We usually update bookmarks only if the new location is descendant of the old
bookmarks location. We extract this logic into a function. This is the first
step to allow more complex logic using obsolescence in this validation of the
bookmark movement.
A relevant obsolete marker may have been added -after- we previously
exchanged the changeset. We have to search for remote heads that
disappear by the sole fact of pushing obsolescence.
This case will also happen when remote got the new version from a
repository that does not propagate obsolescence markers.
Checkheads was more permissive than expected. When the remote heads
are public we don't need to search for successors. None will make a
public head disappear.
Before this change, push would incorrectly fast-path the bundle
generation when extinct changesets are involved, because they are not
added to outgoing.excluded. The reason to do so are related to
outgoing.excluded being assumed to contain only secret changesets by
scmutil.nochangesfound(), when displaying warnings like:
changes found (ignored 9 secret changesets)
Still, outgoing.excluded seems like a good API to report the extinct
changesets instead of dedicated code and nothing in the docstring
indicates it to be bound to secret changesets. This patch adds extinct
changesets to outgoing.excluded and fixes scmutil.nochangesfound() to
filter the excluded node list.
Original version and test by Pierre-Yves.David@ens-lyon.org
If we push some successors they will likely create a new head on
remote. However as the obsoleted head will disappear after the push we
are not really increasing the number of heads.
There is several case which will lead to extra being actually pushed. But this
first changeset aims to be simple. See the inline comment for details.
Without this change, you need to push --force every time you want to
push a newer version which is very error prone.
The remote side still display +n heads on unbundle because it does not have the
obsolete marker at unbundle time.
The checkheads function is far too complicated. This extract help to explicite
what part of the preprocessing are reused by the actual check.
This the first step toward a wider refactoring.
Extinct changesets are excluded from all exchange operations. This is a silent
exclusion because the user should not need to be aware of them.
There is no reason to strongly enforce this exclusion except implementation
simplicity. User should be able to explicitly request an extinct changeset in
the future.
They were previously inside the mercurial.phases module, but obsolete
logic will need them to exclude `extinct` changesets from pull and
push.
The proper and planned way to implement such filtering is still to apply a
changelog level filtering. But we are far to late in the cycle to implement and
push such a critical piece of code (changelog filtering). With Matt Mackall
approval I'm extending this quick and dirty mechanism for obsolete purpose.
Changelog level filtering should come during the next release cycle.
This introduces a peer method into all repository classes, which currently
simply returns self. It also changes hg.repository so it now raises an
exception if the supplied paths does not resolve to a localrepo or descendant.
Finally, all call sites are changed to use the peer and local methods as
appropriate, where peer is used whenever the code is dealing with a remote
repository (even if it's on local disk).
All necessary data to fire a simple revset query are already known. No call to
ancestors are needed. Such ancestors calculation was already done to compute
outgoing.missing.
The problem occured when pushing a changeset that at the same time creates a
new named branch head and moves a bookmark. The code invoked methods that only
exist on localrepo instances, so it failed for any other type of remote. The
test suite only tested against local remotes.
Accepting a variable number of arguments as the old API did is
deeply ugly, particularly as it means the API can't be extended
with new arguments. Partly as a result, we have at least three
different implementations of the same ancestors algorithm (!?).
Most callers were forced to call ancestors(*somelist), adding to
both inefficiency and ugliness.
This is achieved by acting as if the user had given -r<rev> for each head rev
of outgoing changesets on the command line, as well as appropriate
--base <rev>.
The discovery information is computed as normal, and then adjusted as above.
The original motivation was changectx.phase() had special logic to
correctly lookup in repo._phaserev, including invalidating it when
necessary. And at other places, repo._phaserev was accessed directly.
This led to the discovery that phases state including _phaseroots,
_phaserev and _dirtyphase was manipulated in localrepository.py,
phases.py, repair.py, etc. phasecache helps encapsulating that.
This patch replaces all phase state in localrepo with phasecache and
adjust related code except for advance/retractboundary() in phases.
These still access to phasecache internals directly. This will be
addressed in a followup.
Discovery now use an overlay above branchmap to prune invisible "secret"
changeset from branchmap.
To minimise impact on the code during the code freeze, this is achieve by
recomputing non-secret heads on the fly when any secret changeset exists. This
is a computation heavy approach similar to the one used for visible heads. But
few sever should contains secret changeset anyway. See comment in code for more
robust approach.
On local repo the wrapper is applied explicitly while the wire-protocol take
care of wrapping branchmap call in a transparent way. This could be unified by
the Peter Arrenbrecht and Sune Foldager proposal of a `peer` object.
An inappropriate `(+i heads)` may still appear when pushing new changes on a
repository with secret changeset. (see Issue3394 for details)
This only alter the third block executed when:
* repo have secret changeset
* onlyheads is not None
In other case findcommonoutgoing already had this behavior
The ``discovery.prepush`` function was doing multiple things not related to
discovery. This changeset move some code into the ``localrepo.push`` method. The
old ``discovery.prepush`` function jobs is now restricted to checking for
multple head creation. It was then renamed ``discovery.checkheads``.
This new ``discovery.checkheads`` function may receive several other changes in
the future but we are a bit too much near the freeze for a wider refactoring.
