upstream/mercurial-mirror Files · contrib/hgclient.py

wireprotov2: handle sender protocol settings frames...

wireprotov2: handle sender protocol settings frames We teach the server reactor to handle the optional sender protocol settings frames, which can only be sent at the beginning of frame exchange. Right now, we simply decode the data and record the sender protocol settings on the server reactor instance: we don't yet do anything meaningful with the data. Differential Revision: https://phab.mercurial-scm.org/D4916

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             hgclient.py
        
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      # A minimal client for Mercurial's command server

      from __future__ import absolute_import, print_function

      import os

      import signal

      import socket

      import struct

      import subprocess

      import sys

      import time

      try:

          import cStringIO as io

          stringio = io.StringIO

      except ImportError:

          import io

          stringio = io.StringIO

      def connectpipe(path=None):

          cmdline = ['hg', 'serve', '--cmdserver', 'pipe']

          if path:

              cmdline += ['-R', path]

          server = subprocess.Popen(cmdline, stdin=subprocess.PIPE,

                                    stdout=subprocess.PIPE)

          return server

      class unixconnection(object):

          def __init__(self, sockpath):

              self.sock = sock = socket.socket(socket.AF_UNIX)

              sock.connect(sockpath)

              self.stdin = sock.makefile('wb')

              self.stdout = sock.makefile('rb')

          def wait(self):

              self.stdin.close()

              self.stdout.close()

              self.sock.close()

      class unixserver(object):

          def __init__(self, sockpath, logpath=None, repopath=None):

              self.sockpath = sockpath

              cmdline = ['hg', 'serve', '--cmdserver', 'unix', '-a', sockpath]

              if repopath:

                  cmdline += ['-R', repopath]

              if logpath:

                  stdout = open(logpath, 'a')

                  stderr = subprocess.STDOUT

              else:

                  stdout = stderr = None

              self.server = subprocess.Popen(cmdline, stdout=stdout, stderr=stderr)

              # wait for listen()

              while self.server.poll() is None:

                  if os.path.exists(sockpath):

                      break

                  time.sleep(0.1)

          def connect(self):

              return unixconnection(self.sockpath)

          def shutdown(self):

              os.kill(self.server.pid, signal.SIGTERM)

              self.server.wait()

      def writeblock(server, data):

          server.stdin.write(struct.pack('>I', len(data)))

          server.stdin.write(data)

          server.stdin.flush()

      def readchannel(server):

          data = server.stdout.read(5)

          if not data:

              raise EOFError

          channel, length = struct.unpack('>cI', data)

          if channel in 'IL':

              return channel, length

          else:

              return channel, server.stdout.read(length)

      def sep(text):

          return text.replace('\\', '/')

      def runcommand(server, args, output=sys.stdout, error=sys.stderr, input=None,

                     outfilter=lambda x: x):

          print('*** runcommand', ' '.join(args))

          sys.stdout.flush()

          server.stdin.write('runcommand\n')

          writeblock(server, '\0'.join(args))

          if not input:

              input = stringio()

          while True:

              ch, data = readchannel(server)

              if ch == 'o':

                  output.write(outfilter(data))

                  output.flush()

              elif ch == 'e':

                  error.write(data)

                  error.flush()

              elif ch == 'I':

                  writeblock(server, input.read(data))

              elif ch == 'L':

                  writeblock(server, input.readline(data))

              elif ch == 'r':

                  ret, = struct.unpack('>i', data)

                  if ret != 0:

                      print(' [%d]' % ret)

                  return ret

              else:

                  print("unexpected channel %c: %r" % (ch, data))

                  if ch.isupper():

                      return

      def check(func, connect=connectpipe):

          sys.stdout.flush()

          server = connect()

          try:

              return func(server)

          finally:

              server.stdin.close()

              server.wait()

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				# A minimal client for Mercurial's command server

				from __future__ import absolute_import, print_function
				import os
				import signal
				import socket
				import struct
				import subprocess
				import sys
				import time

				try:
				import cStringIO as io
				stringio = io.StringIO
				except ImportError:
				import io
				stringio = io.StringIO

				def connectpipe(path=None):
				cmdline = ['hg', 'serve', '--cmdserver', 'pipe']
				if path:
				cmdline += ['-R', path]

				server = subprocess.Popen(cmdline, stdin=subprocess.PIPE,
				stdout=subprocess.PIPE)

				return server

				class unixconnection(object):
				def __init__(self, sockpath):
				self.sock = sock = socket.socket(socket.AF_UNIX)
				sock.connect(sockpath)
				self.stdin = sock.makefile('wb')
				self.stdout = sock.makefile('rb')

				def wait(self):
				self.stdin.close()
				self.stdout.close()
				self.sock.close()

				class unixserver(object):
				def __init__(self, sockpath, logpath=None, repopath=None):
				self.sockpath = sockpath
				cmdline = ['hg', 'serve', '--cmdserver', 'unix', '-a', sockpath]
				if repopath:
				cmdline += ['-R', repopath]
				if logpath:
				stdout = open(logpath, 'a')
				stderr = subprocess.STDOUT
				else:
				stdout = stderr = None
				self.server = subprocess.Popen(cmdline, stdout=stdout, stderr=stderr)
				# wait for listen()
				while self.server.poll() is None:
				if os.path.exists(sockpath):
				break
				time.sleep(0.1)

				def connect(self):
				return unixconnection(self.sockpath)

				def shutdown(self):
				os.kill(self.server.pid, signal.SIGTERM)
				self.server.wait()

				def writeblock(server, data):
				server.stdin.write(struct.pack('>I', len(data)))
				server.stdin.write(data)
				server.stdin.flush()

				def readchannel(server):
				data = server.stdout.read(5)
				if not data:
				raise EOFError
				channel, length = struct.unpack('>cI', data)
				if channel in 'IL':
				return channel, length
				else:
				return channel, server.stdout.read(length)

				def sep(text):
				return text.replace('\\', '/')

				def runcommand(server, args, output=sys.stdout, error=sys.stderr, input=None,
				outfilter=lambda x: x):
				print('*** runcommand', ' '.join(args))
				sys.stdout.flush()
				server.stdin.write('runcommand\n')
				writeblock(server, '\0'.join(args))

				if not input:
				input = stringio()

				while True:
				ch, data = readchannel(server)
				if ch == 'o':
				output.write(outfilter(data))
				output.flush()
				elif ch == 'e':
				error.write(data)
				error.flush()
				elif ch == 'I':
				writeblock(server, input.read(data))
				elif ch == 'L':
				writeblock(server, input.readline(data))
				elif ch == 'r':
				ret, = struct.unpack('>i', data)
				if ret != 0:
				print(' [%d]' % ret)
				return ret
				else:
				print("unexpected channel %c: %r" % (ch, data))
				if ch.isupper():
				return

				def check(func, connect=connectpipe):
				sys.stdout.flush()
				server = connect()
				try:
				return func(server)
				finally:
				server.stdin.close()
				server.wait()