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sidedata: add a way of replacing an existing sidedata computer...
sidedata: add a way of replacing an existing sidedata computer This will be useful in a future patch to replace a sequential computer with a parallel computer. We only allow for explicit replacement, to force the users to think about overriding computers. Differential Revision: https://phab.mercurial-scm.org/D10358
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engine.py
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/ mercurial / upgrade_utils / engine.py
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# upgrade.py - functions for in place upgrade of Mercurial repository
#
# Copyright (c) 2016-present, Gregory Szorc
#
# 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 stat
from ..i18n import _
from ..pycompat import getattr
from .. import (
changelog,
error,
filelog,
manifest,
metadata,
pycompat,
requirements,
revlog,
scmutil,
store,
util,
vfs as vfsmod,
)
from ..revlogutils import nodemap
def _revlogfrompath(repo, rl_type, path):
"""Obtain a revlog from a repo path.
An instance of the appropriate class is returned.
"""
if rl_type & store.FILEFLAGS_CHANGELOG:
return changelog.changelog(repo.svfs)
elif rl_type & store.FILEFLAGS_MANIFESTLOG:
mandir = b''
if b'/' in path:
mandir = path.rsplit(b'/', 1)[0]
return manifest.manifestrevlog(
repo.nodeconstants, repo.svfs, tree=mandir
)
else:
# drop the extension and the `data/` prefix
path = path.rsplit(b'.', 1)[0].split(b'/', 1)[1]
return filelog.filelog(repo.svfs, path)
def _copyrevlog(tr, destrepo, oldrl, rl_type, unencodedname):
"""copy all relevant files for `oldrl` into `destrepo` store
Files are copied "as is" without any transformation. The copy is performed
without extra checks. Callers are responsible for making sure the copied
content is compatible with format of the destination repository.
"""
oldrl = getattr(oldrl, '_revlog', oldrl)
newrl = _revlogfrompath(destrepo, rl_type, unencodedname)
newrl = getattr(newrl, '_revlog', newrl)
oldvfs = oldrl.opener
newvfs = newrl.opener
oldindex = oldvfs.join(oldrl.indexfile)
newindex = newvfs.join(newrl.indexfile)
olddata = oldvfs.join(oldrl.datafile)
newdata = newvfs.join(newrl.datafile)
with newvfs(newrl.indexfile, b'w'):
pass # create all the directories
util.copyfile(oldindex, newindex)
copydata = oldrl.opener.exists(oldrl.datafile)
if copydata:
util.copyfile(olddata, newdata)
if rl_type & store.FILEFLAGS_FILELOG:
destrepo.svfs.fncache.add(unencodedname)
if copydata:
destrepo.svfs.fncache.add(unencodedname[:-2] + b'.d')
UPGRADE_CHANGELOG = b"changelog"
UPGRADE_MANIFEST = b"manifest"
UPGRADE_FILELOGS = b"all-filelogs"
UPGRADE_ALL_REVLOGS = frozenset(
[UPGRADE_CHANGELOG, UPGRADE_MANIFEST, UPGRADE_FILELOGS]
)
def getsidedatacompanion(srcrepo, dstrepo):
sidedatacompanion = None
removedreqs = srcrepo.requirements - dstrepo.requirements
addedreqs = dstrepo.requirements - srcrepo.requirements
if requirements.SIDEDATA_REQUIREMENT in removedreqs:
def sidedatacompanion(rl, rev):
rl = getattr(rl, '_revlog', rl)
if rl.flags(rev) & revlog.REVIDX_SIDEDATA:
return True, (), {}, 0, 0
return False, (), {}, 0, 0
elif requirements.COPIESSDC_REQUIREMENT in addedreqs:
sidedatacompanion = metadata.getsidedataadder(srcrepo, dstrepo)
elif requirements.COPIESSDC_REQUIREMENT in removedreqs:
sidedatacompanion = metadata.getsidedataremover(srcrepo, dstrepo)
return sidedatacompanion
def matchrevlog(revlogfilter, rl_type):
"""check if a revlog is selected for cloning.
In other words, are there any updates which need to be done on revlog
or it can be blindly copied.
