] | None = None):
super().__init__()
self._contacts = contacts or []
def data(self, index: QModelIndex, role: int = Qt.DisplayRole):
if not index.isValid():
return None
contact = self._contacts[index.row()]
if role == Qt.DisplayRole:
return contact.name
elif role == Qt.UserRole:
return contact.payload
elif role == Qt.FontRole and contact.new_message > 0:
font = QFont()
font.setBold(True)
return font
elif role == Qt.ForegroundRole and contact.new_message > 0:
return QBrush(QColor("red"))
return None
def rowCount(self, parent: QModelIndex = QModelIndex()) -> int:
return len(self._contacts)
def add_contact(self, contact: Contact):
"""Add a new contact or update an existing one based on public_key"""
for row, existing in enumerate(self._contacts):
if existing.public_key == contact.public_key:
self._contacts[row] = contact
index = self.index(row)
self.dataChanged.emit(index, index, [Qt.DisplayRole, Qt.UserRole])
return
# If not found, add as a new contact
self.beginInsertRows(QModelIndex(), len(self._contacts), len(self._contacts))
self._contacts.append(contact)
self.endInsertRows()
def remove_contact(self, row: int):
"""Remove contact at index"""
if 0 <= row < len(self._contacts):
self.beginRemoveRows(QModelIndex(), row, row)
self._contacts.pop(row)
self.endRemoveRows()
def clear(self):
"""Remove all contacts"""
self.beginResetModel()
self._contacts.clear()
self.endResetModel()
def set_new_message(self, pubkey_prefix: str, reset: bool = False):
for row, item in enumerate(self._contacts):
if item.public_key and item.public_key.startswith(pubkey_prefix):
if reset:
item.set_new_message(0)
else:
item.set_new_message(1)
idx = self.index(row, 0)
self.dataChanged.emit(
idx, idx, [Qt.DisplayRole, Qt.FontRole, Qt.ForegroundRole]
)
break

22
src/meshcore_gui/models/message.py Normal file
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from datetime import datetime
from typing import Any
class Message:
def __init__(self, payload: dict[str, Any]):
self.payload = payload
@property
def timestamp(self) -> datetime | None:
ts = self.payload.get("sender_timestamp")
return datetime.fromtimestamp(ts) if ts else None
@property
def text(self) -> str:
return self.payload.get("text", "")
def formatted(self) -> str:
if self.timestamp:
time_str = self.timestamp.strftime("%Y-%m-%d %H:%M:%S")
return f"[{time_str}] {self.text}"
return self.text

36
src/meshcore_gui/models/message_list_model.py Normal file
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from PySide6.QtCore import QAbstractListModel, QModelIndex, Qt
from .message import Message
class MessageListModel(QAbstractListModel):
def __init__(self, messages: list[Message] | None = None):
super().__init__()
self._messages = messages or []
def rowCount(self, parent: QModelIndex = QModelIndex()) -> int:
return len(self._messages)
def data(self, index: QModelIndex, role: int = Qt.DisplayRole):
if not index.isValid():
return None
msg = self._messages[index.row()]
if role == Qt.DisplayRole:
return msg.formatted()
if role == Qt.UserRole:
return msg.payload
return None
def add_message(self, message: Message):
self.beginInsertRows(QModelIndex(), len(self._messages), len(self._messages))
self._messages.append(message)
self.endInsertRows()
def clear(self):
self.beginResetModel()
self._messages.clear()
self.endResetModel()

0
src/meshcore_gui/utils/__init__.py Normal file
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29
src/meshcore_gui/utils/async_executor.py Normal file
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import asyncio
from typing import Optional, Coroutine
from PySide6.QtCore import QObject, Signal
class AsyncExecutor(QObject):
def __init__(self, loop: asyncio.AbstractEventLoop):
super().__init__()
self.loop = loop
def submit_async(self, coro: Coroutine, signal: Optional[Signal] = None):
"""Submit coroutine and emit signal on completion"""
future = asyncio.run_coroutine_threadsafe(coro, self.loop)
if signal:
future.add_done_callback(lambda f: self._emit_safe(f, signal))
def _emit_safe(self, fut: asyncio.Future, signal: Signal):
try:
result = fut.result()
except Exception as e:
print("Async call failed:", e)
return
signal.emit(result)
def shutdown(self):
"""Stop the loop safely"""
if self.loop.is_running():
self.loop.call_soon_threadsafe(self.loop.stop)

