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# commandserver.py - communicate with Mercurial's API over a pipe
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#
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# Copyright Matt Mackall <mpm@selenic.com>
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#
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# This software may be used and distributed according to the terms of the
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# GNU General Public License version 2 or any later version.
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from __future__ import absolute_import
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import errno
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import gc
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import os
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import random
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import signal
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import socket
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import struct
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import traceback
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try:
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import selectors
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selectors.BaseSelector
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except ImportError:
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from .thirdparty import selectors2 as selectors
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from .i18n import _
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from . import (
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encoding,
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error,
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loggingutil,
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pycompat,
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util,
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vfs as vfsmod,
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)
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from .utils import (
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cborutil,
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procutil,
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)
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class channeledoutput(object):
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"""
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Write data to out in the following format:
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data length (unsigned int),
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data
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"""
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def __init__(self, out, channel):
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self.out = out
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self.channel = channel
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@property
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def name(self):
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return '<%c-channel>' % self.channel
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def write(self, data):
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if not data:
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return
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# single write() to guarantee the same atomicity as the underlying file
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self.out.write(struct.pack('>cI', self.channel, len(data)) + data)
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self.out.flush()
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def __getattr__(self, attr):
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if attr in (r'isatty', r'fileno', r'tell', r'seek'):
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raise AttributeError(attr)
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return getattr(self.out, attr)
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class channeledmessage(object):
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"""
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Write encoded message and metadata to out in the following format:
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data length (unsigned int),
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encoded message and metadata, as a flat key-value dict.
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Each message should have 'type' attribute. Messages of unknown type
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should be ignored.
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"""
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# teach ui that write() can take **opts
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structured = True
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def __init__(self, out, channel, encodename, encodefn):
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self._cout = channeledoutput(out, channel)
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self.encoding = encodename
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self._encodefn = encodefn
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def write(self, data, **opts):
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opts = pycompat.byteskwargs(opts)
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if data is not None:
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opts[b'data'] = data
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self._cout.write(self._encodefn(opts))
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def __getattr__(self, attr):
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return getattr(self._cout, attr)
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class channeledinput(object):
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"""
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Read data from in_.
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Requests for input are written to out in the following format:
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channel identifier - 'I' for plain input, 'L' line based (1 byte)
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how many bytes to send at most (unsigned int),
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The client replies with:
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data length (unsigned int), 0 meaning EOF
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data
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"""
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maxchunksize = 4 * 1024
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def __init__(self, in_, out, channel):
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self.in_ = in_
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self.out = out
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self.channel = channel
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@property
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def name(self):
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return '<%c-channel>' % self.channel
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def read(self, size=-1):
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if size < 0:
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# if we need to consume all the clients input, ask for 4k chunks
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# so the pipe doesn't fill up risking a deadlock
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size = self.maxchunksize
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s = self._read(size, self.channel)
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buf = s
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while s:
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s = self._read(size, self.channel)
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buf += s
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return buf
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else:
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return self._read(size, self.channel)
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def _read(self, size, channel):
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if not size:
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return ''
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assert size > 0
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# tell the client we need at most size bytes
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self.out.write(struct.pack('>cI', channel, size))
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self.out.flush()
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length = self.in_.read(4)
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length = struct.unpack('>I', length)[0]
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if not length:
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return ''
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else:
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return self.in_.read(length)
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def readline(self, size=-1):
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if size < 0:
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size = self.maxchunksize
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s = self._read(size, 'L')
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buf = s
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# keep asking for more until there's either no more or
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# we got a full line
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while s and s[-1] != '\n':
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s = self._read(size, 'L')
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buf += s
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return buf
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else:
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return self._read(size, 'L')
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def __iter__(self):
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return self
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def next(self):
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l = self.readline()
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if not l:
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raise StopIteration
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return l
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__next__ = next
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def __getattr__(self, attr):
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if attr in (r'isatty', r'fileno', r'tell', r'seek'):
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raise AttributeError(attr)
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return getattr(self.in_, attr)
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_messageencoders = {
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b'cbor': lambda v: b''.join(cborutil.streamencode(v)),
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}
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def _selectmessageencoder(ui):
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# experimental config: cmdserver.message-encodings
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encnames = ui.configlist(b'cmdserver', b'message-encodings')
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for n in encnames:
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f = _messageencoders.get(n)
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if f:
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return n, f
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raise error.Abort(b'no supported message encodings: %s'
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% b' '.join(encnames))
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class server(object):
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"""
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Listens for commands on fin, runs them and writes the output on a channel
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based stream to fout.
