Commit 48bcb3a7 authored by Jeremy Hylton's avatar Jeremy Hylton

Changes from the ZEO-ZRPC-Dev branch merge.

parent 98eb0f1e
......@@ -144,18 +144,20 @@ file 0 and file 1.
"""
__version__ = "$Revision: 1.18 $"[11:-2]
__version__ = "$Revision: 1.19 $"[11:-2]
import os, tempfile
from struct import pack, unpack
from thread import allocate_lock
import zLOG
magic='ZEC0'
import sys
import zLOG
def LOG(msg, level=zLOG.BLATHER):
def log(msg, level=zLOG.INFO):
zLOG.LOG("ZEC", level, msg)
magic='ZEC0'
class ClientCache:
def __init__(self, storage='', size=20000000, client=None, var=None):
......@@ -211,16 +213,14 @@ class ClientCache:
f[0].write(magic)
current=0
log("cache opened. current = %s" % current)
self._limit=size/2
self._current=current
def close(self):
try:
self._f[self._current].close()
except (os.error, ValueError):
pass
def open(self):
# XXX open is overloaded to perform two tasks for
# optimization reasons
self._acquire()
try:
self._index=index={}
......@@ -235,6 +235,19 @@ class ClientCache:
return serial.items()
finally: self._release()
def close(self):
for f in self._f:
if f is not None:
f.close()
def verify(self, verifyFunc):
"""Call the verifyFunc on every object in the cache.
verifyFunc(oid, serialno, version)
"""
for oid, (s, vs) in self.open():
verifyFunc(oid, s, vs)
def invalidate(self, oid, version):
self._acquire()
try:
......@@ -373,8 +386,6 @@ class ClientCache:
self._f[current]=open(self._p[current],'w+b')
else:
# Temporary cache file:
if self._f[current] is not None:
self._f[current].close()
self._f[current] = tempfile.TemporaryFile(suffix='.zec')
self._f[current].write(magic)
self._pos=pos=4
......@@ -383,55 +394,57 @@ class ClientCache:
def store(self, oid, p, s, version, pv, sv):
self._acquire()
try: self._store(oid, p, s, version, pv, sv)
finally: self._release()
try:
self._store(oid, p, s, version, pv, sv)
finally:
self._release()
def _store(self, oid, p, s, version, pv, sv):
if not s:
p=''
s='\0\0\0\0\0\0\0\0'
tlen=31+len(p)
p = ''
s = '\0\0\0\0\0\0\0\0'
tlen = 31 + len(p)
if version:
tlen=tlen+len(version)+12+len(pv)
vlen=len(version)
tlen = tlen + len(version) + 12 + len(pv)
vlen = len(version)
else:
vlen=0
vlen = 0
pos=self._pos
current=self._current
f=self._f[current]
f.seek(pos)
stlen=pack(">I",tlen)
write=f.write
write(oid+'v'+stlen+pack(">HI", vlen, len(p))+s)
if p: write(p)
stlen = pack(">I", tlen)
# accumulate various data to write into a list
l = [oid, 'v', stlen, pack(">HI", vlen, len(p)), s]
if p:
l.append(p)
if version:
write(version)
write(pack(">I", len(pv)))
write(pv)
write(sv)
write(stlen)
if current: self._index[oid]=-pos
else: self._index[oid]=pos
l.extend([version,
pack(">I", len(pv)),
pv, sv])
l.append(stlen)
f = self._f[self._current]
f.seek(self._pos)
f.write("".join(l))
if self._current:
self._index[oid] = - self._pos
else:
self._index[oid] = self._pos
self._pos=pos+tlen
self._pos += tlen
def read_index(index, serial, f, current):
LOG("read_index(%s)" % f.name)
seek=f.seek
read=f.read
pos=4
seek(0,2)
size=f.tell()
while 1:
seek(pos)
f.seek(pos)
h=read(27)
if len(h)==27 and h[8] in 'vni':
tlen, vlen, dlen = unpack(">iHi", h[9:19])
else:
break
else: tlen=-1
if tlen <= 0 or vlen < 0 or dlen < 0 or vlen+dlen > tlen:
break
......@@ -466,15 +479,3 @@ def read_index(index, serial, f, current):
except: pass
return pos
def main(files):
for file in files:
print file
index = {}
serial = {}
read_index(index, serial, open(file), 0)
print index.keys()
if __name__ == "__main__":
import sys
main(sys.argv[1:])
This diff is collapsed.
