upstream/mercurial-mirror Files · mercurial/dirstateutils/timestamp.py

tests: enable pytype checking on `mercurial/interfaces` package...

tests: enable pytype checking on `mercurial/interfaces` package I might regret this, but the files currently scan OK, with the exception of one place where an `attribute-error` is now disabled. We should fix this somehow, but the rest of this package needs to be converted to Protocol classes first. I'm enabling checking on this now because I got to the tail end of the series converting this to Protocol classes, and suddenly one of the commits is causing pytype to fail with an error message that doesn't really jive with the few code changes in it. Then when I ran `pytype-single` on it to get a result faster, I got a host of other unexpected errors that were likely from earlier in the series. So first things first, strictly check the content of these files going forward.

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      # Copyright Mercurial Contributors

      #

      # 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 annotations

      import functools

      import os

      import stat

      import time

      from typing import Optional, Tuple

      from .. import error

      rangemask = 0x7FFFFFFF

      @functools.total_ordering

      class timestamp(tuple):

          """

          A Unix timestamp with optional nanoseconds precision,

          modulo 2**31 seconds.

          A 3-tuple containing:

          `truncated_seconds`: seconds since the Unix epoch,

          truncated to its lower 31 bits

          `subsecond_nanoseconds`: number of nanoseconds since `truncated_seconds`.

          When this is zero, the sub-second precision is considered unknown.

          `second_ambiguous`: whether this timestamp is still "reliable"

          (see `reliable_mtime_of`) if we drop its sub-second component.

          """

          def __new__(cls, value):

              truncated_seconds, subsec_nanos, second_ambiguous = value

              value = (truncated_seconds & rangemask, subsec_nanos, second_ambiguous)

              return super(timestamp, cls).__new__(cls, value)

          def __eq__(self, other):

              raise error.ProgrammingError(

                  'timestamp should never be compared directly'

              )

          def __gt__(self, other):

              raise error.ProgrammingError(

                  'timestamp should never be compared directly'

              )

      def get_fs_now(vfs) -> Optional[timestamp]:

          """return a timestamp for "now" in the current vfs

          This will raise an exception if no temporary files could be created.

          """

          tmpfd, tmpname = vfs.mkstemp()

          try:

              return mtime_of(os.fstat(tmpfd))

          finally:

              os.close(tmpfd)

              vfs.unlink(tmpname)

      def zero() -> timestamp:

          """

          Returns the `timestamp` at the Unix epoch.

          """

          return tuple.__new__(timestamp, (0, 0))

      def mtime_of(stat_result: os.stat_result) -> timestamp:

          """

          Takes an `os.stat_result`-like object and returns a `timestamp` object

          for its modification time.

          """

          try:

              # TODO: add this attribute to `osutil.stat` objects,

              # see `mercurial/cext/osutil.c`.

              #

              # This attribute is also not available on Python 2.

              nanos = stat_result.st_mtime_ns

          except AttributeError:

              # https://docs.python.org/2/library/os.html#os.stat_float_times

              # "For compatibility with older Python versions,

              #  accessing stat_result as a tuple always returns integers."

              secs = stat_result[stat.ST_MTIME]

              subsec_nanos = 0

          else:

              billion = int(1e9)

              secs = nanos // billion

              subsec_nanos = nanos % billion

          return timestamp((secs, subsec_nanos, False))

      def reliable_mtime_of(

          stat_result: os.stat_result, present_mtime: timestamp

      ) -> Optional[timestamp]:

          """Wrapper for `make_mtime_reliable` for stat objects"""

          file_mtime = mtime_of(stat_result)

          return make_mtime_reliable(file_mtime, present_mtime)

      def make_mtime_reliable(

          file_timestamp: timestamp, present_mtime: timestamp

      ) -> Optional[timestamp]:

          """Same as `mtime_of`, but return `None` or a `Timestamp` with

          `second_ambiguous` set if the date might be ambiguous.

          A modification time is reliable if it is older than "present_time" (or

          sufficiently in the future).

          Otherwise a concurrent modification might happens with the same mtime.

