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exchangev2: fetch manifest revisions...
exchangev2: fetch manifest revisions Now that the server has support for retrieving manifest data, we can implement the client bits to call it. We teach the changeset fetching code to capture the manifest revisions that are encountered on incoming changesets. We then feed this into a new function which filters out known manifests and then batches up manifest data requests to the server. This is different from the previous wire protocol in a few notable ways. First, the client fetches manifest data separately and explicitly. Before, we'd ask the server for data pertaining to some changesets (via a "getbundle" command) and manifests (and files) would be sent automatically. Providing an API for looking up just manifest data separately gives clients much more flexibility for manifest management. For example, a client may choose to only fetch manifest data on demand instead of prefetching it (i.e. partial clone). Second, we send N commands to the server for manifest retrieval instead of 1. This property has a few nice side-effects. One is that the deterministic nature of the requests lends itself to server-side caching. For example, say the remote has 50,000 manifests. If the server is configured to cache responses, each time a new commit arrives, you will have a cache miss and need to regenerate all outgoing data. But if you makes N requests requesting 10,000 manifests each, a new commit will still yield cache hits on the initial, unchanged manifest batches/requests. A derived benefit from these properties is that resumable clone is conceptually simpler to implement. When making a monolithic request for all of the repository data, recovering from an interrupted clone is hard because the server was in the driver's seat and was maintaining state about all the data that needed transferred. With the client driving fetching, the client can persist the set of unfetched entities and retry/resume a fetch if something goes wrong. Or we can fetch all data N changesets at a time and slowly build up a repository. This approach is drastically easier to implement when we have server APIs exposing low-level repository primitives (such as manifests and files). We don't yet support tree manifests. But it should be possible to implement that with the existing wire protocol command. Differential Revision: https://phab.mercurial-scm.org/D4489
Yuya Nishihara - - Load All Authors

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fancyopts.py
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# fancyopts.py - better command line parsing
#
# Copyright 2005-2009 Matt Mackall <mpm@selenic.com> and others
#
# This software may be used and distributed according to the terms of the
# GNU General Public License version 2 or any later version.
from __future__ import absolute_import
import abc
import functools
from .i18n import _
from . import (
error,
pycompat,
)
# Set of flags to not apply boolean negation logic on
nevernegate = {
# avoid --no-noninteractive
'noninteractive',
# These two flags are special because they cause hg to do one
# thing and then exit, and so aren't suitable for use in things
# like aliases anyway.
'help',
'version',
}
def _earlyoptarg(arg, shortlist, namelist):
"""Check if the given arg is a valid unabbreviated option
Returns (flag_str, has_embedded_value?, embedded_value, takes_value?)
>>> def opt(arg):
... return _earlyoptarg(arg, b'R:q', [b'cwd=', b'debugger'])
long form:
>>> opt(b'--cwd')
('--cwd', False, '', True)
>>> opt(b'--cwd=')
('--cwd', True, '', True)
>>> opt(b'--cwd=foo')
('--cwd', True, 'foo', True)
>>> opt(b'--debugger')
('--debugger', False, '', False)
>>> opt(b'--debugger=') # invalid but parsable
('--debugger', True, '', False)
short form:
>>> opt(b'-R')
('-R', False, '', True)
>>> opt(b'-Rfoo')
('-R', True, 'foo', True)
>>> opt(b'-q')
('-q', False, '', False)
>>> opt(b'-qfoo') # invalid but parsable
('-q', True, 'foo', False)
unknown or invalid:
>>> opt(b'--unknown')
('', False, '', False)
>>> opt(b'-u')
('', False, '', False)
>>> opt(b'-ufoo')
('', False, '', False)
>>> opt(b'--')
('', False, '', False)
>>> opt(b'-')
('', False, '', False)
>>> opt(b'-:')
('', False, '', False)
>>> opt(b'-:foo')
('', False, '', False)
"""
if arg.startswith('--'):
flag, eq, val = arg.partition('=')
if flag[2:] in namelist:
return flag, bool(eq), val, False
if flag[2:] + '=' in namelist:
return flag, bool(eq), val, True
elif arg.startswith('-') and arg != '-' and not arg.startswith('-:'):
flag, val = arg[:2], arg[2:]
i = shortlist.find(flag[1:])
if i >= 0:
return flag, bool(val), val, shortlist.startswith(':', i + 1)
return '', False, '', False
def earlygetopt(args, shortlist, namelist, gnu=False, keepsep=False):
"""Parse options like getopt, but ignores unknown options and abbreviated
forms
If gnu=False, this stops processing options as soon as a non/unknown-option
argument is encountered. Otherwise, option and non-option arguments may be
intermixed, and unknown-option arguments are taken as non-option.
