upstream/mercurial-mirror Files · hgext/largefiles/__init__.py

compression: introduce a `storage.revlog.zstd.level` configuration...

compression: introduce a `storage.revlog.zstd.level` configuration This option control the zstd compression level used when compressing revlog chunk. The usage of zstd for revlog compression has not graduated from experimental yet, but we intend to fix that soon. The option name for the compression level is more straight forward to pick, so this changesets comes first. Having a dedicated option for each compression engine is useful because they don't support the same range of values. I ran the same measurement as for the zlib compression level (in the parent changesets). The variation in repository size is stay mostly in the same (small) range. The "read/write" performance see smallish variation, but are overall much better than zlib. Write performance show the same tend of having better write performance for when reaching high-end compression. Again, we don't intend to change the default zstd compression level (currently: 3) in this series. However this is worth investigating in the future. The Performance comparison of zlib vs zstd is quite impressive. The repository size stay in the same range, but the performance are much better in all situations. Comparison summary ================== We are looking at: - performance range for zlib - performance range for zstd - comparison of default zstd (level-3) to default zlib (level 6) - comparison of the slowest zstd time to the fastest zlib time Read performance: ----------------- | zlib | zstd | cmp | f2s mercurial | 0.170159 - 0.189219 | 0.144127 - 0.149624 | 80% | 88% pypy | 2.679217 - 2.768691 | 1.532317 - 1.705044 | 60% | 63% netbeans | 122.477027 - 141.620281 | 72.996346 - 89.731560 | 58% | 73% mozilla | 147.867662 - 170.572118 | 91.700995 - 105.853099 | 56% | 71% Write performance: ------------------ | zlib | zstd | cmp | f2s mercurial | 53.250304 - 56.2936129 | 40.877025 - 45.677286 | 75% | 86% pypy | 460.721984 - 476.589918 | 270.545409 - 301.002219 | 63% | 65% netbeans | 520.560316 - 715.930400 | 370.356311 - 428.329652 | 55% | 82% mozilla | 739.803002 - 987.056093 | 505.152906 - 591.930683 | 57% | 80% Raw data -------- repo alg lvl .hg/store size 00manifest.d read write mercurial zlib 1 49,402,813 5,963,475 0.170159 53.250304 mercurial zlib 6 47,197,397 5,875,730 0.182820 56.264320 mercurial zlib 9 47,121,596 5,849,781 0.189219 56.293612 mercurial zstd 1 49,737,084 5,966,355 0.144127 40.877025 mercurial zstd 3 48,961,867 5,895,208 0.146376 42.268142 mercurial zstd 5 48,200,592 5,938,676 0.149624 43.162875 mercurial zstd 10 47,833,520 5,913,353 0.145185 44.012489 mercurial zstd 15 47,314,604 5,728,679 0.147686 45.677286 mercurial zstd 20 47,330,502 5,830,539 0.145789 45.025407 mercurial zstd 22 47,330,076 5,830,539 0.143996 44.690460 pypy zlib 1 370,830,572 28,462,425 2.679217 460.721984 pypy zlib 6 340,112,317 27,648,747 2.768691 467.537158 pypy zlib 9 338,360,736 27,639,003 2.763495 476.589918 pypy zstd 1 362,377,479 27,916,214 1.532317 270.545409 pypy zstd 3 354,137,693 27,905,988 1.686718 294.951509 pypy zstd 5 342,640,043 27,655,774 1.705044 301.002219 pypy zstd 10 334,224,327 27,164,493 1.567287 285.186239 pypy zstd 15 329,000,363 26,645,965 1.637729 299.561332 pypy zstd 20 324,534,039 26,199,547 1.526813 302.149827 pypy zstd 22 324,530,595 26,198,932 1.525718 307.821218 netbeans zlib 1 1,281,847,810 165,495,457 122.477027 520.560316 netbeans zlib 6 1,205,284,353 159,161,207 139.876147 715.930400 netbeans zlib 9 1,197,135,671 155,034,586 141.620281 678.297064 netbeans zstd 1 1,259,581,737 160,840,613 72.996346 370.356311 netbeans zstd 3 1,232,978,122 157,691,551 81.622317 396.733087 netbeans zstd 5 1,208,034,075 160,246,880 83.080549 364.342626 netbeans zstd 10 1,188,624,176 156,083,417 79.323935 403.594602 netbeans zstd 15 1,176,973,589 153,859,477 89.731560 428.329652 netbeans zstd 20 1,162,958,258 151,147,535 82.842667 392.335349 netbeans zstd 22 1,162,707,029 151,150,220 82.565695 402.840655 mozilla zlib 1 2,775,497,186 298,527,987 147.867662 751.263721 mozilla zlib 6 2,596,856,420 286,597,671 170.572118 987.056093 mozilla zlib 9 2,587,542,494 287,018,264 163.622338 739.803002 mozilla zstd 1 2,723,159,348 286,617,532 91.700995 570.042751 mozilla zstd 3 2,665,055,001 286,152,013 95.240155 561.412805 mozilla zstd 5 2,607,819,817 288,060,030 101.978048 505.152906 mozilla zstd 10 2,558,761,085 283,967,648 104.113481 497.771202 mozilla zstd 15 2,526,216,060 275,581,300 105.853099 591.930683 mozilla zstd 20 2,485,114,806 266,478,859 95.268795 576.515389 mozilla zstd 22 2,484,869,080 266,456,505 94.429282 572.785537

