##// END OF EJS Templates
narrow: only send the narrowspecs back if ACL in play...
narrow: only send the narrowspecs back if ACL in play I am unable to think why we need to send narrowspecs back from the server. The current state adds a 'narrow:spec' part to each changegroup which is generated when narrow extension is enabled. So we are sending narrowspecs on pull also. There is a problem with sending the narrowspecs the way we are doing it right now. We add include and exclude as parameter of the 'narrow:spec' bundle2 part. The the len of include or exclude string increase 255 which is obvious while working on large repos, bundle2 generation code breaks. For more on that refer issue5952 on bugzilla. I was thinking why we need to send the narrowspecs back, and deleted the 'narrow:spec' bundle2 part generation code and found that only narrow-acl test has some failure. With this patch, we will only send the 'narrow:spec' bundle2 part if ACL is enabled because the original narrowspecs in those cases can be a subset of narrowspecs user requested. There are phase related output change in couple of tests. The output change shows that we are now dealing in public phases completely. So maybe sending the narrow:spec bundle2 part was preventing phases being exchanged or phase bundle2 data being applied. Differential Revision: https://phab.mercurial-scm.org/D4931

File last commit:

r40361:b0fbd179 default
r40373:cb516a85 default
Show More
storageutil.py
480 lines | 14.8 KiB | text/x-python | PythonLexer
# storageutil.py - Storage functionality agnostic of backend implementation.
#
# Copyright 2018 Gregory Szorc <gregory.szorc@gmail.com>
#
# 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 hashlib
import re
import struct
from ..i18n import _
from ..node import (
bin,
nullid,
nullrev,
)
from .. import (
dagop,
error,
mdiff,
pycompat,
)
_nullhash = hashlib.sha1(nullid)
def hashrevisionsha1(text, p1, p2):
"""Compute the SHA-1 for revision data and its parents.
This hash combines both the current file contents and its history
in a manner that makes it easy to distinguish nodes with the same
content in the revision graph.
"""
# As of now, if one of the parent node is null, p2 is null
if p2 == nullid:
# deep copy of a hash is faster than creating one
s = _nullhash.copy()
s.update(p1)
else:
# none of the parent nodes are nullid
if p1 < p2:
a = p1
b = p2
else:
a = p2
b = p1
s = hashlib.sha1(a)
s.update(b)
s.update(text)
return s.digest()
METADATA_RE = re.compile(b'\x01\n')
def parsemeta(text):
"""Parse metadata header from revision data.
Returns a 2-tuple of (metadata, offset), where both can be None if there
is no metadata.
"""
# text can be buffer, so we can't use .startswith or .index
if text[:2] != b'\x01\n':
return None, None
s = METADATA_RE.search(text, 2).start()
mtext = text[2:s]
meta = {}
for l in mtext.splitlines():
k, v = l.split(b': ', 1)
meta[k] = v
return meta, s + 2
def packmeta(meta, text):
"""Add metadata to fulltext to produce revision text."""
keys = sorted(meta)
metatext = b''.join(b'%s: %s\n' % (k, meta[k]) for k in keys)
return b'\x01\n%s\x01\n%s' % (metatext, text)
def iscensoredtext(text):
meta = parsemeta(text)[0]
return meta and b'censored' in meta
def filtermetadata(text):
"""Extract just the revision data from source text.
Returns ``text`` unless it has a metadata header, in which case we return
a new buffer without hte metadata.
"""
if not text.startswith(b'\x01\n'):
return text
offset = text.index(b'\x01\n', 2)
return text[offset + 2:]
def filerevisioncopied(store, node):
"""Resolve file revision copy metadata.
Returns ``False`` if the file has no copy metadata. Otherwise a
2-tuple of the source filename and node.
"""
if store.parents(node)[0] != nullid:
return False
meta = parsemeta(store.revision(node))[0]
# copy and copyrev occur in pairs. In rare cases due to old bugs,
# one can occur without the other. So ensure both are present to flag
# as a copy.
if meta and b'copy' in meta and b'copyrev' in meta:
return meta[b'copy'], bin(meta[b'copyrev'])
return False
def filedataequivalent(store, node, filedata):
"""Determines whether file data is equivalent to a stored node.
Returns True if the passed file data would hash to the same value
as a stored revision and False otherwise.
When a stored revision is censored, filedata must be empty to have
equivalence.
When a stored revision has copy metadata, it is ignored as part
of the compare.