The store entry is checked against the passed filter"""
if rl_type & store.FILEFLAGS_CHANGELOG:
return UPGRADE_CHANGELOG in revlogfilter
elif rl_type & store.FILEFLAGS_MANIFESTLOG:
return UPGRADE_MANIFEST in revlogfilter
assert rl_type & store.FILEFLAGS_FILELOG
return UPGRADE_FILELOGS in revlogfilter
def _perform_clone(
ui,
dstrepo,
tr,
old_revlog,
rl_type,
unencoded,
upgrade_op,
sidedatacompanion,
oncopiedrevision,
):
""" returns the new revlog object created"""
newrl = None
if matchrevlog(upgrade_op.revlogs_to_process, rl_type):
ui.note(
_(b'cloning %d revisions from %s\n') % (len(old_revlog), unencoded)
)
newrl = _revlogfrompath(dstrepo, rl_type, unencoded)
old_revlog.clone(
tr,
newrl,
addrevisioncb=oncopiedrevision,
deltareuse=upgrade_op.delta_reuse_mode,
forcedeltabothparents=upgrade_op.force_re_delta_both_parents,
sidedatacompanion=sidedatacompanion,
)
else:
msg = _(b'blindly copying %s containing %i revisions\n')
ui.note(msg % (unencoded, len(old_revlog)))
_copyrevlog(tr, dstrepo, old_revlog, rl_type, unencoded)
newrl = _revlogfrompath(dstrepo, rl_type, unencoded)
return newrl
def _clonerevlogs(
ui,
srcrepo,
dstrepo,
tr,
upgrade_op,
):
"""Copy revlogs between 2 repos."""
revcount = 0
srcsize = 0
srcrawsize = 0
dstsize = 0
fcount = 0
frevcount = 0
fsrcsize = 0
frawsize = 0
fdstsize = 0
mcount = 0
mrevcount = 0
msrcsize = 0
mrawsize = 0
mdstsize = 0
crevcount = 0
csrcsize = 0
crawsize = 0
cdstsize = 0
alldatafiles = list(srcrepo.store.walk())
# mapping of data files which needs to be cloned
# key is unencoded filename
# value is revlog_object_from_srcrepo
manifests = {}
changelogs = {}
filelogs = {}
# Perform a pass to collect metadata. This validates we can open all
# source files and allows a unified progress bar to be displayed.
for rl_type, unencoded, encoded, size in alldatafiles:
if not rl_type & store.FILEFLAGS_REVLOG_MAIN:
continue
rl = _revlogfrompath(srcrepo, rl_type, unencoded)
info = rl.storageinfo(
exclusivefiles=True,
revisionscount=True,
trackedsize=True,
storedsize=True,
)
revcount += info[b'revisionscount'] or 0
datasize = info[b'storedsize'] or 0
rawsize = info[b'trackedsize'] or 0
srcsize += datasize
srcrawsize += rawsize
# This is for the separate progress bars.
if rl_type & store.FILEFLAGS_CHANGELOG:
changelogs[unencoded] = (rl_type, rl)
crevcount += len(rl)
csrcsize += datasize
crawsize += rawsize
elif rl_type & store.FILEFLAGS_MANIFESTLOG:
manifests[unencoded] = (rl_type, rl)
mcount += 1
mrevcount += len(rl)
msrcsize += datasize
mrawsize += rawsize
elif rl_type & store.FILEFLAGS_FILELOG:
filelogs[unencoded] = (rl_type, rl)
fcount += 1
frevcount += len(rl)
fsrcsize += datasize
frawsize += rawsize
else:
error.ProgrammingError(b'unknown revlog type')
if not revcount:
return
ui.status(
_(
b'migrating %d total revisions (%d in filelogs, %d in manifests, '
b'%d in changelog)\n'
)
% (revcount, frevcount, mrevcount, crevcount)
)
ui.status(
_(b'migrating %s in store; %s tracked data\n')
% ((util.bytecount(srcsize), util.bytecount(srcrawsize)))
)
