# bundle2.py - generic container format to transmit arbitrary data.
#
# Copyright 2013 Facebook, Inc.
#
# This software may be used and distributed according to the terms of the
# GNU General Public License version 2 or any later version.
"""Handling of the new bundle2 format
The goal of bundle2 is to act as an atomically packet to transmit a set of
payloads in an application agnostic way. It consist in a sequence of "parts"
that will be handed to and processed by the application layer.
General format architecture
===========================
The format is architectured as follow
- magic string
- stream level parameters
- payload parts (any number)
- end of stream marker.
the Binary format
============================
All numbers are unsigned and big-endian.
stream level parameters
------------------------
Binary format is as follow
:params size: int32
The total number of Bytes used by the parameters
:params value: arbitrary number of Bytes
A blob of `params size` containing the serialized version of all stream level
parameters.
The blob contains a space separated list of parameters. Parameters with value
are stored in the form `<name>=<value>`. Both name and value are urlquoted.
Empty name are obviously forbidden.
Name MUST start with a letter. If this first letter is lower case, the
parameter is advisory and can be safely ignored. However when the first
letter is capital, the parameter is mandatory and the bundling process MUST
stop if he is not able to proceed it.
Stream parameters use a simple textual format for two main reasons:
- Stream level parameters should remain simple and we want to discourage any
crazy usage.
- Textual data allow easy human inspection of a bundle2 header in case of
troubles.
Any Applicative level options MUST go into a bundle2 part instead.
Payload part
------------------------
Binary format is as follow
:header size: int32
The total number of Bytes used by the part header. When the header is empty
(size = 0) this is interpreted as the end of stream marker.
:header:
The header defines how to interpret the part. It contains two piece of
data: the part type, and the part parameters.
The part type is used to route an application level handler, that can
interpret payload.
Part parameters are passed to the application level handler. They are
meant to convey information that will help the application level object to
interpret the part payload.
The binary format of the header is has follow
:typesize: (one byte)
:parttype: alphanumerical part name (restricted to [a-zA-Z0-9_:-]*)
:partid: A 32bits integer (unique in the bundle) that can be used to refer
to this part.
:parameters:
Part's parameter may have arbitrary content, the binary structure is::
<mandatory-count><advisory-count><param-sizes><param-data>
:mandatory-count: 1 byte, number of mandatory parameters
:advisory-count: 1 byte, number of advisory parameters
:param-sizes:
N couple of bytes, where N is the total number of parameters. Each
couple contains (<size-of-key>, <size-of-value) for one parameter.
:param-data:
A blob of bytes from which each parameter key and value can be
retrieved using the list of size couples stored in the previous
field.
Mandatory parameters comes first, then the advisory ones.
Each parameter's key MUST be unique within the part.
:payload:
payload is a series of `<chunksize><chunkdata>`.
`chunksize` is an int32, `chunkdata` are plain bytes (as much as
`chunksize` says)` The payload part is concluded by a zero size chunk.
The current implementation always produces either zero or one chunk.
This is an implementation limitation that will ultimately be lifted.
`chunksize` can be negative to trigger special case processing. No such
processing is in place yet.
Bundle processing
============================
Each part is processed in order using a "part handler". Handler are registered
for a certain part type.
The matching of a part to its handler is case insensitive. The case of the
part type is used to know if a part is mandatory or advisory. If the Part type
contains any uppercase char it is considered mandatory. When no handler is
known for a Mandatory part, the process is aborted and an exception is raised.
If the part is advisory and no handler is known, the part is ignored. When the
process is aborted, the full bundle is still read from the stream to keep the
channel usable. But none of the part read from an abort are processed. In the
future, dropping the stream may become an option for channel we do not care to
preserve.
"""
from __future__ import absolute_import, division
import errno
import os
import re
import string
import struct
import sys
from .i18n import _
from . import (
changegroup,
error,
node as nodemod,
obsolete,
phases,
pushkey,
pycompat,
tags,
url,
util,
)
urlerr = util.urlerr
urlreq = util.urlreq
_pack = struct.pack
_unpack = struct.unpack
_fstreamparamsize = '>i'
_fpartheadersize = '>i'
_fparttypesize = '>B'
_fpartid = '>I'
_fpayloadsize = '>i'
_fpartparamcount = '>BB'
preferedchunksize = 4096
_parttypeforbidden = re.compile('[^a-zA-Z0-9_:-]')
def outdebug(ui, message):
"""debug regarding output stream (bundling)"""
if ui.configbool('devel', 'bundle2.debug'):
ui.debug('bundle2-output: %s\n' % message)
def indebug(ui, message):
"""debug on input stream (unbundling)"""
if ui.configbool('devel', 'bundle2.debug'):
ui.debug('bundle2-input: %s\n' % message)
def validateparttype(parttype):
"""raise ValueError if a parttype contains invalid character"""
if _parttypeforbidden.search(parttype):
raise ValueError(parttype)
def _makefpartparamsizes(nbparams):
"""return a struct format to read part parameter sizes
The number parameters is variable so we need to build that format
dynamically.
"""
return '>'+('BB'*nbparams)
parthandlermapping = {}
def parthandler(parttype, params=()):
"""decorator that register a function as a bundle2 part handler
eg::
@parthandler('myparttype', ('mandatory', 'param', 'handled'))
def myparttypehandler(...):
'''process a part of type "my part".'''
...
"""
validateparttype(parttype)
def _decorator(func):
lparttype = parttype.lower() # enforce lower case matching.
assert lparttype not in parthandlermapping
parthandlermapping[lparttype] = func
func.params = frozenset(params)
return func
return _decorator
class unbundlerecords(object):
"""keep record of what happens during and unbundle
New records are added using `records.add('cat', obj)`. Where 'cat' is a
category of record and obj is an arbitrary object.
`records['cat']` will return all entries of this category 'cat'.
Iterating on the object itself will yield `('category', obj)` tuples
for all entries.
All iterations happens in chronological order.
"""
def __init__(self):
self._categories = {}
self._sequences = []
self._replies = {}
def add(self, category, entry, inreplyto=None):
"""add a new record of a given category.
The entry can then be retrieved in the list returned by
self['category']."""
self._categories.setdefault(category, []).append(entry)
self._sequences.append((category, entry))
if inreplyto is not None:
self.getreplies(inreplyto).add(category, entry)
def getreplies(self, partid):
"""get the records that are replies to a specific part"""
return self._replies.setdefault(partid, unbundlerecords())
def __getitem__(self, cat):
return tuple(self._categories.get(cat, ()))
def __iter__(self):
return iter(self._sequences)
def __len__(self):
return len(self._sequences)
def __nonzero__(self):
return bool(self._sequences)
__bool__ = __nonzero__
class bundleoperation(object):
"""an object that represents a single bundling process
Its purpose is to carry unbundle-related objects and states.
A new object should be created at the beginning of each bundle processing.
The object is to be returned by the processing function.
The object has very little content now it will ultimately contain:
* an access to the repo the bundle is applied to,
* a ui object,
* a way to retrieve a transaction to add changes to the repo,
* a way to record the result of processing each part,
* a way to construct a bundle response when applicable.