The prepush documentation claim that when we refuse to push, the second element
of the returng tuple is an "outgoing" integer. value should be 0 when no
outgoing changeset and 1 otherwise. In pratice if there are no outgoing
changeset, "outgoing" value is alway 1 and util.Abort is raised on other error.
the stable branch also include this error so it wasn't introduced by a recent
refactoring.
The outgoing object gains an "excluded" members holding all changesets which
were excluded because there where secret.
The core discovery code now remove secret changeset from discovery by default.
This means that any command relying on discovery will exclude secret changeset.
Most notable one are outgoing and bundle. (But bundle with and explicit
``--base`` still allow to bundle outgoing changeset.
Simplifies client logic in multiple places since it encapsulates the
computation of the common and, more importantly, the missing node lists.
This also allows an upcomping patch to communicate precomputed versions of
these lists to clients.
Any secret changesets will be excluded from pull and push. Phase data are
properly synchronized on pull and push if a changeset is seen as secret locally
but is non-secret remote side.
This patch does not handle the case of a changeset secret on remote but known
locally.
When talking to old server discovery use heads of the 'None' branch to refer to
topological heads. This use of None should never make it to the end user.
previously, this info was only shown with --debug
Note that the new remote heads are only shown if the command aborts,
that is, they are *not* shown if --force was specified.
See also change 914ebeb62db8.
and don't mention the branch if it's the default branch.
OLD:
$ hg push ../a
pushing to ../a
searching for changes
abort: push creates new remote heads on branch 'default'!
(you should pull and merge or use push -f to force)
NEW:
$ hg push ../a
pushing to ../a
searching for changes
abort: push creates new remote head 1e108cc5548c!
(you should pull and merge or use push -f to force)
This helps to identify which local head is causing troubles.
See also change 914ebeb62db8.
discovery.findoutgoing used to be a useful hook for extensions like
hgsubversion. This patch reintroduces this version of findcommonincoming
which is meant to be used when computing outgoing changesets.
Adds a new discovery method based on repeatedly sampling the still
undecided subset of the local node graph to determine the set of nodes
common to both the client and the server.
For small differences between client and server, it uses about the same
or slightly fewer roundtrips than the old tree-based discovery. For
larger differences, it typically reduces the number of roundtrips
drastically (from 150 to 4, for instance).
The old discovery code now lives in treediscovery.py, the new code is
in setdiscovery.py.
Still missing is a hook for extensions to contribute nodes to the
initial sample. For instance, Augie's remotebranches could contribute
the last known state of the server's heads.
Credits for the actual sampler and computing common heads instead of
bases go to Benoit Boissinot.
This is a long desired cleanup and paves the way for new discovery.
To specify subsets for bundling changes, all code should use the heads
of the desired subset ("heads") and the heads of the common subset
("common") to be excluded from the bundled set. These can be used
revlog.findmissing instead of revlog.nodesbetween.
This fixes an actual bug exposed by the change in test-bundle-r.t
where we try to bundle a changeset while specifying that said changeset
is to be assumed already present in the target. This used to still
bundle the changeset. It no longer does. This is similar to the bugs
fixed by the recent switch to heads/common for incoming/pull.
Immediately sends local's heads to the server to check whether the server knows them all.
If it does, we can call getbundle immediately.
Interesting test output changes are:
- added 1 changesets with 0 changes to 1 files (+1 heads)
+ added 1 changesets with 0 changes to 0 files (+1 heads)
-> The new getbundle() actually fixes a bug vs. changegroupsubset() in that it no longer
returns unnecessary files when file revs are reused.
warning: repository is unrelated
+ requesting all changes
-> The new use of common instead of bases correctly indicates that an unrelated pull
gets all changes from the server.
With this patch applied, Mercurial will list the hashes of new remote heads
if push --debug aborts because of new remote heads (option -f/--force not set).
Example:
$ hg push --debug repo1
using http://example.org/repo1
http auth: user johndoe, password not set
sending between command
pushing to http://example.org/repo1
sending capabilities command
capabilities: changegroupsubset stream=1 lookup pushkey unbundle=HG10GZ,HG10BZ,HG10UN branchmap
sending heads command
searching for changes
common changesets up to 187dd3f0a37d
sending branchmap command
new remote heads on branch 'default' <- new output line
new remote head 5862c07f53a2 <- new output line
abort: push creates new remote heads on branch 'default'!
(did you forget to merge? use push -f to force)
Compare to without --debug (not changed by this patch, including it here
for reference purposes only):
$ hg push repo1
pushing to http://example.org/repo1
searching for changes
abort: push creates new remote heads on branch 'default'!
(did you forget to merge? use push -f to force)
Motivation for this change:
'hg outgoing' may list a whole lot of benign changesets plus an odd changeset
that will trigger the "new remote heads" abort. It can be hard to spot that
single unwanted changeset (it may be an old forgotten experiment, lingering
in the local repo).
"hg log -r 'heads(outgoing())'" might be useful, but that also lists a head
that may be benign on push.
Inside prepush(), we already know which heads are causing troubles on 'hg push'.
Why not make that info available (at least on --debug)?
This would also be helpful for doing remote support, as the supporter can ask
the user to paste the output of 'hg push --debug' on error and then ask further
questions about the heads listed.