Gregory Szorc <gregory.szorc@gmail.com> [Wed, 08 Jul 2015 16:19:09 -0700] rev 25761
hg: support for auto sharing stores when cloning
Many 3rd party consumers of Mercurial have created wrappers to
essentially perform clone+share as a single operation. This is
especially popular in automated processes like continuous integration
systems. The Jenkins CI software and Mozilla's Firefox release
automation infrastructure have both implemented custom code that
effectively perform clone+share. The common use case here is that
clients want to obtain N>1 checkouts while minimizing disk space and
network requirements. Furthermore, they often don't care that a clone
is an exact mirror of a remote: they are simply looking to obtain
checkouts of specific revisions.
When multiple third parties implement a similar feature, it's a good
sign that the feature is worth adding to the core product. This patch
adds support for an easy-to-use clone+share feature.
The internal "clone" function now accepts options to control auto
sharing during clone. When the auto share mode is active, a store will
be created/updated under the base directory specified and a new
repository pointing to the shared store will be created at the path
specified by the user.
The share extension has grown the ability to pass these options into
the clone command/function.
No command line options for this feature are added because we don't
feel the feature will be popular enough to warrant their existence.
There are two modes for auto share mode. In the default mode, the shared
repo is derived from the first changeset (rev 0) in the remote
repository. This enables related repositories existing at different URLs
to automatically use the same storage. In environments that operate
several repositories (separate repo for branch/head/bookmark or separate
repo per user), this has the potential to drastically reduce storage
and network requirements. In the other mode, the name is derived from the
remote's path/URL.
Matt Mackall <mpm@selenic.com> [Wed, 08 Jul 2015 16:43:49 -0500] rev 25760
merge with stable
FUJIWARA Katsunori <foozy@lares.dti.ne.jp> [Wed, 08 Jul 2015 17:07:45 +0900] rev 25759
cmdutil: apply dirstate.normallookup on (maybe partially) committed files
To detect change of a file without redundant comparison of file
content, dirstate recognizes a file as certainly clean, if:
(1) it is already known as "normal",
(2) dirstate entry for it has valid (= not "-1") timestamp, and
(3) mode, size and timestamp of it on the filesystem are as same as
ones expected in dirstate
This works as expected in many cases, but doesn't in the corner case
that changing a file keeps mode, size and timestamp of it on the
filesystem.
The timetable below shows steps in one of typical such situations:
---- ----------------------------------- ----------------
timestamp of "f"
----------------
dirstate file-
time action mem file system
---- ----------------------------------- ---- ----- -----
N *** ***
- change "f" N
- execute 'hg commit -i'
- backup "f" with timestamp N
- revert "f" by 'merge.update()' N
with 'partially'
- apply selected hunks N
by 'patch.patch()'
- 'repo.commit()'
- 'dirstate.normal("f")' N
N+1
- 'dirstate.write()' N N
- restore "f" N+1
- restore timestamp of "f" N
- 'hg status' shows "f" as "clean" N N N
---- ----------------------------------- ---- ----- -----
The most important point is that 'dirstate.write()' is executed at N+1
or later. This causes writing dirstate timestamp N of "f" out
successfully. If it is executed at N, 'parsers.pack_dirstate()'
replaces timestamp N with "-1" before actual writing dirstate out.
This issue can occur when 'hg commit -i' satisfies conditions below:
- the file is committed partially, and
- mode and size of the file aren't changed before and after committing
The root cause of this issue is that (maybe partially changed) files
are restored with original timestamp but dirstate isn't updated for
them.
To detect changes of files correctly, this patch applies
'dirstate.normallookup()' on restored files. Status check is needed
before 'dirstate.normallookup()', because status other than "n(ormal)"
should be kept at failure of committing.
This patch doesn't examine whether each files are committed fully or
partially, because interactive hunk selection makes it difficult.
