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AirTrapMine/src/GUI/communication.py

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Merge GUI 1.0.1 from ken
1 month ago
from rclpy.node import Node
from PyQt6.QtCore import QObject, pyqtSignal
import math
import re
import threading
from threading import Lock
import asyncio
import websockets
import json
import socket
from pymavlink import mavutil
from geometry_msgs.msg import Point, Vector3
from sensor_msgs.msg import BatteryState, NavSatFix, Imu
from std_msgs.msg import Float64, String
from mavros_msgs.msg import State, VfrHud
from mavros_msgs.srv import CommandBool, CommandTOL
class DroneSignals(QObject):
update_signal = pyqtSignal(str, str, object) # (msg_type, drone_id, data)
class UDPMavlinkReceiver(threading.Thread):
"""UDP MAVLink 接收器"""
def __init__(self, ip, port, signals, connection_name, monitor=None):
super().__init__(daemon=True)
self.ip = ip
self.port = port
self.signals = signals
self.connection_name = connection_name
self.monitor = monitor # 保存 monitor 引用
self.socket_id = monitor.get_next_socket_id() if monitor else 0
self.running = False
self.sock = None
def run(self):
"""執行 UDP 接收循環"""
self.running = True
try:
print(f"UDP MAVLink receiver started on {self.ip}:{self.port}")
# 創建 MAVLink 連接
mav = mavutil.mavlink_connection(f'udpin:{self.ip}:{self.port}')
while self.running:
try:
msg = mav.recv_match(blocking=True, timeout=1.0)
if msg is None:
continue
self.process_mavlink_message(msg)
except socket.timeout:
continue
except Exception as e:
print(f"Error receiving MAVLink message: {e}")
except Exception as e:
print(f"UDP receiver error: {e}")
finally:
if self.sock:
self.sock.close()
def process_mavlink_message(self, msg):
"""處理 MAVLink 訊息"""
try:
msg_type = msg.get_type()
system_id = msg.get_srcSystem()
drone_id = f"s{self.socket_id}_{system_id}"
if msg_type == "HEARTBEAT":
# 先發送連接類型資訊
self.signals.update_signal.emit('connection_type', drone_id, {
'type': 'UDP'
})
mode = mavutil.mode_string_v10(msg)
armed = bool(msg.base_mode & 128)
self.signals.update_signal.emit('state', drone_id, {
'mode': mode,
'armed': armed
})
elif msg_type == "BATTERY_STATUS":
voltage = msg.voltages[0] / 1000
self.signals.update_signal.emit('battery', drone_id, {
'voltage': voltage
})
elif msg_type == "GLOBAL_POSITION_INT":
latitude = msg.lat / 1e7
longitude = msg.lon / 1e7
self.signals.update_signal.emit('gps', drone_id, {
'lat': latitude,
'lon': longitude
})
elif msg_type == "GPS_RAW_INT":
fix_type = msg.fix_type
elif msg_type == "LOCAL_POSITION_NED":
x = msg.y
y = msg.x
z = -msg.z
self.signals.update_signal.emit('local_pose', drone_id, {
'x': x,
'y': y,
'z': z
})
self.signals.update_signal.emit('altitude', drone_id, {
'altitude': z
})
self.signals.update_signal.emit('velocity', drone_id, {
'vx': msg.vx,
'vy': msg.vy,
'vz': msg.vz
})
elif msg_type == "ATTITUDE":
# 從 MAVLink 訊息中提取並轉為角度
pitch = math.degrees(msg.pitch)
roll = math.degrees(msg.roll)
yaw = math.degrees(msg.yaw)
self.signals.update_signal.emit('attitude', drone_id, {
'pitch': pitch,
'roll': roll,
'yaw': yaw,
'rates': (msg.rollspeed, msg.pitchspeed, msg.yawspeed)
})
elif msg_type == "VFR_HUD":
self.signals.update_signal.emit('hud', drone_id, {
'airspeed': msg.airspeed,
'groundspeed': msg.groundspeed,
'heading': msg.heading,
'throttle': msg.throttle,
'alt': msg.alt,
'climb': msg.climb
})
except Exception as e:
print(f"Error processing MAVLink message: {e}")
def stop(self):
"""停止接收器"""
self.running = False
class SerialMavlinkReceiver(threading.Thread):
"""串口 MAVLink 接收器"""
def __init__(self, port, baudrate, signals, connection_name, monitor=None):
super().__init__(daemon=True)
self.port = port
self.baudrate = baudrate
self.signals = signals
self.connection_name = connection_name
self.monitor = monitor # 保存 monitor 引用
self.socket_id = monitor.get_next_socket_id() if monitor else 0
self.running = False
self.mav = None
def run(self):
"""執行串口接收循環"""
self.running = True
try:
print(f"Serial MAVLink receiver started on {self.port} at {self.baudrate} baud")
# 創建 MAVLink 串口連接
self.mav = mavutil.mavlink_connection(
self.port,
baud=self.baudrate,
source_system=255
)
print(f"Waiting for heartbeat from {self.port}...")