"""
def __init__(self, repo, transactiongetter, captureoutput=True):
self.repo = repo
self.ui = repo.ui
self.records = unbundlerecords()
self.reply = None
self.captureoutput = captureoutput
self.hookargs = {}
self._gettransaction = transactiongetter
def gettransaction(self):
transaction = self._gettransaction()
if self.hookargs:
# the ones added to the transaction supercede those added
# to the operation.
self.hookargs.update(transaction.hookargs)
transaction.hookargs = self.hookargs
# mark the hookargs as flushed. further attempts to add to
# hookargs will result in an abort.
self.hookargs = None
return transaction
def addhookargs(self, hookargs):
if self.hookargs is None:
raise error.ProgrammingError('attempted to add hookargs to '
'operation after transaction started')
self.hookargs.update(hookargs)
class TransactionUnavailable(RuntimeError):
pass
def _notransaction():
"""default method to get a transaction while processing a bundle
Raise an exception to highlight the fact that no transaction was expected
to be created"""
raise TransactionUnavailable()
def applybundle(repo, unbundler, tr, source=None, url=None, **kwargs):
# transform me into unbundler.apply() as soon as the freeze is lifted
if isinstance(unbundler, unbundle20):
tr.hookargs['bundle2'] = '1'
if source is not None and 'source' not in tr.hookargs:
tr.hookargs['source'] = source
if url is not None and 'url' not in tr.hookargs:
tr.hookargs['url'] = url
return processbundle(repo, unbundler, lambda: tr)
else:
# the transactiongetter won't be used, but we might as well set it
op = bundleoperation(repo, lambda: tr)
_processchangegroup(op, unbundler, tr, source, url, **kwargs)
return op
class partiterator(object):
def __init__(self, repo, op, unbundler):
self.repo = repo
self.op = op
self.unbundler = unbundler
self.iterator = None
self.count = 0
self.current = None
def __enter__(self):
def func():
itr = enumerate(self.unbundler.iterparts())
for count, p in itr:
self.count = count
self.current = p
yield p
p.seek(0, os.SEEK_END)
self.current = None
self.iterator = func()
return self.iterator
def __exit__(self, type, exc, tb):
if not self.iterator:
return
# Only gracefully abort in a normal exception situation. User aborts
# like Ctrl+C throw a KeyboardInterrupt which is not a base Exception,
# and should not gracefully cleanup.
if isinstance(exc, Exception):
# Any exceptions seeking to the end of the bundle at this point are
# almost certainly related to the underlying stream being bad.
# And, chances are that the exception we're handling is related to
# getting in that bad state. So, we swallow the seeking error and
# re-raise the original error.
seekerror = False
try:
if self.current:
# consume the part content to not corrupt the stream.
self.current.seek(0, os.SEEK_END)
for part in self.iterator:
# consume the bundle content
part.seek(0, os.SEEK_END)
except Exception:
seekerror = True
# Small hack to let caller code distinguish exceptions from bundle2
# processing from processing the old format. This is mostly needed
# to handle different return codes to unbundle according to the type
# of bundle. We should probably clean up or drop this return code
# craziness in a future version.
exc.duringunbundle2 = True
salvaged = []
replycaps = None
if self.op.reply is not None:
salvaged = self.op.reply.salvageoutput()
replycaps = self.op.reply.capabilities
exc._replycaps = replycaps
exc._bundle2salvagedoutput = salvaged
# Re-raising from a variable loses the original stack. So only use
# that form if we need to.
if seekerror:
raise exc
self.repo.ui.debug('bundle2-input-bundle: %i parts total\n' %
self.count)
def processbundle(repo, unbundler, transactiongetter=None, op=None):
"""This function process a bundle, apply effect to/from a repo
It iterates over each part then searches for and uses the proper handling
code to process the part. Parts are processed in order.
Unknown Mandatory part will abort the process.
It is temporarily possible to provide a prebuilt bundleoperation to the
function. This is used to ensure output is properly propagated in case of
an error during the unbundling. This output capturing part will likely be
reworked and this ability will probably go away in the process.
"""
if op is None:
if transactiongetter is None:
transactiongetter = _notransaction
op = bundleoperation(repo, transactiongetter)
# todo:
# - replace this is a init function soon.
# - exception catching
unbundler.params
if repo.ui.debugflag:
msg = ['bundle2-input-bundle:']
if unbundler.params:
msg.append(' %i params' % len(unbundler.params))
if op._gettransaction is None or op._gettransaction is _notransaction:
msg.append(' no-transaction')
else:
msg.append(' with-transaction')
msg.append('\n')
repo.ui.debug(''.join(msg))
processparts(repo, op, unbundler)
return op
def processparts(repo, op, unbundler):
with partiterator(repo, op, unbundler) as parts:
for part in parts:
_processpart(op, part)
def _processchangegroup(op, cg, tr, source, url, **kwargs):
ret = cg.apply(op.repo, tr, source, url, **kwargs)
op.records.add('changegroup', {
'return': ret,
})
return ret
def _gethandler(op, part):
status = 'unknown' # used by debug output
try:
handler = parthandlermapping.get(part.type)
if handler is None:
status = 'unsupported-type'
raise error.BundleUnknownFeatureError(parttype=part.type)
indebug(op.ui, 'found a handler for part %s' % part.type)
unknownparams = part.mandatorykeys - handler.params
if unknownparams:
unknownparams = list(unknownparams)
unknownparams.sort()
status = 'unsupported-params (%s)' % ', '.join(unknownparams)
raise error.BundleUnknownFeatureError(parttype=part.type,
params=unknownparams)
status = 'supported'
except error.BundleUnknownFeatureError as exc:
if part.mandatory: # mandatory parts
raise
indebug(op.ui, 'ignoring unsupported advisory part %s' % exc)
return # skip to part processing
finally:
if op.ui.debugflag:
msg = ['bundle2-input-part: "%s"' % part.type]
if not part.mandatory:
msg.append(' (advisory)')
nbmp = len(part.mandatorykeys)
nbap = len(part.params) - nbmp
if nbmp or nbap:
msg.append(' (params:')
if nbmp:
msg.append(' %i mandatory' % nbmp)
if nbap:
msg.append(' %i advisory' % nbmp)
msg.append(')')
msg.append(' %s\n' % status)
op.ui.debug(''.join(msg))
return handler
def _processpart(op, part):
"""process a single part from a bundle
The part is guaranteed to have been fully consumed when the function exits
(even if an exception is raised)."""
handler = _gethandler(op, part)
if handler is None:
return
# handler is called outside the above try block so that we don't
# risk catching KeyErrors from anything other than the
# parthandlermapping lookup (any KeyError raised by handler()
# itself represents a defect of a different variety).
output = None
if op.captureoutput and op.reply is not None:
op.ui.pushbuffer(error=True, subproc=True)
output = ''
try:
handler(op, part)
finally:
if output is not None:
output = op.ui.popbuffer()
if output:
outpart = op.reply.newpart('output', data=output,
mandatory=False)
outpart.addparam(
'in-reply-to', pycompat.bytestr(part.id), mandatory=False)
def decodecaps(blob):
"""decode a bundle2 caps bytes blob into a dictionary
The blob is a list of capabilities (one per line)
Capabilities may have values using a line of the form::
capability=value1,value2,value3
The values are always a list."""
caps = {}
for line in blob.splitlines():
if not line:
continue
if '=' not in line:
key, vals = line, ()
else:
key, vals = line.split('=', 1)
vals = vals.split(',')
key = urlreq.unquote(key)
vals = [urlreq.unquote(v) for v in vals]
caps[key] = vals
return caps
def encodecaps(caps):
"""encode a bundle2 caps dictionary into a bytes blob"""
chunks = []
for ca in sorted(caps):
vals = caps[ca]
ca = urlreq.quote(ca)
vals = [urlreq.quote(v) for v in vals]
if vals:
ca = "%s=%s" % (ca, ','.join(vals))
chunks.append(ca)
return '\n'.join(chunks)
bundletypes = {
"": ("", 'UN'), # only when using unbundle on ssh and old http servers
# since the unification ssh accepts a header but there
# is no capability signaling it.
"HG20": (), # special-cased below
"HG10UN": ("HG10UN", 'UN'),
"HG10BZ": ("HG10", 'BZ'),
"HG10GZ": ("HG10GZ", 'GZ'),
}
# hgweb uses this list to communicate its preferred type
bundlepriority = ['HG10GZ', 'HG10BZ', 'HG10UN']
class bundle20(object):
"""represent an outgoing bundle2 container
Use the `addparam` method to add stream level parameter. and `newpart` to
populate it. Then call `getchunks` to retrieve all the binary chunks of
data that compose the bundle2 container."""
