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interfaces: make `repository.imanifestlog` methods abstract Same as cdd4bc69bfc1 for `imanifestrevisionstored`, but this was already a Protocol class.

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streamclone.py
1337 lines | 44.5 KiB | text/x-python | PythonLexer
# streamclone.py - producing and consuming streaming repository data
#
# Copyright 2015 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 annotations
import contextlib
import errno
import os
import struct
from typing import Optional
from .i18n import _
from .interfaces import repository
from . import (
bookmarks,
bundle2 as bundle2mod,
cacheutil,
error,
narrowspec,
phases,
pycompat,
requirements as requirementsmod,
scmutil,
store,
transaction,
util,
)
from .revlogutils import (
nodemap,
)
def new_stream_clone_requirements(default_requirements, streamed_requirements):
"""determine the final set of requirement for a new stream clone
this method combine the "default" requirements that a new repository would
use with the constaint we get from the stream clone content. We keep local
configuration choice when possible.
"""
requirements = set(default_requirements)
requirements -= requirementsmod.STREAM_FIXED_REQUIREMENTS
requirements.update(streamed_requirements)
return requirements
def streamed_requirements(repo):
"""the set of requirement the new clone will have to support
This is used for advertising the stream options and to generate the actual
stream content."""
requiredformats = (
repo.requirements & requirementsmod.STREAM_FIXED_REQUIREMENTS
)
return requiredformats
def canperformstreamclone(pullop, bundle2=False):
"""Whether it is possible to perform a streaming clone as part of pull.
``bundle2`` will cause the function to consider stream clone through
bundle2 and only through bundle2.
Returns a tuple of (supported, requirements). ``supported`` is True if
streaming clone is supported and False otherwise. ``requirements`` is
a set of repo requirements from the remote, or ``None`` if stream clone
isn't supported.
"""
repo = pullop.repo
remote = pullop.remote
# should we consider streaming clone at all ?
streamrequested = pullop.streamclonerequested
# If we don't have a preference, let the server decide for us. This
# likely only comes into play in LANs.
if streamrequested is None:
# The server can advertise whether to prefer streaming clone.
streamrequested = remote.capable(b'stream-preferred')
if not streamrequested:
return False, None
# Streaming clone only works on an empty destination repository
if len(repo):
return False, None
# Streaming clone only works if all data is being requested.
if pullop.heads:
return False, None
bundle2supported = False
if pullop.canusebundle2:
local_caps = bundle2mod.getrepocaps(repo, role=b'client')
local_supported = set(local_caps.get(b'stream', []))
remote_supported = set(pullop.remotebundle2caps.get(b'stream', []))
bundle2supported = bool(local_supported & remote_supported)
# else
# Server doesn't support bundle2 stream clone or doesn't support
# the versions we support. Fall back and possibly allow legacy.
# Ensures legacy code path uses available bundle2.
if bundle2supported and not bundle2:
return False, None
# Ensures bundle2 doesn't try to do a stream clone if it isn't supported.
elif bundle2 and not bundle2supported:
return False, None
# In order for stream clone to work, the client has to support all the
# requirements advertised by the server.
#
# The server advertises its requirements via the "stream" and "streamreqs"
# capability. "stream" (a value-less capability) is advertised if and only
# if the only requirement is "revlogv1." Else, the "streamreqs" capability
# is advertised and contains a comma-delimited list of requirements.
requirements = set()
if remote.capable(b'stream'):
requirements.add(requirementsmod.REVLOGV1_REQUIREMENT)
else:
streamreqs = remote.capable(b'streamreqs')
# This is weird and shouldn't happen with modern servers.
if not streamreqs:
pullop.repo.ui.warn(
_(
b'warning: stream clone requested but server has them '
b'disabled\n'
)
)
return False, None
streamreqs = set(streamreqs.split(b','))
# Server requires something we don't support. Bail.
missingreqs = streamreqs - repo.supported
if missingreqs:
pullop.repo.ui.warn(
_(
b'warning: stream clone requested but client is missing '
b'requirements: %s\n'
)
% b', '.join(sorted(missingreqs))
)
pullop.repo.ui.warn(
_(
b'(see https://www.mercurial-scm.org/wiki/MissingRequirement '
b'for more information)\n'
)
)
return False, None
requirements = streamreqs
return True, requirements
def maybeperformlegacystreamclone(pullop):
"""Possibly perform a legacy stream clone operation.
Legacy stream clones are performed as part of pull but before all other
operations.
A legacy stream clone will not be performed if a bundle2 stream clone is
supported.