self.mav.wait_heartbeat()
print(f"Heartbeat received from system {self.mav.target_system}, component {self.mav.target_component}")
while self.running:
try:
msg = self.mav.recv_match(blocking=True, timeout=1.0)
if msg is None:
continue
self.process_mavlink_message(msg)
except Exception as e:
if self.running:
print(f"Error receiving MAVLink message from serial: {e}")
except Exception as e:
print(f"Serial receiver error: {e}")
finally:
if self.mav:
try:
self.mav.close()
except:
pass
def process_mavlink_message(self, msg):
"""處理 MAVLink 訊息"""
try:
msg_type = msg.get_type()
system_id = msg.get_srcSystem()
drone_id = f"s{self.socket_id}_{system_id}"
if msg_type == "HEARTBEAT":
# 先發送連接類型資訊
self.signals.update_signal.emit('connection_type', drone_id, {
'type': 'Serial'
})
mode = mavutil.mode_string_v10(msg)
armed = bool(msg.base_mode & 128)
self.signals.update_signal.emit('state', drone_id, {
'mode': mode,
'armed': armed
})
elif msg_type == "BATTERY_STATUS":
voltage = msg.voltages[0] / 1000
self.signals.update_signal.emit('battery', drone_id, {
'voltage': voltage
})
elif msg_type == "GLOBAL_POSITION_INT":
latitude = msg.lat / 1e7
longitude = msg.lon / 1e7
self.signals.update_signal.emit('gps', drone_id, {
'lat': latitude,
'lon': longitude
})
elif msg_type == "GPS_RAW_INT":
fix_type = msg.fix_type
elif msg_type == "LOCAL_POSITION_NED":
x = msg.y
y = msg.x
z = -msg.z
self.signals.update_signal.emit('local_pose', drone_id, {
'x': x,
'y': y,
'z': z
})
self.signals.update_signal.emit('altitude', drone_id, {
'altitude': z
})
self.signals.update_signal.emit('velocity', drone_id, {
'vx': msg.vx,
'vy': msg.vy,
'vz': msg.vz
})
elif msg_type == "ATTITUDE":
# 從 MAVLink 訊息中提取並轉為角度
pitch = math.degrees(msg.pitch)
roll = math.degrees(msg.roll)
yaw = math.degrees(msg.yaw)
self.signals.update_signal.emit('attitude', drone_id, {
'pitch': pitch,
'roll': roll,
'yaw': yaw,
'rates': (msg.rollspeed, msg.pitchspeed, msg.yawspeed)
})
elif msg_type == "VFR_HUD":
self.signals.update_signal.emit('hud', drone_id, {
'airspeed': msg.airspeed,
'groundspeed': msg.groundspeed,
'heading': msg.heading,
'throttle': msg.throttle,
'alt': msg.alt,
'climb': msg.climb
})
except Exception as e:
print(f"Error processing MAVLink message from serial: {e}")
def stop(self):
"""停止接收器"""
self.running = False
class WebSocketMavlinkReceiver(threading.Thread):
"""WebSocket MAVLink 接收器"""
def __init__(self, url, signals, connection_name, monitor=None):
super().__init__(daemon=True)
self.url = url
self.signals = signals
self.connection_name = connection_name
self.monitor = monitor # 保存 monitor 引用 self.socket_id = monitor.get_next_socket_id() if monitor else 0 # 一次性分配 socket_id self.running = False
self.max_retries = 5
self.base_delay = 1.0
def run(self):
"""執行 WebSocket 接收循環"""
self.running = True