_magicstring = 'HG20'
def __init__(self, ui, capabilities=()):
self.ui = ui
self._params = []
self._parts = []
self.capabilities = dict(capabilities)
self._compengine = util.compengines.forbundletype('UN')
self._compopts = None
def setcompression(self, alg, compopts=None):
"""setup core part compression to <alg>"""
if alg in (None, 'UN'):
return
assert not any(n.lower() == 'compression' for n, v in self._params)
self.addparam('Compression', alg)
self._compengine = util.compengines.forbundletype(alg)
self._compopts = compopts
@property
def nbparts(self):
"""total number of parts added to the bundler"""
return len(self._parts)
# methods used to defines the bundle2 content
def addparam(self, name, value=None):
"""add a stream level parameter"""
if not name:
raise ValueError(r'empty parameter name')
if name[0:1] not in pycompat.bytestr(string.ascii_letters):
raise ValueError(r'non letter first character: %s' % name)
self._params.append((name, value))
def addpart(self, part):
"""add a new part to the bundle2 container
Parts contains the actual applicative payload."""
assert part.id is None
part.id = len(self._parts) # very cheap counter
self._parts.append(part)
def newpart(self, typeid, *args, **kwargs):
"""create a new part and add it to the containers
As the part is directly added to the containers. For now, this means
that any failure to properly initialize the part after calling
``newpart`` should result in a failure of the whole bundling process.
You can still fall back to manually create and add if you need better
control."""
part = bundlepart(typeid, *args, **kwargs)
self.addpart(part)
return part
# methods used to generate the bundle2 stream
def getchunks(self):
if self.ui.debugflag:
msg = ['bundle2-output-bundle: "%s",' % self._magicstring]
if self._params:
msg.append(' (%i params)' % len(self._params))
msg.append(' %i parts total\n' % len(self._parts))
self.ui.debug(''.join(msg))
outdebug(self.ui, 'start emission of %s stream' % self._magicstring)
yield self._magicstring
param = self._paramchunk()
outdebug(self.ui, 'bundle parameter: %s' % param)
yield _pack(_fstreamparamsize, len(param))
if param:
yield param
for chunk in self._compengine.compressstream(self._getcorechunk(),
self._compopts):
yield chunk
def _paramchunk(self):
"""return a encoded version of all stream parameters"""
blocks = []
for par, value in self._params:
par = urlreq.quote(par)
if value is not None:
value = urlreq.quote(value)
par = '%s=%s' % (par, value)
blocks.append(par)
return ' '.join(blocks)
def _getcorechunk(self):
"""yield chunk for the core part of the bundle
(all but headers and parameters)"""
outdebug(self.ui, 'start of parts')
for part in self._parts:
outdebug(self.ui, 'bundle part: "%s"' % part.type)
for chunk in part.getchunks(ui=self.ui):
yield chunk
outdebug(self.ui, 'end of bundle')
yield _pack(_fpartheadersize, 0)
def salvageoutput(self):
"""return a list with a copy of all output parts in the bundle
This is meant to be used during error handling to make sure we preserve
server output"""
salvaged = []
for part in self._parts:
if part.type.startswith('output'):
salvaged.append(part.copy())
return salvaged
class unpackermixin(object):
"""A mixin to extract bytes and struct data from a stream"""
def __init__(self, fp):
self._fp = fp
def _unpack(self, format):
"""unpack this struct format from the stream
This method is meant for internal usage by the bundle2 protocol only.
They directly manipulate the low level stream including bundle2 level
instruction.
Do not use it to implement higher-level logic or methods."""
data = self._readexact(struct.calcsize(format))
return _unpack(format, data)
def _readexact(self, size):
"""read exactly <size> bytes from the stream
This method is meant for internal usage by the bundle2 protocol only.
They directly manipulate the low level stream including bundle2 level
instruction.
Do not use it to implement higher-level logic or methods."""
return changegroup.readexactly(self._fp, size)
def getunbundler(ui, fp, magicstring=None):
"""return a valid unbundler object for a given magicstring"""
if magicstring is None:
magicstring = changegroup.readexactly(fp, 4)
magic, version = magicstring[0:2], magicstring[2:4]
if magic != 'HG':
ui.debug(
"error: invalid magic: %r (version %r), should be 'HG'\n"
% (magic, version))
raise error.Abort(_('not a Mercurial bundle'))
unbundlerclass = formatmap.get(version)
if unbundlerclass is None:
raise error.Abort(_('unknown bundle version %s') % version)
unbundler = unbundlerclass(ui, fp)
indebug(ui, 'start processing of %s stream' % magicstring)
return unbundler
class unbundle20(unpackermixin):
"""interpret a bundle2 stream
This class is fed with a binary stream and yields parts through its
`iterparts` methods."""
_magicstring = 'HG20'
def __init__(self, ui, fp):
"""If header is specified, we do not read it out of the stream."""
self.ui = ui
self._compengine = util.compengines.forbundletype('UN')
self._compressed = None
super(unbundle20, self).__init__(fp)
@util.propertycache
def params(self):
"""dictionary of stream level parameters"""
indebug(self.ui, 'reading bundle2 stream parameters')
params = {}
paramssize = self._unpack(_fstreamparamsize)[0]
if paramssize < 0:
raise error.BundleValueError('negative bundle param size: %i'
% paramssize)
if paramssize:
params = self._readexact(paramssize)
params = self._processallparams(params)
return params
def _processallparams(self, paramsblock):
""""""
params = util.sortdict()
for p in paramsblock.split(' '):
p = p.split('=', 1)
p = [urlreq.unquote(i) for i in p]
if len(p) < 2:
p.append(None)
self._processparam(*p)
params[p[0]] = p[1]
return params
def _processparam(self, name, value):
"""process a parameter, applying its effect if needed
Parameter starting with a lower case letter are advisory and will be
ignored when unknown. Those starting with an upper case letter are
mandatory and will this function will raise a KeyError when unknown.
Note: no option are currently supported. Any input will be either
ignored or failing.
"""
if not name:
raise ValueError(r'empty parameter name')
if name[0:1] not in pycompat.bytestr(string.ascii_letters):
raise ValueError(r'non letter first character: %s' % name)
try:
handler = b2streamparamsmap[name.lower()]
except KeyError:
if name[0:1].islower():
indebug(self.ui, "ignoring unknown parameter %s" % name)
else:
raise error.BundleUnknownFeatureError(params=(name,))
else:
handler(self, name, value)
def _forwardchunks(self):
"""utility to transfer a bundle2 as binary
This is made necessary by the fact the 'getbundle' command over 'ssh'
have no way to know then the reply end, relying on the bundle to be
interpreted to know its end. This is terrible and we are sorry, but we
needed to move forward to get general delta enabled.