"""
from . import localrepo
supported, requirements = canperformstreamclone(pullop)
if not supported:
return
repo = pullop.repo
remote = pullop.remote
# Save remote branchmap. We will use it later to speed up branchcache
# creation.
rbranchmap = None
if remote.capable(b'branchmap'):
with remote.commandexecutor() as e:
rbranchmap = e.callcommand(b'branchmap', {}).result()
repo.ui.status(_(b'streaming all changes\n'))
with remote.commandexecutor() as e:
fp = e.callcommand(b'stream_out', {}).result()
# TODO strictly speaking, this code should all be inside the context
# manager because the context manager is supposed to ensure all wire state
# is flushed when exiting. But the legacy peers don't do this, so it
# doesn't matter.
l = fp.readline()
try:
resp = int(l)
except ValueError:
raise error.ResponseError(
_(b'unexpected response from remote server:'), l
)
if resp == 1:
raise error.Abort(_(b'operation forbidden by server'))
elif resp == 2:
raise error.Abort(_(b'locking the remote repository failed'))
elif resp != 0:
raise error.Abort(_(b'the server sent an unknown error code'))
l = fp.readline()
try:
filecount, bytecount = map(int, l.split(b' ', 1))
except (ValueError, TypeError):
raise error.ResponseError(
_(b'unexpected response from remote server:'), l
)
with repo.lock():
consumev1(repo, fp, filecount, bytecount)
repo.requirements = new_stream_clone_requirements(
repo.requirements,
requirements,
)
repo.svfs.options = localrepo.resolvestorevfsoptions(
repo.ui, repo.requirements, repo.features
)
scmutil.writereporequirements(repo)
nodemap.post_stream_cleanup(repo)
if rbranchmap:
repo._branchcaches.replace(repo, rbranchmap)
repo.invalidate()
def allowservergeneration(repo):
"""Whether streaming clones are allowed from the server."""
if repository.REPO_FEATURE_STREAM_CLONE not in repo.features:
return False
if not repo.ui.configbool(b'server', b'uncompressed', untrusted=True):
return False
# The way stream clone works makes it impossible to hide secret changesets.
# So don't allow this by default.
secret = phases.hassecret(repo)
if secret:
return repo.ui.configbool(b'server', b'uncompressedallowsecret')
return True
# This is it's own function so extensions can override it.
def _walkstreamfiles(repo, matcher=None, phase=False, obsolescence=False):
return repo.store.walk(matcher, phase=phase, obsolescence=obsolescence)
def generatev1(repo):
"""Emit content for version 1 of a streaming clone.
This returns a 3-tuple of (file count, byte size, data iterator).
The data iterator consists of N entries for each file being transferred.
Each file entry starts as a line with the file name and integer size
delimited by a null byte.
The raw file data follows. Following the raw file data is the next file
entry, or EOF.
When used on the wire protocol, an additional line indicating protocol
success will be prepended to the stream. This function is not responsible
for adding it.
This function will obtain a repository lock to ensure a consistent view of
the store is captured. It therefore may raise LockError.
"""
entries = []
total_bytes = 0
# Get consistent snapshot of repo, lock during scan.
with repo.lock():
repo.ui.debug(b'scanning\n')
_test_sync_point_walk_1_2(repo)
for entry in _walkstreamfiles(repo):
for f in entry.files():
file_size = f.file_size(repo.store.vfs)
if file_size:
entries.append((f.unencoded_path, file_size))
total_bytes += file_size
_test_sync_point_walk_3(repo)
_test_sync_point_walk_4(repo)
repo.ui.debug(
b'%d files, %d bytes to transfer\n' % (len(entries), total_bytes)
)
svfs = repo.svfs
debugflag = repo.ui.debugflag
def emitrevlogdata():
for name, size in entries:
if debugflag:
repo.ui.debug(b'sending %s (%d bytes)\n' % (name, size))
# partially encode name over the wire for backwards compat
yield b'%s\0%d\n' % (store.encodedir(name), size)
# auditing at this stage is both pointless (paths are already
# trusted by the local repo) and expensive
with svfs(name, b'rb', auditpath=False) as fp:
if size <= 65536:
yield fp.read(size)
else:
for chunk in util.filechunkiter(fp, limit=size):
yield chunk
return len(entries), total_bytes, emitrevlogdata()
def generatev1wireproto(repo):
"""Emit content for version 1 of streaming clone suitable for the wire.
This is the data output from ``generatev1()`` with 2 header lines. The
first line indicates overall success. The 2nd contains the file count and
byte size of payload.
The success line contains "0" for success, "1" for stream generation not
allowed, and "2" for error locking the repository (possibly indicating
a permissions error for the server process).
"""
if not allowservergeneration(repo):
yield b'1\n'
return
try:
filecount, bytecount, it = generatev1(repo)
except error.LockError:
yield b'2\n'
return
# Indicates successful response.
yield b'0\n'
yield b'%d %d\n' % (filecount, bytecount)
for chunk in it:
yield chunk
def generatebundlev1(repo, compression=b'UN'):
"""Emit content for version 1 of a stream clone bundle.