63
src/meshcore_gui/utils/parsing.py Normal file
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import logging
from typing import Any
_LOGGER = logging.getLogger(__name__)
def parse_rx_log_data(payload: Any) -> dict[str, Any]:
"""Parse RX_LOG event payload to extract LoRa packet details.
Expected format (hex):
byte0: header
byte1: path_len
next path_len bytes: path nodes
next byte: channel_hash (optional)
"""
result: dict[str, Any] = {}
try:
hex_str = None
if isinstance(payload, dict):
hex_str = payload.get("payload") or payload.get("raw_hex")
elif isinstance(payload, (str, bytes)):
hex_str = payload
if not hex_str:
return result
if isinstance(hex_str, bytes):
hex_str = hex_str.hex()
hex_str = (
str(hex_str).lower().replace(" ", "").replace("\n", "").replace("\r", "")
)
if len(hex_str) < 4:
return result
result["header"] = hex_str[0:2]
try:
path_len = int(hex_str[2:4], 16)
result["path_len"] = path_len
except ValueError:
return {}
path_start = 4
path_end = path_start + (path_len * 2)
if len(hex_str) < path_end:
return {}
path_hex = hex_str[path_start:path_end]
result["path"] = path_hex
result["path_nodes"] = [path_hex[i : i + 2] for i in range(0, len(path_hex), 2)]
if len(hex_str) >= path_end + 2:
result["channel_hash"] = hex_str[path_end : path_end + 2]
except Exception as ex:
_LOGGER.debug(f"Error parsing RX_LOG data: {ex}")
return result

0
src/meshcore_gui/views/__init__.py Normal file
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92
src/meshcore_gui/views/main_window.py Normal file
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from typing import Any, TYPE_CHECKING
from PySide6.QtCore import Signal, Slot
from PySide6.QtGui import QCloseEvent
from PySide6.QtWidgets import (
QWidget,
QVBoxLayout,
QLabel,
QPushButton,
QListView,
QHBoxLayout,
QLineEdit,
)
if TYPE_CHECKING:
from controllers.meshcore_controller import MeshCoreController
class MeshCoreWidget(QWidget):
text_submitted = Signal(object, str)
def __init__(self):
super().__init__()
self.controller: "MeshCoreController" | None = None
self.current_target: dict[str, Any] | None = None
# GUI layout
self.layout = QVBoxLayout(self)
self.label_info = QLabel("Node info: ...")
self.button_adv = QPushButton("Adv")
self.list_contacts = QListView()
self.list_channels = QListView()
self.list_msgs = QListView()
option_layout = QHBoxLayout()
option_layout.addWidget(self.label_info, stretch=1)
option_layout.addWidget(self.button_adv)
option_panel = QWidget()
option_panel.setLayout(option_layout)
self.layout.addWidget(option_panel)
self.layout.addWidget(QLabel("Contacts:"))
self.layout.addWidget(self.list_contacts)
self.layout.addWidget(QLabel("Channels:"))
self.layout.addWidget(self.list_channels)
self.layout.addWidget(QLabel("Messages:"))
self.layout.addWidget(self.list_msgs)
# --- Input area ---
self.input_line = QLineEdit()
self.input_line.setPlaceholderText("Type a message…")
self.send_button = QPushButton("Send")
input_layout = QHBoxLayout()
input_layout.addWidget(self.input_line, stretch=1)
input_layout.addWidget(self.send_button)
input_panel = QWidget()
input_panel.setLayout(input_layout)
self.layout.addWidget(input_panel)
self.send_button.clicked.connect(self._on_send_clicked)
self.input_line.returnPressed.connect(self._on_send_clicked)
@Slot(object)
def set_target(self, target: dict[str, Any]):
self.current_target = target
def _on_send_clicked(self):
if self.current_target is not None:
text = self.input_line.text().strip()
if text:
self.text_submitted.emit(self.current_target, text)
@Slot(object)
def on_sent(self, event: Any):
self.input_line.clear()
@Slot(object)
def update_self_info(self, info: dict[str, Any]):
self.label_info.setText(f"Node info: {info.get('name', 'N/A')}")
def setController(self, controller: "MeshCoreController"):
self.controller = controller
def closeEvent(self, event: QCloseEvent):
if self.controller:
# Stop streaming and executor loop
self.controller.shutdown()
event.accept() # Allow the window to close