"""
if filedata.startswith(b'\x01\n'):
revisiontext = b'\x01\n\x01\n' + filedata
else:
revisiontext = filedata
p1, p2 = store.parents(node)
computednode = hashrevisionsha1(revisiontext, p1, p2)
if computednode == node:
return True
# Censored files compare against the empty file.
if store.iscensored(store.rev(node)):
return filedata == b''
# Renaming a file produces a different hash, even if the data
# remains unchanged. Check if that's the case.
if store.renamed(node):
return store.read(node) == filedata
return False
def iterrevs(storelen, start=0, stop=None):
"""Iterate over revision numbers in a store."""
step = 1
if stop is not None:
if start > stop:
step = -1
stop += step
if stop > storelen:
stop = storelen
else:
stop = storelen
return pycompat.xrange(start, stop, step)
def fileidlookup(store, fileid, identifier):
"""Resolve the file node for a value.
``store`` is an object implementing the ``ifileindex`` interface.
``fileid`` can be:
* A 20 byte binary node.
* An integer revision number
* A 40 byte hex node.
* A bytes that can be parsed as an integer representing a revision number.
``identifier`` is used to populate ``error.LookupError`` with an identifier
for the store.
Raises ``error.LookupError`` on failure.
"""
if isinstance(fileid, int):
try:
return store.node(fileid)
except IndexError:
raise error.LookupError('%d' % fileid, identifier,
_('no match found'))
if len(fileid) == 20:
try:
store.rev(fileid)
return fileid
except error.LookupError:
pass
if len(fileid) == 40:
try:
rawnode = bin(fileid)
store.rev(rawnode)
return rawnode
except TypeError:
pass
try:
rev = int(fileid)
if b'%d' % rev != fileid:
raise ValueError
try:
return store.node(rev)
except (IndexError, TypeError):
pass
except (ValueError, OverflowError):
pass
raise error.LookupError(fileid, identifier, _('no match found'))
def resolvestripinfo(minlinkrev, tiprev, headrevs, linkrevfn, parentrevsfn):
"""Resolve information needed to strip revisions.
Finds the minimum revision number that must be stripped in order to
strip ``minlinkrev``.
Returns a 2-tuple of the minimum revision number to do that and a set
of all revision numbers that have linkrevs that would be broken
by that strip.
``tiprev`` is the current tip-most revision. It is ``len(store) - 1``.
``headrevs`` is an iterable of head revisions.
``linkrevfn`` is a callable that receives a revision and returns a linked
revision.
``parentrevsfn`` is a callable that receives a revision number and returns
an iterable of its parent revision numbers.
"""
brokenrevs = set()
strippoint = tiprev + 1
heads = {}
futurelargelinkrevs = set()
for head in headrevs:
headlinkrev = linkrevfn(head)
heads[head] = headlinkrev
if headlinkrev >= minlinkrev:
futurelargelinkrevs.add(headlinkrev)
# This algorithm involves walking down the rev graph, starting at the
# heads. Since the revs are topologically sorted according to linkrev,
# once all head linkrevs are below the minlink, we know there are
# no more revs that could have a linkrev greater than minlink.
# So we can stop walking.
while futurelargelinkrevs:
strippoint -= 1
linkrev = heads.pop(strippoint)
if linkrev < minlinkrev:
brokenrevs.add(strippoint)
else:
futurelargelinkrevs.remove(linkrev)
for p in parentrevsfn(strippoint):
if p != nullrev:
plinkrev = linkrevfn(p)
heads[p] = plinkrev
if plinkrev >= minlinkrev:
futurelargelinkrevs.add(plinkrev)
return strippoint, brokenrevs
def emitrevisions(store, nodes, nodesorder, resultcls, deltaparentfn=None,
candeltafn=None, rawsizefn=None, revdifffn=None, flagsfn=None,
sendfulltext=False,
revisiondata=False, assumehaveparentrevisions=False,
deltaprevious=False):
"""Generic implementation of ifiledata.emitrevisions().
Emitting revision data is subtly complex. This function attempts to
encapsulate all the logic for doing so in a backend-agnostic way.
``store``
Object conforming to ``ifilestorage`` interface.
``nodes``
List of revision nodes whose data to emit.
``resultcls``
A type implementing the ``irevisiondelta`` interface that will be
constructed and returned.
``deltaparentfn`` (optional)
Callable receiving a revision number and returning the revision number
of a revision that the internal delta is stored against. This delta
will be preferred over computing a new arbitrary delta.
If not defined, a delta will always be computed from raw revision
data.
``candeltafn`` (optional)
Callable receiving a pair of revision numbers that returns a bool
indicating whether a delta between them can be produced.
If not defined, it is assumed that any two revisions can delta with
each other.
``rawsizefn`` (optional)
Callable receiving a revision number and returning the length of the
``store.revision(rev, raw=True)``.
If not defined, ``len(store.revision(rev, raw=True))`` will be called.