The first 4 bytes of the output ("HGS1") denote this as stream clone
bundle version 1.
The next 2 bytes indicate the compression type. Only "UN" is currently
supported.
The next 16 bytes are two 64-bit big endian unsigned integers indicating
file count and byte count, respectively.
The next 2 bytes is a 16-bit big endian unsigned short declaring the length
of the requirements string, including a trailing \0. The following N bytes
are the requirements string, which is ASCII containing a comma-delimited
list of repo requirements that are needed to support the data.
The remaining content is the output of ``generatev1()`` (which may be
compressed in the future).
Returns a tuple of (requirements, data generator).
"""
if compression != b'UN':
raise ValueError(b'we do not support the compression argument yet')
requirements = streamed_requirements(repo)
requires = b','.join(sorted(requirements))
def gen():
yield b'HGS1'
yield compression
filecount, bytecount, it = generatev1(repo)
repo.ui.status(
_(b'writing %d bytes for %d files\n') % (bytecount, filecount)
)
yield struct.pack(b'>QQ', filecount, bytecount)
yield struct.pack(b'>H', len(requires) + 1)
yield requires + b'\0'
# This is where we'll add compression in the future.
assert compression == b'UN'
progress = repo.ui.makeprogress(
_(b'bundle'), total=bytecount, unit=_(b'bytes')
)
progress.update(0)
for chunk in it:
progress.increment(step=len(chunk))
yield chunk
progress.complete()
return requirements, gen()
def consumev1(repo, fp, filecount, bytecount):
"""Apply the contents from version 1 of a streaming clone file handle.
This takes the output from "stream_out" and applies it to the specified
repository.
Like "stream_out," the status line added by the wire protocol is not
handled by this function.
"""
with repo.lock():
repo.ui.status(
_(b'%d files to transfer, %s of data\n')
% (filecount, util.bytecount(bytecount))
)
progress = repo.ui.makeprogress(
_(b'clone'), total=bytecount, unit=_(b'bytes')
)
progress.update(0)
start = util.timer()
# TODO: get rid of (potential) inconsistency
#
# If transaction is started and any @filecache property is
# changed at this point, it causes inconsistency between
# in-memory cached property and streamclone-ed file on the
# disk. Nested transaction prevents transaction scope "clone"
# below from writing in-memory changes out at the end of it,
# even though in-memory changes are discarded at the end of it
# regardless of transaction nesting.
#
# But transaction nesting can't be simply prohibited, because
# nesting occurs also in ordinary case (e.g. enabling
# clonebundles).
with repo.transaction(b'clone'):
with repo.svfs.backgroundclosing(repo.ui, expectedcount=filecount):
for i in range(filecount):
# XXX doesn't support '\n' or '\r' in filenames
if hasattr(fp, 'readline'):
l = fp.readline()
else:
# inline clonebundles use a chunkbuffer, so no readline
# --> this should be small anyway, the first line
# only contains the size of the bundle
l_buf = []
while not (l_buf and l_buf[-1] == b'\n'):
l_buf.append(fp.read(1))
l = b''.join(l_buf)
try:
name, size = l.split(b'\0', 1)
size = int(size)
except (ValueError, TypeError):
raise error.ResponseError(
_(b'unexpected response from remote server:'), l
)
if repo.ui.debugflag:
repo.ui.debug(
b'adding %s (%s)\n' % (name, util.bytecount(size))
)
# for backwards compat, name was partially encoded
path = store.decodedir(name)
with repo.svfs(path, b'w', backgroundclose=True) as ofp:
for chunk in util.filechunkiter(fp, limit=size):
progress.increment(step=len(chunk))
ofp.write(chunk)
# force @filecache properties to be reloaded from
# streamclone-ed file at next access
repo.invalidate(clearfilecache=True)
elapsed = util.timer() - start
if elapsed <= 0:
elapsed = 0.001
progress.complete()
repo.ui.status(
_(b'transferred %s in %.1f seconds (%s/sec)\n')
% (
util.bytecount(bytecount),
elapsed,
util.bytecount(bytecount / elapsed),
)
)
def readbundle1header(fp):
compression = fp.read(2)
if compression != b'UN':
raise error.Abort(
_(
b'only uncompressed stream clone bundles are '
b'supported; got %s'
)
% compression
)
filecount, bytecount = struct.unpack(b'>QQ', fp.read(16))
requireslen = struct.unpack(b'>H', fp.read(2))[0]
requires = fp.read(requireslen)
if not requires.endswith(b'\0'):
raise error.Abort(
_(
b'malformed stream clone bundle: '
b'requirements not properly encoded'
)
)
requirements = set(requires.rstrip(b'\0').split(b','))
return filecount, bytecount, requirements
def applybundlev1(repo, fp):
"""Apply the content from a stream clone bundle version 1.