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"""
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def __init__(self, ui, repo, fin, fout):
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self.cwd = encoding.getcwd()
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if repo:
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# the ui here is really the repo ui so take its baseui so we don't
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# end up with its local configuration
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self.ui = repo.baseui
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self.repo = repo
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self.repoui = repo.ui
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else:
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self.ui = ui
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self.repo = self.repoui = None
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self.cdebug = channeledoutput(fout, 'd')
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self.cerr = channeledoutput(fout, 'e')
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self.cout = channeledoutput(fout, 'o')
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self.cin = channeledinput(fin, fout, 'I')
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self.cresult = channeledoutput(fout, 'r')
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if self.ui.config(b'cmdserver', b'log') == b'-':
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# switch log stream of server's ui to the 'd' (debug) channel
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# (don't touch repo.ui as its lifetime is longer than the server)
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self.ui = self.ui.copy()
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setuplogging(self.ui, repo=None, fp=self.cdebug)
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# TODO: add this to help/config.txt when stabilized
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# ``channel``
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# Use separate channel for structured output. (Command-server only)
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self.cmsg = None
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if ui.config(b'ui', b'message-output') == b'channel':
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encname, encfn = _selectmessageencoder(ui)
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self.cmsg = channeledmessage(fout, b'm', encname, encfn)
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self.client = fin
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def cleanup(self):
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"""release and restore resources taken during server session"""
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def _read(self, size):
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if not size:
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return ''
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data = self.client.read(size)
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# is the other end closed?
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if not data:
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raise EOFError
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return data
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def _readstr(self):
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"""read a string from the channel
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format:
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data length (uint32), data
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"""
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length = struct.unpack('>I', self._read(4))[0]
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if not length:
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return ''
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return self._read(length)
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def _readlist(self):
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"""read a list of NULL separated strings from the channel"""
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s = self._readstr()
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if s:
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return s.split('\0')
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else:
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return []
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def runcommand(self):
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""" reads a list of \0 terminated arguments, executes
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and writes the return code to the result channel """
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from . import dispatch # avoid cycle
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args = self._readlist()
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# copy the uis so changes (e.g. --config or --verbose) don't
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# persist between requests
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copiedui = self.ui.copy()
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uis = [copiedui]
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if self.repo:
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self.repo.baseui = copiedui
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# clone ui without using ui.copy because this is protected
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repoui = self.repoui.__class__(self.repoui)
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repoui.copy = copiedui.copy # redo copy protection
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uis.append(repoui)
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self.repo.ui = self.repo.dirstate._ui = repoui
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self.repo.invalidateall()
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for ui in uis:
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ui.resetstate()
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# any kind of interaction must use server channels, but chg may
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# replace channels by fully functional tty files. so nontty is
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# enforced only if cin is a channel.
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if not util.safehasattr(self.cin, 'fileno'):
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ui.setconfig('ui', 'nontty', 'true', 'commandserver')
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req = dispatch.request(args[:], copiedui, self.repo, self.cin,
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self.cout, self.cerr, self.cmsg)
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try:
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ret = dispatch.dispatch(req) & 255
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self.cresult.write(struct.pack('>i', int(ret)))
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finally:
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# restore old cwd
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if '--cwd' in args:
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os.chdir(self.cwd)
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def getencoding(self):
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""" writes the current encoding to the result channel """
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self.cresult.write(encoding.encoding)
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def serveone(self):
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cmd = self.client.readline()[:-1]
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if cmd:
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handler = self.capabilities.get(cmd)
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if handler:
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handler(self)
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else:
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# clients are expected to check what commands are supported by
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# looking at the servers capabilities
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raise error.Abort(_('unknown command %s') % cmd)
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return cmd != ''
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capabilities = {'runcommand': runcommand,
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'getencoding': getencoding}
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def serve(self):
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hellomsg = 'capabilities: ' + ' '.join(sorted(self.capabilities))
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hellomsg += '\n'
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hellomsg += 'encoding: ' + encoding.encoding
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hellomsg += '\n'
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if self.cmsg:
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hellomsg += 'message-encoding: %s\n' % self.cmsg.encoding
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hellomsg += 'pid: %d' % procutil.getpid()
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if util.safehasattr(os, 'getpgid'):
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hellomsg += '\n'
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hellomsg += 'pgid: %d' % os.getpgid(0)
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# write the hello msg in -one- chunk
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self.cout.write(hellomsg)
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try:
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while self.serveone():
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pass
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except EOFError:
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# we'll get here if the client disconnected while we were reading
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# its request
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return 1
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return 0
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def setuplogging(ui, repo=None, fp=None):
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"""Set up server logging facility
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If cmdserver.log is '-', log messages will be sent to the given fp.