          """

          file_second = file_timestamp[0]

          file_ns = file_timestamp[1]

          boundary_second = present_mtime[0]

          boundary_ns = present_mtime[1]

          # If the mtime of the ambiguous file is younger (or equal) to the starting

          # point of the `status` walk, we cannot garantee that another, racy, write

          # will not happen right after with the same mtime and we cannot cache the

          # information.

          #

          # However if the mtime is far away in the future, this is likely some

          # mismatch between the current clock and previous file system operation. So

          # mtime more than one days in the future are considered fine.

          if boundary_second == file_second:

              if file_ns and boundary_ns:

                  if file_ns < boundary_ns:

                      return timestamp((file_second, file_ns, True))

              return None

          elif boundary_second < file_second < (3600 * 24 + boundary_second):

              return None

          else:

              return file_timestamp

      FS_TICK_WAIT_TIMEOUT = 0.1  # 100 milliseconds

      def wait_until_fs_tick(vfs) -> Optional[Tuple[timestamp, bool]]:

          """Wait until the next update from the filesystem time by writing in a loop

          a new temporary file inside the working directory and checking if its time

          differs from the first one observed.

          Returns `None` if we are unable to get the filesystem time,

          `(timestamp, True)` if we've timed out waiting for the filesystem clock

          to tick, and `(timestamp, False)` if we've waited successfully.

          On Linux, your average tick is going to be a "jiffy", or 1/HZ.

          HZ is your kernel's tick rate (if it has one configured) and the value

          is the one returned by `grep 'CONFIG_HZ=' /boot/config-$(uname -r)`,

          again assuming a normal setup.

          In my case (Alphare) at the time of writing, I get `CONFIG_HZ=250`,

          which equates to 4ms.

          This might change with a series that could make it to Linux 6.12:

          https://lore.kernel.org/all/20241002-mgtime-v10-8-d1c4717f5284@kernel.org

          """

          start = time.monotonic()

          try:

              old_fs_time = get_fs_now(vfs)

              new_fs_time = get_fs_now(vfs)

              while (

                  new_fs_time[0] == old_fs_time[0]

                  and new_fs_time[1] == old_fs_time[1]

              ):

                  if time.monotonic() - start > FS_TICK_WAIT_TIMEOUT:

                      return (old_fs_time, True)

                  new_fs_time = get_fs_now(vfs)

          except OSError:

              return None

          else:

              return (new_fs_time, False)

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				# Copyright Mercurial Contributors
				#
				# 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 annotations

				import functools
				import os
				import stat
				import time
				from typing import Optional, Tuple

				from .. import error


				rangemask = 0x7FFFFFFF


				@functools.total_ordering
				class timestamp(tuple):
				"""
				A Unix timestamp with optional nanoseconds precision,
				modulo 2**31 seconds.

				A 3-tuple containing:

				`truncated_seconds`: seconds since the Unix epoch,
				truncated to its lower 31 bits

				`subsecond_nanoseconds`: number of nanoseconds since `truncated_seconds`.
				When this is zero, the sub-second precision is considered unknown.

				`second_ambiguous`: whether this timestamp is still "reliable"
				(see `reliable_mtime_of`) if we drop its sub-second component.
				"""

				def __new__(cls, value):
				truncated_seconds, subsec_nanos, second_ambiguous = value
				value = (truncated_seconds & rangemask, subsec_nanos, second_ambiguous)
				return super(timestamp, cls).__new__(cls, value)

				def __eq__(self, other):
				raise error.ProgrammingError(
				'timestamp should never be compared directly'
				)

				def __gt__(self, other):
				raise error.ProgrammingError(
				'timestamp should never be compared directly'
				)


				def get_fs_now(vfs) -> Optional[timestamp]:
				"""return a timestamp for "now" in the current vfs