"""
yield self._magicstring
assert 'params' not in vars(self)
paramssize = self._unpack(_fstreamparamsize)[0]
if paramssize < 0:
raise error.BundleValueError('negative bundle param size: %i'
% paramssize)
yield _pack(_fstreamparamsize, paramssize)
if paramssize:
params = self._readexact(paramssize)
self._processallparams(params)
yield params
assert self._compengine.bundletype == 'UN'
# From there, payload might need to be decompressed
self._fp = self._compengine.decompressorreader(self._fp)
emptycount = 0
while emptycount < 2:
# so we can brainlessly loop
assert _fpartheadersize == _fpayloadsize
size = self._unpack(_fpartheadersize)[0]
yield _pack(_fpartheadersize, size)
if size:
emptycount = 0
else:
emptycount += 1
continue
if size == flaginterrupt:
continue
elif size < 0:
raise error.BundleValueError('negative chunk size: %i')
yield self._readexact(size)
def iterparts(self):
"""yield all parts contained in the stream"""
# make sure param have been loaded
self.params
# From there, payload need to be decompressed
self._fp = self._compengine.decompressorreader(self._fp)
indebug(self.ui, 'start extraction of bundle2 parts')
headerblock = self._readpartheader()
while headerblock is not None:
part = unbundlepart(self.ui, headerblock, self._fp)
yield part
# Seek to the end of the part to force it's consumption so the next
# part can be read. But then seek back to the beginning so the
# code consuming this generator has a part that starts at 0.
part.seek(0, os.SEEK_END)
part.seek(0, os.SEEK_SET)
headerblock = self._readpartheader()
indebug(self.ui, 'end of bundle2 stream')
def _readpartheader(self):
"""reads a part header size and return the bytes blob
returns None if empty"""
headersize = self._unpack(_fpartheadersize)[0]
if headersize < 0:
raise error.BundleValueError('negative part header size: %i'
% headersize)
indebug(self.ui, 'part header size: %i' % headersize)
if headersize:
return self._readexact(headersize)
return None
def compressed(self):
self.params # load params
return self._compressed
def close(self):
"""close underlying file"""
if util.safehasattr(self._fp, 'close'):
return self._fp.close()
formatmap = {'20': unbundle20}
b2streamparamsmap = {}
def b2streamparamhandler(name):
"""register a handler for a stream level parameter"""
def decorator(func):
assert name not in formatmap
b2streamparamsmap[name] = func
return func
return decorator
@b2streamparamhandler('compression')
def processcompression(unbundler, param, value):
"""read compression parameter and install payload decompression"""
if value not in util.compengines.supportedbundletypes:
raise error.BundleUnknownFeatureError(params=(param,),
values=(value,))
unbundler._compengine = util.compengines.forbundletype(value)
if value is not None:
unbundler._compressed = True
class bundlepart(object):
"""A bundle2 part contains application level payload
The part `type` is used to route the part to the application level
handler.
The part payload is contained in ``part.data``. It could be raw bytes or a
generator of byte chunks.
You can add parameters to the part using the ``addparam`` method.
Parameters can be either mandatory (default) or advisory. Remote side
should be able to safely ignore the advisory ones.
Both data and parameters cannot be modified after the generation has begun.
"""
def __init__(self, parttype, mandatoryparams=(), advisoryparams=(),
data='', mandatory=True):
validateparttype(parttype)
self.id = None
self.type = parttype
self._data = data
self._mandatoryparams = list(mandatoryparams)
self._advisoryparams = list(advisoryparams)
# checking for duplicated entries
self._seenparams = set()
for pname, __ in self._mandatoryparams + self._advisoryparams:
if pname in self._seenparams:
raise error.ProgrammingError('duplicated params: %s' % pname)
self._seenparams.add(pname)
# status of the part's generation:
# - None: not started,
# - False: currently generated,
# - True: generation done.
self._generated = None
self.mandatory = mandatory
def __repr__(self):
cls = "%s.%s" % (self.__class__.__module__, self.__class__.__name__)
return ('<%s object at %x; id: %s; type: %s; mandatory: %s>'
% (cls, id(self), self.id, self.type, self.mandatory))
def copy(self):
"""return a copy of the part
The new part have the very same content but no partid assigned yet.
Parts with generated data cannot be copied."""
assert not util.safehasattr(self.data, 'next')
return self.__class__(self.type, self._mandatoryparams,
self._advisoryparams, self._data, self.mandatory)
# methods used to defines the part content
@property
def data(self):
return self._data
@data.setter
def data(self, data):
if self._generated is not None:
raise error.ReadOnlyPartError('part is being generated')
self._data = data
@property
def mandatoryparams(self):
# make it an immutable tuple to force people through ``addparam``
return tuple(self._mandatoryparams)
@property
def advisoryparams(self):
# make it an immutable tuple to force people through ``addparam``
return tuple(self._advisoryparams)
def addparam(self, name, value='', mandatory=True):
"""add a parameter to the part
If 'mandatory' is set to True, the remote handler must claim support
for this parameter or the unbundling will be aborted.
The 'name' and 'value' cannot exceed 255 bytes each.
"""
if self._generated is not None:
raise error.ReadOnlyPartError('part is being generated')
if name in self._seenparams:
raise ValueError('duplicated params: %s' % name)
self._seenparams.add(name)
params = self._advisoryparams
if mandatory:
params = self._mandatoryparams
params.append((name, value))
# methods used to generates the bundle2 stream
def getchunks(self, ui):
if self._generated is not None:
raise error.ProgrammingError('part can only be consumed once')
self._generated = False
if ui.debugflag:
msg = ['bundle2-output-part: "%s"' % self.type]
if not self.mandatory:
msg.append(' (advisory)')
nbmp = len(self.mandatoryparams)
nbap = len(self.advisoryparams)
if nbmp or nbap:
msg.append(' (params:')
if nbmp:
msg.append(' %i mandatory' % nbmp)
if nbap:
msg.append(' %i advisory' % nbmp)
msg.append(')')
if not self.data:
msg.append(' empty payload')
elif (util.safehasattr(self.data, 'next')
or util.safehasattr(self.data, '__next__')):
msg.append(' streamed payload')
else:
msg.append(' %i bytes payload' % len(self.data))
msg.append('\n')
ui.debug(''.join(msg))
#### header
if self.mandatory:
parttype = self.type.upper()
else:
parttype = self.type.lower()
outdebug(ui, 'part %s: "%s"' % (pycompat.bytestr(self.id), parttype))
## parttype
header = [_pack(_fparttypesize, len(parttype)),
parttype, _pack(_fpartid, self.id),
]
## parameters
# count
manpar = self.mandatoryparams
advpar = self.advisoryparams
header.append(_pack(_fpartparamcount, len(manpar), len(advpar)))
# size
parsizes = []
for key, value in manpar:
parsizes.append(len(key))
parsizes.append(len(value))
for key, value in advpar:
parsizes.append(len(key))
parsizes.append(len(value))
paramsizes = _pack(_makefpartparamsizes(len(parsizes) // 2), *parsizes)
header.append(paramsizes)
# key, value
for key, value in manpar:
header.append(key)
header.append(value)
for key, value in advpar:
header.append(key)
header.append(value)
## finalize header
try:
headerchunk = ''.join(header)
except TypeError:
raise TypeError(r'Found a non-bytes trying to '
r'build bundle part header: %r' % header)
outdebug(ui, 'header chunk size: %i' % len(headerchunk))
yield _pack(_fpartheadersize, len(headerchunk))
yield headerchunk
## payload
try:
for chunk in self._payloadchunks():
outdebug(ui, 'payload chunk size: %i' % len(chunk))
yield _pack(_fpayloadsize, len(chunk))
yield chunk
except GeneratorExit:
# GeneratorExit means that nobody is listening for our
# results anyway, so just bail quickly rather than trying
# to produce an error part.
ui.debug('bundle2-generatorexit\n')
raise
except BaseException as exc:
bexc = util.forcebytestr(exc)
# backup exception data for later
ui.debug('bundle2-input-stream-interrupt: encoding exception %s'
% bexc)
tb = sys.exc_info()[2]
msg = 'unexpected error: %s' % bexc
interpart = bundlepart('error:abort', [('message', msg)],
mandatory=False)
interpart.id = 0
yield _pack(_fpayloadsize, -1)
for chunk in interpart.getchunks(ui=ui):
yield chunk
outdebug(ui, 'closing payload chunk')
# abort current part payload
yield _pack(_fpayloadsize, 0)
pycompat.raisewithtb(exc, tb)
# end of payload
outdebug(ui, 'closing payload chunk')
yield _pack(_fpayloadsize, 0)
self._generated = True
def _payloadchunks(self):
"""yield chunks of a the part payload
Exists to handle the different methods to provide data to a part."""