After this change, timetable is changed as below:
---- ----------------------------------- ----------------
timestamp of "f"
----------------
dirstate file-
time action mem file system
---- ----------------------------------- ---- ----- -----
N *** ***
- change "f" N
- execute 'hg commit -i'
- backup "f" with timestamp N
- revert "f" by 'merge.update()' N
with 'partially'
- apply selected hunks N
by 'patch.internalpatch()'
- 'repo.commit()'
- 'dirstate.normal("f")' N
N+1
- 'dirstate.write()' N N
- restore "f" N+1
- restore timestamp of "f" N
----------------------------------- ---- ----- -----
- normallookup("f") -1
- release wlock
- 'dirstate.write()' -1 -1 N
----------------------------------- ---- ----- -----
- 'hg status' shows "f" as "clean" -1 -1 N
---- ----------------------------------- ---- ----- -----
To reproduce this issue in tests certainly, this patch emulates some
timing critical actions as below:
- change "f" at N
'touch -t
200001010000' before command invocation changes mtime of
"f" to "2000-01-01 00:00" (= N).
- apply selected hunks at N
'patch.internalpatch()' with 'fakepatchtime.py' explicitly changes
mtime of patched files to "2000-01-01 00:00" (= N).
- 'dirstate.write()' at N+1 (or "not at N")
'pack_dirstate()' uses actual timestamp at runtime as "now", and
it should be different from the "2000-01-01 00:00" of "f".
BTW, in 'test-commit-interactive.t', files are sometimes treated as
modified , even though they are just committed fully via 'hg commit
-i' and 'hg diff' shows nothing for them.
Enabling win32text causes EOL style mismatching below:
- files are changed in LF style EOL
=> files restored after committing uses LF style EOL (1)
- 'merge.update()' reverts files in CRLF style EOL
- 'patch.internalpatch()' changes files in CRLF style EOL
=> 'dirstate.normal()' via 'repo.commit()' uses the size of files
in CRLF style EOL (2)
Therefore, fully committed files are treated as "modified", because
'lstat()' returns size of (1) restored files in LF style EOL, but
dirstate expects size of (2) committed files in CRLF style EOL.
After this patch, 'dirstate.normallookup()' on committed files forces
subsequent 'hg status' to examine changes exactly, and fully committed
files are treated as clean as expected.
This is reason why this patch also does:
- add some 'hg status' checking status of fully committed files
- clear win32text configuration before size/timestamp sensitive examination
FUJIWARA Katsunori <foozy@lares.dti.ne.jp> [Wed, 08 Jul 2015 17:01:09 +0900] rev 25758
cmdutil: put recordfunc invocation into wlock scope for consistency
Before this patch, 'recordfunc()' for interactive hunk selection does
below outside wlock scope at 'hg commit -i' and so on:
- backup files, which may be partially changed
- apply selected hunks on files
- restore files from backup-ed ones
These should be executed inside wlock scope for consistency.
To put them into wlock scope without largely changing indents in
'recordfunc()', this patch adds another wrapper function.
This patch is also a preparation for subsequent patch fixing the issue
to correctly recognize partially committed files as "modified".
FUJIWARA Katsunori <foozy@lares.dti.ne.jp> [Wed, 08 Jul 2015 17:01:09 +0900] rev 25757
context: write dirstate out explicitly at the end of markcommitted
To detect change of a file without redundant comparison of file
content, dirstate recognizes a file as certainly clean, if:
(1) it is already known as "normal",
(2) dirstate entry for it has valid (= not "-1") timestamp, and
(3) mode, size and timestamp of it on the filesystem are as same as
ones expected in dirstate
This works as expected in many cases, but doesn't in the corner case
that changing a file keeps mode, size and timestamp of it on the
filesystem.
The timetable below shows steps in one of typical such situations:
---- ----------------------------------- ----------------
timestamp of "f"
----------------
dirstate file-
time action mem file system
---- ----------------------------------- ---- ----- -----
* *** ***
- 'hg transplant REV1 REV2 ...'
- transplanting REV1
....
N
- change "f", but keep size N
(via 'patch.patch()')
- 'dirstate.normal("f")' N ***
(via 'repo.commit()')
- transplanting REV2
- change "f", but keep size N
(via 'patch.patch()')
- aborted while patching
N+1
- release wlock
- 'dirstate.write()' N N N
- 'hg status' shows "r1" as "clean" N N N
---- ----------------------------------- ---- ----- -----
The most important point is that 'dirstate.write()' is executed at N+1
or later. This causes writing dirstate timestamp N of "f" out
successfully. If it is executed at N, 'parsers.pack_dirstate()'
replaces timestamp N with "-1" before actual writing dirstate out.
