def run():
parser = argparse.ArgumentParser(
description='Open a public HTTP tunnel to a local server')
parser.add_argument('port', metavar='port', type=int,
help='local port of server to tunnel to')
parser.add_argument('-n', dest='name', metavar='name',
default=str(uuid.uuid4()).split('-')[-1],
help='name of the tunnel (default: randomly generate)')
parser.add_argument('-c', dest='concurrency', type=int,
metavar='concurrency', default=3,
help='number of concurrent backend connections')
parser.add_argument('-s', dest='host', metavar='address',
default='v2.localtunnel.com',
help='localtunnel server address (default: v2.localtunnel.com)')
args = parser.parse_args()
tunnel_data = {
'name': args.name,
'client': client_name(),
'init': True,
}
host = args.host.split(':')
if len(host) == 1:
backend_address = (host[0], discover_backend_port(host[0]))
else:
backend_address = (host[0], discover_backend_port(host[0], int(host[1])))
try:
spawn_args = [client_connector, backend_address, args.port, tunnel_data]
gevent.joinall(group([
gevent.spawn(*spawn_args) for n in range(args.concurrency)
]))
except KeyboardInterrupt:
pass
def run():
parser = argparse.ArgumentParser(
description='Open a public HTTP tunnel to a local server')
parser.add_argument('port',
metavar='port',
type=int,
help='local port of server to tunnel to')
parser.add_argument('-n',
dest='name',
metavar='name',
default=str(uuid.uuid4()).split('-')[-1],
help='name of the tunnel (default: randomly generate)')
parser.add_argument('-c',
dest='concurrency',
type=int,
metavar='concurrency',
default=3,
help='number of concurrent backend connections')
parser.add_argument(
'-s',
dest='host',
metavar='address',
default='v2.localtunnel.com',
help='localtunnel server address (default: v2.localtunnel.com)')
args = parser.parse_args()
tunnel_data = {
'name': args.name,
'client': client_name(),
'init': True,
}
host = args.host.split(':')
if len(host) == 1:
backend_address = (host[0], discover_backend_port(host[0]))
else:
backend_address = (host[0],
discover_backend_port(host[0], int(host[1])))
try:
spawn_args = [
client_connector, backend_address, args.port, tunnel_data
]
gevent.joinall(
group([gevent.spawn(*spawn_args)
for n in range(args.concurrency)]))
except KeyboardInterrupt:
pass
def start_client(**kwargs):
host = kwargs['host']
backend_port = kwargs.get('backend_port')
if not backend_port:
try:
backend_port = util.discover_backend_port(host)
except:
print " ERROR: Unable to connect to service."
sys.exit(0)
frontend_ip = socket.gethostbyname(host.split(':')[0])
frontend_address, frontend_hostname = util.parse_address(host,
default_ip=frontend_ip)
backend = (frontend_address[0], backend_port)
name = kwargs['name']
client = util.client_name()
target = util.parse_address(kwargs['target'])[0]
try:
control = eventlet.connect(backend)
control.sendall(protocol.version)
protocol.send_message(control,
protocol.control_request(
name=name,
client=client,
))
reply = protocol.recv_message(control)
if reply and 'control' in reply:
reply = reply['control']
def maintain_proxy_backend_pool():
pool = eventlet.greenpool.GreenPool(reply['concurrency'])
while True:
pool.spawn_n(open_proxy_backend,
backend, target, name, client)
proxying = eventlet.spawn(maintain_proxy_backend_pool)
print " {0}".format(reply['banner'])
print " Port {0} is now accessible from http://{1} ...\n".format(
target[1], reply['host'])
try:
while True:
message = protocol.recv_message(control)
assert message == protocol.control_ping()
protocol.send_message(control, protocol.control_pong())
except (IOError, AssertionError):
proxying.kill()
elif reply and 'error' in reply:
print " ERROR: {0}".format(reply['message'])
else:
print " ERROR: Unexpected server reply."
print " Make sure you have the latest version of the client."
