tornado.netutil — Miscellaneous network utilities¶
Miscellaneous network utility code.
- tornado.netutil.bind_sockets(port, address=None, family=0, backlog=128, flags=None)¶
Creates listening sockets bound to the given port and address.
Returns a list of socket objects (multiple sockets are returned if the given address maps to multiple IP addresses, which is most common for mixed IPv4 and IPv6 use).
Address may be either an IP address or hostname. If it’s a hostname, the server will listen on all IP addresses associated with the name. Address may be an empty string or None to listen on all available interfaces. Family may be set to either socket.AF_INET or socket.AF_INET6 to restrict to IPv4 or IPv6 addresses, otherwise both will be used if available.
The backlog argument has the same meaning as for socket.listen().
flags is a bitmask of AI_* flags to getaddrinfo, like socket.AI_PASSIVE | socket.AI_NUMERICHOST.
- tornado.netutil.bind_unix_socket(file, mode=384, backlog=128)¶
Creates a listening unix socket.
If a socket with the given name already exists, it will be deleted. If any other file with that name exists, an exception will be raised.
Returns a socket object (not a list of socket objects like bind_sockets)
- tornado.netutil.add_accept_handler(sock, callback, io_loop=None)¶
Adds an IOLoop event handler to accept new connections on sock.
When a connection is accepted, callback(connection, address) will be run (connection is a socket object, and address is the address of the other end of the connection). Note that this signature is different from the callback(fd, events) signature used for IOLoop handlers.
Returns true if the given string is a well-formed IP address.
Supports IPv4 and IPv6.
- class tornado.netutil.Resolver¶
Configurable asynchronous DNS resolver interface.
The implementations of this interface included with Tornado are
- resolve(host, port, family=0, callback=None)¶
Resolves an address.
The host argument is a string which may be a hostname or a literal IP address.
Returns a Future whose result is a list of (family, address) pairs, where address is a tuple suitable to pass to socket.connect (i.e. a (host, port) pair for IPv4; additional fields may be present for IPv6). If a callback is passed, it will be run with the result as an argument when it is complete.
- class tornado.netutil.ExecutorResolver¶
Resolver implementation using a concurrent.futures.Executor.
Use this instead of ThreadedResolver when you require additional control over the executor being used.
The executor will be shut down when the resolver is closed unless close_resolver=False; use this if you want to reuse the same executor elsewhere.
- class tornado.netutil.BlockingResolver¶
- class tornado.netutil.ThreadedResolver¶
Multithreaded non-blocking Resolver implementation.
Requires the concurrent.futures package to be installed (available in the standard library since Python 3.2, installable with pip install futures in older versions).
The thread pool size can be configured with:
Changed in version 3.1: All ThreadedResolvers share a single thread pool, whose size is set by the first one to be created.
- class tornado.netutil.OverrideResolver¶
Wraps a resolver with a mapping of overrides.
This can be used to make local DNS changes (e.g. for testing) without modifying system-wide settings.
The mapping can contain either host strings or host-port pairs.
Try to convert an ssl_options dictionary to an SSLContext object.
The ssl_options dictionary contains keywords to be passed to ssl.wrap_socket. In Python 3.2+, ssl.SSLContext objects can be used instead. This function converts the dict form to its SSLContext equivalent, and may be used when a component which accepts both forms needs to upgrade to the SSLContext version to use features like SNI or NPN.
- tornado.netutil.ssl_wrap_socket(socket, ssl_options, server_hostname=None, **kwargs)¶
Returns an ssl.SSLSocket wrapping the given socket.
ssl_options may be either a dictionary (as accepted by ssl_options_to_context) or an ssl.SSLContext object. Additional keyword arguments are passed to wrap_socket (either the SSLContext method or the ssl module function as appropriate).