We assume the 4 byte header has been read and validated and the file handle
is at the 2 byte compression identifier.
"""
if len(repo):
raise error.Abort(
_(b'cannot apply stream clone bundle on non-empty repo')
)
filecount, bytecount, requirements = readbundle1header(fp)
missingreqs = requirements - repo.supported
if missingreqs:
raise error.Abort(
_(b'unable to apply stream clone: unsupported format: %s')
% b', '.join(sorted(missingreqs))
)
consumev1(repo, fp, filecount, bytecount)
nodemap.post_stream_cleanup(repo)
class streamcloneapplier:
"""Class to manage applying streaming clone bundles.
We need to wrap ``applybundlev1()`` in a dedicated type to enable bundle
readers to perform bundle type-specific functionality.
"""
def __init__(self, fh):
self._fh = fh
def apply(self, repo):
return applybundlev1(repo, self._fh)
# type of file to stream
_fileappend = 0 # append only file
_filefull = 1 # full snapshot file
# Source of the file
_srcstore = b's' # store (svfs)
_srccache = b'c' # cache (cache)
# This is it's own function so extensions can override it.
def _walkstreamfullstorefiles(repo):
"""list snapshot file from the store"""
fnames = []
if not repo.publishing():
fnames.append(b'phaseroots')
return fnames
def _filterfull(entry, copy, vfsmap):
"""actually copy the snapshot files"""
src, name, ftype, data = entry
if ftype != _filefull:
return entry
return (src, name, ftype, copy(vfsmap[src].join(name)))
class VolatileManager:
"""Manage temporary backups of volatile files during stream clone.
This class will keep open file handles for the volatile files, writing the
smaller ones on disk if the number of open file handles grow too much.
This should be used as a Python context, the file handles and copies will
be discarded when exiting the context.
The preservation can be done by calling the object on the real path
(encoded full path).
Valid filehandles for any file should be retrieved by calling `open(path)`.
"""
# arbitrarily picked as "it seemed fine" and much higher than the current
# usage. The Windows value of 2 is actually 1 file open at a time, due to
# the `flush_count = self.MAX_OPEN // 2` and `self.MAX_OPEN - 1` threshold
# for flushing to disk in __call__().
MAX_OPEN = 2 if pycompat.iswindows else 100
def __init__(self):
self._counter = 0
self._volatile_fps = None
self._copies = None
self._dst_dir = None
def __enter__(self):
if self._counter == 0:
assert self._volatile_fps is None
self._volatile_fps = {}
self._counter += 1
return self
def __exit__(self, *args, **kwars):
"""discard all backups"""
self._counter -= 1
if self._counter == 0:
for _size, fp in self._volatile_fps.values():
fp.close()
self._volatile_fps = None
if self._copies is not None:
for tmp in self._copies.values():
util.tryunlink(tmp)
util.tryrmdir(self._dst_dir)
self._copies = None
self._dst_dir = None
assert self._volatile_fps is None
assert self._copies is None
assert self._dst_dir is None
def _init_tmp_copies(self):
"""prepare a temporary directory to save volatile files
This will be used as backup if we have too many files open"""
assert 0 < self._counter
assert self._copies is None
assert self._dst_dir is None
self._copies = {}
self._dst_dir = pycompat.mkdtemp(prefix=b'hg-clone-')
def _flush_some_on_disk(self):
"""move some of the open files to tempory files on disk"""
if self._copies is None:
self._init_tmp_copies()
flush_count = self.MAX_OPEN // 2
for src, (size, fp) in sorted(self._volatile_fps.items())[:flush_count]:
prefix = os.path.basename(src)
fd, dst = pycompat.mkstemp(prefix=prefix, dir=self._dst_dir)
self._copies[src] = dst
os.close(fd)
# we no longer hardlink, but on the other hand we rarely do this,
# and we do it for the smallest file only and not at all in the
# common case.
with open(dst, 'wb') as bck:
fp.seek(0)
bck.write(fp.read())
del self._volatile_fps[src]
fp.close()
def _keep_one(self, src):
"""preserve an open file handle for a given path"""
# store the file quickly to ensure we close it if any error happens
_, fp = self._volatile_fps[src] = (None, open(src, 'rb'))
fp.seek(0, os.SEEK_END)
size = fp.tell()
self._volatile_fps[src] = (size, fp)
return size
def __call__(self, src):
"""preserve the volatile file at src"""
assert 0 < self._counter
if len(self._volatile_fps) >= (self.MAX_OPEN - 1):
self._flush_some_on_disk()
self._keep_one(src)
def try_keep(self, src) -> Optional[int]:
"""record a volatile file and returns it size
return None if the file does not exists.
