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merge: increase safety of parallel updating/removing on icasefs "merge.applyupdates()" sorts "actions" in removal first order, and "workeractions" derived from it should be also sorted. If each actions in "workeractions" are executed in serial, this sorting ensures that merging/updating process is collision free, because updating the file in target context is always executed after removing the existing file which causes case-folding collision against the former. In the other hand, if each actions are executed in parallel, updating on a worker process may be executed before removing on another worker process, because "worker.partition()" partitions list of actions regardless of type of each actions. This patch divides "workeractions" into removing and updating, and executes the former first. This patch still scans "actions"/"workeractions" some times for ease of patch review, even though large list may cost much in this way. (total cost should be as same as before) This also changes some tests, because dividing "workeractions" affects progress indication.
author FUJIWARA Katsunori <foozy@lares.dti.ne.jp>
date Mon, 29 Apr 2013 15:58:15 +0900
parents 4b09e6f7d7de
children b04cc8651a63
line wrap: on
line source

# commandserver.py - communicate with Mercurial's API over a pipe
#
#  Copyright Matt Mackall <mpm@selenic.com>
#
# This software may be used and distributed according to the terms of the
# GNU General Public License version 2 or any later version.

from i18n import _
import struct
import sys, os
import dispatch, encoding, util

logfile = None

def log(*args):
    if not logfile:
        return

    for a in args:
        logfile.write(str(a))

    logfile.flush()

class channeledoutput(object):
    """
    Write data from in_ to out in the following format:

    data length (unsigned int),
    data
    """
    def __init__(self, in_, out, channel):
        self.in_ = in_
        self.out = out
        self.channel = channel

    def write(self, data):
        if not data:
            return
        self.out.write(struct.pack('>cI', self.channel, len(data)))
        self.out.write(data)
        self.out.flush()

    def __getattr__(self, attr):
        if attr in ('isatty', 'fileno'):
            raise AttributeError(attr)
        return getattr(self.in_, attr)

class channeledinput(object):
    """
    Read data from in_.

    Requests for input are written to out in the following format:
    channel identifier - 'I' for plain input, 'L' line based (1 byte)
    how many bytes to send at most (unsigned int),

    The client replies with:
    data length (unsigned int), 0 meaning EOF
    data
    """

    maxchunksize = 4 * 1024

    def __init__(self, in_, out, channel):
        self.in_ = in_
        self.out = out
        self.channel = channel

    def read(self, size=-1):
        if size < 0:
            # if we need to consume all the clients input, ask for 4k chunks
            # so the pipe doesn't fill up risking a deadlock
            size = self.maxchunksize
            s = self._read(size, self.channel)
            buf = s
            while s:
                s = self._read(size, self.channel)
                buf += s

            return buf
        else:
            return self._read(size, self.channel)

    def _read(self, size, channel):
        if not size:
            return ''
        assert size > 0

        # tell the client we need at most size bytes
        self.out.write(struct.pack('>cI', channel, size))
        self.out.flush()

        length = self.in_.read(4)
        length = struct.unpack('>I', length)[0]
        if not length:
            return ''
        else:
            return self.in_.read(length)

    def readline(self, size=-1):
        if size < 0:
            size = self.maxchunksize
            s = self._read(size, 'L')
            buf = s
            # keep asking for more until there's either no more or
            # we got a full line
            while s and s[-1] != '\n':
                s = self._read(size, 'L')
                buf += s

            return buf
        else:
            return self._read(size, 'L')

    def __iter__(self):
        return self

    def next(self):
        l = self.readline()
        if not l:
            raise StopIteration
        return l

    def __getattr__(self, attr):
        if attr in ('isatty', 'fileno'):
            raise AttributeError(attr)
        return getattr(self.in_, attr)

class server(object):
    """
    Listens for commands on stdin, runs them and writes the output on a channel
    based stream to stdout.
    """
    def __init__(self, ui, repo, mode):
        self.cwd = os.getcwd()

        logpath = ui.config("cmdserver", "log", None)
        if logpath:
            global logfile
            if logpath == '-':
                # write log on a special 'd' (debug) channel
                logfile = channeledoutput(sys.stdout, sys.stdout, 'd')
            else:
                logfile = open(logpath, 'a')

        # the ui here is really the repo ui so take its baseui so we don't end
        # up with its local configuration
        self.ui = repo.baseui
        self.repo = repo
        self.repoui = repo.ui

        if mode == 'pipe':
            self.cerr = channeledoutput(sys.stderr, sys.stdout, 'e')
            self.cout = channeledoutput(sys.stdout, sys.stdout, 'o')
            self.cin = channeledinput(sys.stdin, sys.stdout, 'I')
            self.cresult = channeledoutput(sys.stdout, sys.stdout, 'r')

            self.client = sys.stdin
        else:
            raise util.Abort(_('unknown mode %s') % mode)

    def _read(self, size):
        if not size:
            return ''

        data = self.client.read(size)

        # is the other end closed?
        if not data:
            raise EOFError

        return data

    def runcommand(self):
        """ reads a list of \0 terminated arguments, executes
        and writes the return code to the result channel """

        length = struct.unpack('>I', self._read(4))[0]
        if not length:
            args = []
        else:
            args = self._read(length).split('\0')

        # copy the uis so changes (e.g. --config or --verbose) don't
        # persist between requests
        copiedui = self.ui.copy()
        self.repo.baseui = copiedui
        self.repo.ui = self.repo.dirstate._ui = self.repoui.copy()
        self.repo.invalidate()
        self.repo.invalidatedirstate()

        req = dispatch.request(args[:], copiedui, self.repo, self.cin,
                               self.cout, self.cerr)

        ret = dispatch.dispatch(req) or 0 # might return None

        # restore old cwd
        if '--cwd' in args:
            os.chdir(self.cwd)

        self.cresult.write(struct.pack('>i', int(ret)))

    def getencoding(self):
        """ writes the current encoding to the result channel """
        self.cresult.write(encoding.encoding)

    def serveone(self):
        cmd = self.client.readline()[:-1]
        if cmd:
            handler = self.capabilities.get(cmd)
            if handler:
                handler(self)
            else:
                # clients are expected to check what commands are supported by
                # looking at the servers capabilities
                raise util.Abort(_('unknown command %s') % cmd)

        return cmd != ''

    capabilities = {'runcommand'  : runcommand,
                    'getencoding' : getencoding}

    def serve(self):
        hellomsg = 'capabilities: ' + ' '.join(sorted(self.capabilities))
        hellomsg += '\n'
        hellomsg += 'encoding: ' + encoding.encoding

        # write the hello msg in -one- chunk
        self.cout.write(hellomsg)

        try:
            while self.serveone():
                pass
        except EOFError:
            # we'll get here if the client disconnected while we were reading
            # its request
            return 1

        return 0