# Used to keep track of progress.
progress = None
def oncopiedrevision(rl, rev, node):
progress.increment()
sidedatacompanion = getsidedatacompanion(srcrepo, dstrepo)
# Migrating filelogs
ui.status(
_(
b'migrating %d filelogs containing %d revisions '
b'(%s in store; %s tracked data)\n'
)
% (
fcount,
frevcount,
util.bytecount(fsrcsize),
util.bytecount(frawsize),
)
)
progress = srcrepo.ui.makeprogress(_(b'file revisions'), total=frevcount)
for unencoded, (rl_type, oldrl) in sorted(filelogs.items()):
newrl = _perform_clone(
ui,
dstrepo,
tr,
oldrl,
rl_type,
unencoded,
upgrade_op,
sidedatacompanion,
oncopiedrevision,
)
info = newrl.storageinfo(storedsize=True)
fdstsize += info[b'storedsize'] or 0
ui.status(
_(
b'finished migrating %d filelog revisions across %d '
b'filelogs; change in size: %s\n'
)
% (frevcount, fcount, util.bytecount(fdstsize - fsrcsize))
)
# Migrating manifests
ui.status(
_(
b'migrating %d manifests containing %d revisions '
b'(%s in store; %s tracked data)\n'
)
% (
mcount,
mrevcount,
util.bytecount(msrcsize),
util.bytecount(mrawsize),
)
)
if progress:
progress.complete()
progress = srcrepo.ui.makeprogress(
_(b'manifest revisions'), total=mrevcount
)
for unencoded, (rl_type, oldrl) in sorted(manifests.items()):
newrl = _perform_clone(
ui,
dstrepo,
tr,
oldrl,
rl_type,
unencoded,
upgrade_op,
sidedatacompanion,
oncopiedrevision,
)
info = newrl.storageinfo(storedsize=True)
mdstsize += info[b'storedsize'] or 0
ui.status(
_(
b'finished migrating %d manifest revisions across %d '
b'manifests; change in size: %s\n'
)
% (mrevcount, mcount, util.bytecount(mdstsize - msrcsize))
)
# Migrating changelog
ui.status(
_(
b'migrating changelog containing %d revisions '
b'(%s in store; %s tracked data)\n'
)
% (
crevcount,
util.bytecount(csrcsize),
util.bytecount(crawsize),
)
)
if progress:
progress.complete()
progress = srcrepo.ui.makeprogress(
_(b'changelog revisions'), total=crevcount
)
for unencoded, (rl_type, oldrl) in sorted(changelogs.items()):
newrl = _perform_clone(
ui,
dstrepo,
tr,
oldrl,
rl_type,
unencoded,
upgrade_op,
sidedatacompanion,
oncopiedrevision,
)
info = newrl.storageinfo(storedsize=True)
cdstsize += info[b'storedsize'] or 0
progress.complete()
ui.status(
_(
b'finished migrating %d changelog revisions; change in size: '
b'%s\n'
)
% (crevcount, util.bytecount(cdstsize - csrcsize))
)
dstsize = fdstsize + mdstsize + cdstsize
ui.status(
_(
b'finished migrating %d total revisions; total change in store '
b'size: %s\n'
)
% (revcount, util.bytecount(dstsize - srcsize))
)
def _files_to_copy_post_revlog_clone(srcrepo):
"""yields files which should be copied to destination after revlogs
are cloned"""
for path, kind, st in sorted(srcrepo.store.vfs.readdir(b'', stat=True)):
# don't copy revlogs as they are already cloned
if store.revlog_type(path) is not None:
continue
# Skip transaction related files.
if path.startswith(b'undo'):
continue
# Only copy regular files.
if kind != stat.S_IFREG:
continue
# Skip other skipped files.
if path in (b'lock', b'fncache'):
continue
# TODO: should we skip cache too?
yield path
def _replacestores(currentrepo, upgradedrepo, backupvfs, upgrade_op):
"""Replace the stores after current repository is upgraded
Creates a backup of current repository store at backup path
Replaces upgraded store files in current repo from upgraded one
Arguments:
currentrepo: repo object of current repository
upgradedrepo: repo object of the upgraded data
backupvfs: vfs object for the backup path
upgrade_op: upgrade operation object
to be used to decide what all is upgraded
"""
# TODO: don't blindly rename everything in store
# There can be upgrades where store is not touched at all
if upgrade_op.backup_store:
util.rename(currentrepo.spath, backupvfs.join(b'store'))
else:
currentrepo.vfs.rmtree(b'store', forcibly=True)
util.rename(upgradedrepo.spath, currentrepo.spath)
def finishdatamigration(ui, srcrepo, dstrepo, requirements):
"""Hook point for extensions to perform additional actions during upgrade.
This function is called after revlogs and store files have been copied but
before the new store is swapped into the original location.
"""
def upgrade(ui, srcrepo, dstrepo, upgrade_op):
"""Do the low-level work of upgrading a repository.
The upgrade is effectively performed as a copy between a source
repository and a temporary destination repository.
The source repository is unmodified for as long as possible so the
upgrade can abort at any time without causing loss of service for
readers and without corrupting the source repository.