# we only support fixed size data now.
# This will be improved in the future.
if (util.safehasattr(self.data, 'next')
or util.safehasattr(self.data, '__next__')):
buff = util.chunkbuffer(self.data)
chunk = buff.read(preferedchunksize)
while chunk:
yield chunk
chunk = buff.read(preferedchunksize)
elif len(self.data):
yield self.data
flaginterrupt = -1
class interrupthandler(unpackermixin):
"""read one part and process it with restricted capability
This allows to transmit exception raised on the producer size during part
iteration while the consumer is reading a part.
Part processed in this manner only have access to a ui object,"""
def __init__(self, ui, fp):
super(interrupthandler, self).__init__(fp)
self.ui = ui
def _readpartheader(self):
"""reads a part header size and return the bytes blob
returns None if empty"""
headersize = self._unpack(_fpartheadersize)[0]
if headersize < 0:
raise error.BundleValueError('negative part header size: %i'
% headersize)
indebug(self.ui, 'part header size: %i\n' % headersize)
if headersize:
return self._readexact(headersize)
return None
def __call__(self):
self.ui.debug('bundle2-input-stream-interrupt:'
' opening out of band context\n')
indebug(self.ui, 'bundle2 stream interruption, looking for a part.')
headerblock = self._readpartheader()
if headerblock is None:
indebug(self.ui, 'no part found during interruption.')
return
part = unbundlepart(self.ui, headerblock, self._fp)
op = interruptoperation(self.ui)
hardabort = False
try:
_processpart(op, part)
except (SystemExit, KeyboardInterrupt):
hardabort = True
raise
finally:
if not hardabort:
part.seek(0, os.SEEK_END)
self.ui.debug('bundle2-input-stream-interrupt:'
' closing out of band context\n')
class interruptoperation(object):
"""A limited operation to be use by part handler during interruption
It only have access to an ui object.
"""
def __init__(self, ui):
self.ui = ui
self.reply = None
self.captureoutput = False
@property
def repo(self):
raise error.ProgrammingError('no repo access from stream interruption')
def gettransaction(self):
raise TransactionUnavailable('no repo access from stream interruption')
class unbundlepart(unpackermixin):
"""a bundle part read from a bundle"""
def __init__(self, ui, header, fp):
super(unbundlepart, self).__init__(fp)
self._seekable = (util.safehasattr(fp, 'seek') and
util.safehasattr(fp, 'tell'))
self.ui = ui
# unbundle state attr
self._headerdata = header
self._headeroffset = 0
self._initialized = False
self.consumed = False
# part data
self.id = None
self.type = None
self.mandatoryparams = None
self.advisoryparams = None
self.params = None
self.mandatorykeys = ()
self._payloadstream = None
self._readheader()
self._mandatory = None
self._chunkindex = [] #(payload, file) position tuples for chunk starts
self._pos = 0
def _fromheader(self, size):
"""return the next <size> byte from the header"""
offset = self._headeroffset
data = self._headerdata[offset:(offset + size)]
self._headeroffset = offset + size
return data
def _unpackheader(self, format):
"""read given format from header
This automatically compute the size of the format to read."""
data = self._fromheader(struct.calcsize(format))
return _unpack(format, data)
def _initparams(self, mandatoryparams, advisoryparams):
"""internal function to setup all logic related parameters"""
# make it read only to prevent people touching it by mistake.
self.mandatoryparams = tuple(mandatoryparams)
self.advisoryparams = tuple(advisoryparams)
# user friendly UI
self.params = util.sortdict(self.mandatoryparams)
self.params.update(self.advisoryparams)
self.mandatorykeys = frozenset(p[0] for p in mandatoryparams)
def _payloadchunks(self, chunknum=0):
'''seek to specified chunk and start yielding data'''
if len(self._chunkindex) == 0:
assert chunknum == 0, 'Must start with chunk 0'
self._chunkindex.append((0, self._tellfp()))
else:
assert chunknum < len(self._chunkindex), \
'Unknown chunk %d' % chunknum
self._seekfp(self._chunkindex[chunknum][1])
pos = self._chunkindex[chunknum][0]
payloadsize = self._unpack(_fpayloadsize)[0]
indebug(self.ui, 'payload chunk size: %i' % payloadsize)
while payloadsize:
if payloadsize == flaginterrupt:
# interruption detection, the handler will now read a
# single part and process it.
interrupthandler(self.ui, self._fp)()
elif payloadsize < 0:
msg = 'negative payload chunk size: %i' % payloadsize
raise error.BundleValueError(msg)
else:
result = self._readexact(payloadsize)
chunknum += 1
pos += payloadsize
if chunknum == len(self._chunkindex):
self._chunkindex.append((pos, self._tellfp()))
yield result
payloadsize = self._unpack(_fpayloadsize)[0]
indebug(self.ui, 'payload chunk size: %i' % payloadsize)
def _findchunk(self, pos):
'''for a given payload position, return a chunk number and offset'''
for chunk, (ppos, fpos) in enumerate(self._chunkindex):
if ppos == pos:
return chunk, 0
elif ppos > pos:
return chunk - 1, pos - self._chunkindex[chunk - 1][0]
raise ValueError('Unknown chunk')
def _readheader(self):
"""read the header and setup the object"""
typesize = self._unpackheader(_fparttypesize)[0]
self.type = self._fromheader(typesize)
indebug(self.ui, 'part type: "%s"' % self.type)
self.id = self._unpackheader(_fpartid)[0]
indebug(self.ui, 'part id: "%s"' % pycompat.bytestr(self.id))
# extract mandatory bit from type
self.mandatory = (self.type != self.type.lower())
self.type = self.type.lower()
## reading parameters
# param count
mancount, advcount = self._unpackheader(_fpartparamcount)
indebug(self.ui, 'part parameters: %i' % (mancount + advcount))
# param size
fparamsizes = _makefpartparamsizes(mancount + advcount)
paramsizes = self._unpackheader(fparamsizes)
# make it a list of couple again
paramsizes = list(zip(paramsizes[::2], paramsizes[1::2]))
# split mandatory from advisory
mansizes = paramsizes[:mancount]
advsizes = paramsizes[mancount:]
# retrieve param value
manparams = []
for key, value in mansizes:
manparams.append((self._fromheader(key), self._fromheader(value)))
advparams = []
for key, value in advsizes:
advparams.append((self._fromheader(key), self._fromheader(value)))
self._initparams(manparams, advparams)
## part payload
self._payloadstream = util.chunkbuffer(self._payloadchunks())
# we read the data, tell it
self._initialized = True
def read(self, size=None):
"""read payload data"""
if not self._initialized:
self._readheader()
if size is None:
data = self._payloadstream.read()
else:
data = self._payloadstream.read(size)
self._pos += len(data)
if size is None or len(data) < size:
if not self.consumed and self._pos:
self.ui.debug('bundle2-input-part: total payload size %i\n'
% self._pos)
self.consumed = True
return data
def tell(self):
return self._pos
def seek(self, offset, whence=os.SEEK_SET):
if whence == os.SEEK_SET:
newpos = offset
elif whence == os.SEEK_CUR:
newpos = self._pos + offset
elif whence == os.SEEK_END:
if not self.consumed:
self.read()
newpos = self._chunkindex[-1][0] - offset
else:
raise ValueError('Unknown whence value: %r' % (whence,))
if newpos > self._chunkindex[-1][0] and not self.consumed:
self.read()
if not 0 <= newpos <= self._chunkindex[-1][0]:
raise ValueError('Offset out of range')
if self._pos != newpos:
chunk, internaloffset = self._findchunk(newpos)
self._payloadstream = util.chunkbuffer(self._payloadchunks(chunk))
adjust = self.read(internaloffset)
if len(adjust) != internaloffset:
raise error.Abort(_('Seek failed\n'))
self._pos = newpos
def _seekfp(self, offset, whence=0):
"""move the underlying file pointer
This method is meant for internal usage by the bundle2 protocol only.