asyncio.set_event_loop(asyncio.new_event_loop())
asyncio.get_event_loop().run_until_complete(self.ws_client_loop())
async def ws_client_loop(self):
"""WebSocket 連接的主循環"""
retry_count = 0
print(f"Starting WebSocket client for {self.connection_name} at {self.url}")
while self.running and retry_count < self.max_retries:
try:
async with websockets.connect(self.url) as websocket:
print(f"WebSocket {self.connection_name} connected to {self.url}")
retry_count = 0 # 重置重試計數
async for message in websocket:
if not self.running:
break
try:
data = json.loads(message)
data['_connection_source'] = self.connection_name
self.process_websocket_message(data)
except json.JSONDecodeError as e:
print(f"WebSocket {self.connection_name} JSON decode error: {e}")
except Exception as e:
print(f"WebSocket {self.connection_name} message processing error: {e}")
except websockets.exceptions.ConnectionClosedError:
print(f"WebSocket {self.connection_name} connection closed")
if self.running:
retry_count += 1
if retry_count < self.max_retries:
delay = self.base_delay * (2 ** min(retry_count, 4))
print(f"Reconnecting in {delay}s...")
await asyncio.sleep(delay)
else:
break
except Exception as e:
retry_count += 1
if retry_count < self.max_retries and self.running:
delay = self.base_delay * (2 ** min(retry_count, 4))
print(f"WebSocket {self.connection_name} connection error: {e}, retrying in {delay}s (attempt {retry_count}/{self.max_retries})")
await asyncio.sleep(delay)
else:
break
print(f"WebSocket client {self.connection_name} stopped")
def process_websocket_message(self, data):
"""處理 WebSocket 訊息"""
try:
system_id = data.get('system_id')
if not system_id:
return
drone_id = f"s{self.socket_id}_{system_id}"
# 模式
if 'mode' in data:
# 先發送連接類型資訊
self.signals.update_signal.emit('connection_type', drone_id, {
'type': 'WS'
})
self.signals.update_signal.emit('state', drone_id, {
'mode': data['mode'],
})
# 電池
if 'battery' in data:
self.signals.update_signal.emit('battery', drone_id, {
'percentage': data['battery']
})
# 位置
if 'position' in data:
pos = data['position']
self.signals.update_signal.emit('gps', drone_id, {
'lat': pos.get('lat', 0),
'lon': pos.get('lon', 0)
})
# Local position - 設定 x, y 為 0.0
self.signals.update_signal.emit('local_pose', drone_id, {
'x': 0.0,
'y': 0.0,
'z': 0.0
})
# Altitude - 設定為 0.0
self.signals.update_signal.emit('altitude', drone_id, {
'altitude': 0.0
})
# 航向
if 'heading' in data:
self.signals.update_signal.emit('hud', drone_id, {
'heading': data['heading'],
'groundspeed': 0.0
})
except Exception as e:
print(f"WebSocket message processing error: {e}")
def stop(self):
"""停止接收器"""
self.running = False
class DroneMonitor(Node):
# Subscribe to drone ROS2 topics
def __init__(self):
super().__init__('drone_monitor')
self.signals = DroneSignals()
self.drone_topics = {}
self.lock = Lock()