Used for cache file that are not lock protected.
"""
assert 0 < self._counter
if len(self._volatile_fps) >= (self.MAX_OPEN - 1):
self._flush_some_on_disk()
try:
return self._keep_one(src)
except IOError as err:
if err.errno not in (errno.ENOENT, errno.EPERM):
raise
return None
@contextlib.contextmanager
def open(self, src):
assert 0 < self._counter
entry = self._volatile_fps.get(src)
if entry is not None:
_size, fp = entry
fp.seek(0)
yield fp
else:
if self._copies is None:
actual_path = src
else:
actual_path = self._copies.get(src, src)
with open(actual_path, 'rb') as fp:
yield fp
def _makemap(repo):
"""make a (src -> vfs) map for the repo"""
vfsmap = {
_srcstore: repo.svfs,
_srccache: repo.cachevfs,
}
# we keep repo.vfs out of the on purpose, ther are too many danger there
# (eg: .hg/hgrc)
assert repo.vfs not in vfsmap.values()
return vfsmap
def _emit2(repo, entries):
"""actually emit the stream bundle"""
vfsmap = _makemap(repo)
# we keep repo.vfs out of the on purpose, ther are too many danger there
# (eg: .hg/hgrc),
#
# this assert is duplicated (from _makemap) as author might think this is
# fine, while this is really not fine.
if repo.vfs in vfsmap.values():
raise error.ProgrammingError(
b'repo.vfs must not be added to vfsmap for security reasons'
)
# translate the vfs one
entries = [(vfs_key, vfsmap[vfs_key], e) for (vfs_key, e) in entries]
_test_sync_point_walk_1_2(repo)
max_linkrev = len(repo)
file_count = totalfilesize = 0
with VolatileManager() as volatiles:
# make sure we preserve volatile files
with util.nogc():
# record the expected size of every file
for k, vfs, e in entries:
e.preserve_volatiles(vfs, volatiles)
for f in e.files():
file_count += 1
totalfilesize += f.file_size(vfs)
progress = repo.ui.makeprogress(
_(b'bundle'), total=totalfilesize, unit=_(b'bytes')
)
progress.update(0)
with progress:
# the first yield release the lock on the repository
yield file_count, totalfilesize
totalbytecount = 0
for src, vfs, e in entries:
entry_streams = e.get_streams(
repo=repo,
vfs=vfs,
volatiles=volatiles,
max_changeset=max_linkrev,
preserve_file_count=True,
)
for name, stream, size in entry_streams:
yield src
yield util.uvarintencode(len(name))
yield util.uvarintencode(size)
yield name
bytecount = 0
for chunk in stream:
bytecount += len(chunk)
totalbytecount += len(chunk)
progress.update(totalbytecount)
yield chunk
if bytecount != size:
# Would most likely be caused by a race due to `hg
# strip` or a revlog split
msg = _(
b'clone could only read %d bytes from %s, but '
b'expected %d bytes'
)
raise error.Abort(msg % (bytecount, name, size))
def _emit3(repo, entries):
"""actually emit the stream bundle (v3)"""
vfsmap = _makemap(repo)
# we keep repo.vfs out of the map on purpose, ther are too many dangers
# there (eg: .hg/hgrc),
#
# this assert is duplicated (from _makemap) as authors might think this is
# fine, while this is really not fine.
if repo.vfs in vfsmap.values():
raise error.ProgrammingError(
b'repo.vfs must not be added to vfsmap for security reasons'
)
# translate the vfs once
# we only turn this into a list for the `_test_sync`, this is not ideal
base_entries = list(entries)
_test_sync_point_walk_1_2(repo)
entries = []
with VolatileManager() as volatiles:
# make sure we preserve volatile files
for vfs_key, e in base_entries:
vfs = vfsmap[vfs_key]
any_files = True
if e.maybe_volatile:
any_files = False
e.preserve_volatiles(vfs, volatiles)
for f in e.files():
if f.is_volatile:
# record the expected size under lock
f.file_size(vfs)
any_files = True
if any_files:
entries.append((vfs_key, vfsmap[vfs_key], e))
total_entry_count = len(entries)
max_linkrev = len(repo)
progress = repo.ui.makeprogress(
_(b'bundle'),
total=total_entry_count,
unit=_(b'entry'),
)
progress.update(0)
# the first yield release the lock on the repository
yield None
with progress:
yield util.uvarintencode(total_entry_count)
for src, vfs, e in entries:
entry_streams = e.get_streams(
repo=repo,
vfs=vfs,
volatiles=volatiles,
max_changeset=max_linkrev,
)
yield util.uvarintencode(len(entry_streams))
for name, stream, size in entry_streams:
yield src
yield util.uvarintencode(len(name))
yield util.uvarintencode(size)
yield name
yield from stream
progress.increment()
def _test_sync_point_walk_1_2(repo):
"""a function for synchronisation during tests
Triggered after gather entry, but before starting to process/preserve them
under lock.
