upstream/mercurial-mirror Files · tests/test-atomictempfile.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

Augie Fackler - - Load All Authors

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      from __future__ import absolute_import

      import glob

      import os

      import shutil

      import stat

      import tempfile

      import unittest

      from mercurial import (

          pycompat,

          util,

      )

      atomictempfile = util.atomictempfile

      if pycompat.ispy3:

          xrange = range

      class testatomictempfile(unittest.TestCase):

          def setUp(self):

              self._testdir = tempfile.mkdtemp(b'atomictempfiletest')

              self._filename = os.path.join(self._testdir, b'testfilename')

          def tearDown(self):

              shutil.rmtree(self._testdir, True)

          def testsimple(self):

              file = atomictempfile(self._filename)

              self.assertFalse(os.path.isfile(self._filename))

              tempfilename = file._tempname

              self.assertTrue(tempfilename in glob.glob(

                  os.path.join(self._testdir, b'.testfilename-*')))

              file.write(b'argh\n')

              file.close()

              self.assertTrue(os.path.isfile(self._filename))

              self.assertTrue(tempfilename not in glob.glob(

                  os.path.join(self._testdir, b'.testfilename-*')))

          # discard() removes the temp file without making the write permanent

          def testdiscard(self):

              file = atomictempfile(self._filename)

              (dir, basename) = os.path.split(file._tempname)

              file.write(b'yo\n')

              file.discard()

              self.assertFalse(os.path.isfile(self._filename))

              self.assertTrue(basename not in os.listdir(b'.'))

          # if a programmer screws up and passes bad args to atomictempfile, they

          # get a plain ordinary TypeError, not infinite recursion

          def testoops(self):

              with self.assertRaises(TypeError):

                  atomictempfile()

          # checkambig=True avoids ambiguity of timestamp

          def testcheckambig(self):

              def atomicwrite(checkambig):

                  f = atomictempfile(self._filename, checkambig=checkambig)

                  f.write(b'FOO')

                  f.close()

              # try some times, because reproduction of ambiguity depends on

              # "filesystem time"

              for i in xrange(5):

                  atomicwrite(False)

                  oldstat = os.stat(self._filename)

                  if oldstat[stat.ST_CTIME] != oldstat[stat.ST_MTIME]:

                      # subsequent changing never causes ambiguity

                      continue

                  repetition = 3

                  # repeat atomic write with checkambig=True, to examine

                  # whether st_mtime is advanced multiple times as expected

                  for j in xrange(repetition):

                      atomicwrite(True)

                  newstat = os.stat(self._filename)

                  if oldstat[stat.ST_CTIME] != newstat[stat.ST_CTIME]:

                      # timestamp ambiguity was naturally avoided while repetition

                      continue

                  # st_mtime should be advanced "repetition" times, because

                  # all atomicwrite() occurred at same time (in sec)

                  oldtime = (oldstat[stat.ST_MTIME] + repetition) & 0x7fffffff

                  self.assertTrue(newstat[stat.ST_MTIME] == oldtime)

                  # no more examination is needed, if assumption above is true

                  break

              else:

                  # This platform seems too slow to examine anti-ambiguity

                  # of file timestamp (or test happened to be executed at

                  # bad timing). Exit silently in this case, because running

                  # on other faster platforms can detect problems

                  pass

          def testread(self):

              with open(self._filename, 'wb') as f:

                  f.write(b'foobar\n')

              file = atomictempfile(self._filename, mode=b'rb')

              self.assertTrue(file.read(), b'foobar\n')

              file.discard()

          def testcontextmanagersuccess(self):

              """When the context closes, the file is closed"""

              with atomictempfile(b'foo') as f:

                  self.assertFalse(os.path.isfile(b'foo'))

                  f.write(b'argh\n')

              self.assertTrue(os.path.isfile(b'foo'))

          def testcontextmanagerfailure(self):

              """On exception, the file is discarded"""

              try:

                  with atomictempfile(b'foo') as f:

                      self.assertFalse(os.path.isfile(b'foo'))

                      f.write(b'argh\n')

                      raise ValueError

              except ValueError:

                  pass

              self.assertFalse(os.path.isfile(b'foo'))

      if __name__ == '__main__':

          import silenttestrunner

          silenttestrunner.main(__name__)