self.arm_clients = {}
self.takeoff_clients = {}
self.setpoint_pubs = {}
self.selected_drones = set()
self.latest_data = {}
# 定義需要過濾的模式
self.filtered_modes = ['Mode(0x000000c0)']
# WebSocket 接收器列表
self.ws_receivers = []
# 串口接收器列表
# ================================================================================
# 【新增】儲存 GPS 資料的字典
# ================================================================================
self.drone_gps = {} # {drone_id: {'lat': ..., 'lon': ..., 'alt': ...}}
# ================================================================================
# ================================================================================
# 【新增】Socket ID 重新分配機制 (從 0 開始)
# ================================================================================
self.socket_id_mapping = {} # {原始socket_id: 重新分配的socket_id}
self.socket_id_counter = 0 # 當前分配到的最大socket_id
self.socket_id_lock = Lock() # 線程安全鎖
# ================================================================================
# ================================================================================
# 【新增】儲存 sys_id 到 actual_drone_id 的映射 (從 summary 獲取)
# ================================================================================
self.sys_to_actual_id = {} # {sys_id: actual_drone_id} e.g. {'sys11': 's0_11'}
self.sys_to_socket_id = {} # {sys_id: assigned_socket_id} e.g. {'sys11': 0}
# ================================================================================
self.serial_receivers = []
# 主题检测定时器
self.create_timer(1.0, self.scan_topics)
def get_next_socket_id(self):
"""获取下一个可用的 socket_id从 0 开始连续分配)"""
with self.socket_id_lock:
current_id = self.socket_id_counter
self.socket_id_counter += 1
return current_id
def get_or_assign_socket_id(self, original_socket_id):
"""根據原始 socket_id 分配或獲取對應的 socket_id從 0 開始連續分配)
同一個原始 socket_id 會得到同一個分配的 ID
"""
original_socket_id = str(original_socket_id)
with self.socket_id_lock:
if original_socket_id not in self.socket_id_mapping:
# 分配新的 socket_id
self.socket_id_mapping[original_socket_id] = self.socket_id_counter
self.socket_id_counter += 1
return self.socket_id_mapping[original_socket_id]
def scan_topics(self):
topics = self.get_topic_names_and_types()
drone_pattern = re.compile(r'/fc_network/vehicle/(sys\d+)/(\w+)')
found_drones = set()
for topic_name, _ in topics:
if match := drone_pattern.match(topic_name):
sys_id, topic_type = match.groups()
found_drones.add(sys_id)
with self.lock:
self.drone_topics.setdefault(sys_id, set()).add(topic_type)
for sys_id in found_drones:
# 为每个 sys_id 分配 socket_id如果还没有分配
# 注意:如果后续 summary 提供了 socket_id会使用 summary 的映射覆盖
if sys_id not in self.sys_to_socket_id:
# 暂时所有 ROS2 topic 共享同一个 socket_id = 0
self.sys_to_socket_id[sys_id] = 0
if not hasattr(self, f'drone_{sys_id}_subs'):
self.setup_drone(sys_id)
def setup_drone(self, sys_id):