"""
assert srcrepo.currentwlock()
assert dstrepo.currentwlock()
backuppath = None
backupvfs = None
ui.status(
_(
b'(it is safe to interrupt this process any time before '
b'data migration completes)\n'
)
)
if upgrade_op.requirements_only:
ui.status(_(b'upgrading repository requirements\n'))
scmutil.writereporequirements(srcrepo, upgrade_op.new_requirements)
# if there is only one action and that is persistent nodemap upgrade
# directly write the nodemap file and update requirements instead of going
# through the whole cloning process
elif (
len(upgrade_op.upgrade_actions) == 1
and b'persistent-nodemap' in upgrade_op._upgrade_actions_names
and not upgrade_op.removed_actions
):
ui.status(
_(b'upgrading repository to use persistent nodemap feature\n')
)
with srcrepo.transaction(b'upgrade') as tr:
unfi = srcrepo.unfiltered()
cl = unfi.changelog
nodemap.persist_nodemap(tr, cl, force=True)
# we want to directly operate on the underlying revlog to force
# create a nodemap file. This is fine since this is upgrade code
# and it heavily relies on repository being revlog based
# hence accessing private attributes can be justified
nodemap.persist_nodemap(
tr, unfi.manifestlog._rootstore._revlog, force=True
)
scmutil.writereporequirements(srcrepo, upgrade_op.new_requirements)
elif (
len(upgrade_op.removed_actions) == 1
and [
x
for x in upgrade_op.removed_actions
if x.name == b'persistent-nodemap'
]
and not upgrade_op.upgrade_actions
):
ui.status(
_(b'downgrading repository to not use persistent nodemap feature\n')
)
with srcrepo.transaction(b'upgrade') as tr:
unfi = srcrepo.unfiltered()
cl = unfi.changelog
nodemap.delete_nodemap(tr, srcrepo, cl)
# check comment 20 lines above for accessing private attributes
nodemap.delete_nodemap(
tr, srcrepo, unfi.manifestlog._rootstore._revlog
)
scmutil.writereporequirements(srcrepo, upgrade_op.new_requirements)
else:
with dstrepo.transaction(b'upgrade') as tr:
_clonerevlogs(
ui,
srcrepo,
dstrepo,
tr,
upgrade_op,
)
# Now copy other files in the store directory.
for p in _files_to_copy_post_revlog_clone(srcrepo):
srcrepo.ui.status(_(b'copying %s\n') % p)
src = srcrepo.store.rawvfs.join(p)
dst = dstrepo.store.rawvfs.join(p)
util.copyfile(src, dst, copystat=True)
finishdatamigration(ui, srcrepo, dstrepo, requirements)
ui.status(_(b'data fully upgraded in a temporary repository\n'))
if upgrade_op.backup_store:
backuppath = pycompat.mkdtemp(
prefix=b'upgradebackup.', dir=srcrepo.path
)
backupvfs = vfsmod.vfs(backuppath)
# Make a backup of requires file first, as it is the first to be modified.
util.copyfile(
srcrepo.vfs.join(b'requires'), backupvfs.join(b'requires')
)
# We install an arbitrary requirement that clients must not support
# as a mechanism to lock out new clients during the data swap. This is
# better than allowing a client to continue while the repository is in
# an inconsistent state.
ui.status(
_(
b'marking source repository as being upgraded; clients will be '
b'unable to read from repository\n'
)
)
scmutil.writereporequirements(
srcrepo, srcrepo.requirements | {b'upgradeinprogress'}
)
ui.status(_(b'starting in-place swap of repository data\n'))
if upgrade_op.backup_store:
ui.status(
_(b'replaced files will be backed up at %s\n') % backuppath
)
# Now swap in the new store directory. Doing it as a rename should make
# the operation nearly instantaneous and atomic (at least in well-behaved
# environments).
ui.status(_(b'replacing store...\n'))
tstart = util.timer()
_replacestores(srcrepo, dstrepo, backupvfs, upgrade_op)
elapsed = util.timer() - tstart
ui.status(
_(
b'store replacement complete; repository was inconsistent for '
b'%0.1fs\n'
)
% elapsed
)
# We first write the requirements file. Any new requirements will lock
# out legacy clients.
ui.status(
_(
b'finalizing requirements file and making repository readable '
b'again\n'
)
)
scmutil.writereporequirements(srcrepo, upgrade_op.new_requirements)
if upgrade_op.backup_store:
# The lock file from the old store won't be removed because nothing has a
# reference to its new location. So clean it up manually. Alternatively, we
# could update srcrepo.svfs and other variables to point to the new
# location. This is simpler.
assert backupvfs is not None # help pytype
backupvfs.unlink(b'store/lock')
return backuppath