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      # Copyright 2009-2010 Gregory P. Ward

      # Copyright 2009-2010 Intelerad Medical Systems Incorporated

      # Copyright 2010-2011 Fog Creek Software

      # Copyright 2010-2011 Unity Technologies

      #

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

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

      '''track large binary files

      Large binary files tend to be not very compressible, not very

      diffable, and not at all mergeable. Such files are not handled

      efficiently by Mercurial's storage format (revlog), which is based on

      compressed binary deltas; storing large binary files as regular

      Mercurial files wastes bandwidth and disk space and increases

      Mercurial's memory usage. The largefiles extension addresses these

      problems by adding a centralized client-server layer on top of

      Mercurial: largefiles live in a *central store* out on the network

      somewhere, and you only fetch the revisions that you need when you

      need them.

      largefiles works by maintaining a "standin file" in .hglf/ for each

      largefile. The standins are small (41 bytes: an SHA-1 hash plus

      newline) and are tracked by Mercurial. Largefile revisions are

      identified by the SHA-1 hash of their contents, which is written to

      the standin. largefiles uses that revision ID to get/put largefile

      revisions from/to the central store. This saves both disk space and

      bandwidth, since you don't need to retrieve all historical revisions

      of large files when you clone or pull.

      To start a new repository or add new large binary files, just add

      --large to your :hg:`add` command. For example::

        $ dd if=/dev/urandom of=randomdata count=2000

        $ hg add --large randomdata

        $ hg commit -m "add randomdata as a largefile"

      When you push a changeset that adds/modifies largefiles to a remote

      repository, its largefile revisions will be uploaded along with it.

      Note that the remote Mercurial must also have the largefiles extension

      enabled for this to work.

      When you pull a changeset that affects largefiles from a remote

      repository, the largefiles for the changeset will by default not be

      pulled down. However, when you update to such a revision, any

      largefiles needed by that revision are downloaded and cached (if

      they have never been downloaded before). One way to pull largefiles

      when pulling is thus to use --update, which will update your working

      copy to the latest pulled revision (and thereby downloading any new

      largefiles).

      If you want to pull largefiles you don't need for update yet, then

      you can use pull with the `--lfrev` option or the :hg:`lfpull` command.

      If you know you are pulling from a non-default location and want to

      download all the largefiles that correspond to the new changesets at

      the same time, then you can pull with `--lfrev "pulled()"`.