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It should be the 'd' channel while a client is connected, and otherwise
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is the stderr of the server process.
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"""
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# developer config: cmdserver.log
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logpath = ui.config(b'cmdserver', b'log')
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if not logpath:
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return
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# developer config: cmdserver.track-log
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tracked = set(ui.configlist(b'cmdserver', b'track-log'))
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if logpath == b'-' and fp:
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logger = loggingutil.fileobjectlogger(fp, tracked)
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elif logpath == b'-':
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logger = loggingutil.fileobjectlogger(ui.ferr, tracked)
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else:
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logpath = os.path.abspath(util.expandpath(logpath))
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# developer config: cmdserver.max-log-files
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maxfiles = ui.configint(b'cmdserver', b'max-log-files')
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# developer config: cmdserver.max-log-size
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maxsize = ui.configbytes(b'cmdserver', b'max-log-size')
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vfs = vfsmod.vfs(os.path.dirname(logpath))
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logger = loggingutil.filelogger(vfs, os.path.basename(logpath), tracked,
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maxfiles=maxfiles, maxsize=maxsize)
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targetuis = {ui}
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if repo:
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targetuis.add(repo.baseui)
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targetuis.add(repo.ui)
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for u in targetuis:
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u.setlogger(b'cmdserver', logger)
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class pipeservice(object):
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def __init__(self, ui, repo, opts):
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self.ui = ui
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self.repo = repo
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def init(self):
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pass
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def run(self):
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ui = self.ui
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# redirect stdio to null device so that broken extensions or in-process
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# hooks will never cause corruption of channel protocol.
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with procutil.protectedstdio(ui.fin, ui.fout) as (fin, fout):
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sv = server(ui, self.repo, fin, fout)
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try:
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return sv.serve()
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finally:
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sv.cleanup()
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def _initworkerprocess():
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# use a different process group from the master process, in order to:
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# 1. make the current process group no longer "orphaned" (because the
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# parent of this process is in a different process group while
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# remains in a same session)
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# according to POSIX 2.2.2.52, orphaned process group will ignore
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# terminal-generated stop signals like SIGTSTP (Ctrl+Z), which will
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# cause trouble for things like ncurses.
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# 2. the client can use kill(-pgid, sig) to simulate terminal-generated
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# SIGINT (Ctrl+C) and process-exit-generated SIGHUP. our child
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# processes like ssh will be killed properly, without affecting
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# unrelated processes.
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os.setpgid(0, 0)
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# change random state otherwise forked request handlers would have a
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# same state inherited from parent.
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random.seed()
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def _serverequest(ui, repo, conn, createcmdserver):
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fin = conn.makefile(r'rb')
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fout = conn.makefile(r'wb')
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sv = None
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try:
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sv = createcmdserver(repo, conn, fin, fout)
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try:
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sv.serve()
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# handle exceptions that may be raised by command server. most of
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# known exceptions are caught by dispatch.
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except error.Abort as inst:
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ui.error(_('abort: %s\n') % inst)
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except IOError as inst:
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if inst.errno != errno.EPIPE:
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raise
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except KeyboardInterrupt:
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pass
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finally:
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sv.cleanup()
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except: # re-raises
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# also write traceback to error channel. otherwise client cannot
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# see it because it is written to server's stderr by default.
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if sv:
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cerr = sv.cerr
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else:
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cerr = channeledoutput(fout, 'e')
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cerr.write(encoding.strtolocal(traceback.format_exc()))
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raise
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finally:
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fin.close()
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try:
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fout.close() # implicit flush() may cause another EPIPE
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except IOError as inst:
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if inst.errno != errno.EPIPE:
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raise
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class unixservicehandler(object):
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"""Set of pluggable operations for unix-mode services
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Almost all methods except for createcmdserver() are called in the main
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process. You can't pass mutable resource back from createcmdserver().
