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

sshpeer: initial definition and implementation of new SSH protocol...

sshpeer: initial definition and implementation of new SSH protocol The existing SSH protocol has several design flaws. Future commits will elaborate on these flaws as new features are introduced to combat these flaws. For now, hopefully you can take me for my word that a ground up rewrite of the SSH protocol is needed. This commit lays the foundation for a new SSH protocol by defining a mechanism to upgrade the SSH transport channel away from the default (version 1) protocol to something modern (which we'll call "version 2" for now). This upgrade process is detailed in the internals documentation for the wire protocol. The gist of it is the client sends a request line preceding the "hello" command/line which basically says "I'm requesting an upgrade: here's what I support." If the server recognizes that line, it processes the upgrade request and the transport channel is switched to use the new version of the protocol. If not, it sends an empty response, which is how all Mercurial SSH servers from the beginning of time reacted to unknown commands. The upgrade request is effectively ignored and the client continues to use the existing version of the protocol as if nothing happened. The new version of the SSH protocol is completely identical to version 1 aside from the upgrade dance and the bytes that follow. The immediate bytes that follow the protocol switch are defined to be a length framed "capabilities: " line containing the remote's advertised capabilities. In reality, this looks very similar to what the "hello" response would look like. But it will evolve quickly. The methodology by which the protocol will evolve is important. I'm not going to introduce the new protocol all at once. That would likely lead to endless bike shedding and forward progress would stall. Instead, I intend to tricle out new features and diversions from the existing protocol in small, incremental changes. To support the gradual evolution of the protocol, the on-the-wire advertised protocol name contains an "exp" to denote "experimental" and a 4 digit field to capture the sub-version of the protocol. Whenever we make a BC change to the wire protocol, we can increment this version and lock out all older clients because it will appear as a completely different protocol version. This means we can incur as many breaking changes as we want. We don't have to commit to supporting any one feature or idea for a long period of time. We can even evolve the handshake mechanism, because that is defined as being an implementation detail of the negotiated protocol version! Hopefully this lowers the barrier to accepting changes to the protocol and for experimenting with "radical" ideas during its development. In core, sshpeer received most of the attention. We haven't even implemented the server bits for the new protocol in core yet. Instead, we add very primitive support to our test server, mainly just to exercise the added code paths in sshpeer. Differential Revision: https://phab.mercurial-scm.org/D2061 # no-check-commit because of required foo_bar naming

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      # repoview.py - Filtered view of a localrepo object

      #

      # Copyright 2012 Pierre-Yves David <pierre-yves.david@ens-lyon.org>

      #                Logilab SA        <contact@logilab.fr>

      #

      # 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 copy

      import weakref

      from .node import nullrev

      from . import (

          obsolete,

          phases,

          pycompat,

          tags as tagsmod,

      )

      def hideablerevs(repo):

          """Revision candidates to be hidden

          This is a standalone function to allow extensions to wrap it.

          Because we use the set of immutable changesets as a fallback subset in

          branchmap (see mercurial.branchmap.subsettable), you cannot set "public"

          changesets as "hideable". Doing so would break multiple code assertions and

          lead to crashes."""

          return obsolete.getrevs(repo, 'obsolete')

      def pinnedrevs(repo):

          """revisions blocking hidden changesets from being filtered

          """

          cl = repo.changelog

          pinned = set()

          pinned.update([par.rev() for par in repo[None].parents()])

          pinned.update([cl.rev(bm) for bm in repo._bookmarks.values()])

          tags = {}

          tagsmod.readlocaltags(repo.ui, repo, tags, {})

          if tags:

              rev, nodemap = cl.rev, cl.nodemap

              pinned.update(rev(t[0]) for t in tags.values() if t[0] in nodemap)

          return pinned

      def _revealancestors(pfunc, hidden, revs):

          """reveals contiguous chains of hidden ancestors of 'revs' by removing them

          from 'hidden'

          - pfunc(r): a funtion returning parent of 'r',

          - hidden: the (preliminary) hidden revisions, to be updated

          - revs: iterable of revnum,

          (Ancestors are revealed exclusively, i.e. the elements in 'revs' are

          *not* revealed)

          """

          stack = list(revs)

          while stack:

              for p in pfunc(stack.pop()):

                  if p != nullrev and p in hidden:

                      hidden.remove(p)

                      stack.append(p)

      def computehidden(repo, visibilityexceptions=None):