They directly manipulate the low level stream including bundle2 level
instruction.
Do not use it to implement higher-level logic or methods."""
if self._seekable:
return self._fp.seek(offset, whence)
else:
raise NotImplementedError(_('File pointer is not seekable'))
def _tellfp(self):
"""return the file offset, or None if file is not seekable
This method is meant for internal usage by the bundle2 protocol only.
They directly manipulate the low level stream including bundle2 level
instruction.
Do not use it to implement higher-level logic or methods."""
if self._seekable:
try:
return self._fp.tell()
except IOError as e:
if e.errno == errno.ESPIPE:
self._seekable = False
else:
raise
return None
# These are only the static capabilities.
# Check the 'getrepocaps' function for the rest.
capabilities = {'HG20': (),
'error': ('abort', 'unsupportedcontent', 'pushraced',
'pushkey'),
'listkeys': (),
'pushkey': (),
'digests': tuple(sorted(util.DIGESTS.keys())),
'remote-changegroup': ('http', 'https'),
'hgtagsfnodes': (),
'phases': ('heads',),
}
def getrepocaps(repo, allowpushback=False):
"""return the bundle2 capabilities for a given repo
Exists to allow extensions (like evolution) to mutate the capabilities.
"""
caps = capabilities.copy()
caps['changegroup'] = tuple(sorted(
changegroup.supportedincomingversions(repo)))
if obsolete.isenabled(repo, obsolete.exchangeopt):
supportedformat = tuple('V%i' % v for v in obsolete.formats)
caps['obsmarkers'] = supportedformat
if allowpushback:
caps['pushback'] = ()
cpmode = repo.ui.config('server', 'concurrent-push-mode')
if cpmode == 'check-related':
caps['checkheads'] = ('related',)
if 'phases' in repo.ui.configlist('devel', 'legacy.exchange'):
caps.pop('phases')
return caps
def bundle2caps(remote):
"""return the bundle capabilities of a peer as dict"""
raw = remote.capable('bundle2')
if not raw and raw != '':
return {}
capsblob = urlreq.unquote(remote.capable('bundle2'))
return decodecaps(capsblob)
def obsmarkersversion(caps):
"""extract the list of supported obsmarkers versions from a bundle2caps dict
"""
obscaps = caps.get('obsmarkers', ())
return [int(c[1:]) for c in obscaps if c.startswith('V')]
def writenewbundle(ui, repo, source, filename, bundletype, outgoing, opts,
vfs=None, compression=None, compopts=None):
if bundletype.startswith('HG10'):
cg = changegroup.makechangegroup(repo, outgoing, '01', source)
return writebundle(ui, cg, filename, bundletype, vfs=vfs,
compression=compression, compopts=compopts)
elif not bundletype.startswith('HG20'):
raise error.ProgrammingError('unknown bundle type: %s' % bundletype)
caps = {}
if 'obsolescence' in opts:
caps['obsmarkers'] = ('V1',)
bundle = bundle20(ui, caps)
bundle.setcompression(compression, compopts)
_addpartsfromopts(ui, repo, bundle, source, outgoing, opts)
chunkiter = bundle.getchunks()
return changegroup.writechunks(ui, chunkiter, filename, vfs=vfs)
def _addpartsfromopts(ui, repo, bundler, source, outgoing, opts):
# We should eventually reconcile this logic with the one behind
# 'exchange.getbundle2partsgenerator'.
#
# The type of input from 'getbundle' and 'writenewbundle' are a bit
# different right now. So we keep them separated for now for the sake of
# simplicity.
# we always want a changegroup in such bundle
cgversion = opts.get('cg.version')
if cgversion is None:
cgversion = changegroup.safeversion(repo)
cg = changegroup.makechangegroup(repo, outgoing, cgversion, source)
part = bundler.newpart('changegroup', data=cg.getchunks())
part.addparam('version', cg.version)
if 'clcount' in cg.extras:
part.addparam('nbchanges', '%d' % cg.extras['clcount'],
mandatory=False)
if opts.get('phases') and repo.revs('%ln and secret()',
outgoing.missingheads):
part.addparam('targetphase', '%d' % phases.secret, mandatory=False)
addparttagsfnodescache(repo, bundler, outgoing)
if opts.get('obsolescence', False):
obsmarkers = repo.obsstore.relevantmarkers(outgoing.missing)
buildobsmarkerspart(bundler, obsmarkers)
if opts.get('phases', False):
headsbyphase = phases.subsetphaseheads(repo, outgoing.missing)
phasedata = phases.binaryencode(headsbyphase)
bundler.newpart('phase-heads', data=phasedata)
def addparttagsfnodescache(repo, bundler, outgoing):
# we include the tags fnode cache for the bundle changeset
# (as an optional parts)
cache = tags.hgtagsfnodescache(repo.unfiltered())
chunks = []
# .hgtags fnodes are only relevant for head changesets. While we could
# transfer values for all known nodes, there will likely be little to
# no benefit.
#
# We don't bother using a generator to produce output data because
# a) we only have 40 bytes per head and even esoteric numbers of heads
# consume little memory (1M heads is 40MB) b) we don't want to send the
# part if we don't have entries and knowing if we have entries requires
# cache lookups.
for node in outgoing.missingheads:
# Don't compute missing, as this may slow down serving.
fnode = cache.getfnode(node, computemissing=False)
if fnode is not None:
chunks.extend([node, fnode])
if chunks:
bundler.newpart('hgtagsfnodes', data=''.join(chunks))
def buildobsmarkerspart(bundler, markers):
"""add an obsmarker part to the bundler with <markers>
No part is created if markers is empty.
Raises ValueError if the bundler doesn't support any known obsmarker format.
"""
if not markers:
return None
remoteversions = obsmarkersversion(bundler.capabilities)
version = obsolete.commonversion(remoteversions)
if version is None:
raise ValueError('bundler does not support common obsmarker format')
stream = obsolete.encodemarkers(markers, True, version=version)
return bundler.newpart('obsmarkers', data=stream)
def writebundle(ui, cg, filename, bundletype, vfs=None, compression=None,
compopts=None):
"""Write a bundle file and return its filename.