This issue can occur when 'hg transplant' satisfies conditions below:
- multiple revisions to be transplanted change the same file
- those revisions don't change mode and size of the file, and
- the 2nd or later revision of them fails after changing the file
The root cause of this issue is that files are changed without
flushing in-memory dirstate changes via 'repo.commit()' (even though
omitting 'dirstate.normallookup()' on files changed by 'patch.patch()'
for efficiency also causes this issue).
To detect changes of files correctly, this patch writes in-memory
dirstate changes out explicitly after marking files as clean in
'committablectx.markcommitted()', which is invoked via
'repo.commit()'.
After this change, timetable is changed as below:
---- ----------------------------------- ----------------
timestamp of "f"
----------------
dirstate file-
time action mem file system
---- ----------------------------------- ---- ----- -----
* *** ***
- 'hg transplant REV1 REV2 ...'
- transplanting REV1
....
N
- change "f", but keep size N
(via 'patch.patch()')
- 'dirstate.normal("f")' N ***
(via 'repo.commit()')
----------------------------------- ---- ----- -----
- 'dirsttate.write()' -1 -1
----------------------------------- ---- ----- -----
- transplanting REV2
- change "f", but keep size N
(via 'patch.patch()')
- aborted while patching
N+1
- release wlock
- 'dirstate.write()' -1 -1 N
- 'hg status' shows "r1" as "clean" -1 -1 N
---- ----------------------------------- ---- ----- -----
To reproduce this issue in tests certainly, this patch emulates some
timing critical actions as below:
- change "f" at N
'patch.patch()' with 'fakepatchtime.py' explicitly changes mtime
of patched files to "2000-01-01 00:00" (= N).
- 'dirstate.write()' via 'repo.commit()' at N
'fakedirstatewritetime.py' forces 'pack_dirstate()' to use
"2000-01-01 00:00" as "now", only if 'pack_dirstate()' is invoked
via 'committablectx.markcommitted()'.
- 'dirstate.write()' via releasing wlock at N+1 (or "not at N")
'pack_dirstate()' via releasing wlock uses actual timestamp at
runtime as "now", and it should be different from the "2000-01-01
00:00" of "f".
BTW, this patch doesn't test cases below, even though 'patch.patch()'
is used similarly in these cases:
1. failure of 'hg import' or 'hg qpush'
2. success of 'hg import', 'hg qpush' or 'hg transplant'
Case (1) above doesn't cause this kind of issue, because:
- if patching is aborted by conflicts, changed files are committed
changed files are marked as CLEAN, even though they are partially
patched.
- otherwise, dirstate are fully restored by 'dirstateguard'
For example in timetable above, timestamp of "f" in .hg/dirstate
is restored to -1 (or less than N), and subsequent 'hg status' can
detect changes correctly.
Case (2) always causes 'repo.status()' invocation via 'repo.commit()'
just after changing files inside same wlock scope.
---- ----------------------------------- ----------------
timestamp of "f"
----------------
dirstate file-
time action mem file system
---- ----------------------------------- ---- ----- -----
N *** ***
- make file "f" clean N
- execute 'hg foobar'
....
- 'dirstate.normal("f")' N ***
(e.g. via dirty check
or previous 'repo.commit()')
- change "f", but keep size N
- 'repo.status()' (*1)
(via 'repo.commit()')
---- ----------------------------------- ---- ----- -----
At a glance, 'repo.status()' at (*1) seems to cause similar issue (=
"changed files are treated as clean"), but actually doesn't.
'dirstate._lastnormaltime' should be N at (*1) above, because
'dirstate.normal()' via dirty check is finished at N.
Therefore, "f" changed at N (= 'dirstate._lastnormaltime') is forcibly
treated as "unsure" at (*1), and changes are detected as expected (see
'dirstate.status()' for detail).