          """compute the set of hidden revision to filter

          During most operation hidden should be filtered."""

          assert not repo.changelog.filteredrevs

          hidden = hideablerevs(repo)

          if hidden:

              hidden = set(hidden - pinnedrevs(repo))

              if visibilityexceptions:

                  hidden -= visibilityexceptions

              pfunc = repo.changelog.parentrevs

              mutablephases = (phases.draft, phases.secret)

              mutable = repo._phasecache.getrevset(repo, mutablephases)

              visible = mutable - hidden

              _revealancestors(pfunc, hidden, visible)

          return frozenset(hidden)

      def computeunserved(repo, visibilityexceptions=None):

          """compute the set of revision that should be filtered when used a server

          Secret and hidden changeset should not pretend to be here."""

          assert not repo.changelog.filteredrevs

          # fast path in simple case to avoid impact of non optimised code

          hiddens = filterrevs(repo, 'visible')

          if phases.hassecret(repo):

              cl = repo.changelog

              secret = phases.secret

              getphase = repo._phasecache.phase

              first = min(cl.rev(n) for n in repo._phasecache.phaseroots[secret])

              revs = cl.revs(start=first)

              secrets = set(r for r in revs if getphase(repo, r) >= secret)

              return frozenset(hiddens | secrets)

          else:

              return hiddens

      def computemutable(repo, visibilityexceptions=None):

          assert not repo.changelog.filteredrevs

          # fast check to avoid revset call on huge repo

          if any(repo._phasecache.phaseroots[1:]):

              getphase = repo._phasecache.phase

              maymutable = filterrevs(repo, 'base')

              return frozenset(r for r in maymutable if getphase(repo, r))

          return frozenset()

      def computeimpactable(repo, visibilityexceptions=None):

          """Everything impactable by mutable revision

          The immutable filter still have some chance to get invalidated. This will

          happen when:

          - you garbage collect hidden changeset,

          - public phase is moved backward,

          - something is changed in the filtering (this could be fixed)

          This filter out any mutable changeset and any public changeset that may be

          impacted by something happening to a mutable revision.

          This is achieved by filtered everything with a revision number egal or

          higher than the first mutable changeset is filtered."""

          assert not repo.changelog.filteredrevs

          cl = repo.changelog

          firstmutable = len(cl)

          for roots in repo._phasecache.phaseroots[1:]:

              if roots:

                  firstmutable = min(firstmutable, min(cl.rev(r) for r in roots))

          # protect from nullrev root

          firstmutable = max(0, firstmutable)

          return frozenset(xrange(firstmutable, len(cl)))

      # function to compute filtered set

      #

      # When adding a new filter you MUST update the table at:

      #     mercurial.branchmap.subsettable

      # Otherwise your filter will have to recompute all its branches cache

      # from scratch (very slow).

      filtertable = {'visible': computehidden,

                     'visible-hidden': computehidden,

                     'served': computeunserved,

                     'immutable':  computemutable,

                     'base':  computeimpactable}

      def filterrevs(repo, filtername, visibilityexceptions=None):

          """returns set of filtered revision for this filter name

          visibilityexceptions is a set of revs which must are exceptions for

          hidden-state and must be visible. They are dynamic and hence we should not

          cache it's result"""

          if filtername not in repo.filteredrevcache:

              func = filtertable[filtername]

              if visibilityexceptions:

                  return func(repo.unfiltered, visibilityexceptions)

              repo.filteredrevcache[filtername] = func(repo.unfiltered())

          return repo.filteredrevcache[filtername]

      class repoview(object):

          """Provide a read/write view of a repo through a filtered changelog

          This object is used to access a filtered version of a repository without

          altering the original repository object itself. We can not alter the

          original object for two main reasons:

          - It prevents the use of a repo with multiple filters at the same time. In

            particular when multiple threads are involved.

          - It makes scope of the filtering harder to control.

          This object behaves very closely to the original repository. All attribute

          operations are done on the original repository:

          - An access to `repoview.someattr` actually returns `repo.someattr`,

          - A write to `repoview.someattr` actually sets value of `repo.someattr`,

          - A deletion of `repoview.someattr` actually drops `someattr`

            from `repo.__dict__`.

          The only exception is the `changelog` property. It is overridden to return

          a (surface) copy of `repo.changelog` with some revisions filtered. The

          `filtername` attribute of the view control the revisions that need to be

          filtered.  (the fact the changelog is copied is an implementation detail).

