upstream/mercurial-mirror Files · tests/tinyproxy.py

httppeer: implement command executor for version 2 peer...

httppeer: implement command executor for version 2 peer Now that we have a new API for issuing commands which is compatible with wire protocol version 2, we can start using it with wire protocol version 2. This commit replaces our hacky implementation of _call() with something a bit more robust based on the new command executor interface. We now have proper support for issuing multiple commands per HTTP request. Each HTTP request maintains its own client reactor. The implementation is similar to the one in the legacy wire protocol. We use a ThreadPoolExecutor for spinning up a thread to read the HTTP response in the background. This allows responses to resolve in any order. While not implemented on the server yet, a client could use concurrent.futures.as_completed() with a collection of futures and handle responses as they arrive from the server. The return value from issued commands is still a simple list of raw or decoded CBOR data. This is still super hacky. We will want a rich data type for representing command responses. But at least this commit gets us one step closer to a proper peer implementation. Differential Revision: https://phab.mercurial-scm.org/D3297

Matt Harbison - - Load All Authors

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      #!/usr/bin/env python

      from __future__ import absolute_import, print_function

      __doc__ = """Tiny HTTP Proxy.

      This module implements GET, HEAD, POST, PUT and DELETE methods

      on BaseHTTPServer, and behaves as an HTTP proxy.  The CONNECT

      method is also implemented experimentally, but has not been

      tested yet.

      Any help will be greatly appreciated.           SUZUKI Hisao

      """

      __version__ = "0.2.1"

      import optparse

      import os

      import select

      import socket

      import sys

      from mercurial import util

      httpserver = util.httpserver

      socketserver = util.socketserver

      urlreq = util.urlreq

      if os.environ.get('HGIPV6', '0') == '1':

          family = socket.AF_INET6

      else:

          family = socket.AF_INET

      class ProxyHandler (httpserver.basehttprequesthandler):

          __base = httpserver.basehttprequesthandler

          __base_handle = __base.handle

          server_version = "TinyHTTPProxy/" + __version__

          rbufsize = 0                        # self.rfile Be unbuffered

          def handle(self):

              (ip, port) = self.client_address

              allowed = getattr(self, 'allowed_clients', None)

              if allowed is not None and ip not in allowed:

                  self.raw_requestline = self.rfile.readline()

                  if self.parse_request():

                      self.send_error(403)

              else:

                  self.__base_handle()

          def log_request(self, code='-', size='-'):

              xheaders = [h for h in self.headers.items() if h[0].startswith('x-')]

              self.log_message('"%s" %s %s%s',

                               self.requestline, str(code), str(size),

                               ''.join([' %s:%s' % h for h in sorted(xheaders)]))

              # Flush for Windows, so output isn't lost on TerminateProcess()

              sys.stdout.flush()

              sys.stderr.flush()

          def _connect_to(self, netloc, soc):

              i = netloc.find(':')

              if i >= 0:

                  host_port = netloc[:i], int(netloc[i + 1:])

              else:

                  host_port = netloc, 80

              print("\t" "connect to %s:%d" % host_port)

              try: soc.connect(host_port)

              except socket.error as arg:

                  try: msg = arg[1]

                  except (IndexError, TypeError): msg = arg

                  self.send_error(404, msg)

                  return 0

              return 1

          def do_CONNECT(self):

              soc = socket.socket(family, socket.SOCK_STREAM)

              try:

                  if self._connect_to(self.path, soc):

                      self.log_request(200)

                      self.wfile.write(self.protocol_version +

                                       " 200 Connection established\r\n")

                      self.wfile.write("Proxy-agent: %s\r\n" % self.version_string())

                      self.wfile.write("\r\n")

                      self._read_write(soc, 300)

              finally:

                  print("\t" "bye")

                  soc.close()

                  self.connection.close()

          def do_GET(self):

              (scm, netloc, path, params, query, fragment) = urlreq.urlparse(

                  self.path, 'http')

              if scm != 'http' or fragment or not netloc:

                  self.send_error(400, "bad url %s" % self.path)

                  return

              soc = socket.socket(family, socket.SOCK_STREAM)

              try:

                  if self._connect_to(netloc, soc):

                      self.log_request()

                      soc.send("%s %s %s\r\n" % (

                          self.command,

                          urlreq.urlunparse(('', '', path, params, query, '')),

                          self.request_version))

                      self.headers['Connection'] = 'close'

                      del self.headers['Proxy-Connection']

                      for key_val in self.headers.items():

