src/testdir/test_channel.py - third_party/vim - Git at Google

 #!/usr/bin/python
 #
 # Server that will accept connections from a Vim channel.
 # Run this server and then in Vim you can open the channel:
 #  :let handle = ch_open('localhost:8765', 'json')
 #
 # Then Vim can send requests to the server:
 #  :let response = ch_sendexpr(handle, 'hello!')
 #
 # See ":help channel-demo" in Vim.
 #
 # This requires Python 2.6 or later.

 from __future__ import print_function
 import json
 import socket
 import sys
 import threading

 try:
     # Python 3
     import socketserver
 except ImportError:
     # Python 2
     import SocketServer as socketserver

 thesocket = None

 class ThreadedTCPRequestHandler(socketserver.BaseRequestHandler):

     def handle(self):
         print("=== socket opened ===")
         global thesocket
         thesocket = self.request
         while True:
             try:
                 data = self.request.recv(4096).decode('utf-8')
             except socket.error:
                 print("=== socket error ===")
                 break
             except IOError:
                 print("=== socket closed ===")
                 break
             if data == '':
                 print("=== socket closed ===")
                 break
             print("received: {}".format(data))

             # We may receive two messages at once. Take the part up to the
             # matching "]" (recognized by finding "][").
             while data != '':
                 splitidx = data.find('][')
                 if splitidx < 0:
                      todo = data
                      data = ''
                 else:
                      todo = data[:splitidx + 1]
                      data = data[splitidx + 1:]
                      print("using: {}".format(todo))

                 try:
                     decoded = json.loads(todo)
                 except ValueError:
                     print("json decoding failed")
                     decoded = [-1, '']

                 # Send a response if the sequence number is positive.
                 if decoded[0] >= 0:
                     if decoded[1] == 'hello!':
                         # simply send back a string
                         response = "got it"
                     elif decoded[1] == 'make change':
                         # Send two ex commands at the same time, before replying to
                         # the request.
                         cmd = '["ex","call append(\\"$\\",\\"added1\\")"]'
                         cmd += '["ex","call append(\\"$\\",\\"added2\\")"]'
                         print("sending: {}".format(cmd))
                         thesocket.sendall(cmd.encode('utf-8'))
                         response = "ok"
                     elif decoded[1] == 'eval-works':
                         # Send an eval request.  We ignore the response.
                         cmd = '["eval","\\"foo\\" . 123", -1]'
                         print("sending: {}".format(cmd))
                         thesocket.sendall(cmd.encode('utf-8'))
                         response = "ok"
                     elif decoded[1] == 'eval-fails':
                         # Send an eval request that will fail.
                         cmd = '["eval","xxx", -2]'
                         print("sending: {}".format(cmd))
                         thesocket.sendall(cmd.encode('utf-8'))
                         response = "ok"
                     elif decoded[1] == 'eval-result':
                         # Send back the last received eval result.
                         response = last_eval
                     elif decoded[1] == '!quit!':
                         # we're done
                         sys.exit(0)
                     elif decoded[1] == '!crash!':
                         # Crash!
                         42 / 0
                     else:
                         response = "what?"

                     encoded = json.dumps([decoded[0], response])
                     print("sending: {}".format(encoded))
                     thesocket.sendall(encoded.encode('utf-8'))

                 # Negative numbers are used for "eval" responses.
                 elif decoded[0] < 0:
                     last_eval = decoded

         thesocket = None

 class ThreadedTCPServer(socketserver.ThreadingMixIn, socketserver.TCPServer):
     pass

 if __name__ == "__main__":
     HOST, PORT = "localhost", 0

     server = ThreadedTCPServer((HOST, PORT), ThreadedTCPRequestHandler)
     ip, port = server.server_address

     # Start a thread with the server -- that thread will then start one
     # more thread for each request
     server_thread = threading.Thread(target=server.serve_forever)

     # Exit the server thread when the main thread terminates
     server_thread.daemon = True
     server_thread.start()

     # Write the port number in Xportnr, so that the test knows it.
     f = open("Xportnr", "w")
     f.write("{}".format(port))
     f.close()