          Unlike attributes, this object intercepts all method calls. This means that

          all methods are run on the `repoview` object with the filtered `changelog`

          property. For this purpose the simple `repoview` class must be mixed with

          the actual class of the repository. This ensures that the resulting

          `repoview` object have the very same methods than the repo object. This

          leads to the property below.

              repoview.method() --> repo.__class__.method(repoview)

          The inheritance has to be done dynamically because `repo` can be of any

          subclasses of `localrepo`. Eg: `bundlerepo` or `statichttprepo`.

          """

          def __init__(self, repo, filtername, visibilityexceptions=None):

              object.__setattr__(self, r'_unfilteredrepo', repo)

              object.__setattr__(self, r'filtername', filtername)

              object.__setattr__(self, r'_clcachekey', None)

              object.__setattr__(self, r'_clcache', None)

              # revs which are exceptions and must not be hidden

              object.__setattr__(self, r'_visibilityexceptions',

                                 visibilityexceptions)

          # not a propertycache on purpose we shall implement a proper cache later

          @property

          def changelog(self):

              """return a filtered version of the changeset

              this changelog must not be used for writing"""

              # some cache may be implemented later

              unfi = self._unfilteredrepo

              unfichangelog = unfi.changelog

              # bypass call to changelog.method

              unfiindex = unfichangelog.index

              unfilen = len(unfiindex) - 1

              unfinode = unfiindex[unfilen - 1][7]

              revs = filterrevs(unfi, self.filtername, self._visibilityexceptions)

              cl = self._clcache

              newkey = (unfilen, unfinode, hash(revs), unfichangelog._delayed)

              # if cl.index is not unfiindex, unfi.changelog would be

              # recreated, and our clcache refers to garbage object

              if (cl is not None and

                  (cl.index is not unfiindex or newkey != self._clcachekey)):

                  cl = None

              # could have been made None by the previous if

              if cl is None:

                  cl = copy.copy(unfichangelog)

                  cl.filteredrevs = revs

                  object.__setattr__(self, r'_clcache', cl)

                  object.__setattr__(self, r'_clcachekey', newkey)

              return cl

          def unfiltered(self):

              """Return an unfiltered version of a repo"""

              return self._unfilteredrepo

          def filtered(self, name, visibilityexceptions=None):

              """Return a filtered version of a repository"""

              if name == self.filtername and not visibilityexceptions:

                  return self

              return self.unfiltered().filtered(name, visibilityexceptions)

          def __repr__(self):

              return r'<%s:%s %r>' % (self.__class__.__name__,

                                      pycompat.sysstr(self.filtername),

                                      self.unfiltered())

          # everything access are forwarded to the proxied repo

          def __getattr__(self, attr):

              return getattr(self._unfilteredrepo, attr)

          def __setattr__(self, attr, value):

              return setattr(self._unfilteredrepo, attr, value)

          def __delattr__(self, attr):

              return delattr(self._unfilteredrepo, attr)

      # Python <3.4 easily leaks types via __mro__. See

      # https://bugs.python.org/issue17950. We cache dynamically created types

      # so they won't be leaked on every invocation of repo.filtered().

      _filteredrepotypes = weakref.WeakKeyDictionary()

      def newtype(base):

          """Create a new type with the repoview mixin and the given base class"""

          if base not in _filteredrepotypes:

              class filteredrepo(repoview, base):

                  pass

              _filteredrepotypes[base] = filteredrepo

          return _filteredrepotypes[base]

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				# repoview.py - Filtered view of a localrepo object
				#
				# Copyright 2012 Pierre-Yves David <pierre-yves.david@ens-lyon.org>
				# Logilab SA <contact@logilab.fr>
				#
				# 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 copy
				import weakref

				from .node import nullrev
				from . import (
				obsolete,
				phases,
				pycompat,
				tags as tagsmod,
				)

				def hideablerevs(repo):
				"""Revision candidates to be hidden

				This is a standalone function to allow extensions to wrap it.