Existing files will not be overwritten.
If no filename is specified, a temporary file is created.
bz2 compression can be turned off.
The bundle file will be deleted in case of errors.
"""
if bundletype == "HG20":
bundle = bundle20(ui)
bundle.setcompression(compression, compopts)
part = bundle.newpart('changegroup', data=cg.getchunks())
part.addparam('version', cg.version)
if 'clcount' in cg.extras:
part.addparam('nbchanges', '%d' % cg.extras['clcount'],
mandatory=False)
chunkiter = bundle.getchunks()
else:
# compression argument is only for the bundle2 case
assert compression is None
if cg.version != '01':
raise error.Abort(_('old bundle types only supports v1 '
'changegroups'))
header, comp = bundletypes[bundletype]
if comp not in util.compengines.supportedbundletypes:
raise error.Abort(_('unknown stream compression type: %s')
% comp)
compengine = util.compengines.forbundletype(comp)
def chunkiter():
yield header
for chunk in compengine.compressstream(cg.getchunks(), compopts):
yield chunk
chunkiter = chunkiter()
# parse the changegroup data, otherwise we will block
# in case of sshrepo because we don't know the end of the stream
return changegroup.writechunks(ui, chunkiter, filename, vfs=vfs)
def combinechangegroupresults(op):
"""logic to combine 0 or more addchangegroup results into one"""
results = [r.get('return', 0)
for r in op.records['changegroup']]
changedheads = 0
result = 1
for ret in results:
# If any changegroup result is 0, return 0
if ret == 0:
result = 0
break
if ret < -1:
changedheads += ret + 1
elif ret > 1:
changedheads += ret - 1
if changedheads > 0:
result = 1 + changedheads
elif changedheads < 0:
result = -1 + changedheads
return result
@parthandler('changegroup', ('version', 'nbchanges', 'treemanifest',
'targetphase'))
def handlechangegroup(op, inpart):
"""apply a changegroup part on the repo
This is a very early implementation that will massive rework before being
inflicted to any end-user.
"""
tr = op.gettransaction()
unpackerversion = inpart.params.get('version', '01')
# We should raise an appropriate exception here
cg = changegroup.getunbundler(unpackerversion, inpart, None)
# the source and url passed here are overwritten by the one contained in
# the transaction.hookargs argument. So 'bundle2' is a placeholder
nbchangesets = None
if 'nbchanges' in inpart.params:
nbchangesets = int(inpart.params.get('nbchanges'))
if ('treemanifest' in inpart.params and
'treemanifest' not in op.repo.requirements):
if len(op.repo.changelog) != 0:
raise error.Abort(_(
"bundle contains tree manifests, but local repo is "
"non-empty and does not use tree manifests"))
op.repo.requirements.add('treemanifest')
op.repo._applyopenerreqs()
op.repo._writerequirements()
extrakwargs = {}
targetphase = inpart.params.get('targetphase')
if targetphase is not None:
extrakwargs['targetphase'] = int(targetphase)
ret = _processchangegroup(op, cg, tr, 'bundle2', 'bundle2',
expectedtotal=nbchangesets, **extrakwargs)
if op.reply is not None:
# This is definitely not the final form of this
# return. But one need to start somewhere.
part = op.reply.newpart('reply:changegroup', mandatory=False)
part.addparam(
'in-reply-to', pycompat.bytestr(inpart.id), mandatory=False)
part.addparam('return', '%i' % ret, mandatory=False)
assert not inpart.read()
_remotechangegroupparams = tuple(['url', 'size', 'digests'] +
['digest:%s' % k for k in util.DIGESTS.keys()])
@parthandler('remote-changegroup', _remotechangegroupparams)
def handleremotechangegroup(op, inpart):
"""apply a bundle10 on the repo, given an url and validation information
All the information about the remote bundle to import are given as
parameters. The parameters include:
- url: the url to the bundle10.
- size: the bundle10 file size. It is used to validate what was
retrieved by the client matches the server knowledge about the bundle.
- digests: a space separated list of the digest types provided as
parameters.
- digest:<digest-type>: the hexadecimal representation of the digest with
that name. Like the size, it is used to validate what was retrieved by
the client matches what the server knows about the bundle.
When multiple digest types are given, all of them are checked.
"""
try:
raw_url = inpart.params['url']
except KeyError:
raise error.Abort(_('remote-changegroup: missing "%s" param') % 'url')
parsed_url = util.url(raw_url)
if parsed_url.scheme not in capabilities['remote-changegroup']:
raise error.Abort(_('remote-changegroup does not support %s urls') %
parsed_url.scheme)
try:
size = int(inpart.params['size'])
except ValueError:
raise error.Abort(_('remote-changegroup: invalid value for param "%s"')
% 'size')
except KeyError:
raise error.Abort(_('remote-changegroup: missing "%s" param') % 'size')
digests = {}
for typ in inpart.params.get('digests', '').split():
param = 'digest:%s' % typ
try:
value = inpart.params[param]
except KeyError:
raise error.Abort(_('remote-changegroup: missing "%s" param') %
param)
digests[typ] = value
real_part = util.digestchecker(url.open(op.ui, raw_url), size, digests)
tr = op.gettransaction()
from . import exchange
cg = exchange.readbundle(op.repo.ui, real_part, raw_url)
if not isinstance(cg, changegroup.cg1unpacker):
raise error.Abort(_('%s: not a bundle version 1.0') %
util.hidepassword(raw_url))
ret = _processchangegroup(op, cg, tr, 'bundle2', 'bundle2')
if op.reply is not None:
# This is definitely not the final form of this
# return. But one need to start somewhere.
part = op.reply.newpart('reply:changegroup')
part.addparam(
'in-reply-to', pycompat.bytestr(inpart.id), mandatory=False)
part.addparam('return', '%i' % ret, mandatory=False)
try:
real_part.validate()
except error.Abort as e:
raise error.Abort(_('bundle at %s is corrupted:\n%s') %
(util.hidepassword(raw_url), str(e)))
assert not inpart.read()
@parthandler('reply:changegroup', ('return', 'in-reply-to'))
def handlereplychangegroup(op, inpart):
ret = int(inpart.params['return'])
replyto = int(inpart.params['in-reply-to'])
op.records.add('changegroup', {'return': ret}, replyto)
@parthandler('check:heads')
def handlecheckheads(op, inpart):
"""check that head of the repo did not change
This is used to detect a push race when using unbundle.
This replaces the "heads" argument of unbundle."""
h = inpart.read(20)
heads = []
while len(h) == 20:
heads.append(h)
h = inpart.read(20)
assert not h
# Trigger a transaction so that we are guaranteed to have the lock now.
if op.ui.configbool('experimental', 'bundle2lazylocking'):
op.gettransaction()
if sorted(heads) != sorted(op.repo.heads()):
raise error.PushRaced('repository changed while pushing - '
'please try again')
@parthandler('check:updated-heads')
def handlecheckupdatedheads(op, inpart):
"""check for race on the heads touched by a push
This is similar to 'check:heads' but focus on the heads actually updated
during the push. If other activities happen on unrelated heads, it is
ignored.
This allow server with high traffic to avoid push contention as long as
unrelated parts of the graph are involved."""
h = inpart.read(20)
heads = []
while len(h) == 20:
heads.append(h)
h = inpart.read(20)
assert not h
# trigger a transaction so that we are guaranteed to have the lock now.
if op.ui.configbool('experimental', 'bundle2lazylocking'):
op.gettransaction()
currentheads = set()
for ls in op.repo.branchmap().itervalues():
currentheads.update(ls)
for h in heads:
if h not in currentheads:
raise error.PushRaced('repository changed while pushing - '
'please try again')
@parthandler('check:phases')
def handlecheckphases(op, inpart):
"""check that phase boundaries of the repository did not change
This is used to detect a push race.