(on v1 is triggered before the actual walk start)
"""
def _test_sync_point_walk_3(repo):
"""a function for synchronisation during tests
Triggered right before releasing the lock, but after computing what need
needed to compute under lock.
"""
def _test_sync_point_walk_4(repo):
"""a function for synchronisation during tests
Triggered right after releasing the lock.
"""
# not really a StoreEntry, but close enough
class CacheEntry(store.SimpleStoreEntry):
"""Represent an entry for Cache files
It has special logic to preserve cache file early and accept optional
presence.
(Yes... this is not really a StoreEntry, but close enough. We could have a
BaseEntry base class, bbut the store one would be identical)
"""
def __init__(self, entry_path):
super().__init__(
entry_path,
# we will directly deal with that in `setup_cache_file`
is_volatile=True,
)
def preserve_volatiles(self, vfs, volatiles):
self._file_size = volatiles.try_keep(vfs.join(self._entry_path))
if self._file_size is None:
self._files = []
else:
assert self._is_volatile
self._files = [
CacheFile(
unencoded_path=self._entry_path,
file_size=self._file_size,
is_volatile=self._is_volatile,
)
]
def files(self):
if self._files is None:
self._files = [
CacheFile(
unencoded_path=self._entry_path,
is_volatile=self._is_volatile,
)
]
return super().files()
class CacheFile(store.StoreFile):
# inform the "copy/hardlink" version that this file might be missing
# without consequences.
optional = True
def _entries_walk(repo, includes, excludes, includeobsmarkers):
"""emit a seris of files information useful to clone a repo
return (vfs-key, entry) iterator
Where `entry` is StoreEntry. (used even for cache entries)
"""
assert repo._currentlock(repo._lockref) is not None
matcher = None
if includes or excludes:
matcher = narrowspec.match(repo.root, includes, excludes)
phase = not repo.publishing()
# Python is getting crazy at all the small container we creates, disabling
# the gc while we do so helps performance a lot.
with util.nogc():
entries = _walkstreamfiles(
repo,
matcher,
phase=phase,
obsolescence=includeobsmarkers,
)
for entry in entries:
yield (_srcstore, entry)
for name in cacheutil.cachetocopy(repo):
if repo.cachevfs.exists(name):
# not really a StoreEntry, but close enough
yield (_srccache, CacheEntry(entry_path=name))
def generatev2(repo, includes, excludes, includeobsmarkers):
"""Emit content for version 2 of a streaming clone.
the data stream consists the following entries:
1) A char representing the file destination (eg: store or cache)
2) A varint containing the length of the filename
3) A varint containing the length of file data
4) N bytes containing the filename (the internal, store-agnostic form)
5) N bytes containing the file data
Returns a 3-tuple of (file count, file size, data iterator).
"""
with repo.lock():
repo.ui.debug(b'scanning\n')
entries = _entries_walk(
repo,
includes=includes,
excludes=excludes,
includeobsmarkers=includeobsmarkers,
)
chunks = _emit2(repo, entries)
first = next(chunks)
file_count, total_file_size = first
_test_sync_point_walk_3(repo)
_test_sync_point_walk_4(repo)
return file_count, total_file_size, chunks
def generatev3(repo, includes, excludes, includeobsmarkers):
"""Emit content for version 3 of a streaming clone.
the data stream consists the following:
1) A varint E containing the number of entries (can be 0), then E entries follow
2) For each entry:
2.1) The number of files in this entry (can be 0, but typically 1 or 2)
2.2) For each file:
2.2.1) A char representing the file destination (eg: store or cache)
2.2.2) A varint N containing the length of the filename
2.2.3) A varint M containing the length of file data
2.2.4) N bytes containing the filename (the internal, store-agnostic form)
2.2.5) M bytes containing the file data
Returns the data iterator.
XXX This format is experimental and subject to change. Here is a
XXX non-exhaustive list of things this format could do or change:
- making it easier to write files in parallel
- holding the lock for a shorter time
- improving progress information
- ways to adjust the number of expected entries/files ?