				Because we use the set of immutable changesets as a fallback subset in
				branchmap (see mercurial.branchmap.subsettable), you cannot set "public"
				changesets as "hideable". Doing so would break multiple code assertions and
				lead to crashes."""
				return obsolete.getrevs(repo, 'obsolete')

				def pinnedrevs(repo):
				"""revisions blocking hidden changesets from being filtered
				"""

				cl = repo.changelog
				pinned = set()
				pinned.update([par.rev() for par in repo[None].parents()])
				pinned.update([cl.rev(bm) for bm in repo._bookmarks.values()])

				tags = {}
				tagsmod.readlocaltags(repo.ui, repo, tags, {})
				if tags:
				rev, nodemap = cl.rev, cl.nodemap
				pinned.update(rev(t[0]) for t in tags.values() if t[0] in nodemap)
				return pinned


				def _revealancestors(pfunc, hidden, revs):
				"""reveals contiguous chains of hidden ancestors of 'revs' by removing them
				from 'hidden'

				- pfunc(r): a funtion returning parent of 'r',
				- hidden: the (preliminary) hidden revisions, to be updated
				- revs: iterable of revnum,

				(Ancestors are revealed exclusively, i.e. the elements in 'revs' are
				not revealed)
				"""
				stack = list(revs)
				while stack:
				for p in pfunc(stack.pop()):
				if p != nullrev and p in hidden:
				hidden.remove(p)
				stack.append(p)

				def computehidden(repo, visibilityexceptions=None):
				"""compute the set of hidden revision to filter

				During most operation hidden should be filtered."""
				assert not repo.changelog.filteredrevs

				hidden = hideablerevs(repo)
				if hidden:
				hidden = set(hidden - pinnedrevs(repo))
				if visibilityexceptions:
				hidden -= visibilityexceptions
				pfunc = repo.changelog.parentrevs
				mutablephases = (phases.draft, phases.secret)
				mutable = repo._phasecache.getrevset(repo, mutablephases)

				visible = mutable - hidden
				_revealancestors(pfunc, hidden, visible)
				return frozenset(hidden)

				def computeunserved(repo, visibilityexceptions=None):
				"""compute the set of revision that should be filtered when used a server

				Secret and hidden changeset should not pretend to be here."""
				assert not repo.changelog.filteredrevs
				# fast path in simple case to avoid impact of non optimised code
				hiddens = filterrevs(repo, 'visible')
				if phases.hassecret(repo):
				cl = repo.changelog
				secret = phases.secret
				getphase = repo._phasecache.phase
				first = min(cl.rev(n) for n in repo._phasecache.phaseroots[secret])
				revs = cl.revs(start=first)
				secrets = set(r for r in revs if getphase(repo, r) >= secret)
				return frozenset(hiddens \| secrets)
				else:
				return hiddens

				def computemutable(repo, visibilityexceptions=None):
				assert not repo.changelog.filteredrevs
				# fast check to avoid revset call on huge repo
				if any(repo._phasecache.phaseroots[1:]):
				getphase = repo._phasecache.phase
				maymutable = filterrevs(repo, 'base')
				return frozenset(r for r in maymutable if getphase(repo, r))
				return frozenset()

				def computeimpactable(repo, visibilityexceptions=None):
				"""Everything impactable by mutable revision

				The immutable filter still have some chance to get invalidated. This will
				happen when:

				- you garbage collect hidden changeset,
				- public phase is moved backward,
				- something is changed in the filtering (this could be fixed)

				This filter out any mutable changeset and any public changeset that may be
				impacted by something happening to a mutable revision.

				This is achieved by filtered everything with a revision number egal or
				higher than the first mutable changeset is filtered."""
				assert not repo.changelog.filteredrevs
				cl = repo.changelog
				firstmutable = len(cl)
				for roots in repo._phasecache.phaseroots[1:]:
				if roots:
				firstmutable = min(firstmutable, min(cl.rev(r) for r in roots))
				# protect from nullrev root
				firstmutable = max(0, firstmutable)
				return frozenset(xrange(firstmutable, len(cl)))

				# function to compute filtered set
				#
				# When adding a new filter you MUST update the table at:
				# mercurial.branchmap.subsettable
				# Otherwise your filter will have to recompute all its branches cache
				# from scratch (very slow).
				filtertable = {'visible': computehidden,
				'visible-hidden': computehidden,
				'served': computeunserved,
				'immutable': computemutable,
				'base': computeimpactable}

				def filterrevs(repo, filtername, visibilityexceptions=None):
				"""returns set of filtered revision for this filter name

				visibilityexceptions is a set of revs which must are exceptions for
				hidden-state and must be visible. They are dynamic and hence we should not
				cache it's result"""
				if filtername not in repo.filteredrevcache:
				func = filtertable[filtername]
				if visibilityexceptions:
				return func(repo.unfiltered, visibilityexceptions)
				repo.filteredrevcache[filtername] = func(repo.unfiltered())
				return repo.filteredrevcache[filtername]

				class repoview(object):
				"""Provide a read/write view of a repo through a filtered changelog

				This object is used to access a filtered version of a repository without
				altering the original repository object itself. We can not alter the
				original object for two main reasons:
				- It prevents the use of a repo with multiple filters at the same time. In
				particular when multiple threads are involved.
				- It makes scope of the filtering harder to control.

