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

contrib: add a hint if the Windows dependency MSI is already installed...

contrib: add a hint if the Windows dependency MSI is already installed In the past, I've gotten confused when the script failed on seemingly random python installs (and thus the py3.8 install was commented out from the last time this happened to me, which has been reverted here). This particular error code means the package was already installed. For python, it means the major and minor version are the same, but the micro version may differ. In practice, ignoring the python installation failure will cause the pip installation that happens next to fail, because python.exe for that version is somewhere else on the system. This could probably be fixed by running py.exe with the major and minor version, but that is skipped during the install for some reason. I didn't feel like over complicating this though, and at least there's a better hint when the problem occurs. Differential Revision: https://phab.mercurial-scm.org/D12560

Gregory Szorc - - Load All Authors

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      # A minimal client for Mercurial's command server

      import io

      import os

      import re

      import signal

      import socket

      import struct

      import subprocess

      import sys

      import time

      if sys.version_info[0] >= 3:

          stdout = sys.stdout.buffer

          stderr = sys.stderr.buffer

          stringio = io.BytesIO

          def bprint(*args):

              # remove b'' as well for ease of test migration

              pargs = [re.sub(br'''\bb(['"])''', br'\1', b'%s' % a) for a in args]

              stdout.write(b' '.join(pargs) + b'\n')

      else:

          import cStringIO

          stdout = sys.stdout

          stderr = sys.stderr

          stringio = cStringIO.StringIO

          bprint = print

      def connectpipe(path=None, extraargs=()):

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

          if path:

              cmdline += [b'-R', path]

          cmdline.extend(extraargs)

          def tonative(cmdline):

              if os.name != 'nt':

                  return cmdline

              return [arg.decode("utf-8") for arg in cmdline]

          server = subprocess.Popen(

              tonative(cmdline), stdin=subprocess.PIPE, stdout=subprocess.PIPE

          )

          return server

      class unixconnection:

          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:

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

              self.sockpath = sockpath

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

              if repopath:

                  cmdline += [b'-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(b'>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 b'IL':

              return channel, length

          else:

              return channel, server.stdout.read(length)

      def sep(text):

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

      def runcommand(

          server, args, output=stdout, error=stderr, input=None, outfilter=lambda x: x

      ):

          bprint(b'*** runcommand', b' '.join(args))

          stdout.flush()

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

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

          if not input:

              input = stringio()

          while True:

              ch, data = readchannel(server)

              if ch == b'o':

                  output.write(outfilter(data))

                  output.flush()

              elif ch == b'e':

                  error.write(data)

                  error.flush()

              elif ch == b'I':

                  writeblock(server, input.read(data))

              elif ch == b'L':

                  writeblock(server, input.readline(data))

              elif ch == b'm':

                  bprint(b"message: %r" % data)

              elif ch == b'r':

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

                  if ret != 0:

                      bprint(b' [%d]' % ret)

                  return ret

              else:

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

                  if ch.isupper():

                      return

      def check(func, connect=connectpipe):

          stdout.flush()

          server = connect()

          try:

              return func(server)

          finally:

              server.stdin.close()

              server.wait()

      def checkwith(connect=connectpipe, **kwargs):

          def wrap(func):

              return check(func, lambda: connect(**kwargs))

          return wrap

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				# A minimal client for Mercurial's command server


				import io
				import os
				import re
				import signal
				import socket
				import struct
				import subprocess
				import sys
				import time

				if sys.version_info[0] >= 3:
				stdout = sys.stdout.buffer
				stderr = sys.stderr.buffer
				stringio = io.BytesIO

				def bprint(*args):
				# remove b'' as well for ease of test migration
				pargs = [re.sub(br'''\bb(['"])''', br'\1', b'%s' % a) for a in args]
				stdout.write(b' '.join(pargs) + b'\n')


				else:
				import cStringIO

				stdout = sys.stdout
				stderr = sys.stderr
				stringio = cStringIO.StringIO
				bprint = print


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

				def tonative(cmdline):
				if os.name != 'nt':
				return cmdline
				return [arg.decode("utf-8") for arg in cmdline]

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

				return server


				class unixconnection:
				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:
				def __init__(self, sockpath, logpath=None, repopath=None):
				self.sockpath = sockpath
				cmdline = [b'hg', b'serve', b'--cmdserver', b'unix', b'-a', sockpath]
				if repopath:
				cmdline += [b'-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(b'>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 b'IL':
				return channel, length
				else:
				return channel, server.stdout.read(length)


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


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

				if not input:
				input = stringio()

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


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


				def checkwith(connect=connectpipe, **kwargs):
				def wrap(func):
				return check(func, lambda: connect(**kwargs))

				return wrap