upstream/mercurial-mirror Files · mercurial/py3kcompat.py

subrepo: set GIT_ALLOW_PROTOCOL to limit git clone protocols (SEC)...

subrepo: set GIT_ALLOW_PROTOCOL to limit git clone protocols (SEC) CVE-2016-3068 (1/1) Git's git-remote-ext remote helper provides an ext:: URL scheme that allows running arbitrary shell commands. This feature allows implementing simple git smart transports with a single shell shell command. However, git submodules could clone arbitrary URLs specified in the .gitmodules file. This was reported as CVE-2015-7545 and fixed in git v2.6.1. However, if a user directly clones a malicious ext URL, the git client will still run arbitrary shell commands. Mercurial is similarly effected. Mercurial allows specifying git repositories as subrepositories. Git ext:: URLs can be specified as Mercurial subrepositories allowing arbitrary shell commands to be run on `hg clone ...`. The Mercurial community would like to thank Blake Burkhart for reporting this issue. The description of the issue is copied from Blake's report. This commit changes submodules to pass the GIT_ALLOW_PROTOCOL env variable to git commands with the same list of allowed protocols that git submodule is using. When the GIT_ALLOW_PROTOCOL env variable is already set, we just pass it to git without modifications.

Gregory Szorc - - Load All Authors

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      # py3kcompat.py - compatibility definitions for running hg in py3k

      #

      # Copyright 2010 Renato Cunha <renatoc@gmail.com>

      #

      # This software may be used and distributed according to the terms of the

      # GNU General Public License version 2 or any later version.

      from __future__ import absolute_import

      import builtins

      import numbers

      Number = numbers.Number

      def bytesformatter(format, args):

          '''Custom implementation of a formatter for bytestrings.

          This function currently relies on the string formatter to do the

          formatting and always returns bytes objects.

          >>> bytesformatter(20, 10)

          0

          >>> bytesformatter('unicode %s, %s!', ('string', 'foo'))

          b'unicode string, foo!'

          >>> bytesformatter(b'test %s', 'me')

          b'test me'

          >>> bytesformatter('test %s', 'me')

          b'test me'

          >>> bytesformatter(b'test %s', b'me')

          b'test me'

          >>> bytesformatter('test %s', b'me')

          b'test me'

          >>> bytesformatter('test %d: %s', (1, b'result'))

          b'test 1: result'

          '''

          # The current implementation just converts from bytes to unicode, do

          # what's needed and then convert the results back to bytes.

          # Another alternative is to use the Python C API implementation.

          if isinstance(format, Number):

              # If the fixer erroneously passes a number remainder operation to

              # bytesformatter, we just return the correct operation

              return format % args

          if isinstance(format, bytes):

              format = format.decode('utf-8', 'surrogateescape')

          if isinstance(args, bytes):

              args = args.decode('utf-8', 'surrogateescape')

          if isinstance(args, tuple):

              newargs = []

              for arg in args:

                  if isinstance(arg, bytes):

                      arg = arg.decode('utf-8', 'surrogateescape')

                  newargs.append(arg)

              args = tuple(newargs)

          ret = format % args

          return ret.encode('utf-8', 'surrogateescape')

      builtins.bytesformatter = bytesformatter

      origord = builtins.ord

      def fakeord(char):

          if isinstance(char, int):

              return char

          return origord(char)

      builtins.ord = fakeord

      if __name__ == '__main__':

          import doctest

          doctest.testmod()

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				# py3kcompat.py - compatibility definitions for running hg in py3k
				#
				# Copyright 2010 Renato Cunha <renatoc@gmail.com>
				#
				# This software may be used and distributed according to the terms of the
				# GNU General Public License version 2 or any later version.

				from __future__ import absolute_import

				import builtins
				import numbers

				Number = numbers.Number

				def bytesformatter(format, args):
				'''Custom implementation of a formatter for bytestrings.

				This function currently relies on the string formatter to do the
				formatting and always returns bytes objects.

				>>> bytesformatter(20, 10)
				0
				>>> bytesformatter('unicode %s, %s!', ('string', 'foo'))
				b'unicode string, foo!'
				>>> bytesformatter(b'test %s', 'me')
				b'test me'
				>>> bytesformatter('test %s', 'me')
				b'test me'
				>>> bytesformatter(b'test %s', b'me')
				b'test me'
				>>> bytesformatter('test %s', b'me')
				b'test me'
				>>> bytesformatter('test %d: %s', (1, b'result'))
				b'test 1: result'
				'''
				# The current implementation just converts from bytes to unicode, do
				# what's needed and then convert the results back to bytes.
				# Another alternative is to use the Python C API implementation.
				if isinstance(format, Number):
				# If the fixer erroneously passes a number remainder operation to
				# bytesformatter, we just return the correct operation
				return format % args
				if isinstance(format, bytes):
				format = format.decode('utf-8', 'surrogateescape')
				if isinstance(args, bytes):
				args = args.decode('utf-8', 'surrogateescape')
				if isinstance(args, tuple):
				newargs = []
				for arg in args:
				if isinstance(arg, bytes):
				arg = arg.decode('utf-8', 'surrogateescape')
				newargs.append(arg)
				args = tuple(newargs)
				ret = format % args
				return ret.encode('utf-8', 'surrogateescape')
				builtins.bytesformatter = bytesformatter

				origord = builtins.ord
				def fakeord(char):
				if isinstance(char, int):
				return char
				return origord(char)
				builtins.ord = fakeord

				if __name__ == '__main__':
				import doctest
				doctest.testmod()