     # Block here
     print("Listening on port {}".format(port))
     server.serve_forever()
	#!/usr/bin/python
	#
	# Server that will accept connections from a Vim channel.
	# Run this server and then in Vim you can open the channel:
	# :let handle = ch_open('localhost:8765', 'json')
	#
	# Then Vim can send requests to the server:
	# :let response = ch_sendexpr(handle, 'hello!')
	#
	# See ":help channel-demo" in Vim.
	#
	# This requires Python 2.6 or later.

	from __future__ import print_function
	import json
	import socket
	import sys
	import threading

	try:
	# Python 3
	import socketserver
	except ImportError:
	# Python 2
	import SocketServer as socketserver

	thesocket = None

	class ThreadedTCPRequestHandler(socketserver.BaseRequestHandler):

	def handle(self):
	print("=== socket opened ===")
	global thesocket
	thesocket = self.request
	while True:
	try:
	data = self.request.recv(4096).decode('utf-8')
	except socket.error:
	print("=== socket error ===")
	break
	except IOError:
	print("=== socket closed ===")
	break
	if data == '':
	print("=== socket closed ===")
	break
	print("received: {}".format(data))

	# We may receive two messages at once. Take the part up to the
	# matching "]" (recognized by finding "][").
	while data != '':
	splitidx = data.find('][')
	if splitidx < 0:
	todo = data
	data = ''
	else:
	todo = data[:splitidx + 1]
	data = data[splitidx + 1:]
	print("using: {}".format(todo))

	try:
	decoded = json.loads(todo)
	except ValueError:
	print("json decoding failed")
	decoded = [-1, '']

	# Send a response if the sequence number is positive.
	if decoded[0] >= 0:
	if decoded[1] == 'hello!':
	# simply send back a string
	response = "got it"
	elif decoded[1] == 'make change':
	# Send two ex commands at the same time, before replying to
	# the request.
	cmd = '["ex","call append(\\"$\\",\\"added1\\")"]'
	cmd += '["ex","call append(\\"$\\",\\"added2\\")"]'
	print("sending: {}".format(cmd))
	thesocket.sendall(cmd.encode('utf-8'))
	response = "ok"
	elif decoded[1] == 'eval-works':
	# Send an eval request. We ignore the response.
	cmd = '["eval","\\"foo\\" . 123", -1]'
	print("sending: {}".format(cmd))
	thesocket.sendall(cmd.encode('utf-8'))
	response = "ok"
	elif decoded[1] == 'eval-fails':
	# Send an eval request that will fail.
	cmd = '["eval","xxx", -2]'
	print("sending: {}".format(cmd))
	thesocket.sendall(cmd.encode('utf-8'))
	response = "ok"
	elif decoded[1] == 'eval-result':
	# Send back the last received eval result.
	response = last_eval
	elif decoded[1] == '!quit!':
	# we're done
	sys.exit(0)
	elif decoded[1] == '!crash!':
	# Crash!
	42 / 0
	else:
	response = "what?"

	encoded = json.dumps([decoded[0], response])
	print("sending: {}".format(encoded))
	thesocket.sendall(encoded.encode('utf-8'))

	# Negative numbers are used for "eval" responses.
	elif decoded[0] < 0:
	last_eval = decoded

	thesocket = None

	class ThreadedTCPServer(socketserver.ThreadingMixIn, socketserver.TCPServer):
	pass

	if __name__ == "__main__":
	HOST, PORT = "localhost", 0

	server = ThreadedTCPServer((HOST, PORT), ThreadedTCPRequestHandler)
	ip, port = server.server_address

	# Start a thread with the server -- that thread will then start one
	# more thread for each request
	server_thread = threading.Thread(target=server.serve_forever)

	# Exit the server thread when the main thread terminates
	server_thread.daemon = True
	server_thread.start()

	# Write the port number in Xportnr, so that the test knows it.
	f = open("Xportnr", "w")
	f.write("{}".format(port))
	f.close()

	# Block here
	print("Listening on port {}".format(port))
	server.serve_forever()