except KeyboardInterrupt:
pass
def start_client(**kwargs):
host = kwargs["host"]
backend_port = kwargs.get("backend_port")
use_ssl = kwargs.get("use_ssl", False)
ssl_opts = kwargs.get("ssl_opts", {})
if not backend_port:
try:
backend_port = util.discover_backend_port(host)
except:
print " ERROR: Unable to connect to service."
sys.exit(0)
frontend_ip = socket.gethostbyname(host.split(":")[0])
frontend_address, frontend_hostname = util.parse_address(host, default_ip=frontend_ip)
backend = (frontend_address[0], backend_port)
name = kwargs["name"]
client = util.client_name()
target = util.parse_address(kwargs["target"])[0]
try:
control = eventlet.connect(backend)
if use_ssl:
control = eventlet.wrap_ssl(control, server_side=False, **ssl_opts)
control.sendall(protocol.version)
protocol.send_message(control, protocol.control_request(name=name, client=client))
reply = protocol.recv_message(control)
if reply and "control" in reply:
reply = reply["control"]
def maintain_proxy_backend_pool():
pool = eventlet.greenpool.GreenPool(reply["concurrency"])
while True:
pool.spawn_n(open_proxy_backend, backend, target, name, client, use_ssl, ssl_opts)
proxying = eventlet.spawn(maintain_proxy_backend_pool)
print " {0}".format(reply["banner"])
print " Port {0} is now accessible from http://{1} ...\n".format(target[1], reply["host"])
try:
while True:
message = protocol.recv_message(control)
assert message == protocol.control_ping()
protocol.send_message(control, protocol.control_pong())
except (IOError, AssertionError):
proxying.kill()
elif reply and "error" in reply:
print " ERROR: {0}".format(reply["message"])
else:
print " ERROR: Unexpected server reply."
print " Make sure you have the latest version of the client."
except KeyboardInterrupt:
pass
def start_client(**kwargs):
host = kwargs['host']
try:
backend_port = util.discover_backend_port(host)
except:
print " ERROR: Unable to connect to service."
sys.exit(0)
frontend_ip = socket.gethostbyname(host.split(':')[0])
frontend_address, frontend_hostname = util.parse_address(
host, default_ip=frontend_ip)
backend = (frontend_address[0], backend_port)
name = kwargs['name']
client = util.client_name()
target = util.parse_address(kwargs['target'])[0]
try:
control = eventlet.connect(backend)
control.sendall(protocol.version)
protocol.send_message(
control, protocol.control_request(
name=name,
client=client,
))
reply = protocol.recv_message(control)
if reply and 'control' in reply:
reply = reply['control']
def maintain_proxy_backend_pool():
pool = eventlet.greenpool.GreenPool(reply['concurrency'])
while True:
pool.spawn_n(open_proxy_backend, backend, target, name,
client)
proxying = eventlet.spawn(maintain_proxy_backend_pool)
print " {0}".format(reply['banner'])
print " Port {0} is now accessible from http://{1} ...\n".format(
target[1], reply['host'])
try:
while True:
message = protocol.recv_message(control)
assert message == protocol.control_ping()
protocol.send_message(control, protocol.control_pong())
except (IOError, AssertionError):
proxying.kill()
elif reply and 'error' in reply:
print " ERROR: {0}".format(reply['message'])
else:
print " ERROR: Unexpected server reply."
print " Make sure you have the latest version of the client."
except KeyboardInterrupt:
pass
def run():
parser = argparse.ArgumentParser(
description='Open a public HTTP tunnel to a local server')
parser.add_argument('-s', dest='host', metavar='address',
default='v2.localtunnel.com',
help='localtunnel server address (default: v2.localtunnel.com)')
parser.add_argument('--version', action='store_true',
help='show version information for client and server')
parser.add_argument('-m', action='store_true',
help='show server metrics and exit')
if '--version' in sys.argv:
args = parser.parse_args()
print "client: {}".format(__version__)
try:
server_version = util.lookup_server_version(args.host)
except:
server_version = '??'