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"""
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pollinterval = None
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def __init__(self, ui):
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self.ui = ui
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def bindsocket(self, sock, address):
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util.bindunixsocket(sock, address)
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sock.listen(socket.SOMAXCONN)
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self.ui.status(_('listening at %s\n') % address)
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self.ui.flush() # avoid buffering of status message
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def unlinksocket(self, address):
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os.unlink(address)
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def shouldexit(self):
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"""True if server should shut down; checked per pollinterval"""
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return False
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def newconnection(self):
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"""Called when main process notices new connection"""
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def createcmdserver(self, repo, conn, fin, fout):
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"""Create new command server instance; called in the process that
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serves for the current connection"""
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return server(self.ui, repo, fin, fout)
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class unixforkingservice(object):
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"""
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Listens on unix domain socket and forks server per connection
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"""
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def __init__(self, ui, repo, opts, handler=None):
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self.ui = ui
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self.repo = repo
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self.address = opts['address']
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if not util.safehasattr(socket, 'AF_UNIX'):
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raise error.Abort(_('unsupported platform'))
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if not self.address:
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raise error.Abort(_('no socket path specified with --address'))
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self._servicehandler = handler or unixservicehandler(ui)
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self._sock = None
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self._oldsigchldhandler = None
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self._workerpids = set() # updated by signal handler; do not iterate
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self._socketunlinked = None
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def init(self):
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self._sock = socket.socket(socket.AF_UNIX)
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self._servicehandler.bindsocket(self._sock, self.address)
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if util.safehasattr(procutil, 'unblocksignal'):
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procutil.unblocksignal(signal.SIGCHLD)
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o = signal.signal(signal.SIGCHLD, self._sigchldhandler)
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self._oldsigchldhandler = o
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self._socketunlinked = False
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def _unlinksocket(self):
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if not self._socketunlinked:
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self._servicehandler.unlinksocket(self.address)
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self._socketunlinked = True
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def _cleanup(self):
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signal.signal(signal.SIGCHLD, self._oldsigchldhandler)
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self._sock.close()
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self._unlinksocket()
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# don't kill child processes as they have active clients, just wait
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self._reapworkers(0)
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def run(self):
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try:
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self._mainloop()
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finally:
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self._cleanup()
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def _mainloop(self):
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exiting = False
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h = self._servicehandler
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selector = selectors.DefaultSelector()
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selector.register(self._sock, selectors.EVENT_READ)
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while True:
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if not exiting and h.shouldexit():
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# clients can no longer connect() to the domain socket, so
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# we stop queuing new requests.
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# for requests that are queued (connect()-ed, but haven't been
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# accept()-ed), handle them before exit. otherwise, clients
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# waiting for recv() will receive ECONNRESET.
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self._unlinksocket()
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exiting = True
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try:
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ready = selector.select(timeout=h.pollinterval)
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except OSError as inst:
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# selectors2 raises ETIMEDOUT if timeout exceeded while
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# handling signal interrupt. That's probably wrong, but
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# we can easily get around it.
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if inst.errno != errno.ETIMEDOUT:
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raise
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ready = []
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if not ready:
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# only exit if we completed all queued requests
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if exiting:
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break
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continue
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try:
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conn, _addr = self._sock.accept()
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except socket.error as inst:
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if inst.args[0] == errno.EINTR:
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continue
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raise
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pid = os.fork()
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if pid:
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try:
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self.ui.log(b'cmdserver',
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b'forked worker process (pid=%d)\n', pid)
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self._workerpids.add(pid)
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h.newconnection()
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finally:
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conn.close() # release handle in parent process
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else:
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try:
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selector.close()
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self._sock.close()
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self._runworker(conn)
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conn.close()
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os._exit(0)
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except: # never return, hence no re-raises
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try:
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self.ui.traceback(force=True)
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finally:
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os._exit(255)
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selector.close()
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def _sigchldhandler(self, signal, frame):
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self._reapworkers(os.WNOHANG)
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def _reapworkers(self, options):
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while self._workerpids:
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try:
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pid, _status = os.waitpid(-1, options)
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except OSError as inst:
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if inst.errno == errno.EINTR:
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continue
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if inst.errno != errno.ECHILD:
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raise
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# no child processes at all (reaped by other waitpid()?)
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self._workerpids.clear()
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return
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if pid == 0:
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# no waitable child processes
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return
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self.ui.log(b'cmdserver', b'worker process exited (pid=%d)\n', pid)
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self._workerpids.discard(pid)
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def _runworker(self, conn):
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signal.signal(signal.SIGCHLD, self._oldsigchldhandler)
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_initworkerprocess()
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h = self._servicehandler
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try:
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_serverequest(self.ui, self.repo, conn, h.createcmdserver)
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finally:
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gc.collect() # trigger __del__ since worker process uses os._exit
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