				This will raise an exception if no temporary files could be created.
				"""
				tmpfd, tmpname = vfs.mkstemp()
				try:
				return mtime_of(os.fstat(tmpfd))
				finally:
				os.close(tmpfd)
				vfs.unlink(tmpname)


				def zero() -> timestamp:
				"""
				Returns the `timestamp` at the Unix epoch.
				"""
				return tuple.__new__(timestamp, (0, 0))


				def mtime_of(stat_result: os.stat_result) -> timestamp:
				"""
				Takes an `os.stat_result`-like object and returns a `timestamp` object
				for its modification time.
				"""
				try:
				# TODO: add this attribute to `osutil.stat` objects,
				# see `mercurial/cext/osutil.c`.
				#
				# This attribute is also not available on Python 2.
				nanos = stat_result.st_mtime_ns
				except AttributeError:
				# https://docs.python.org/2/library/os.html#os.stat_float_times
				# "For compatibility with older Python versions,
				# accessing stat_result as a tuple always returns integers."
				secs = stat_result[stat.ST_MTIME]

				subsec_nanos = 0
				else:
				billion = int(1e9)
				secs = nanos // billion
				subsec_nanos = nanos % billion

				return timestamp((secs, subsec_nanos, False))


				def reliable_mtime_of(
				stat_result: os.stat_result, present_mtime: timestamp
				) -> Optional[timestamp]:
				"""Wrapper for `make_mtime_reliable` for stat objects"""
				file_mtime = mtime_of(stat_result)
				return make_mtime_reliable(file_mtime, present_mtime)


				def make_mtime_reliable(
				file_timestamp: timestamp, present_mtime: timestamp
				) -> Optional[timestamp]:
				"""Same as `mtime_of`, but return `None` or a `Timestamp` with
				`second_ambiguous` set if the date might be ambiguous.

				A modification time is reliable if it is older than "present_time" (or
				sufficiently in the future).

				Otherwise a concurrent modification might happens with the same mtime.
				"""
				file_second = file_timestamp[0]
				file_ns = file_timestamp[1]
				boundary_second = present_mtime[0]
				boundary_ns = present_mtime[1]
				# If the mtime of the ambiguous file is younger (or equal) to the starting
				# point of the `status` walk, we cannot garantee that another, racy, write
				# will not happen right after with the same mtime and we cannot cache the
				# information.
				#
				# However if the mtime is far away in the future, this is likely some
				# mismatch between the current clock and previous file system operation. So
				# mtime more than one days in the future are considered fine.
				if boundary_second == file_second:
				if file_ns and boundary_ns:
				if file_ns < boundary_ns:
				return timestamp((file_second, file_ns, True))
				return None
				elif boundary_second < file_second < (3600 * 24 + boundary_second):
				return None
				else:
				return file_timestamp


				FS_TICK_WAIT_TIMEOUT = 0.1 # 100 milliseconds


				def wait_until_fs_tick(vfs) -> Optional[Tuple[timestamp, bool]]:
				"""Wait until the next update from the filesystem time by writing in a loop
				a new temporary file inside the working directory and checking if its time
				differs from the first one observed.

				Returns `None` if we are unable to get the filesystem time,
				`(timestamp, True)` if we've timed out waiting for the filesystem clock
				to tick, and `(timestamp, False)` if we've waited successfully.

				On Linux, your average tick is going to be a "jiffy", or 1/HZ.
				HZ is your kernel's tick rate (if it has one configured) and the value
				is the one returned by `grep 'CONFIG_HZ=' /boot/config-$(uname -r)`,
				again assuming a normal setup.

				In my case (Alphare) at the time of writing, I get `CONFIG_HZ=250`,
				which equates to 4ms.
				This might change with a series that could make it to Linux 6.12:
				https://lore.kernel.org/all/20241002-mgtime-v10-8-d1c4717f5284@kernel.org
				"""
				start = time.monotonic()

				try:
				old_fs_time = get_fs_now(vfs)
				new_fs_time = get_fs_now(vfs)

				while (
				new_fs_time[0] == old_fs_time[0]
				and new_fs_time[1] == old_fs_time[1]
				):
				if time.monotonic() - start > FS_TICK_WAIT_TIMEOUT:
				return (old_fs_time, True)
				new_fs_time = get_fs_now(vfs)
				except OSError:
				return None
				else:
				return (new_fs_time, False)