"""Stub for interface exported by ClientStorage"""
class ClientStorage:
def __init__(self, rpc):
self.rpc = rpc
def beginVerify(self):
self.rpc.callAsync('begin')
# XXX what's the difference between these two?
def invalidate(self, args):
self.rpc.callAsync('invalidate', args)
def Invalidate(self, args):
self.rpc.callAsync('Invalidate', args)
def endVerify(self):
self.rpc.callAsync('end')
def serialno(self, arg):
self.rpc.callAsync('serialno', arg)
def info(self, arg):
self.rpc.callAsync('info', arg)
"""Exceptions for ZEO."""
class Disconnected(Exception):
"""Exception raised when a ZEO client is disconnected from the
ZEO server."""
"""Stub for interface exposed by StorageServer"""
class StorageServer:
def __init__(self, rpc):
self.rpc = rpc
def register(self, storage_name, read_only):
self.rpc.call('register', storage_name, read_only)
def get_info(self):
return self.rpc.call('get_info')
def get_size_info(self):
return self.rpc.call('get_size_info')
def beginZeoVerify(self):
self.rpc.callAsync('beginZeoVerify')
def zeoVerify(self, oid, s, sv):
self.rpc.callAsync('zeoVerify', oid, s, sv)
def endZeoVerify(self):
self.rpc.callAsync('endZeoVerify')
def new_oids(self, n=None):
if n is None:
return self.rpc.call('new_oids')
else:
return self.rpc.call('new_oids', n)
def pack(self, t, wait=None):
if wait is None:
self.rpc.call('pack', t)
else:
self.rpc.call('pack', t, wait)
def zeoLoad(self, oid):
return self.rpc.call('zeoLoad', oid)
def storea(self, oid, serial, data, version, id):
self.rpc.callAsync('storea', oid, serial, data, version, id)
def tpc_begin(self, id, user, descr, ext):
return self.rpc.call('tpc_begin', id, user, descr, ext)
def vote(self, trans_id):
return self.rpc.call('vote', trans_id)
def tpc_finish(self, id):
return self.rpc.call('tpc_finish', id)
def tpc_abort(self, id):
self.rpc.callAsync('tpc_abort', id)
def abortVersion(self, src, id):
return self.rpc.call('abortVersion', src, id)
def commitVersion(self, src, dest, id):
return self.rpc.call('commitVersion', src, dest, id)
def history(self, oid, version, length=None):
if length is not None:
return self.rpc.call('history', oid, version)
else:
return self.rpc.call('history', oid, version, length)
def load(self, oid, version):
return self.rpc.call('load', oid, version)
def loadSerial(self, oid, serial):
return self.rpc.call('loadSerial', oid, serial)
def modifiedInVersion(self, oid):
return self.rpc.call('modifiedInVersion', oid)
def new_oid(self, last=None):
if last is None:
return self.rpc.call('new_oid')
else:
return self.rpc.call('new_oid', last)
def store(self, oid, serial, data, version, trans):
return self.rpc.call('store', oid, serial, data, version, trans)
def transactionalUndo(self, trans_id, trans):
return self.rpc.call('transactionalUndo', trans_id, trans)
def undo(self, trans_id):
return self.rpc.call('undo', trans_id)
def undoLog(self, first, last):
# XXX filter not allowed across RPC
return self.rpc.call('undoLog', first, last)
def undoInfo(self, first, last, spec):
return self.rpc.call('undoInfo', first, last, spec)
def versionEmpty(self, vers):
return self.rpc.call('versionEmpty', vers)
def versions(self, max=None):
if max is None:
return self.rpc.call('versions')
else:
return self.rpc.call('versions', max)
This diff is collapsed.