      If you just want to ensure that you will have the largefiles needed to

      merge or rebase with new heads that you are pulling, then you can pull

      with `--lfrev "head(pulled())"` flag to pre-emptively download any largefiles

      that are new in the heads you are pulling.

      Keep in mind that network access may now be required to update to

      changesets that you have not previously updated to. The nature of the

      largefiles extension means that updating is no longer guaranteed to

      be a local-only operation.

      If you already have large files tracked by Mercurial without the

      largefiles extension, you will need to convert your repository in

      order to benefit from largefiles. This is done with the

      :hg:`lfconvert` command::

        $ hg lfconvert --size 10 oldrepo newrepo

      In repositories that already have largefiles in them, any new file

      over 10MB will automatically be added as a largefile. To change this

      threshold, set ``largefiles.minsize`` in your Mercurial config file

      to the minimum size in megabytes to track as a largefile, or use the

      --lfsize option to the add command (also in megabytes)::

        [largefiles]

        minsize = 2

        $ hg add --lfsize 2

      The ``largefiles.patterns`` config option allows you to specify a list

      of filename patterns (see :hg:`help patterns`) that should always be

      tracked as largefiles::

        [largefiles]

        patterns =

          *.jpg

          re:.*\\.(png|bmp)$

          library.zip

          content/audio/*

      Files that match one of these patterns will be added as largefiles

      regardless of their size.

      The ``largefiles.minsize`` and ``largefiles.patterns`` config options

      will be ignored for any repositories not already containing a

      largefile. To add the first largefile to a repository, you must

      explicitly do so with the --large flag passed to the :hg:`add`

      command.

      '''

      from __future__ import absolute_import

      from mercurial import (

          cmdutil,

          extensions,

          exthelper,

          hg,

          httppeer,

          localrepo,

          sshpeer,

          wireprotov1server,

      )

      from . import (

          lfcommands,

          overrides,

          proto,

          reposetup,

      )

      # Note for extension authors: ONLY specify testedwith = 'ships-with-hg-core' for

      # extensions which SHIP WITH MERCURIAL. Non-mainline extensions should

      # be specifying the version(s) of Mercurial they are tested with, or

      # leave the attribute unspecified.

      testedwith = 'ships-with-hg-core'

      eh = exthelper.exthelper()

      eh.merge(lfcommands.eh)

      eh.merge(overrides.eh)

      eh.merge(proto.eh)

      eh.configitem('largefiles', 'minsize',

          default=eh.configitem.dynamicdefault,

      )

      eh.configitem('largefiles', 'patterns',

          default=list,

      )

      eh.configitem('largefiles', 'usercache',

          default=None,

      )

      cmdtable = eh.cmdtable

      configtable = eh.configtable

      extsetup = eh.finalextsetup

      reposetup = reposetup.reposetup

      uisetup = eh.finaluisetup

      def featuresetup(ui, supported):

          # don't die on seeing a repo with the largefiles requirement

          supported |= {'largefiles'}

      @eh.uisetup

      def _uisetup(ui):

          localrepo.featuresetupfuncs.add(featuresetup)

          hg.wirepeersetupfuncs.append(proto.wirereposetup)

          cmdutil.outgoinghooks.add('largefiles', overrides.outgoinghook)

          cmdutil.summaryremotehooks.add('largefiles', overrides.summaryremotehook)

          # create the new wireproto commands ...

          wireprotov1server.wireprotocommand('putlfile', 'sha', permission='push')(

              proto.putlfile)

          wireprotov1server.wireprotocommand('getlfile', 'sha', permission='pull')(

              proto.getlfile)

          wireprotov1server.wireprotocommand('statlfile', 'sha', permission='pull')(

              proto.statlfile)

          wireprotov1server.wireprotocommand('lheads', '', permission='pull')(

              wireprotov1server.heads)

          extensions.wrapfunction(wireprotov1server.commands['heads'], 'func',

                                  proto.heads)

