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2025-10-24 14:22:12 +02:00
parent 5254524ee0
commit 3b6b40fa88
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1
SUPERCOPY.py
View File

@@ -1,6 +1,7 @@
files = [
"core/app_launcher.py",
"core/discord_presence.py",
"core/dukto.py",
"core/file_search.py",
"core/headers.py",
"core/updater.py",

453
core/dukto.py Normal file
View File

@@ -0,0 +1,453 @@
#!/usr/bin/env python3
import socket
import struct
import threading
import os
import platform
import getpass
from pathlib import Path
from typing import List, Optional, Callable, Dict
DEFAULT_UDP_PORT = 4644
DEFAULT_TCP_PORT = 4644
class Peer:
def __init__(self, address: str, signature: str, port: int = DEFAULT_UDP_PORT):
self.address = address
self.signature = signature
self.port = port
def __repr__(self):
return f"Peer({self.address}, {self.signature}, port={self.port})"
class DuktoProtocol:
def __init__(self):
self.local_udp_port = DEFAULT_UDP_PORT
self.local_tcp_port = DEFAULT_TCP_PORT
self.udp_socket: Optional[socket.socket] = None
self.tcp_server: Optional[socket.socket] = None
self.peers: Dict[str, Peer] = {}
self.is_sending = False
self.is_receiving = False
self.running = False
# Callbacks
self.on_peer_added: Optional[Callable[[Peer], None]] = None
self.on_peer_removed: Optional[Callable[[Peer], None]] = None
self.on_receive_start: Optional[Callable[[str], None]] = None
self.on_receive_complete: Optional[Callable[[List[str], int], None]] = None
self.on_receive_text: Optional[Callable[[str, int], None]] = None
self.on_send_complete: Optional[Callable[[List[str]], None]] = None
self.on_transfer_progress: Optional[Callable[[int, int], None]] = None
self.on_error: Optional[Callable[[str], None]] = None
def set_ports(self, udp_port: int, tcp_port: int):
self.local_udp_port = udp_port
self.local_tcp_port = tcp_port
def get_system_signature(self) -> str:
username = getpass.getuser()
hostname = socket.gethostname()
system = platform.system()
return f"{username} at {hostname} ({system})"
def initialize(self):
# UDP Socket for peer discovery
self.udp_socket = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
self.udp_socket.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
self.udp_socket.setsockopt(socket.SOL_SOCKET, socket.SO_BROADCAST, 1)
self.udp_socket.bind(('', self.local_udp_port))
# TCP Server for receiving files
self.tcp_server = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
self.tcp_server.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
self.tcp_server.bind(('', self.local_tcp_port))
self.tcp_server.listen(5)
self.running = True
# Start listener threads
threading.Thread(target=self._udp_listener, daemon=True).start()
threading.Thread(target=self._tcp_listener, daemon=True).start()
def say_hello(self, dest: str = '<broadcast>', port: int = None):
if port is None:
port = self.local_udp_port
# Prepare packet
if port == DEFAULT_UDP_PORT and self.local_udp_port == DEFAULT_UDP_PORT:
if dest == '<broadcast>':
msg_type = b'\x01' # HELLO MESSAGE (broadcast)
else:
msg_type = b'\x02' # HELLO MESSAGE (unicast)
packet = msg_type + self.get_system_signature().encode('utf-8')
else:
if dest == '<broadcast>':
msg_type = b'\x04' # HELLO MESSAGE (broadcast) with PORT
else:
msg_type = b'\x05' # HELLO MESSAGE (unicast) with PORT
packet = msg_type + struct.pack('<H', self.local_udp_port) + \
self.get_system_signature().encode('utf-8')
# Send packet
if dest == '<broadcast>':
self._send_to_all_broadcast(packet, port)
if port != DEFAULT_UDP_PORT:
self._send_to_all_broadcast(packet, DEFAULT_UDP_PORT)
else:
self.udp_socket.sendto(packet, (dest, port))
def say_goodbye(self):
packet = b'\x03' + b'Bye Bye'
# Collect all discovered ports
ports = {self.local_udp_port}
if self.local_udp_port != DEFAULT_UDP_PORT:
ports.add(DEFAULT_UDP_PORT)
for peer in self.peers.values():
ports.add(peer.port)
# Send to all ports
for port in ports:
self._send_to_all_broadcast(packet, port)
def send_file(self, ip_dest: str, files: List[str], port: int = 0):
if port == 0:
port = DEFAULT_TCP_PORT
if self.is_receiving or self.is_sending:
if self.on_error:
self.on_error("Already busy with another transfer")
return
self.is_sending = True
threading.Thread(target=self._send_file_thread,
args=(ip_dest, port, files), daemon=True).start()
def send_text(self, ip_dest: str, text: str, port: int = 0):