If keepsep=True, '--' won't be removed from the list of arguments left.
This is useful for stripping early options from a full command arguments.
>>> def get(args, gnu=False, keepsep=False):
... return earlygetopt(args, b'R:q', [b'cwd=', b'debugger'],
... gnu=gnu, keepsep=keepsep)
default parsing rules for early options:
>>> get([b'x', b'--cwd', b'foo', b'-Rbar', b'-q', b'y'], gnu=True)
([('--cwd', 'foo'), ('-R', 'bar'), ('-q', '')], ['x', 'y'])
>>> get([b'x', b'--cwd=foo', b'y', b'-R', b'bar', b'--debugger'], gnu=True)
([('--cwd', 'foo'), ('-R', 'bar'), ('--debugger', '')], ['x', 'y'])
>>> get([b'--unknown', b'--cwd=foo', b'--', '--debugger'], gnu=True)
([('--cwd', 'foo')], ['--unknown', '--debugger'])
restricted parsing rules (early options must come first):
>>> get([b'--cwd', b'foo', b'-Rbar', b'x', b'-q', b'y'], gnu=False)
([('--cwd', 'foo'), ('-R', 'bar')], ['x', '-q', 'y'])
>>> get([b'--cwd=foo', b'x', b'y', b'-R', b'bar', b'--debugger'], gnu=False)
([('--cwd', 'foo')], ['x', 'y', '-R', 'bar', '--debugger'])
>>> get([b'--unknown', b'--cwd=foo', b'--', '--debugger'], gnu=False)
([], ['--unknown', '--cwd=foo', '--', '--debugger'])
stripping early options (without loosing '--'):
>>> get([b'x', b'-Rbar', b'--', '--debugger'], gnu=True, keepsep=True)[1]
['x', '--', '--debugger']
last argument:
>>> get([b'--cwd'])
([], ['--cwd'])
>>> get([b'--cwd=foo'])
([('--cwd', 'foo')], [])
>>> get([b'-R'])
([], ['-R'])
>>> get([b'-Rbar'])
([('-R', 'bar')], [])
>>> get([b'-q'])
([('-q', '')], [])
>>> get([b'-q', b'--'])
([('-q', '')], [])
'--' may be a value:
>>> get([b'-R', b'--', b'x'])
([('-R', '--')], ['x'])
>>> get([b'--cwd', b'--', b'x'])
([('--cwd', '--')], ['x'])
value passed to bool options:
>>> get([b'--debugger=foo', b'x'])
([], ['--debugger=foo', 'x'])
>>> get([b'-qfoo', b'x'])
([], ['-qfoo', 'x'])
short option isn't separated with '=':
>>> get([b'-R=bar'])
([('-R', '=bar')], [])
':' may be in shortlist, but shouldn't be taken as an option letter:
>>> get([b'-:', b'y'])
([], ['-:', 'y'])
'-' is a valid non-option argument:
>>> get([b'-', b'y'])
([], ['-', 'y'])
"""
parsedopts = []
parsedargs = []
pos = 0
while pos < len(args):
arg = args[pos]
if arg == '--':
pos += not keepsep
break
flag, hasval, val, takeval = _earlyoptarg(arg, shortlist, namelist)
if not hasval and takeval and pos + 1 >= len(args):
# missing last argument
break
if not flag or hasval and not takeval:
# non-option argument or -b/--bool=INVALID_VALUE
if gnu:
parsedargs.append(arg)
pos += 1
else:
break
elif hasval == takeval:
# -b/--bool or -s/--str=VALUE
parsedopts.append((flag, val))
pos += 1
else:
# -s/--str VALUE
parsedopts.append((flag, args[pos + 1]))
pos += 2
parsedargs.extend(args[pos:])
return parsedopts, parsedargs
class customopt(object):
"""Manage defaults and mutations for any type of opt."""