          # TODO also wrap wireproto.commandsv2 once heads is implemented there.

          # can't do this in reposetup because it needs to have happened before

          # wirerepo.__init__ is called

          proto.ssholdcallstream = sshpeer.sshv1peer._callstream

          proto.httpoldcallstream = httppeer.httppeer._callstream

          sshpeer.sshv1peer._callstream = proto.sshrepocallstream

          httppeer.httppeer._callstream = proto.httprepocallstream

          # override some extensions' stuff as well

          for name, module in extensions.extensions():

              if name == 'rebase':

                  # TODO: teach exthelper to handle this

                  extensions.wrapfunction(module, 'rebase',

                                          overrides.overriderebase)

      revsetpredicate = eh.revsetpredicate

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				# Copyright 2009-2010 Gregory P. Ward
				# Copyright 2009-2010 Intelerad Medical Systems Incorporated
				# Copyright 2010-2011 Fog Creek Software
				# Copyright 2010-2011 Unity Technologies
				#
				# This software may be used and distributed according to the terms of the
				# GNU General Public License version 2 or any later version.

				'''track large binary files

				Large binary files tend to be not very compressible, not very
				diffable, and not at all mergeable. Such files are not handled
				efficiently by Mercurial's storage format (revlog), which is based on
				compressed binary deltas; storing large binary files as regular
				Mercurial files wastes bandwidth and disk space and increases
				Mercurial's memory usage. The largefiles extension addresses these
				problems by adding a centralized client-server layer on top of
				Mercurial: largefiles live in a central store out on the network
				somewhere, and you only fetch the revisions that you need when you
				need them.

				largefiles works by maintaining a "standin file" in .hglf/ for each
				largefile. The standins are small (41 bytes: an SHA-1 hash plus
				newline) and are tracked by Mercurial. Largefile revisions are
				identified by the SHA-1 hash of their contents, which is written to
				the standin. largefiles uses that revision ID to get/put largefile
				revisions from/to the central store. This saves both disk space and
				bandwidth, since you don't need to retrieve all historical revisions
				of large files when you clone or pull.

				To start a new repository or add new large binary files, just add
				--large to your :hg:`add` command. For example::

				$ dd if=/dev/urandom of=randomdata count=2000
				$ hg add --large randomdata
				$ hg commit -m "add randomdata as a largefile"

				When you push a changeset that adds/modifies largefiles to a remote
				repository, its largefile revisions will be uploaded along with it.
				Note that the remote Mercurial must also have the largefiles extension
				enabled for this to work.

				When you pull a changeset that affects largefiles from a remote
				repository, the largefiles for the changeset will by default not be
				pulled down. However, when you update to such a revision, any
				largefiles needed by that revision are downloaded and cached (if
				they have never been downloaded before). One way to pull largefiles
				when pulling is thus to use --update, which will update your working
				copy to the latest pulled revision (and thereby downloading any new
				largefiles).

				If you want to pull largefiles you don't need for update yet, then
				you can use pull with the `--lfrev` option or the :hg:`lfpull` command.

				If you know you are pulling from a non-default location and want to
				download all the largefiles that correspond to the new changesets at
				the same time, then you can pull with `--lfrev "pulled()"`.

				If you just want to ensure that you will have the largefiles needed to
				merge or rebase with new heads that you are pulling, then you can pull
				with `--lfrev "head(pulled())"` flag to pre-emptively download any largefiles
				that are new in the heads you are pulling.

				Keep in mind that network access may now be required to update to
				changesets that you have not previously updated to. The nature of the
				largefiles extension means that updating is no longer guaranteed to
				be a local-only operation.