0
src/meshcore_gui/wizard/__init__.py Normal file
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0
src/meshcore_gui/wizard/companion/__init__.py Normal file
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133
src/meshcore_gui/wizard/companion/community-presets.json Normal file
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{
"version": "community-presets-1.0",
"source": "MeshCore mobile app community suggested presets",
"notes": "These presets are community-suggested RF settings as exposed in the MeshCore app UI. They are not guaranteed to be legally valid in all regions.",
"presets": [
{
"id": "australia",
"name": "Australia",
"region": "Australia",
"frequency_mhz": 915.800,
"spreading_factor": 10,
"bandwidth_khz": 250,
"coding_rate": 5
},
{
"id": "australia_victoria",
"name": "Australia: Victoria",
"region": "Australia",
"frequency_mhz": 916.575,
"spreading_factor": 7,
"bandwidth_khz": 62.5,
"coding_rate": 8
},
{
"id": "eu_uk_narrow",
"name": "EU/UK (Narrow)",
"region": "EU/UK",
"frequency_mhz": 869.618,
"spreading_factor": 8,
"bandwidth_khz": 62.5,
"coding_rate": 8
},
{
"id": "eu_uk_long_range",
"name": "EU/UK (Long Range)",
"region": "EU/UK",
"frequency_mhz": 869.525,
"spreading_factor": 11,
"bandwidth_khz": 250,
"coding_rate": 5
},
{
"id": "eu_uk_medium_range",
"name": "EU/UK (Medium Range)",
"region": "EU/UK",
"frequency_mhz": 869.525,
"spreading_factor": 10,
"bandwidth_khz": 250,
"coding_rate": 5
},
{
"id": "czech_republic_narrow",
"name": "Czech Republic (Narrow)",
"region": "Czech Republic",
"frequency_mhz": 869.525,
"spreading_factor": 7,
"bandwidth_khz": 62.5,
"coding_rate": 5
},
{
"id": "eu_433_long_range",
"name": "EU 433MHz (Long Range)",
"region": "EU 433MHz",
"frequency_mhz": 433.650,
"spreading_factor": 11,
"bandwidth_khz": 250,
"coding_rate": 5
},
{
"id": "new_zealand",
"name": "New Zealand",
"region": "New Zealand",
"frequency_mhz": 917.375,
"spreading_factor": 11,
"bandwidth_khz": 250,
"coding_rate": 5
},
{
"id": "new_zealand_narrow",
"name": "New Zealand (Narrow)",
"region": "New Zealand",
"frequency_mhz": 917.375,
"spreading_factor": 7,
"bandwidth_khz": 62.5,
"coding_rate": 5
},
{
"id": "portugal_433",
"name": "Portugal 433",
"region": "Portugal",
"frequency_mhz": 433.375,
"spreading_factor": 9,
"bandwidth_khz": 62.5,
"coding_rate": 6
},
{
"id": "portugal_868",
"name": "Portugal 868",
"region": "Portugal",
"frequency_mhz": 869.618,
"spreading_factor": 7,
"bandwidth_khz": 62.5,
"coding_rate": 6
},
{
"id": "switzerland",
"name": "Switzerland",
"region": "Switzerland",
"frequency_mhz": 869.618,
"spreading_factor": 8,
"bandwidth_khz": 62.5,
"coding_rate": 8
},
{
"id": "usa_canada_recommended",
"name": "USA/Canada (Recommended)",
"region": "USA/Canada",
"frequency_mhz": 910.525,
"spreading_factor": 7,
"bandwidth_khz": 62.5,
"coding_rate": 5
},
{
"id": "vietnam",
"name": "Vietnam",
"region": "Vietnam",
"frequency_mhz": 920.250,
"spreading_factor": 11,
"bandwidth_khz": 250,
"coding_rate": 5
}
]
}