"""
# Python is getting crazy at all the small container we creates while
# considering the files to preserve, disabling the gc while we do so helps
# performance a lot.
with repo.lock(), util.nogc():
repo.ui.debug(b'scanning\n')
entries = _entries_walk(
repo,
includes=includes,
excludes=excludes,
includeobsmarkers=includeobsmarkers,
)
chunks = _emit3(repo, list(entries))
first = next(chunks)
assert first is None
_test_sync_point_walk_3(repo)
_test_sync_point_walk_4(repo)
return chunks
@contextlib.contextmanager
def nested(*ctxs):
this = ctxs[0]
rest = ctxs[1:]
with this:
if rest:
with nested(*rest):
yield
else:
yield
def consumev2(repo, fp, filecount, filesize):
"""Apply the contents from a version 2 streaming clone.
Data is read from an object that only needs to provide a ``read(size)``
method.
"""
with repo.lock():
repo.ui.status(
_(b'%d files to transfer, %s of data\n')
% (filecount, util.bytecount(filesize))
)
start = util.timer()
progress = repo.ui.makeprogress(
_(b'clone'), total=filesize, unit=_(b'bytes')
)
progress.update(0)
vfsmap = _makemap(repo)
# we keep repo.vfs out of the on purpose, ther are too many danger
# there (eg: .hg/hgrc),
#
# this assert is duplicated (from _makemap) as author might think this
# is fine, while this is really not fine.
if repo.vfs in vfsmap.values():
raise error.ProgrammingError(
b'repo.vfs must not be added to vfsmap for security reasons'
)
with repo.transaction(b'clone'):
ctxs = (vfs.backgroundclosing(repo.ui) for vfs in vfsmap.values())
with nested(*ctxs):
for i in range(filecount):
src = util.readexactly(fp, 1)
vfs = vfsmap[src]
namelen = util.uvarintdecodestream(fp)
datalen = util.uvarintdecodestream(fp)
name = util.readexactly(fp, namelen)
if repo.ui.debugflag:
repo.ui.debug(
b'adding [%s] %s (%s)\n'
% (src, name, util.bytecount(datalen))
)
with vfs(name, b'w') as ofp:
for chunk in util.filechunkiter(fp, limit=datalen):
progress.increment(step=len(chunk))
ofp.write(chunk)
# force @filecache properties to be reloaded from
# streamclone-ed file at next access
repo.invalidate(clearfilecache=True)
elapsed = util.timer() - start
if elapsed <= 0:
elapsed = 0.001
repo.ui.status(
_(b'transferred %s in %.1f seconds (%s/sec)\n')
% (
util.bytecount(progress.pos),
elapsed,
util.bytecount(progress.pos / elapsed),
)
)
progress.complete()
def consumev3(repo, fp):
"""Apply the contents from a version 3 streaming clone.
Data is read from an object that only needs to provide a ``read(size)``
method.
"""
with repo.lock():
start = util.timer()
entrycount = util.uvarintdecodestream(fp)
repo.ui.status(_(b'%d entries to transfer\n') % (entrycount))
progress = repo.ui.makeprogress(
_(b'clone'),
total=entrycount,
unit=_(b'entries'),
)
progress.update(0)
bytes_transferred = 0
vfsmap = _makemap(repo)
# we keep repo.vfs out of the on purpose, there are too many dangers
# there (eg: .hg/hgrc),
#
# this assert is duplicated (from _makemap) as authors might think this
# is fine, while this is really not fine.
if repo.vfs in vfsmap.values():
raise error.ProgrammingError(
b'repo.vfs must not be added to vfsmap for security reasons'
)
with repo.transaction(b'clone'):
ctxs = (vfs.backgroundclosing(repo.ui) for vfs in vfsmap.values())
with nested(*ctxs):
for i in range(entrycount):
filecount = util.uvarintdecodestream(fp)
if filecount == 0:
if repo.ui.debugflag:
repo.ui.debug(b'entry with no files [%d]\n' % (i))
for i in range(filecount):
src = util.readexactly(fp, 1)
vfs = vfsmap[src]
namelen = util.uvarintdecodestream(fp)
datalen = util.uvarintdecodestream(fp)
name = util.readexactly(fp, namelen)
if repo.ui.debugflag:
msg = b'adding [%s] %s (%s)\n'
msg %= (src, name, util.bytecount(datalen))
repo.ui.debug(msg)
bytes_transferred += datalen
with vfs(name, b'w') as ofp:
for chunk in util.filechunkiter(fp, limit=datalen):
ofp.write(chunk)
progress.increment(step=1)
# force @filecache properties to be reloaded from
# streamclone-ed file at next access
repo.invalidate(clearfilecache=True)
elapsed = util.timer() - start
if elapsed <= 0:
elapsed = 0.001
msg = _(b'transferred %s in %.1f seconds (%s/sec)\n')
byte_count = util.bytecount(bytes_transferred)