If 'hg import' is executed with '--no-commit', 'repo.status()' isn't
invoked just after changing files inside same wlock scope.
But preceding 'dirstate.normal()' is invoked inside another wlock
scope via 'cmdutil.bailifchanged()', and in-memory changes should be
flushed at the end of that scope.
Therefore, timestamp N of clean "f" should be replaced by -1, if
'dirstate.write()' is invoked at N. It means that condition of this
issue isn't satisfied.
FUJIWARA Katsunori <foozy@lares.dti.ne.jp> [Wed, 08 Jul 2015 17:01:09 +0900] rev 25756
tests: add extension to emulate invoking internalpatch at the specific time
This extension fakes "mtime" of patched files to emulate invoking
'patch.internalpatch()' at the specific time.
This is useful to reproduce timing critical issues fixed in subsequent
patches.
FUJIWARA Katsunori <foozy@lares.dti.ne.jp> [Wed, 08 Jul 2015 17:01:09 +0900] rev 25755
cmdutil: remove useless dirstate.normallookup() invocation in revert()
Explicit 'dirstate.normallookup()' invocation in 'revert()' is useless
now, because previous patch fixed the relevant issue by writing
in-memory dirstate changes out at the end of dirty check.
'dirstate.normallookup()' invocation was introduced by
21b33f0460e0 to
avoid occasional test failure (see
issue4583 for detail). This is
partial backout of it (added tests are still left).
FUJIWARA Katsunori <foozy@lares.dti.ne.jp> [Wed, 08 Jul 2015 17:01:09 +0900] rev 25754
merge: remove useless dirstate.normallookup() invocation in applyupdates()
Explicit 'dirstate.normallookup()' invocation via 'dirtysubstate()' in
'applyupdates()' is useless now, because previous patch fixed the
relevant issue by writing in-memory dirstate changes out at the end of
dirty check.
'dirstate.normallookup()' invocation was introduced by
6becb9dbca25 to
avoid occasional test failure. This is partial backout of it (added
tests are still left).
FUJIWARA Katsunori <foozy@lares.dti.ne.jp> [Wed, 08 Jul 2015 17:01:09 +0900] rev 25753
context: write dirstate out explicitly after marking files as clean
To detect change of a file without redundant comparison of file
content, dirstate recognizes a file as certainly clean, if:
(1) it is already known as "normal",
(2) dirstate entry for it has valid (= not "-1") timestamp, and
(3) mode, size and timestamp of it on the filesystem are as same as
ones expected in dirstate
This works as expected in many cases, but doesn't in the corner case
that changing a file keeps mode, size and timestamp of it on the
filesystem.
The timetable below shows steps in one of typical such situations:
---- ----------------------------------- ----------------
timestamp of "f"
----------------
dirstate file-
time action mem file system
---- ----------------------------------- ---- ----- -----
N -1 ***
- make file "f" clean N
- execute 'hg foobar'
- instantiate 'dirstate' -1 -1
- 'dirstate.normal("f")' N -1
(e.g. via dirty check)
- change "f", but keep size N
N+1
- release wlock
- 'dirstate.write()' N N
- 'hg status' shows "f" as "clean" N N N
---- ----------------------------------- ---- ----- -----
The most important point is that 'dirstate.write()' is executed at N+1
or later. This causes writing dirstate timestamp N of "f" out
successfully. If it is executed at N, 'parsers.pack_dirstate()'
replaces timestamp N with "-1" before actual writing dirstate out.
Occasional test failure for unexpected file status is typical example
of this corner case. Batch execution with small working directory is
finished in no time, and rarely satisfies condition (2) above.
This issue can occur in cases below;
- 'hg revert --rev REV' for revisions other than the parent
- failure of 'merge.update()' before 'merge.recordupdates()'
The root cause of this issue is that files are changed without
flushing in-memory dirstate changes via 'repo.commit()' (even though
omitting 'dirstate.normallookup()' on changed files also causes this
issue).
To detect changes of files correctly, this patch writes in-memory
dirstate changes out explicitly after marking files as clean in
'workingctx._checklookup()', which is invoked via 'repo.status()'.