if port == 0:
port = DEFAULT_TCP_PORT
if self.is_receiving or self.is_sending:
if self.on_error:
self.on_error("Already busy with another transfer")
return
self.is_sending = True
threading.Thread(target=self._send_text_thread,
args=(ip_dest, port, text), daemon=True).start()
def _udp_listener(self):
while self.running:
try:
data, addr = self.udp_socket.recvfrom(4096)
self._handle_message(data, addr[0])
except Exception as e:
if self.running:
print(f"UDP listener error: {e}")
def _handle_message(self, data: bytes, sender: str):
if len(data) == 0:
return
msg_type = data[0]
if msg_type in (0x01, 0x02): # HELLO (broadcast/unicast)
signature = data[1:].decode('utf-8', errors='ignore')
if signature != self.get_system_signature():
self.peers[sender] = Peer(sender, signature, DEFAULT_UDP_PORT)
if msg_type == 0x01: # Reply to broadcast
self.say_hello(sender, DEFAULT_UDP_PORT)
if self.on_peer_added:
self.on_peer_added(self.peers[sender])
elif msg_type == 0x03: # GOODBYE
if sender in self.peers:
peer = self.peers[sender]
if self.on_peer_removed:
self.on_peer_removed(peer)
del self.peers[sender]
elif msg_type in (0x04, 0x05): # HELLO with PORT
port = struct.unpack('<H', data[1:3])[0]
signature = data[3:].decode('utf-8', errors='ignore')
if signature != self.get_system_signature():
self.peers[sender] = Peer(sender, signature, port)
if msg_type == 0x04: # Reply to broadcast
self.say_hello(sender, port)
if self.on_peer_added:
self.on_peer_added(self.peers[sender])
def _tcp_listener(self):
while self.running:
try:
conn, addr = self.tcp_server.accept()
if self.is_receiving or self.is_sending:
conn.close()
continue
threading.Thread(target=self._receive_files,
args=(conn, addr[0]), daemon=True).start()
except Exception as e:
if self.running:
print(f"TCP listener error: {e}")
def _receive_files(self, conn: socket.socket, sender_ip: str):
self.is_receiving = True
if self.on_receive_start:
self.on_receive_start(sender_ip)
try:
conn.settimeout(10)
# Read header
header = conn.recv(16)
if len(header) < 16:
return
elements_count = struct.unpack('<Q', header[0:8])[0]
total_size = struct.unpack('<Q', header[8:16])[0]
conn.settimeout(None)
received_files = []
total_received = 0
root_folder_name = ""
root_folder_renamed = ""
receiving_text = False
text_data = b""
for _ in range(elements_count):
# Read element name
name_bytes = b""
while True:
c = conn.recv(1)
if not c or c == b'\x00':
break
name_bytes += c
name = name_bytes.decode('utf-8')
# Read element size
size_bytes = conn.recv(8)
element_size = struct.unpack('<q', size_bytes)[0]
if element_size == -1: # Directory
root_name = name.split('/')[0]
if root_folder_name != root_name:
# Find unique name
i = 2
original_name = name
while os.path.exists(name):
name = f"{original_name} ({i})"
i += 1
root_folder_name = original_name
root_folder_renamed = name
received_files.append(name)
elif root_folder_name != root_folder_renamed:
name = name.replace(root_folder_name, root_folder_renamed, 1)
os.makedirs(name, exist_ok=True)
elif name == "___DUKTO___TEXT___": # Text transfer
receiving_text = True
received_files.append(name)
text_data = b""
# Read text data
received = 0
while received < element_size:
chunk = conn.recv(min(8192, element_size - received))
if not chunk:
break
text_data += chunk
received += len(chunk)
total_received += len(chunk)
if self.on_transfer_progress:
self.on_transfer_progress(total_size, total_received)
else: # Regular file
if '/' in name and name.split('/')[0] == root_folder_name:
name = name.replace(root_folder_name, root_folder_renamed, 1)
# Find unique filename
i = 2
original_name = name
base_path = Path(name)
while os.path.exists(name):
name = f"{base_path.stem} ({i}){base_path.suffix}"
i += 1
received_files.append(name)
# Receive file data
with open(name, 'wb') as f:
received = 0
while received < element_size:
chunk = conn.recv(min(8192, element_size - received))
if not chunk:
break
f.write(chunk)
received += len(chunk)
total_received += len(chunk)
if self.on_transfer_progress:
self.on_transfer_progress(total_size, total_received)
# Transfer complete
if receiving_text:
text = text_data.decode('utf-8')
if self.on_receive_text:
self.on_receive_text(text, total_size)
else:
if self.on_receive_complete:
self.on_receive_complete(received_files, total_size)
except Exception as e:
if self.on_error:
self.on_error(f"Receive error: {e}")
finally:
conn.close()
self.is_receiving = False
def _send_file_thread(self, ip_dest: str, port: int, files: List[str]):
try:
# Expand file tree
expanded_files = self._expand_tree(files)
# Connect
sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
sock.connect((ip_dest, port))
# Calculate total size
total_size = self._compute_total_size(expanded_files)
# Send header
header = struct.pack('<Q', len(expanded_files))
header += struct.pack('<Q', total_size)
sock.sendall(header)
base_path = str(Path(files[0]).parent)
sent_data = len(header)
# Send each element
for filepath in expanded_files:
path = Path(filepath)
relative_name = str(path.relative_to(base_path))
# Send name
sock.sendall(relative_name.encode('utf-8') + b'\x00')
if path.is_dir():
# Send directory marker
sock.sendall(struct.pack('<q', -1))
else:
# Send file size
file_size = path.stat().st_size
sock.sendall(struct.pack('<q', file_size))
# Send file data
with open(filepath, 'rb') as f:
while True:
chunk = f.read(10000)
if not chunk:
break
sock.sendall(chunk)
sent_data += len(chunk)
if self.on_transfer_progress:
self.on_transfer_progress(total_size, sent_data)
sock.close()
if self.on_send_complete:
self.on_send_complete(files)
except Exception as e:
if self.on_error:
self.on_error(f"Send error: {e}")
finally:
self.is_sending = False
def _send_text_thread(self, ip_dest: str, port: int, text: str):
try:
sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
sock.connect((ip_dest, port))
text_bytes = text.encode('utf-8')
total_size = len(text_bytes)
# Send header
header = struct.pack('<Q', 1) # 1 element
header += struct.pack('<Q', total_size)
sock.sendall(header)
# Send text marker
sock.sendall(b'___DUKTO___TEXT___\x00')
sock.sendall(struct.pack('<q', total_size))
# Send text data
sock.sendall(text_bytes)
sock.close()
if self.on_send_complete:
self.on_send_complete(["___DUKTO___TEXT___"])
except Exception as e:
if self.on_error:
self.on_error(f"Send text error: {e}")
finally:
self.is_sending = False
def _expand_tree(self, files: List[str]) -> List[str]:
expanded = []
for filepath in files:
path = Path(filepath)
if path.is_dir():
self._add_recursive(expanded, path)
else:
expanded.append(str(path))
return expanded
def _add_recursive(self, expanded: List[str], path: Path):
expanded.append(str(path))
if path.is_dir():
for entry in path.iterdir():
self._add_recursive(expanded, entry)
def _compute_total_size(self, files: List[str]) -> int:
total = 0
for filepath in files:
path = Path(filepath)
if path.is_file():
total += path.stat().st_size
return total
def _send_to_all_broadcast(self, packet: bytes, port: int):
# Try common broadcast
try:
self.udp_socket.sendto(packet, ('255.255.255.255', port))
except:
pass
def shutdown(self):
self.running = False
self.say_goodbye()
if self.udp_socket:
self.udp_socket.close()
if self.tcp_server:
self.tcp_server.close()

142
main.py
View File

@@ -9,9 +9,144 @@ from core.web_search import MullvadLetaWrapper
from core.discord_presence import presence
from core.app_launcher import list_apps, launch
from core.updater import update_repository, is_update_available
from core.dukto import DuktoProtocol, Peer
ASSET = Path(__file__).parent / "assets" / "2ktan.png"
class DuktoDialog(QtWidgets.QDialog):
def __init__(self, parent=None):
super().__init__(parent)
self.setWindowTitle("LAN Transfer (Dukto)")
self.setMinimumSize(600, 400)
# Dukto Protocol Backend
self.protocol = DuktoProtocol()
self.setup_callbacks()
# UI Elements
self.peer_list_widget = QtWidgets.QListWidget()
self.send_file_button = QtWidgets.QPushButton("Send File(s)")
self.send_text_button = QtWidgets.QPushButton("Send Text")
self.refresh_button = QtWidgets.QPushButton("Refresh")
self.progress_bar = QtWidgets.QProgressBar()
# Layout
layout = QtWidgets.QVBoxLayout(self)
layout.addWidget(QtWidgets.QLabel("Discovered Peers:"))
layout.addWidget(self.peer_list_widget)
button_layout = QtWidgets.QHBoxLayout()
button_layout.addWidget(self.refresh_button)
button_layout.addStretch()
button_layout.addWidget(self.send_text_button)
button_layout.addWidget(self.send_file_button)
layout.addLayout(button_layout)
layout.addWidget(self.progress_bar)
self.progress_bar.hide()
# Connect signals
self.refresh_button.clicked.connect(self.refresh_peers)
self.send_file_button.clicked.connect(self.send_files)