"""A TransactionBuffer store transaction updates until commit or abort.
A transaction may generate enough data that it is not practical to
always hold pending updates in memory. Instead, a TransactionBuffer
is used to store the data until a commit or abort.
"""
# XXX Figure out what a sensible storage format is
# XXX A faster implementation might store trans data in memory until
# it reaches a certain size.
import tempfile
import cPickle
class TransactionBuffer:
def __init__(self):
self.file = tempfile.TemporaryFile()
self.count = 0
self.size = 0
# It's safe to use a fast pickler because the only objects
# stored are builtin types -- strings or None.
self.pickler = cPickle.Pickler(self.file, 1)
self.pickler.fast = 1
def store(self, oid, version, data):
"""Store oid, version, data for later retrieval"""
self.pickler.dump((oid, version, data))
self.count += 1
# Estimate per-record cache size
self.size = self.size + len(data) + (27 + 12)
if version:
self.size = self.size + len(version) + 4
def invalidate(self, oid, version):
self.pickler.dump((oid, version, None))
self.count += 1
def clear(self):
"""Mark the buffer as empty"""
self.file.seek(0)
self.count = 0
self.size = 0
# XXX unchecked constraints:
# 1. can't call store() after begin_iterate()
# 2. must call clear() after iteration finishes
def begin_iterate(self):
"""Move the file pointer in advance of iteration"""
self.file.flush()
self.file.seek(0)
self.unpickler = cPickle.Unpickler(self.file)
def next(self):
"""Return next tuple of data or None if EOF"""
if self.count == 0:
del self.unpickler
return None
oid_ver_data = self.unpickler.load()
self.count -= 1
return oid_ver_data
def get_size(self):
"""Return size of data stored in buffer (just a hint)."""
return self.size
......@@ -85,11 +85,14 @@
"""Sized message async connections
"""
__version__ = "$Revision: 1.11 $"[11:-2]
__version__ = "$Revision: 1.12 $"[11:-2]
import asyncore, struct
from Exceptions import Disconnected
from zLOG import LOG, TRACE, ERROR, INFO, BLATHER
from types import StringType
import asyncore, string, struct, zLOG, sys, Acquisition
import socket, errno
from zLOG import LOG, TRACE, ERROR, INFO
# Use the dictionary to make sure we get the minimum number of errno
# entries. We expect that EWOULDBLOCK == EAGAIN on most systems --
......@@ -109,81 +112,101 @@ tmp_dict = {errno.EAGAIN: 0,
expected_socket_write_errors = tuple(tmp_dict.keys())
del tmp_dict
class SizedMessageAsyncConnection(Acquisition.Explicit, asyncore.dispatcher):
class SizedMessageAsyncConnection(asyncore.dispatcher):
__super_init = asyncore.dispatcher.__init__
__super_close = asyncore.dispatcher.close
__closed = 1 # Marker indicating that we're closed
__append=None # Marker indicating that we're closed
socket = None # to outwit Sam's getattr
socket=None # to outwit Sam's getattr
READ_SIZE = 8096
def __init__(self, sock, addr, map=None, debug=None):
SizedMessageAsyncConnection.inheritedAttribute(
'__init__')(self, sock, map)
self.addr=addr
self.__super_init(sock, map)
self.addr = addr
if debug is not None:
self._debug=debug
self._debug = debug
elif not hasattr(self, '_debug'):
self._debug=__debug__ and 'smac'
self.__state=None
self.__inp=None
self.__inpl=0
self.__l=4
self.__output=output=[]
self.__append=output.append
self.__pop=output.pop
def handle_read(self,
join=string.join, StringType=type(''), _type=type,
_None=None):
self._debug = __debug__ and 'smac'
self.__state = None
self.__inp = None # None, a single String, or a list
self.__input_len = 0
self.__msg_size = 4
self.__output = []