# sys_id 格式: sys11, sys12, ...
base_topic = f'/fc_network/vehicle/{sys_id}'
# Add service clients (保留但可能無法使用,因為新 topic 可能沒有這些服務)
self.arm_clients[sys_id] = self.create_client(
CommandBool,
f'{base_topic}/cmd/arming'
)
self.takeoff_clients[sys_id] = self.create_client(
CommandTOL,
f'{base_topic}/cmd/takeoff'
)
# Add setpoint publisher
self.setpoint_pubs[sys_id] = self.create_publisher(
Point,
f'{base_topic}/setpoint_position/local',
10
)
subs = {
'battery': self.create_subscription(
BatteryState,
f'{base_topic}/battery',
lambda msg, sid=sys_id: self.battery_callback(sid, msg),
10
),
'position': self.create_subscription(
NavSatFix,
f'{base_topic}/position',
lambda msg, sid=sys_id: self.gps_callback(sid, msg),
10
),
'summary': self.create_subscription(
String,
f'{base_topic}/summary',
lambda msg, sid=sys_id: self.summary_callback(sid, msg),
10
),
'vfr_hud': self.create_subscription(
VfrHud,
f'{base_topic}/vfr_hud',
lambda msg, sid=sys_id: self.hud_callback(sid, msg),
10
)
}
setattr(self, f'drone_{sys_id}_subs', subs)
async def arm_drone(self, drone_id, arm):
if drone_id not in self.arm_clients:
return False
client = self.arm_clients[drone_id]
if not client.wait_for_service(timeout_sec=1.0):
return False
request = CommandBool.Request()
request.value = arm
future = client.call_async(request)
try:
response = await future
return response.success
except Exception as e:
self.get_logger().error(f'Arm service call failed: {e}')
return False
async def takeoff_drone(self, drone_id, altitude=10.0):
if drone_id not in self.takeoff_clients:
return False
client = self.takeoff_clients[drone_id]
if not client.wait_for_service(timeout_sec=1.0):
return False
request = CommandTOL.Request()
request.altitude = altitude
request.min_pitch = 0.0
request.yaw = 0.0
future = client.call_async(request)
try:
response = await future
return response.success
except Exception as e:
self.get_logger().error(f'Takeoff service call failed: {e}')
return False
def send_setpoint(self, drone_id, x, y, z):
"""Send setpoint position command"""
if drone_id not in self.setpoint_pubs:
return False
msg = Point()
msg.x = float(x)
msg.y = float(y)
msg.z = float(z)
self.setpoint_pubs[drone_id].publish(msg)
return True
def quaternion_to_euler(self, q):
sinr_cosp = 2 * (q.w * q.x + q.y * q.z)
cosr_cosp = 1 - 2 * (q.x**2 + q.y**2)
roll = math.atan2(sinr_cosp, cosr_cosp)
sinp = 2 * (q.w * q.y - q.z * q.x)
pitch = math.asin(sinp) if abs(sinp) < 1 else math.copysign(math.pi/2, sinp)
siny_cosp = 2 * (q.w * q.z + q.x * q.y)
cosy_cosp = 1 - 2 * (q.y**2 + q.z**2)
yaw = math.atan2(siny_cosp, cosy_cosp)
return math.degrees(roll), math.degrees(pitch), math.degrees(yaw)
# callbacks
def attitude_callback(self, drone_id, msg):
if hasattr(msg, 'orientation'):
roll, pitch, yaw = self.quaternion_to_euler(msg.orientation)
self.latest_data[(drone_id, 'attitude')] = {
'roll': roll,
'pitch': pitch,
'yaw': yaw,
'rates': (msg.angular_velocity.x,
msg.angular_velocity.y,
msg.angular_velocity.z)
}
def battery_callback(self, sys_id, msg):
# 使用映射獲取實際的 drone_id
actual_drone_id = self.sys_to_actual_id.get(sys_id, None)
# 如果還沒有從 summary 獲取到映射,則不處理
if actual_drone_id is None:
return
self.latest_data[(actual_drone_id, 'battery')] = {
'voltage': msg.voltage
}
def state_callback(self, drone_id, msg):
mode = msg.mode
if mode in self.filtered_modes:
return
self.latest_data[(drone_id, 'state')] = {
'mode': msg.mode,
'armed': msg.armed
}
def summary_callback(self, sys_id, msg):
"""處理 summary topic (JSON 格式)"""
try:
data = json.loads(msg.data)
mode = data.get('mode_name', 'UNKNOWN')