print "server: {} ({})".format(server_version, args.host)
sys.exit(0)
elif '-m' in sys.argv:
args = parser.parse_args()
util.print_server_metrics(args.host)
sys.exit(0)
parser.add_argument('-n', dest='name', metavar='name',
default=str(uuid.uuid4()).split('-')[-1],
help='name of the tunnel (default: randomly generate)')
parser.add_argument('-c', dest='concurrency', type=int,
metavar='concurrency', default=3,
help='number of concurrent backend connections')
parser.add_argument('target', metavar='target', type=str,
help='local target port or address of server to tunnel to')
args = parser.parse_args()
backend_port = util.discover_backend_port(args.host)
frontend_address, frontend_hostname = util.parse_address(args.host)
backend = (frontend_address[0], backend_port)
name = args.name
client = util.client_name()
target = util.parse_address(args.target)[0]
try:
control = eventlet.connect(backend)
control.sendall(protocol.version)
protocol.send_message(control,
protocol.control_request(
name=name,
client=client,
))
reply = protocol.recv_message(control)
if reply and 'control' in reply:
reply = reply['control']
def maintain_proxy_backend_pool():
pool = eventlet.greenpool.GreenPool(reply['concurrency'])
while True:
pool.spawn_n(open_proxy_backend,
backend, target, name, client)
proxying = eventlet.spawn(maintain_proxy_backend_pool)
print " {0}".format(reply['banner'])
print " Port {0} is now accessible from http://{1} ...\n".format(
target[1], reply['host'])
try:
while True:
message = protocol.recv_message(control)
assert message == protocol.control_ping()
protocol.send_message(control, protocol.control_pong())
except (IOError, AssertionError):
proxying.kill()
elif reply and 'error' in reply:
print " ERROR: {0}".format(reply['message'])
else:
print " ERROR: Unexpected server reply."
print " Make sure you have the latest version of the client."
except KeyboardInterrupt:
pass
def run():
parser = argparse.ArgumentParser(
description='Open a public HTTP tunnel to a local server')
parser.add_argument('-s', dest='host', metavar='address',
default='v2.localtunnel.com',
help='localtunnel server address (default: v2.localtunnel.com)')
parser.add_argument('--version', action='store_true',
help='show version information for client and server')
parser.add_argument('-m', action='store_true',
help='show server metrics and exit')
if '--version' in sys.argv:
args = parser.parse_args()
print "client: {}".format(__version__)
try:
server_version = util.lookup_server_version(args.host)
except:
server_version = '??'
print "server: {} ({})".format(server_version, args.host)
sys.exit(0)
elif '-m' in sys.argv:
args = parser.parse_args()
util.print_server_metrics(args.host)
sys.exit(0)
parser.add_argument('-n', dest='name', metavar='name',
default=str(uuid.uuid4()).split('-')[-1],
help='name of the tunnel (default: randomly generate)')
parser.add_argument('-c', dest='concurrency', type=int,
metavar='concurrency', default=3,
help='number of concurrent backend connections')
parser.add_argument('port', metavar='port', type=int,
help='local port of server to tunnel to')
args = parser.parse_args()
host = args.host.split(':')
if len(host) == 1:
backend_port = util.discover_backend_port(host[0])
else:
backend_port = util.discover_backend_port(host[0], int(host[1]))
backend = (host[0], backend_port)
name = args.name
client = util.client_name()
port = args.port
try:
control = eventlet.connect(backend)
control.sendall(protocol.version)
protocol.send_message(control,
protocol.control_request(
name=name,
client=client,
))
reply = protocol.recv_message(control)
if reply and 'control' in reply:
reply = reply['control']
def maintain_proxy_backend_pool():
pool = eventlet.greenpool.GreenPool(reply['concurrency'])
while True:
pool.spawn_n(open_proxy_backend,
backend, port, name, client)
proxying = eventlet.spawn(maintain_proxy_backend_pool)
print " {0}".format(reply['banner'])
print " Port {0} is now accessible from http://{1} ...\n".format(
port, reply['host'])
try:
while True:
message = protocol.recv_message(control)
assert message == protocol.control_ping()
protocol.send_message(control, protocol.control_pong())
except (IOError, AssertionError):
proxying.kill()
elif reply and 'error' in reply:
print " ERROR: {0}".format(reply['message'])
else:
print " ERROR: Unexpected server reply."
print " Make sure you have the latest version of the client."
except KeyboardInterrupt:
pass