self.__closed = None
# XXX avoid expensive getattr calls?
def __nonzero__(self):
return 1
def handle_read(self):
# Use a single __inp buffer and integer indexes to make this
# fast.
try:
d=self.recv(8096)
except socket.error, err:
if err[0] in expected_socket_read_errors:
return
raise
if not d: return
inp=self.__inp
if inp is _None:
inp=d
elif _type(inp) is StringType:
inp=[inp,d]
if not d:
return
input_len = self.__input_len + len(d)
msg_size = self.__msg_size
state = self.__state
inp = self.__inp
if msg_size > input_len:
if inp is None:
self.__inp = d
elif type(self.__inp) is StringType:
self.__inp = [self.__inp, d]
else:
self.__inp.append(d)
self.__input_len = input_len
return # keep waiting for more input
# load all previous input and d into single string inp
if isinstance(inp, StringType):
inp = inp + d
elif inp is None:
inp = d
else:
inp.append(d)
inpl=self.__inpl+len(d)
l=self.__l
while 1:
if l <= inpl:
# Woo hoo, we have enough data
if _type(inp) is not StringType: inp=join(inp,'')
d=inp[:l]
inp=inp[l:]
inpl=inpl-l
if self.__state is _None:
# waiting for message
l=struct.unpack(">i",d)[0]
self.__state=1
else:
l=4
self.__state=_None
self.message_input(d)
inp = "".join(inp)
offset = 0
while (offset + msg_size) <= input_len:
msg = inp[offset:offset + msg_size]
offset = offset + msg_size
if state is None:
# waiting for message
msg_size = struct.unpack(">i", msg)[0]
state = 1
else:
break # not enough data
self.__l=l
self.__inp=inp
self.__inpl=inpl
msg_size = 4
state = None
self.message_input(msg)
def readable(self): return 1
def writable(self): return not not self.__output
self.__state = state
self.__msg_size = msg_size
self.__inp = inp[offset:]
self.__input_len = input_len - offset
def readable(self):
return 1
def writable(self):
if len(self.__output) == 0:
return 0
else:
return 1
def handle_write(self):
output=self.__output
output = self.__output
while output:
v=output[0]
v = output[0]
try:
n=self.send(v)
except socket.error, err:
......@@ -191,42 +214,33 @@ class SizedMessageAsyncConnection(Acquisition.Explicit, asyncore.dispatcher):
break # we couldn't write anything
raise
if n < len(v):
output[0]=v[n:]
output[0] = v[n:]
break # we can't write any more
else:
del output[0]
#break # waaa
def handle_close(self):
self.close()
def message_output(self, message,
pack=struct.pack, len=len):
if self._debug:
if len(message) > 40: m=message[:40]+' ...'
else: m=message
LOG(self._debug, TRACE, 'message_output %s' % `m`)
append=self.__append
if append is None:
raise Disconnected("This action is temporarily unavailable.<p>")
append(pack(">i",len(message))+message)
def log_info(self, message, type='info'):
if type=='error': type=ERROR
else: type=INFO
LOG('ZEO', type, message)
log=log_info
def message_output(self, message):
if __debug__:
if self._debug:
if len(message) > 40:
m = message[:40]+' ...'
else:
m = message
LOG(self._debug, TRACE, 'message_output %s' % `m`)
if self.__closed is not None:
raise Disconnected, (
"This action is temporarily unavailable."
"<p>"
)
# do two separate appends to avoid copying the message string
self.__output.append(struct.pack(">i", len(message)))
self.__output.append(message)
def close(self):
if self.__append is not None:
self.__append=None
SizedMessageAsyncConnection.inheritedAttribute('close')(self)
class Disconnected(Exception):
"""The client has become disconnected from the server
"""
if self.__closed is None:
self.__closed = 1
self.__super_close()
......@@ -86,10 +86,13 @@
"""Start the server storage.
