"""Thread-safe network utilities.""" import socket import threading from contextlib import contextmanager class PortAllocator: """Thread-safe port allocator that prevents port conflicts in concurrent environments. This class maintains a set of reserved ports and uses a lock to ensure that port allocation is atomic. Once a port is allocated, it remains reserved until explicitly released. Usage: allocator = PortAllocator() # Option 1: Manual allocation and release port = allocator.allocate(start_port=8080) try: # Use the port... finally: allocator.release(port) # Option 2: Context manager (recommended) with allocator.allocate_context(start_port=8080) as port: # Use the port... # Port is automatically released when exiting the context """ def __init__(self): self._lock = threading.Lock() self._reserved_ports: set[int] = set() def _is_port_available(self, port: int) -> bool: """Check if a port is available for binding. Args: port: The port number to check. Returns: True if the port is available, False otherwise. """ if port in self._reserved_ports: return False with socket.socket(socket.AF_INET, socket.SOCK_STREAM) as s: try: s.bind(("localhost", port)) return True except OSError: return False def allocate(self, start_port: int = 8080, max_range: int = 100) -> int: """Allocate an available port in a thread-safe manner. This method is thread-safe. It finds an available port, marks it as reserved, and returns it. The port remains reserved until release() is called. Args: start_port: The port number to start searching from. max_range: Maximum number of ports to search. Returns: An available port number. Raises: RuntimeError: If no available port is found in the specified range. """ with self._lock: for port in range(start_port, start_port + max_range): if self._is_port_available(port): self._reserved_ports.add(port) return port raise RuntimeError(f"No available port found in range {start_port}-{start_port + max_range}") def release(self, port: int) -> None: """Release a previously allocated port. Args: port: The port number to release. """ with self._lock: self._reserved_ports.discard(port) @contextmanager def allocate_context(self, start_port: int = 8080, max_range: int = 100): """Context manager for port allocation with automatic release. Args: start_port: The port number to start searching from. max_range: Maximum number of ports to search. Yields: An available port number. """ port = self.allocate(start_port, max_range) try: yield port finally: self.release(port) # Global port allocator instance for shared use across the application _global_port_allocator = PortAllocator() def get_free_port(start_port: int = 8080, max_range: int = 100) -> int: """Get a free port in a thread-safe manner. This function uses a global port allocator to ensure that concurrent calls don't return the same port. The port is marked as reserved until release_port() is called. Args: start_port: The port number to start searching from. max_range: Maximum number of ports to search. Returns: An available port number. Raises: RuntimeError: If no available port is found in the specified range. """ return _global_port_allocator.allocate(start_port, max_range) def release_port(port: int) -> None: """Release a previously allocated port. Args: port: The port number to release. """ _global_port_allocator.release(port)