				If you already have large files tracked by Mercurial without the
				largefiles extension, you will need to convert your repository in
				order to benefit from largefiles. This is done with the
				:hg:`lfconvert` command::

				$ hg lfconvert --size 10 oldrepo newrepo

				In repositories that already have largefiles in them, any new file
				over 10MB will automatically be added as a largefile. To change this
				threshold, set ``largefiles.minsize`` in your Mercurial config file
				to the minimum size in megabytes to track as a largefile, or use the
				--lfsize option to the add command (also in megabytes)::

				[largefiles]
				minsize = 2

				$ hg add --lfsize 2

				The ``largefiles.patterns`` config option allows you to specify a list
				of filename patterns (see :hg:`help patterns`) that should always be
				tracked as largefiles::

				[largefiles]
				patterns =
				*.jpg
				re:.*\\.(png\|bmp)$
				library.zip
				content/audio/*

				Files that match one of these patterns will be added as largefiles
				regardless of their size.

				The ``largefiles.minsize`` and ``largefiles.patterns`` config options
				will be ignored for any repositories not already containing a
				largefile. To add the first largefile to a repository, you must
				explicitly do so with the --large flag passed to the :hg:`add`
				command.
				'''
				from __future__ import absolute_import

				from mercurial import (
				cmdutil,
				extensions,
				exthelper,
				hg,
				httppeer,
				localrepo,
				sshpeer,
				wireprotov1server,
				)

				from . import (
				lfcommands,
				overrides,
				proto,
				reposetup,
				)

				# Note for extension authors: ONLY specify testedwith = 'ships-with-hg-core' for
				# extensions which SHIP WITH MERCURIAL. Non-mainline extensions should
				# be specifying the version(s) of Mercurial they are tested with, or
				# leave the attribute unspecified.
				testedwith = 'ships-with-hg-core'

				eh = exthelper.exthelper()
				eh.merge(lfcommands.eh)
				eh.merge(overrides.eh)
				eh.merge(proto.eh)

				eh.configitem('largefiles', 'minsize',
				default=eh.configitem.dynamicdefault,
				)
				eh.configitem('largefiles', 'patterns',
				default=list,
				)
				eh.configitem('largefiles', 'usercache',
				default=None,
				)

				cmdtable = eh.cmdtable
				configtable = eh.configtable
				extsetup = eh.finalextsetup
				reposetup = reposetup.reposetup
				uisetup = eh.finaluisetup

				def featuresetup(ui, supported):
				# don't die on seeing a repo with the largefiles requirement
				supported \|= {'largefiles'}

				@eh.uisetup
				def _uisetup(ui):
				localrepo.featuresetupfuncs.add(featuresetup)
				hg.wirepeersetupfuncs.append(proto.wirereposetup)

				cmdutil.outgoinghooks.add('largefiles', overrides.outgoinghook)
				cmdutil.summaryremotehooks.add('largefiles', overrides.summaryremotehook)

				# create the new wireproto commands ...
				wireprotov1server.wireprotocommand('putlfile', 'sha', permission='push')(
				proto.putlfile)
				wireprotov1server.wireprotocommand('getlfile', 'sha', permission='pull')(
				proto.getlfile)
				wireprotov1server.wireprotocommand('statlfile', 'sha', permission='pull')(
				proto.statlfile)
				wireprotov1server.wireprotocommand('lheads', '', permission='pull')(
				wireprotov1server.heads)

				extensions.wrapfunction(wireprotov1server.commands['heads'], 'func',
				proto.heads)
				# TODO also wrap wireproto.commandsv2 once heads is implemented there.

				# can't do this in reposetup because it needs to have happened before
				# wirerepo.__init__ is called
				proto.ssholdcallstream = sshpeer.sshv1peer._callstream
				proto.httpoldcallstream = httppeer.httppeer._callstream
				sshpeer.sshv1peer._callstream = proto.sshrepocallstream
				httppeer.httppeer._callstream = proto.httprepocallstream

				# override some extensions' stuff as well
				for name, module in extensions.extensions():
				if name == 'rebase':
				# TODO: teach exthelper to handle this
				extensions.wrapfunction(module, 'rebase',
				overrides.overriderebase)

				revsetpredicate = eh.revsetpredicate