                          soc.send("%s: %s\r\n" % key_val)

                      soc.send("\r\n")

                      self._read_write(soc)

              finally:

                  print("\t" "bye")

                  soc.close()

                  self.connection.close()

          def _read_write(self, soc, max_idling=20):

              iw = [self.connection, soc]

              ow = []

              count = 0

              while True:

                  count += 1

                  (ins, _, exs) = select.select(iw, ow, iw, 3)

                  if exs:

                      break

                  if ins:

                      for i in ins:

                          if i is soc:

                              out = self.connection

                          else:

                              out = soc

                          try:

                              data = i.recv(8192)

                          except socket.error:

                              break

                          if data:

                              out.send(data)

                              count = 0

                  else:

                      print("\t" "idle", count)

                  if count == max_idling:

                      break

          do_HEAD = do_GET

          do_POST = do_GET

          do_PUT  = do_GET

          do_DELETE = do_GET

      class ThreadingHTTPServer (socketserver.ThreadingMixIn,

                                 httpserver.httpserver):

          def __init__(self, *args, **kwargs):

              httpserver.httpserver.__init__(self, *args, **kwargs)

              a = open("proxy.pid", "w")

              a.write(str(os.getpid()) + "\n")

              a.close()

      def runserver(port=8000, bind=""):

          server_address = (bind, port)

          ProxyHandler.protocol_version = "HTTP/1.0"

          httpd = ThreadingHTTPServer(server_address, ProxyHandler)

          sa = httpd.socket.getsockname()

          print("Serving HTTP on", sa[0], "port", sa[1], "...")

          try:

              httpd.serve_forever()

          except KeyboardInterrupt:

              print("\nKeyboard interrupt received, exiting.")

              httpd.server_close()

              sys.exit(0)

      if __name__ == '__main__':

          argv = sys.argv

          if argv[1:] and argv[1] in ('-h', '--help'):

              print(argv[0], "[port [allowed_client_name ...]]")

          else:

              if argv[2:]:

                  allowed = []

                  for name in argv[2:]:

                      client = socket.gethostbyname(name)

                      allowed.append(client)

                      print("Accept: %s (%s)" % (client, name))

                  ProxyHandler.allowed_clients = allowed

                  del argv[2:]

              else:

                  print("Any clients will be served...")

              parser = optparse.OptionParser()

              parser.add_option('-b', '--bind', metavar='ADDRESS',

                                help='Specify alternate bind address '

                                     '[default: all interfaces]', default='')

              (options, args) = parser.parse_args()

              port = 8000

              if len(args) == 1:

                  port = int(args[0])

              runserver(port, options.bind)

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				#!/usr/bin/env python

				from __future__ import absolute_import, print_function

				__doc__ = """Tiny HTTP Proxy.

				This module implements GET, HEAD, POST, PUT and DELETE methods
				on BaseHTTPServer, and behaves as an HTTP proxy. The CONNECT
				method is also implemented experimentally, but has not been
				tested yet.

				Any help will be greatly appreciated. SUZUKI Hisao
				"""

				__version__ = "0.2.1"

				import optparse
				import os
				import select
				import socket
				import sys

				from mercurial import util

				httpserver = util.httpserver
				socketserver = util.socketserver
				urlreq = util.urlreq

				if os.environ.get('HGIPV6', '0') == '1':
				family = socket.AF_INET6
				else:
				family = socket.AF_INET

				class ProxyHandler (httpserver.basehttprequesthandler):
				__base = httpserver.basehttprequesthandler
				__base_handle = __base.handle

				server_version = "TinyHTTPProxy/" + __version__
				rbufsize = 0 # self.rfile Be unbuffered

				def handle(self):
				(ip, port) = self.client_address
				allowed = getattr(self, 'allowed_clients', None)
				if allowed is not None and ip not in allowed:
				self.raw_requestline = self.rfile.readline()
				if self.parse_request():
				self.send_error(403)
				else:
				self.__base_handle()