"""
phasetonodes = phases.binarydecode(inpart)
unfi = op.repo.unfiltered()
cl = unfi.changelog
phasecache = unfi._phasecache
msg = ('repository changed while pushing - please try again '
'(%s is %s expected %s)')
for expectedphase, nodes in enumerate(phasetonodes):
for n in nodes:
actualphase = phasecache.phase(unfi, cl.rev(n))
if actualphase != expectedphase:
finalmsg = msg % (nodemod.short(n),
phases.phasenames[actualphase],
phases.phasenames[expectedphase])
raise error.PushRaced(finalmsg)
@parthandler('output')
def handleoutput(op, inpart):
"""forward output captured on the server to the client"""
for line in inpart.read().splitlines():
op.ui.status(_('remote: %s\n') % line)
@parthandler('replycaps')
def handlereplycaps(op, inpart):
"""Notify that a reply bundle should be created
The payload contains the capabilities information for the reply"""
caps = decodecaps(inpart.read())
if op.reply is None:
op.reply = bundle20(op.ui, caps)
class AbortFromPart(error.Abort):
"""Sub-class of Abort that denotes an error from a bundle2 part."""
@parthandler('error:abort', ('message', 'hint'))
def handleerrorabort(op, inpart):
"""Used to transmit abort error over the wire"""
raise AbortFromPart(inpart.params['message'],
hint=inpart.params.get('hint'))
@parthandler('error:pushkey', ('namespace', 'key', 'new', 'old', 'ret',
'in-reply-to'))
def handleerrorpushkey(op, inpart):
"""Used to transmit failure of a mandatory pushkey over the wire"""
kwargs = {}
for name in ('namespace', 'key', 'new', 'old', 'ret'):
value = inpart.params.get(name)
if value is not None:
kwargs[name] = value
raise error.PushkeyFailed(inpart.params['in-reply-to'], **kwargs)
@parthandler('error:unsupportedcontent', ('parttype', 'params'))
def handleerrorunsupportedcontent(op, inpart):
"""Used to transmit unknown content error over the wire"""
kwargs = {}
parttype = inpart.params.get('parttype')
if parttype is not None:
kwargs['parttype'] = parttype
params = inpart.params.get('params')
if params is not None:
kwargs['params'] = params.split('\0')
raise error.BundleUnknownFeatureError(**kwargs)
@parthandler('error:pushraced', ('message',))
def handleerrorpushraced(op, inpart):
"""Used to transmit push race error over the wire"""
raise error.ResponseError(_('push failed:'), inpart.params['message'])
@parthandler('listkeys', ('namespace',))
def handlelistkeys(op, inpart):
"""retrieve pushkey namespace content stored in a bundle2"""
namespace = inpart.params['namespace']
r = pushkey.decodekeys(inpart.read())
op.records.add('listkeys', (namespace, r))
@parthandler('pushkey', ('namespace', 'key', 'old', 'new'))
def handlepushkey(op, inpart):
"""process a pushkey request"""
dec = pushkey.decode
namespace = dec(inpart.params['namespace'])
key = dec(inpart.params['key'])
old = dec(inpart.params['old'])
new = dec(inpart.params['new'])
# Grab the transaction to ensure that we have the lock before performing the
# pushkey.
if op.ui.configbool('experimental', 'bundle2lazylocking'):
op.gettransaction()
ret = op.repo.pushkey(namespace, key, old, new)
record = {'namespace': namespace,
'key': key,
'old': old,
'new': new}
op.records.add('pushkey', record)
if op.reply is not None:
rpart = op.reply.newpart('reply:pushkey')
rpart.addparam(
'in-reply-to', pycompat.bytestr(inpart.id), mandatory=False)
rpart.addparam('return', '%i' % ret, mandatory=False)
if inpart.mandatory and not ret:
kwargs = {}
for key in ('namespace', 'key', 'new', 'old', 'ret'):
if key in inpart.params:
kwargs[key] = inpart.params[key]
raise error.PushkeyFailed(partid=str(inpart.id), **kwargs)
@parthandler('phase-heads')
def handlephases(op, inpart):
"""apply phases from bundle part to repo"""
headsbyphase = phases.binarydecode(inpart)
phases.updatephases(op.repo.unfiltered(), op.gettransaction, headsbyphase)
@parthandler('reply:pushkey', ('return', 'in-reply-to'))
def handlepushkeyreply(op, inpart):
"""retrieve the result of a pushkey request"""
ret = int(inpart.params['return'])
partid = int(inpart.params['in-reply-to'])
op.records.add('pushkey', {'return': ret}, partid)
@parthandler('obsmarkers')
def handleobsmarker(op, inpart):
"""add a stream of obsmarkers to the repo"""
tr = op.gettransaction()
markerdata = inpart.read()
if op.ui.config('experimental', 'obsmarkers-exchange-debug'):
op.ui.write(('obsmarker-exchange: %i bytes received\n')
% len(markerdata))
# The mergemarkers call will crash if marker creation is not enabled.
# we want to avoid this if the part is advisory.
if not inpart.mandatory and op.repo.obsstore.readonly:
op.repo.ui.debug('ignoring obsolescence markers, feature not enabled')
return
new = op.repo.obsstore.mergemarkers(tr, markerdata)
op.repo.invalidatevolatilesets()
if new:
op.repo.ui.status(_('%i new obsolescence markers\n') % new)
op.records.add('obsmarkers', {'new': new})
if op.reply is not None:
rpart = op.reply.newpart('reply:obsmarkers')
rpart.addparam(
'in-reply-to', pycompat.bytestr(inpart.id), mandatory=False)
rpart.addparam('new', '%i' % new, mandatory=False)
@parthandler('reply:obsmarkers', ('new', 'in-reply-to'))
def handleobsmarkerreply(op, inpart):
"""retrieve the result of a pushkey request"""
ret = int(inpart.params['new'])
partid = int(inpart.params['in-reply-to'])
op.records.add('obsmarkers', {'new': ret}, partid)
@parthandler('hgtagsfnodes')
def handlehgtagsfnodes(op, inpart):
"""Applies .hgtags fnodes cache entries to the local repo.
Payload is pairs of 20 byte changeset nodes and filenodes.
"""
# Grab the transaction so we ensure that we have the lock at this point.
if op.ui.configbool('experimental', 'bundle2lazylocking'):
op.gettransaction()
cache = tags.hgtagsfnodescache(op.repo.unfiltered())
count = 0
while True:
node = inpart.read(20)
fnode = inpart.read(20)
if len(node) < 20 or len(fnode) < 20:
op.ui.debug('ignoring incomplete received .hgtags fnodes data\n')
break
cache.setfnode(node, fnode)
count += 1
cache.write()
op.ui.debug('applied %i hgtags fnodes cache entries\n' % count)
@parthandler('pushvars')
def bundle2getvars(op, part):
'''unbundle a bundle2 containing shellvars on the server'''
# An option to disable unbundling on server-side for security reasons
if op.ui.configbool('push', 'pushvars.server'):
hookargs = {}
for key, value in part.advisoryparams:
key = key.upper()
# We want pushed variables to have USERVAR_ prepended so we know
# they came from the --pushvar flag.
key = "USERVAR_" + key
hookargs[key] = value
op.addhookargs(hookargs)