"""
__version__ = "$Revision: 1.26 $"[11:-2]
__version__ = "$Revision: 1.27 $"[11:-2]
import sys, os, getopt, string
import StorageServer
import asyncore
def directory(p, n=1):
d=p
while n:
......@@ -115,9 +118,11 @@ def get_storage(m, n, cache={}):
def main(argv):
me=argv[0]
sys.path[:]==filter(None, sys.path)
sys.path.insert(0, directory(me, 2))
# XXX hack for profiling support
global unix, storages, zeo_pid, asyncore
args=[]
last=''
for a in argv[1:]:
......@@ -130,25 +135,13 @@ def main(argv):
args.append(a)
last=a
if os.environ.has_key('INSTANCE_HOME'):
INSTANCE_HOME=os.environ['INSTANCE_HOME']
elif os.path.isdir(os.path.join(directory(me, 4),'var')):
INSTANCE_HOME=directory(me, 4)
else:
INSTANCE_HOME=os.getcwd()
if os.path.isdir(os.path.join(INSTANCE_HOME, 'var')):
var=os.path.join(INSTANCE_HOME, 'var')
else:
var=INSTANCE_HOME
INSTANCE_HOME=os.environ.get('INSTANCE_HOME', directory(me, 4))
zeo_pid=os.environ.get('ZEO_SERVER_PID',
os.path.join(var, 'ZEO_SERVER.pid')
os.path.join(INSTANCE_HOME, 'var', 'ZEO_SERVER.pid')
)
opts, args = getopt.getopt(args, 'p:Ddh:U:sS:u:')
fs=os.path.join(var, 'Data.fs')
fs=os.path.join(INSTANCE_HOME, 'var', 'Data.fs')
usage="""%s [options] [filename]
......@@ -156,17 +149,14 @@ def main(argv):
-D -- Run in debug mode
-d -- Generate detailed debug logging without running
in the foreground.
-U -- Unix-domain socket file to listen on
-u username or uid number
The username to run the ZEO server as. You may want to run
the ZEO server as 'nobody' or some other user with limited
resouces. The only works under Unix, and if the storage
server is started by root.
resouces. The only works under Unix, and if ZServer is
started by root.
-p port -- port to listen on
......@@ -189,23 +179,42 @@ def main(argv):
attr_name -- This is the name to which the storage object
is assigned in the module.
-P file -- Run under profile and dump output to file. Implies the
-s flag.
if no file name is specified, then %s is used.
""" % (me, fs)
try:
opts, args = getopt.getopt(args, 'p:Dh:U:sS:u:P:')
except getopt.error, msg:
print usage
print msg
sys.exit(1)
port=None
debug=detailed=0
debug=0
host=''
unix=None
Z=1
UID='nobody'
prof = None
for o, v in opts:
if o=='-p': port=string.atoi(v)
elif o=='-h': host=v
elif o=='-U': unix=v
elif o=='-u': UID=v
elif o=='-D': debug=1
elif o=='-d': detailed=1
elif o=='-s': Z=0
elif o=='-P': prof = v
if prof:
Z = 0
try:
from ZServer.medusa import asyncore
sys.modules['asyncore']=asyncore
except: pass
if port is None and unix is None:
print usage
......@@ -219,10 +228,9 @@ def main(argv):
sys.exit(1)
fs=args[0]
__builtins__.__debug__=debug
if debug: os.environ['Z_DEBUG_MODE']='1'
if detailed: os.environ['STUPID_LOG_SEVERITY']='-99999'