61
src/meshcore_gui/wizard/companion/community_presets.py Normal file
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from PySide6.QtWidgets import QWidget, QVBoxLayout, QComboBox
from PySide6.QtCore import QFile, QIODevice
from PySide6.QtCore import QJsonDocument
class PresetSelector(QWidget):
def __init__(self, json_file):
super().__init__()
self.setWindowTitle("Community Presets")
# Layout
layout = QVBoxLayout(self)
# ComboBox
self.combo = QComboBox()
layout.addWidget(self.combo)
# Load JSON and populate combobox
self.load_presets(json_file)
def load_presets(self, json_file):
file = QFile(json_file)
if not file.open(QIODevice.ReadOnly | QIODevice.Text):
raise RuntimeError(f"Cannot open {json_file}")
data = file.readAll()
file.close()
doc = QJsonDocument.fromJson(data)
if not doc.isObject():
raise ValueError("Invalid JSON root object")
root = doc.object()
presets = root.get("presets", [])
for preset in presets:
preset_lookup = "-".join(
[
str(preset["frequency_mhz"]),
str(int(preset["bandwidth_khz"])),
str(preset["spreading_factor"]),
str(preset["coding_rate"]),
]
)
self.combo.addItem(preset["name"], userData=preset_lookup)
def select_by_self_info(self, self_info: dict):
preset_lookup = "-".join(
[
str(self_info["radio_freq"]),
str(int(self_info["radio_bw"])),
str(self_info["radio_sf"]),
str(self_info["radio_cr"]),
]
)
index = self.combo.findData(preset_lookup)
if index != -1:
self.combo.setCurrentIndex(index)
else:
self.combo.addItem("Custom", userData=preset_lookup)
index = self.combo.findData(preset_lookup)
self.combo.setCurrentIndex(index)

42
src/meshcore_gui/wizard/companion/connection.py Normal file
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from PySide6.QtWidgets import (
QWizardPage,
QVBoxLayout,
QLabel,
QRadioButton,
QButtonGroup,
)
# ========================
# Wizard Pages
# ========================
class ConnectionTypePage(QWizardPage):
def __init__(self):
super().__init__()
self.setTitle("Choose connection type")
layout = QVBoxLayout()
self.setLayout(layout)
layout.addWidget(QLabel("In which way do you wat to connect?"))
self.serial_radio = QRadioButton("Serial")
self.serial_radio.setChecked(True)
self.bt_radio = QRadioButton("Bluetooth")
self.bt_radio.setEnabled(True)
self.tcp_radio = QRadioButton("TCP/IP")
self.tcp_radio.setEnabled(False)
layout.addWidget(self.serial_radio)
layout.addWidget(self.bt_radio)
layout.addWidget(self.tcp_radio)
self.group = QButtonGroup()
self.group.addButton(self.serial_radio)
self.group.addButton(self.bt_radio)
self.group.addButton(self.tcp_radio)
def validatePage(self) -> bool:
return (
self.bt_radio.isChecked()
or self.serial_radio.isChecked()
or self.tcp_radio.isChecked()
)

74
src/meshcore_gui/wizard/companion/deviceselection.py Normal file
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from PySide6.QtWidgets import (
QWizardPage,
QVBoxLayout,
QLabel,
QListWidget,
QLineEdit,
)
from PySide6.QtCore import Slot
from .mc_bluetooth import BluetoothConnection
from .mc_serial import SerialConnection
class DeviceSelectionPage(QWizardPage):
def __init__(self, wizard):
super().__init__()
self.setTitle("Select Device")
self.wizard_ref = wizard
self.layout = QVBoxLayout()
self.setLayout(self.layout)
self.label = QLabel("Select Device:")
self.layout.addWidget(self.label)
self.device_list = QListWidget()
self.ip_field = QLineEdit()
self.ip_field.setPlaceholderText("Hostname / IP")
self.port_field = QLineEdit()
self.port_field.setPlaceholderText("Port")
def initializePage(self):
conn_page = self.wizard_ref.page(0)
# Clear old widgets
self.device_list.clear()
self.layout.removeWidget(self.device_list)
self.layout.removeWidget(self.ip_field)
self.layout.removeWidget(self.port_field)
if conn_page.bt_radio.isChecked():
self.wizard_ref.connection = BluetoothConnection(
self.wizard_ref.application_controller
)
self.label.setText("Select a Bluetooth device")
self.layout.addWidget(self.device_list)
agent = self.wizard_ref.connection.agent
agent.deviceDiscovered.connect(self.add_device)
agent.finished.connect(self.scan_finished)
agent.start()
elif conn_page.serial_radio.isChecked():
self.wizard_ref.connection = SerialConnection(
self.wizard_ref.application_controller
)
self.label.setText("Select a serial port")
devices = self.wizard_ref.connection.scan_devices()
self.device_list.addItems(devices)
self.layout.addWidget(self.device_list)
elif conn_page.tcp_radio.isChecked():
self.label.setText("TCP/IP connection")
self.layout.addWidget(self.ip_field)
self.layout.addWidget(self.port_field)
@Slot(object)
def add_device(self, device_info):
self.device_list.addItem(device_info.name())
self.wizard_ref.connection.device_list.append(device_info)
@Slot()
def scan_finished(self):
pass