self.send_text_button.clicked.connect(self.send_text)
# Initialize Dukto
self.protocol.initialize()
self.refresh_peers()
def setup_callbacks(self):
self.protocol.on_peer_added = self.add_peer
self.protocol.on_peer_removed = self.remove_peer
self.protocol.on_receive_start = lambda ip: self.show_progress()
self.protocol.on_transfer_progress = self.update_progress
self.protocol.on_receive_text = self.handle_received_text
self.protocol.on_receive_complete = self.handle_receive_complete
self.protocol.on_send_complete = lambda files: self.progress_bar.hide()
self.protocol.on_error = self.handle_error
@QtCore.Slot(Peer)
def add_peer(self, peer: Peer):
# Check if peer already exists
for i in range(self.peer_list_widget.count()):
item = self.peer_list_widget.item(i)
if item.data(QtCore.Qt.UserRole).address == peer.address: # type: ignore
return
item = QtWidgets.QListWidgetItem(f"{peer.signature} ({peer.address})")
item.setData(QtCore.Qt.UserRole, peer) # type: ignore
self.peer_list_widget.addItem(item)
@QtCore.Slot(Peer)
def remove_peer(self, peer: Peer):
for i in range(self.peer_list_widget.count()):
item = self.peer_list_widget.item(i)
if item and item.data(QtCore.Qt.UserRole).address == peer.address: # type: ignore
self.peer_list_widget.takeItem(i)
break
def refresh_peers(self):
self.peer_list_widget.clear()
self.protocol.peers.clear()
self.protocol.say_hello()
def get_selected_peer(self) -> Peer | None:
selected_items = self.peer_list_widget.selectedItems()
if not selected_items:
QtWidgets.QMessageBox.warning(self, "No Peer Selected", "Please select a peer from the list.")
return None
return selected_items[0].data(QtCore.Qt.UserRole) # type: ignore
def send_files(self):
peer = self.get_selected_peer()
if not peer:
return
files, _ = QtWidgets.QFileDialog.getOpenFileNames(self, "Select Files to Send")
if files:
self.show_progress()
self.protocol.send_file(peer.address, files, peer.port)
def send_text(self):
peer = self.get_selected_peer()
if not peer:
return
text, ok = QtWidgets.QInputDialog.getMultiLineText(self, "Send Text", "Enter text to send:")
if ok and text:
self.show_progress()
self.protocol.send_text(peer.address, text, peer.port)
def show_progress(self):
self.progress_bar.setValue(0)
self.progress_bar.show()
@QtCore.Slot(int, int)
def update_progress(self, total_size, transferred):
if total_size > 0:
percentage = int((transferred / total_size) * 100)
self.progress_bar.setValue(percentage)
@QtCore.Slot(str, int)
def handle_received_text(self, text, size):
self.progress_bar.hide()
QtWidgets.QMessageBox.information(self, "Text Received", text)
@QtCore.Slot(list, int)
def handle_receive_complete(self, files, size):
self.progress_bar.hide()
msg = f"Received {len(files)} file(s) successfully.\nThey are located in the application's directory."
QtWidgets.QMessageBox.information(self, "Transfer Complete", msg)
@QtCore.Slot(str)
def handle_error(self, error_message):
self.progress_bar.hide()
QtWidgets.QMessageBox.critical(self, "Transfer Error", error_message)
def closeEvent(self, event):
self.protocol.shutdown()
super().closeEvent(event)
class AppLauncherDialog(QtWidgets.QDialog):
def __init__(self, parent=None):
super().__init__(parent)
@@ -353,6 +488,7 @@ class MainWindow(QtWidgets.QMainWindow):
right_menu.addAction("Launch App", self.start_app_launcher)
right_menu.addAction("Search Files", self.start_file_search)
right_menu.addAction("Search Web", self.start_web_search)
right_menu.addAction("LAN Transfer (Dukto)", self.start_dukto)
right_menu.addSeparator()
right_menu.addAction("Check for updates", self.update_git)
if restart:
@@ -370,6 +506,7 @@ class MainWindow(QtWidgets.QMainWindow):
self.left_menu.addAction("Launch App", self.start_app_launcher)
self.left_menu.addAction("Search Files", self.start_file_search)
self.left_menu.addAction("Search Web", self.start_web_search)
self.left_menu.addAction("LAN Transfer (Dukto)", self.start_dukto)
# always on top timer
self.stay_on_top_timer = QtCore.QTimer(self)
@@ -423,6 +560,11 @@ class MainWindow(QtWidgets.QMainWindow):
self.app_launcher_dialog.move(QtGui.QCursor.pos())
self.app_launcher_dialog.show()
def start_dukto(self):
self.dukto_dialog = DuktoDialog(self)
self.dukto_dialog.move(QtGui.QCursor.pos())
self.dukto_dialog.show()
def start_file_search(self):
dialog = QtWidgets.QInputDialog(self)
dialog.setWindowTitle("File Search")