				def log_request(self, code='-', size='-'):
				xheaders = [h for h in self.headers.items() if h[0].startswith('x-')]
				self.log_message('"%s" %s %s%s',
				self.requestline, str(code), str(size),
				''.join([' %s:%s' % h for h in sorted(xheaders)]))
				# Flush for Windows, so output isn't lost on TerminateProcess()
				sys.stdout.flush()
				sys.stderr.flush()

				def _connect_to(self, netloc, soc):
				i = netloc.find(':')
				if i >= 0:
				host_port = netloc[:i], int(netloc[i + 1:])
				else:
				host_port = netloc, 80
				print("\t" "connect to %s:%d" % host_port)
				try: soc.connect(host_port)
				except socket.error as arg:
				try: msg = arg[1]
				except (IndexError, TypeError): msg = arg
				self.send_error(404, msg)
				return 0
				return 1

				def do_CONNECT(self):
				soc = socket.socket(family, socket.SOCK_STREAM)
				try:
				if self._connect_to(self.path, soc):
				self.log_request(200)
				self.wfile.write(self.protocol_version +
				" 200 Connection established\r\n")
				self.wfile.write("Proxy-agent: %s\r\n" % self.version_string())
				self.wfile.write("\r\n")
				self._read_write(soc, 300)
				finally:
				print("\t" "bye")
				soc.close()
				self.connection.close()

				def do_GET(self):
				(scm, netloc, path, params, query, fragment) = urlreq.urlparse(
				self.path, 'http')
				if scm != 'http' or fragment or not netloc:
				self.send_error(400, "bad url %s" % self.path)
				return
				soc = socket.socket(family, socket.SOCK_STREAM)
				try:
				if self._connect_to(netloc, soc):
				self.log_request()
				soc.send("%s %s %s\r\n" % (
				self.command,
				urlreq.urlunparse(('', '', path, params, query, '')),
				self.request_version))
				self.headers['Connection'] = 'close'
				del self.headers['Proxy-Connection']
				for key_val in self.headers.items():
				soc.send("%s: %s\r\n" % key_val)
				soc.send("\r\n")
				self._read_write(soc)
				finally:
				print("\t" "bye")
				soc.close()
				self.connection.close()

				def _read_write(self, soc, max_idling=20):
				iw = [self.connection, soc]
				ow = []
				count = 0
				while True:
				count += 1
				(ins, _, exs) = select.select(iw, ow, iw, 3)
				if exs:
				break
				if ins:
				for i in ins:
				if i is soc:
				out = self.connection
				else:
				out = soc
				try:
				data = i.recv(8192)
				except socket.error:
				break
				if data:
				out.send(data)
				count = 0
				else:
				print("\t" "idle", count)
				if count == max_idling:
				break

				do_HEAD = do_GET
				do_POST = do_GET
				do_PUT = do_GET
				do_DELETE = do_GET

				class ThreadingHTTPServer (socketserver.ThreadingMixIn,
				httpserver.httpserver):
				def __init__(self, args, *kwargs):
				httpserver.httpserver.__init__(self, args, *kwargs)
				a = open("proxy.pid", "w")
				a.write(str(os.getpid()) + "\n")
				a.close()

				def runserver(port=8000, bind=""):
				server_address = (bind, port)
				ProxyHandler.protocol_version = "HTTP/1.0"
				httpd = ThreadingHTTPServer(server_address, ProxyHandler)
				sa = httpd.socket.getsockname()
				print("Serving HTTP on", sa[0], "port", sa[1], "...")
				try:
				httpd.serve_forever()
				except KeyboardInterrupt:
				print("\nKeyboard interrupt received, exiting.")
				httpd.server_close()
				sys.exit(0)

				if __name__ == '__main__':
				argv = sys.argv
				if argv[1:] and argv[1] in ('-h', '--help'):
				print(argv[0], "[port [allowed_client_name ...]]")
				else:
				if argv[2:]:
				allowed = []
				for name in argv[2:]:
				client = socket.gethostbyname(name)
				allowed.append(client)
				print("Accept: %s (%s)" % (client, name))
				ProxyHandler.allowed_clients = allowed
				del argv[2:]
				else:
				print("Any clients will be served...")

				parser = optparse.OptionParser()
				parser.add_option('-b', '--bind', metavar='ADDRESS',
				help='Specify alternate bind address '
				'[default: all interfaces]', default='')
				(options, args) = parser.parse_args()
				port = 8000
				if len(args) == 1:
				port = int(args[0])
				runserver(port, options.bind)