116
src/meshcore_gui/wizard/companion/devicestatus.py Normal file
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from PySide6.QtWidgets import (
QWizardPage,
QVBoxLayout,
QLabel,
QLineEdit,
QPushButton,
)
from pathlib import Path
from .mc_bluetooth import BluetoothConnection
from .mc_serial import SerialConnection
from .community_presets import PresetSelector
class DeviceStatusPage(QWizardPage):
def __init__(self, wizard):
super().__init__()
self.setTitle("Check device properties")
self.wizard_ref = wizard
layout = QVBoxLayout()
self.setLayout(layout)
self.name_label = QLabel("Name")
self.name = QLineEdit()
layout.addWidget(self.name_label)
layout.addWidget(self.name)
self.pubkey = QLineEdit()
self.pubkey.setEnabled(False)
self.pubkey_label = QLabel("Public Key")
layout.addWidget(self.pubkey_label)
layout.addWidget(self.pubkey)
base_path = Path(__file__).parent
self.profile_dropdown = PresetSelector(
base_path / "community-presets.json"
)
layout.addWidget(self.profile_dropdown)
self.button_save = QPushButton("Save")
self.button_save.setEnabled(False)
layout.addWidget(self.button_save)
self._initial_name = None
self._initial_profile = None
self.name.textChanged.connect(self._update_dirty_state)
self.profile_dropdown.combo.currentIndexChanged.connect(
self._update_dirty_state
)
self.button_save.clicked.connect(self._on_save_clicked)
def _update_dirty_state(self) -> None:
name_changed = self.name.text() != self._initial_name
profile_changed = (
self.profile_dropdown.combo.currentData() != self._initial_profile
)
self._is_dirty = name_changed or profile_changed
self.button_save.setEnabled(self._is_dirty)
def _on_save_clicked(self) -> None:
if not self._is_dirty:
return
self._save_data()
def _save_data(self) -> None:
new_name = self.name.text()
new_profile = self.profile_dropdown.combo.currentData()
if new_name != self._initial_name:
self.wizard_ref.application_controller.meshcore_controller.set_name(
new_name
)
self._initial_name = new_name
if new_profile != self._initial_profile:
freq, bw, sf, cr = new_profile.split("-")
self.wizard_ref.application_controller.meshcore_controller.set_radio(
float(freq), float(bw), int(sf), int(cr)
)
self._initial_profile = new_profile
self._is_dirty = False
self.button_save.setEnabled(False)
def validatePage(self) -> bool:
if self._is_dirty:
self._save_data()
return True
def update_profile(self, application_controller):
self.info = self.wizard_ref.application_controller.mc.self_info
if "name" in self.info:
self.name.setText(self.info["name"])
self.pubkey.setText(self.info["public_key"])
self.profile_dropdown.select_by_self_info(self.info)
self._initial_name = self.name.text()
self._initial_profile = self.profile_dropdown.combo.currentData()
self._is_dirty = False
self.button_save.setEnabled(False)
def initializePage(self):
conn = self.wizard_ref.connection
if isinstance(conn, SerialConnection):
conn.connect(
self.wizard_ref.page(1).device_list.currentItem().text(),
self.update_profile,
)
elif isinstance(conn, BluetoothConnection):
conn.connect(
self.wizard_ref.page(1).device_list.currentItem().text(),
self.update_profile,
)