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				from __future__ import absolute_import

				import glob
				import os
				import shutil
				import stat
				import tempfile
				import unittest

				from mercurial import (
				pycompat,
				util,
				)
				atomictempfile = util.atomictempfile

				if pycompat.ispy3:
				xrange = range

				class testatomictempfile(unittest.TestCase):
				def setUp(self):
				self._testdir = tempfile.mkdtemp(b'atomictempfiletest')
				self._filename = os.path.join(self._testdir, b'testfilename')

				def tearDown(self):
				shutil.rmtree(self._testdir, True)

				def testsimple(self):
				file = atomictempfile(self._filename)
				self.assertFalse(os.path.isfile(self._filename))
				tempfilename = file._tempname
				self.assertTrue(tempfilename in glob.glob(
				os.path.join(self._testdir, b'.testfilename-*')))

				file.write(b'argh\n')
				file.close()

				self.assertTrue(os.path.isfile(self._filename))
				self.assertTrue(tempfilename not in glob.glob(
				os.path.join(self._testdir, b'.testfilename-*')))

				# discard() removes the temp file without making the write permanent
				def testdiscard(self):
				file = atomictempfile(self._filename)
				(dir, basename) = os.path.split(file._tempname)

				file.write(b'yo\n')
				file.discard()

				self.assertFalse(os.path.isfile(self._filename))
				self.assertTrue(basename not in os.listdir(b'.'))

				# if a programmer screws up and passes bad args to atomictempfile, they
				# get a plain ordinary TypeError, not infinite recursion
				def testoops(self):
				with self.assertRaises(TypeError):
				atomictempfile()

				# checkambig=True avoids ambiguity of timestamp
				def testcheckambig(self):
				def atomicwrite(checkambig):
				f = atomictempfile(self._filename, checkambig=checkambig)
				f.write(b'FOO')
				f.close()

				# try some times, because reproduction of ambiguity depends on
				# "filesystem time"
				for i in xrange(5):
				atomicwrite(False)
				oldstat = os.stat(self._filename)
				if oldstat[stat.ST_CTIME] != oldstat[stat.ST_MTIME]:
				# subsequent changing never causes ambiguity
				continue

				repetition = 3

				# repeat atomic write with checkambig=True, to examine
				# whether st_mtime is advanced multiple times as expected
				for j in xrange(repetition):
				atomicwrite(True)
				newstat = os.stat(self._filename)
				if oldstat[stat.ST_CTIME] != newstat[stat.ST_CTIME]:
				# timestamp ambiguity was naturally avoided while repetition
				continue

				# st_mtime should be advanced "repetition" times, because
				# all atomicwrite() occurred at same time (in sec)
				oldtime = (oldstat[stat.ST_MTIME] + repetition) & 0x7fffffff
				self.assertTrue(newstat[stat.ST_MTIME] == oldtime)
				# no more examination is needed, if assumption above is true
				break
				else:
				# This platform seems too slow to examine anti-ambiguity
				# of file timestamp (or test happened to be executed at
				# bad timing). Exit silently in this case, because running
				# on other faster platforms can detect problems
				pass

				def testread(self):
				with open(self._filename, 'wb') as f:
				f.write(b'foobar\n')
				file = atomictempfile(self._filename, mode=b'rb')
				self.assertTrue(file.read(), b'foobar\n')
				file.discard()

				def testcontextmanagersuccess(self):
				"""When the context closes, the file is closed"""
				with atomictempfile(b'foo') as f:
				self.assertFalse(os.path.isfile(b'foo'))
				f.write(b'argh\n')
				self.assertTrue(os.path.isfile(b'foo'))

				def testcontextmanagerfailure(self):
				"""On exception, the file is discarded"""
				try:
				with atomictempfile(b'foo') as f:
				self.assertFalse(os.path.isfile(b'foo'))
				f.write(b'argh\n')
				raise ValueError
				except ValueError:
				pass
				self.assertFalse(os.path.isfile(b'foo'))

				if __name__ == '__main__':
				import silenttestrunner
				silenttestrunner.main(__name__)