bytes_sec = util.bytecount(bytes_transferred / elapsed)
msg %= (byte_count, elapsed, bytes_sec)
repo.ui.status(msg)
progress.complete()
def applybundlev2(repo, fp, filecount, filesize, requirements):
from . import localrepo
missingreqs = [r for r in requirements if r not in repo.supported]
if missingreqs:
raise error.Abort(
_(b'unable to apply stream clone: unsupported format: %s')
% b', '.join(sorted(missingreqs))
)
consumev2(repo, fp, filecount, filesize)
repo.requirements = new_stream_clone_requirements(
repo.requirements,
requirements,
)
repo.svfs.options = localrepo.resolvestorevfsoptions(
repo.ui, repo.requirements, repo.features
)
scmutil.writereporequirements(repo)
nodemap.post_stream_cleanup(repo)
def applybundlev3(repo, fp, requirements):
from . import localrepo
missingreqs = [r for r in requirements if r not in repo.supported]
if missingreqs:
msg = _(b'unable to apply stream clone: unsupported format: %s')
msg %= b', '.join(sorted(missingreqs))
raise error.Abort(msg)
consumev3(repo, fp)
repo.requirements = new_stream_clone_requirements(
repo.requirements,
requirements,
)
repo.svfs.options = localrepo.resolvestorevfsoptions(
repo.ui, repo.requirements, repo.features
)
scmutil.writereporequirements(repo)
nodemap.post_stream_cleanup(repo)
def _copy_files(src_vfs_map, dst_vfs_map, entries, progress):
hardlink = [True]
def copy_used():
hardlink[0] = False
progress.topic = _(b'copying')
for k, path, optional in entries:
src_vfs = src_vfs_map[k]
dst_vfs = dst_vfs_map[k]
src_path = src_vfs.join(path)
dst_path = dst_vfs.join(path)
# We cannot use dirname and makedirs of dst_vfs here because the store
# encoding confuses them. See issue 6581 for details.
dirname = os.path.dirname(dst_path)
if not os.path.exists(dirname):
util.makedirs(dirname)
dst_vfs.register_file(path)
# XXX we could use the #nb_bytes argument.
try:
util.copyfile(
src_path,
dst_path,
hardlink=hardlink[0],
no_hardlink_cb=copy_used,
check_fs_hardlink=False,
)
except FileNotFoundError:
if not optional:
raise
progress.increment()
return hardlink[0]
def local_copy(src_repo, dest_repo):
"""copy all content from one local repository to another
This is useful for local clone"""
src_store_requirements = {
r
for r in src_repo.requirements
if r not in requirementsmod.WORKING_DIR_REQUIREMENTS
}
dest_store_requirements = {
r
for r in dest_repo.requirements
if r not in requirementsmod.WORKING_DIR_REQUIREMENTS
}
assert src_store_requirements == dest_store_requirements
with dest_repo.lock():
with src_repo.lock():
# bookmark is not integrated to the streaming as it might use the
# `repo.vfs` and they are too many sentitive data accessible
# through `repo.vfs` to expose it to streaming clone.
src_book_vfs = bookmarks.bookmarksvfs(src_repo)
srcbookmarks = src_book_vfs.join(b'bookmarks')
bm_count = 0
if os.path.exists(srcbookmarks):
bm_count = 1
entries = _entries_walk(
src_repo,
includes=None,
excludes=None,
includeobsmarkers=True,
)
entries = list(entries)
src_vfs_map = _makemap(src_repo)
dest_vfs_map = _makemap(dest_repo)
total_files = sum(len(e[1].files()) for e in entries) + bm_count
progress = src_repo.ui.makeprogress(
topic=_(b'linking'),
total=total_files,
unit=_(b'files'),
)
# copy files
#
# We could copy the full file while the source repository is locked
# and the other one without the lock. However, in the linking case,
# this would also requires checks that nobody is appending any data
# to the files while we do the clone, so this is not done yet. We
# could do this blindly when copying files.
files = [
(vfs_key, f.unencoded_path, f.optional)
for vfs_key, e in entries
for f in e.files()
]
hardlink = _copy_files(src_vfs_map, dest_vfs_map, files, progress)
# copy bookmarks over
if bm_count:
dst_book_vfs = bookmarks.bookmarksvfs(dest_repo)
dstbookmarks = dst_book_vfs.join(b'bookmarks')
util.copyfile(srcbookmarks, dstbookmarks)
progress.complete()
if hardlink:
msg = b'linked %d files\n'
else:
msg = b'copied %d files\n'
src_repo.ui.debug(msg % total_files)
with dest_repo.transaction(b"localclone") as tr:
dest_repo.store.write(tr)
# clean up transaction file as they do not make sense
transaction.cleanup_undo_files(dest_repo.ui.warn, dest_repo.vfs_map)