53
src/meshcore_gui/wizard/companion/mc_bluetooth.py Normal file
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from PySide6.QtCore import QObject, Slot, Signal, QSettings
from PySide6.QtBluetooth import (
QBluetoothDeviceDiscoveryAgent,
QBluetoothDeviceInfo,
)
class BluetoothConnection(QObject):
"""
Bluetooth connection implemented using PySide6 QtBluetooth.
Supports asynchronous scanning with live updates, connecting via RFCOMM,
and returning device info after successful connection.
"""
device_discovered = Signal(QBluetoothDeviceInfo) # signaal voor GUI live update
scan_finished = Signal() # signaal als scan klaar is
def __init__(self, application_controller):
super().__init__()
self.application_controller = application_controller
self.device_list = [] # opgeslagen QBluetoothDeviceInfo objecten
self.connected_socket = None # QBluetoothSocket
self.device_info = None # dict met name/public_key
self.agent = QBluetoothDeviceDiscoveryAgent()
self.agent.setLowEnergyDiscoveryTimeout(5000)
# Verbind agent signalen naar interne slots
self.agent.deviceDiscovered.connect(self._on_device_discovered)
self.agent.finished.connect(self._on_scan_finished)
def start_scan(self):
self.device_list.clear()
self.agent.start()
@Slot(QBluetoothDeviceInfo)
def _on_device_discovered(self, device_info: QBluetoothDeviceInfo):
self.device_list.append(device_info)
self.device_discovered.emit(device_info)
@Slot()
def _on_scan_finished(self):
self.scan_finished.emit()
def connect(self, device_name_or_address: str, slot) -> bool:
print(device_name_or_address)
settings = QSettings()
settings.beginGroup("interface")
settings.setValue("type", "bluetooth")
settings.setValue("addr", device_name_or_address)
settings.endGroup()
if self.application_controller.attempt_connection():
slot(self.application_controller)

39
src/meshcore_gui/wizard/companion/mc_serial.py Normal file
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from PySide6.QtSerialPort import QSerialPortInfo
from PySide6.QtCore import QSettings
class SerialConnection:
"""
Serial connection class using PySide6 QtSerialPort.
Only scans available serial ports on the host system.
"""
def __init__(self, application_controller):
self.application_controller = application_controller
self.device_list = []
self.connected_port = None
self.device_info = None
def scan_devices(self) -> list[str]:
"""
Scan beschikbare seriële poorten en retourneer een lijst van naamstrings.
"""
self.device_list = QSerialPortInfo.availablePorts()
# Return human-readable strings, bijv. "COM3 - USB Serial"
devices = []
for port in self.device_list:
name = port.systemLocation() # COM3 or /dev/ttyUSB0
desc = port.description() # bv. "USB Serial"
devices.append(f"{name} - {desc}")
return devices
def connect(self, device_string: str, slot) -> bool:
settings = QSettings()
settings.beginGroup("interface")
settings.setValue("type", "serial")
settings.setValue("port", device_string.split(" - ")[0]) # TODO
settings.setValue("baudrate", 115200)
settings.endGroup()
if self.application_controller.attempt_connection():
slot(self.application_controller)

44
src/meshcore_gui/wizard/wizard_companion.py Normal file
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from PySide6.QtWidgets import QApplication, QWizard
from PySide6.QtCore import Signal
from .companion.connection import ConnectionTypePage
from .companion.deviceselection import DeviceSelectionPage
from .companion.devicestatus import DeviceStatusPage
# ========================
# Wizard
# ========================
class CompanionWizard(QWizard):
completed = Signal(bool)
def accept(self):
self.completed.emit(True)
super().accept()
def reject(self):
self.completed.emit(False)
super().reject()
def __init__(self, application_controller):
super().__init__()
self.application_controller = application_controller
self.addPage(ConnectionTypePage())
self.addPage(DeviceSelectionPage(self))
self.addPage(DeviceStatusPage(self))
self.setWindowTitle("Companion Wizard")
# ========================
# Main
# ========================
if __name__ == "__main__":
import sys
app = QApplication(sys.argv)
wizard = CompanionWizard()
wizard.show()
sys.exit(app.exec())