__metaclass__ = abc.ABCMeta
def __init__(self, defaultvalue):
self._defaultvalue = defaultvalue
def _isboolopt(self):
return False
def getdefaultvalue(self):
"""Returns the default value for this opt.
Subclasses should override this to return a new value if the value type
is mutable."""
return self._defaultvalue
@abc.abstractmethod
def newstate(self, oldstate, newparam, abort):
"""Adds newparam to oldstate and returns the new state.
On failure, abort can be called with a string error message."""
class _simpleopt(customopt):
def _isboolopt(self):
return isinstance(self._defaultvalue, (bool, type(None)))
def newstate(self, oldstate, newparam, abort):
return newparam
class _callableopt(customopt):
def __init__(self, callablefn):
self.callablefn = callablefn
super(_callableopt, self).__init__(None)
def newstate(self, oldstate, newparam, abort):
return self.callablefn(newparam)
class _listopt(customopt):
def getdefaultvalue(self):
return self._defaultvalue[:]
def newstate(self, oldstate, newparam, abort):
oldstate.append(newparam)
return oldstate
class _intopt(customopt):
def newstate(self, oldstate, newparam, abort):
try:
return int(newparam)
except ValueError:
abort(_('expected int'))
def _defaultopt(default):
"""Returns a default opt implementation, given a default value."""
if isinstance(default, customopt):
return default
elif callable(default):
return _callableopt(default)
elif isinstance(default, list):
return _listopt(default[:])
elif type(default) is type(1):
return _intopt(default)
else:
return _simpleopt(default)
def fancyopts(args, options, state, gnu=False, early=False, optaliases=None):
"""
read args, parse options, and store options in state
each option is a tuple of:
short option or ''
long option
default value
description
option value label(optional)
option types include:
boolean or none - option sets variable in state to true
string - parameter string is stored in state
list - parameter string is added to a list
integer - parameter strings is stored as int
function - call function with parameter
customopt - subclass of 'customopt'
optaliases is a mapping from a canonical option name to a list of
additional long options. This exists for preserving backward compatibility
of early options. If we want to use it extensively, please consider moving
the functionality to the options table (e.g separate long options by '|'.)
non-option args are returned
"""
if optaliases is None:
optaliases = {}
namelist = []
shortlist = ''
argmap = {}
defmap = {}
negations = {}
alllong = set(o[1] for o in options)
for option in options:
if len(option) == 5:
short, name, default, comment, dummy = option
else:
short, name, default, comment = option
# convert opts to getopt format
onames = [name]
onames.extend(optaliases.get(name, []))
name = name.replace('-', '_')
argmap['-' + short] = name
for n in onames:
argmap['--' + n] = name
defmap[name] = _defaultopt(default)
# copy defaults to state
state[name] = defmap[name].getdefaultvalue()
# does it take a parameter?
if not defmap[name]._isboolopt():
if short:
short += ':'
onames = [n + '=' for n in onames]
elif name not in nevernegate:
for n in onames:
if n.startswith('no-'):
insert = n[3:]
else:
insert = 'no-' + n
# backout (as a practical example) has both --commit and
# --no-commit options, so we don't want to allow the
# negations of those flags.
if insert not in alllong:
assert ('--' + n) not in negations
negations['--' + insert] = '--' + n
namelist.append(insert)
if short:
shortlist += short
if name:
namelist.extend(onames)
# parse arguments
if early:
parse = functools.partial(earlygetopt, gnu=gnu)
elif gnu:
parse = pycompat.gnugetoptb
else:
parse = pycompat.getoptb
opts, args = parse(args, shortlist, namelist)
# transfer result to state
for opt, val in opts:
boolval = True
negation = negations.get(opt, False)
if negation:
opt = negation
boolval = False
name = argmap[opt]
obj = defmap[name]
if obj._isboolopt():
state[name] = boolval
else:
def abort(s):
raise error.Abort(_('invalid value %r for option %s, %s')
% (pycompat.maybebytestr(val), opt, s))
state[name] = defmap[name].newstate(state[name], val, abort)
# return unparsed args
return args