After this change, timetable is changed as below:
---- ----------------------------------- ----------------
timestamp of "f"
----------------
dirstate file-
time action mem file system
---- ----------------------------------- ---- ----- -----
N -1 ***
- make file "f" clean N
- execute 'hg foobar'
- instantiate 'dirstate' -1 -1
- 'dirstate.normal("f")' N -1
(e.g. via dirty check)
----------------------------------- ---- ----- -----
- 'dirsttate.write()' -1 -1
----------------------------------- ---- ----- -----
- change "f", but keep size N
N+1
- release wlock
- 'dirstate.write()' -1 -1
- 'hg status' -1 -1 N
---- ----------------------------------- ---- ----- -----
To reproduce this issue in tests certainly, this patch emulates some
timing critical actions as below:
- timestamp of "f" in '.hg/dirstate' is -1 at the beginning
'hg debugrebuildstate' before command invocation ensures it.
- make file "f" clean at N
- change "f" at N
'touch -t
200001010000' before and after command invocation
changes mtime of "f" to "2000-01-01 00:00" (= N).
- invoke 'dirstate.write()' via 'repo.status()' at N
'fakedirstatewritetime.py' forces 'pack_dirstate()' to use
"2000-01-01 00:00" as "now", only if 'pack_dirstate()' is invoked
via 'workingctx._checklookup()'.
- invoke 'dirstate.write()' via releasing wlock at N+1 (or "not at N")
'pack_dirstate()' via releasing wlock uses actual timestamp at
runtime as "now", and it should be different from the "2000-01-01
00:00" of "f".
BTW, this patch also changes 'test-largefiles-misc.t', because adding
'dirstate.write()' makes recent dirstate changes visible to external
process.
FUJIWARA Katsunori <foozy@lares.dti.ne.jp> [Wed, 08 Jul 2015 17:01:09 +0900] rev 25752
tests: add extension to emulate invoking dirstate.write at the specific time
This extension fakes 'now' for 'parsers.pack_dirstate()' to emulate
invoking 'dirstate.write()' at the specific time, only when
'dirstate.write()' is invoked via functions below:
- 'workingctx._checklookup()' (= 'repo.status()')
- 'committablectx.markcommitted()'
This is useful to reproduce timing critical issues fixed in subsequent
patches.
Eugene Baranov <eug.baranov@gmail.com> [Wed, 08 Jul 2015 18:05:27 +0100] rev 25751
convert: handle copies when converting from Perforce (
issue4744)
Durham Goode <durham@fb.com> [Wed, 08 Jul 2015 10:31:09 -0700] rev 25750
convert: add config for recording the source name
This creates the convert.hg.sourcename config option which will embed a user
defined name into each commit created by the convert. This is useful when using
the convert extension to merge several repositories together and we want to
record where each commit came from.
Durham Goode <durham@fb.com> [Wed, 08 Jul 2015 10:29:11 -0700] rev 25749
convert: support multiple specifed revs in git source
This allows specifying multiple revs/branches to convert from a git repo.
Durham Goode <durham@fb.com> [Wed, 08 Jul 2015 10:27:43 -0700] rev 25748
convert: add support for specifying multiple revs
Previously convert could only take one '--rev'. This change allows the user to
specify multiple --rev entries. For instance, this could allow converting
multiple branches (but not all branches) at once from git.
In this first patch, we disable support for this for all sources. Future
patches will enable it for select sources (like git).
Anton Shestakov <av6@dwimlabs.net> [Mon, 06 Jul 2015 01:38:37 +0800] rev 25747
monoblue: use padding instead of position for text in footer
Some installations alter monoblue style and remove margins from body element
(these margins have that dark gray background) to adapt hgweb instance to an
already existing site design. However, the margins hid a quirk in page footer:
a block of text needlessly popped out of the footer, and when margins were
gone, the whole page got a vertical scroll bar because of that.
Live example: https://hg.prosody.im/prosody-modules/
To remove the potential scroll bar, this block of text now uses left padding,
which doesn't make it overflow the footer, but makes it achieve the otherwise
same result visually.