if mode in self.filtered_modes:
return
# 從 summary 獲取原始 socket_id並映射到分配的 socket_id
original_socket_id = data.get('socket_id')
if original_socket_id is not None:
# 使用原始 socket_id 獲取或分配統一的 socket_id
assigned_socket_id = self.get_or_assign_socket_id(original_socket_id)
else:
# 如果沒有 socket_id使用 sys_to_socket_id 映射
assigned_socket_id = self.sys_to_socket_id.get(sys_id, 0)
sysid = data.get('sysid')
if sysid is not None:
actual_drone_id = f's{assigned_socket_id}_{sysid}'
# ================================================================================
# 【關鍵】保存 sys_id 到 actual_drone_id 的映射
# ================================================================================
self.sys_to_actual_id[sys_id] = actual_drone_id
# ================================================================================
else:
# 如果沒有 sysid使用 sys_id 中的數字
sys_num = sys_id.replace('sys', '')
actual_drone_id = f's{assigned_socket_id}_{sys_num}'
self.sys_to_actual_id[sys_id] = actual_drone_id
# 先發送連接類型資訊
self.signals.update_signal.emit('connection_type', actual_drone_id, {
'type': 'ROS2'
})
self.latest_data[(actual_drone_id, 'state')] = {
'mode': mode,
'armed': data.get('armed', False),
'socket_id': original_socket_id,
'sysid': sysid,
'vehicle_type': data.get('vehicle_type'),
'autopilot': data.get('autopilot'),
'gps_fix': data.get('gps_fix'),
'gps_fix_type': data.get('gps_fix'),
'connected': data.get('connected')
}
except json.JSONDecodeError as e:
print(f"Error parsing summary JSON for {sys_id}: {e}")
except Exception as e:
print(f"Error in summary_callback for {sys_id}: {e}")
def gps_callback(self, sys_id, msg):
# 使用映射獲取實際的 drone_id
actual_drone_id = self.sys_to_actual_id.get(sys_id, None)
# 如果還沒有從 summary 獲取到映射,則不處理
if actual_drone_id is None:
return
self.latest_data[(actual_drone_id, 'gps')] = {
'lat': msg.latitude,
'lon': msg.longitude,
'alt': msg.altitude
}
# ================================================================================
# 【新增】儲存 GPS 資料到 drone_gps 字典
# ================================================================================
self.drone_gps[actual_drone_id] = {
'lat': msg.latitude,
'lon': msg.longitude,
'alt': msg.altitude
}
# ================================================================================
def local_vel_callback(self, drone_id, msg):
self.latest_data[(drone_id, 'velocity')] = {
'vx': msg.x,
'vy': msg.y,
'vz': msg.z
}
def altitude_callback(self, drone_id, msg):
self.latest_data[(drone_id, 'altitude')] = {
'altitude': msg.data
}
def local_pose_callback(self, drone_id, msg):
self.latest_data[(drone_id, 'local_pose')] = {
'x': msg.x,
'y': msg.y,
'z': msg.z
}
def hud_callback(self, sys_id, msg):
# 使用映射獲取實際的 drone_id
actual_drone_id = self.sys_to_actual_id.get(sys_id, None)
# 如果還沒有從 summary 獲取到映射,則不處理
if actual_drone_id is None:
return
self.latest_data[(actual_drone_id, 'hud')] = {
'airspeed': msg.airspeed,
'groundspeed': msg.groundspeed,
'heading': msg.heading,
'throttle': msg.throttle,
'alt': msg.altitude,
'climb': msg.climb
}
def loss_rate_callback(self, drone_id, msg):
self.latest_data[(drone_id, 'loss_rate')] = {
'loss_rate': msg.data
}
def ping_callback(self, drone_id, msg):
self.latest_data[(drone_id, 'ping')] = {
'ping': msg.data
}
def start_serial_connection(self, port='/dev/ttyUSB0', baudrate=57600):
"""啟動串口 MAVLink 連接"""
connection_name = f"Serial_{port.replace('/', '_')}"
receiver = SerialMavlinkReceiver(port, baudrate, self.signals, connection_name, self)
receiver.start()
self.serial_receivers.append(receiver)
print(f"Started serial connection on {port} at {baudrate} baud")
return receiver