				This object behaves very closely to the original repository. All attribute
				operations are done on the original repository:
				- An access to `repoview.someattr` actually returns `repo.someattr`,
				- A write to `repoview.someattr` actually sets value of `repo.someattr`,
				- A deletion of `repoview.someattr` actually drops `someattr`
				from `repo.__dict__`.

				The only exception is the `changelog` property. It is overridden to return
				a (surface) copy of `repo.changelog` with some revisions filtered. The
				`filtername` attribute of the view control the revisions that need to be
				filtered. (the fact the changelog is copied is an implementation detail).

				Unlike attributes, this object intercepts all method calls. This means that
				all methods are run on the `repoview` object with the filtered `changelog`
				property. For this purpose the simple `repoview` class must be mixed with
				the actual class of the repository. This ensures that the resulting
				`repoview` object have the very same methods than the repo object. This
				leads to the property below.

				repoview.method() --> repo.__class__.method(repoview)

				The inheritance has to be done dynamically because `repo` can be of any
				subclasses of `localrepo`. Eg: `bundlerepo` or `statichttprepo`.
				"""

				def __init__(self, repo, filtername, visibilityexceptions=None):
				object.__setattr__(self, r'_unfilteredrepo', repo)
				object.__setattr__(self, r'filtername', filtername)
				object.__setattr__(self, r'_clcachekey', None)
				object.__setattr__(self, r'_clcache', None)
				# revs which are exceptions and must not be hidden
				object.__setattr__(self, r'_visibilityexceptions',
				visibilityexceptions)

				# not a propertycache on purpose we shall implement a proper cache later
				@property
				def changelog(self):
				"""return a filtered version of the changeset

				this changelog must not be used for writing"""
				# some cache may be implemented later
				unfi = self._unfilteredrepo
				unfichangelog = unfi.changelog
				# bypass call to changelog.method
				unfiindex = unfichangelog.index
				unfilen = len(unfiindex) - 1
				unfinode = unfiindex[unfilen - 1][7]

				revs = filterrevs(unfi, self.filtername, self._visibilityexceptions)
				cl = self._clcache
				newkey = (unfilen, unfinode, hash(revs), unfichangelog._delayed)
				# if cl.index is not unfiindex, unfi.changelog would be
				# recreated, and our clcache refers to garbage object
				if (cl is not None and
				(cl.index is not unfiindex or newkey != self._clcachekey)):
				cl = None
				# could have been made None by the previous if
				if cl is None:
				cl = copy.copy(unfichangelog)
				cl.filteredrevs = revs
				object.__setattr__(self, r'_clcache', cl)
				object.__setattr__(self, r'_clcachekey', newkey)
				return cl

				def unfiltered(self):
				"""Return an unfiltered version of a repo"""
				return self._unfilteredrepo

				def filtered(self, name, visibilityexceptions=None):
				"""Return a filtered version of a repository"""
				if name == self.filtername and not visibilityexceptions:
				return self
				return self.unfiltered().filtered(name, visibilityexceptions)

				def __repr__(self):
				return r'<%s:%s %r>' % (self.__class__.__name__,
				pycompat.sysstr(self.filtername),
				self.unfiltered())

				# everything access are forwarded to the proxied repo
				def __getattr__(self, attr):
				return getattr(self._unfilteredrepo, attr)

				def __setattr__(self, attr, value):
				return setattr(self._unfilteredrepo, attr, value)

				def __delattr__(self, attr):
				return delattr(self._unfilteredrepo, attr)

				# Python <3.4 easily leaks types via __mro__. See
				# https://bugs.python.org/issue17950. We cache dynamically created types
				# so they won't be leaked on every invocation of repo.filtered().
				_filteredrepotypes = weakref.WeakKeyDictionary()

				def newtype(base):
				"""Create a new type with the repoview mixin and the given base class"""
				if base not in _filteredrepotypes:
				class filteredrepo(repoview, base):
				pass
				_filteredrepotypes[base] = filteredrepo
				return _filteredrepotypes[base]