``revdifffn`` (optional)
Callable receiving a pair of revision numbers that returns a delta
between them.
If not defined, a delta will be computed by invoking mdiff code
on ``store.revision()`` results.
Defining this function allows a precomputed or stored delta to be
used without having to compute on.
``flagsfn`` (optional)
Callable receiving a revision number and returns the integer flags
value for it. If not defined, flags value will be 0.
``sendfulltext``
Whether to send fulltext revisions instead of deltas, if allowed.
``nodesorder``
``revisiondata``
``assumehaveparentrevisions``
``deltaprevious``
See ``ifiledata.emitrevisions()`` interface documentation.
"""
fnode = store.node
frev = store.rev
if nodesorder == 'nodes':
revs = [frev(n) for n in nodes]
elif nodesorder == 'storage':
revs = sorted(frev(n) for n in nodes)
else:
revs = set(frev(n) for n in nodes)
revs = dagop.linearize(revs, store.parentrevs)
prevrev = None
if deltaprevious or assumehaveparentrevisions:
prevrev = store.parentrevs(revs[0])[0]
# Set of revs available to delta against.
available = set()
for rev in revs:
if rev == nullrev:
continue
node = fnode(rev)
p1rev, p2rev = store.parentrevs(rev)
if deltaparentfn:
deltaparentrev = deltaparentfn(rev)
else:
deltaparentrev = nullrev
# Forced delta against previous mode.
if deltaprevious:
baserev = prevrev
# We're instructed to send fulltext. Honor that.
elif sendfulltext:
baserev = nullrev
# There is a delta in storage. We try to use that because it
# amounts to effectively copying data from storage and is
# therefore the fastest.
elif deltaparentrev != nullrev:
# Base revision was already emitted in this group. We can
# always safely use the delta.
if deltaparentrev in available:
baserev = deltaparentrev
# Base revision is a parent that hasn't been emitted already.
# Use it if we can assume the receiver has the parent revision.
elif (assumehaveparentrevisions
and deltaparentrev in (p1rev, p2rev)):
baserev = deltaparentrev
# No guarantee the receiver has the delta parent. Send delta
# against last revision (if possible), which in the common case
# should be similar enough to this revision that the delta is
# reasonable.
elif prevrev is not None:
baserev = prevrev
else:
baserev = nullrev
# Storage has a fulltext revision.
# Let's use the previous revision, which is as good a guess as any.
# There is definitely room to improve this logic.
elif prevrev is not None:
baserev = prevrev
else:
baserev = nullrev
# But we can't actually use our chosen delta base for whatever
# reason. Reset to fulltext.
if baserev != nullrev and (candeltafn and not candeltafn(baserev, rev)):
baserev = nullrev
revision = None
delta = None
baserevisionsize = None
if revisiondata:
if store.iscensored(baserev) or store.iscensored(rev):
try:
revision = store.revision(node, raw=True)
except error.CensoredNodeError as e:
revision = e.tombstone
if baserev != nullrev:
if rawsizefn:
baserevisionsize = rawsizefn(baserev)
else:
baserevisionsize = len(store.revision(baserev,
raw=True))
elif baserev == nullrev and not deltaprevious:
revision = store.revision(node, raw=True)
available.add(rev)
else:
if revdifffn:
delta = revdifffn(baserev, rev)
else:
delta = mdiff.textdiff(store.revision(baserev, raw=True),
store.revision(rev, raw=True))
available.add(rev)
yield resultcls(
node=node,
p1node=fnode(p1rev),
p2node=fnode(p2rev),
basenode=fnode(baserev),
flags=flagsfn(rev) if flagsfn else 0,
baserevisionsize=baserevisionsize,
revision=revision,
delta=delta)
prevrev = rev
def deltaiscensored(delta, baserev, baselenfn):
"""Determine if a delta represents censored revision data.
``baserev`` is the base revision this delta is encoded against.
``baselenfn`` is a callable receiving a revision number that resolves the
length of the revision fulltext.
Returns a bool indicating if the result of the delta represents a censored
revision.
"""
# Fragile heuristic: unless new file meta keys are added alphabetically
# preceding "censored", all censored revisions are prefixed by
# "\1\ncensored:". A delta producing such a censored revision must be a
# full-replacement delta, so we inspect the first and only patch in the
# delta for this prefix.
hlen = struct.calcsize(">lll")
if len(delta) <= hlen:
return False
oldlen = baselenfn(baserev)
newlen = len(delta) - hlen
if delta[:hlen] != mdiff.replacediffheader(oldlen, newlen):
return False
add = "\1\ncensored:"
addlen = len(add)
return newlen >= addlen and delta[hlen:hlen + addlen] == add