from zLOG import LOG, INFO, ERROR
# Try to set uid to "-u" -provided uid.
......@@ -263,71 +271,54 @@ def main(argv):
import zdaemon
zdaemon.run(sys.argv, '')
try:
import ZEO.StorageServer, asyncore
storages={}
for o, v in opts:
if o=='-S':
n, m = string.split(v,'=')
if string.find(m,':'):
# we got an attribute name
m, a = string.split(m,':')
else:
# attribute name must be same as storage name
a=n
storages[n]=get_storage(m,a)
if not storages:
import ZODB.FileStorage
storages['1']=ZODB.FileStorage.FileStorage(fs)
# Try to set up a signal handler
try:
import signal
signal.signal(signal.SIGTERM,
lambda sig, frame, s=storages: shutdown(s)
)
signal.signal(signal.SIGINT,
lambda sig, frame, s=storages: shutdown(s, 0)
)
try: signal.signal(signal.SIGHUP, rotate_logs_handler)
except: pass
except: pass
items=storages.items()
items.sort()
for kv in items:
LOG('ZEO Server', INFO, 'Serving %s:\t%s' % kv)
if not unix: unix=host, port
ZEO.StorageServer.StorageServer(unix, storages)
try: ppid, pid = os.getppid(), os.getpid()
except: pass # getpid not supported
else: open(zeo_pid,'w').write("%s %s" % (ppid, pid))
except:
# Log startup exception and tell zdaemon not to restart us.
info=sys.exc_info()
try:
import zLOG
zLOG.LOG("z2", zLOG.PANIC, "Startup exception",
error=info)
except:
pass
import traceback
apply(traceback.print_exception, info)
sys.exit(0)
storages={}
for o, v in opts:
if o=='-S':
n, m = string.split(v,'=')
if string.find(m,':'):
# we got an attribute name
m, a = string.split(m,':')
else:
# attribute name must be same as storage name
a=n
storages[n]=get_storage(m,a)
asyncore.loop()
if not storages:
import ZODB.FileStorage
storages['1']=ZODB.FileStorage.FileStorage(fs)
# Try to set up a signal handler
try:
import signal
signal.signal(signal.SIGTERM,
lambda sig, frame, s=storages: shutdown(s)
)
signal.signal(signal.SIGINT,
lambda sig, frame, s=storages: shutdown(s, 0)
)
signal.signal(signal.SIGHUP, rotate_logs_handler)
finally: pass
items=storages.items()
items.sort()
for kv in items:
LOG('ZEO Server', INFO, 'Serving %s:\t%s' % kv)
if not unix: unix=host, port
if prof:
cmds = \
"StorageServer.StorageServer(unix, storages);" \
'open(zeo_pid,"w").write("%s %s" % (os.getppid(), os.getpid()));' \
"asyncore.loop()"
import profile
profile.run(cmds, prof)
else:
StorageServer.StorageServer(unix, storages)
open(zeo_pid,'w').write("%s %s" % (os.getppid(), os.getpid()))
asyncore.loop()
def rotate_logs():
import zLOG
......@@ -335,10 +326,7 @@ def rotate_logs():
zLOG.log_write.reinitialize()
else:
# Hm, lets at least try to take care of the stupid logger:
if hasattr(zLOG, '_set_stupid_dest'):
zLOG._set_stupid_dest(None)
else:
zLOG._stupid_dest = None
zLOG._stupid_dest=None
def rotate_logs_handler(signum, frame):
rotate_logs()
......@@ -359,7 +347,7 @@ def shutdown(storages, die=1):
for storage in storages.values():
try: storage.close()
except: pass
finally: pass
try:
from zLOG import LOG, INFO
......
# Copyright (c) 2001 Zope Corporation and Contributors. All Rights Reserved.
#
# This software is subject to the provisions of the Zope Public License,
# Version 1.1 (ZPL). A copy of the ZPL should accompany this
# distribution. THIS SOFTWARE IS PROVIDED "AS IS" AND ANY AND ALL
# EXPRESS OR IMPLIED WARRANTIES ARE DISCLAIMED, INCLUDING, BUT NOT
# LIMITED TO, THE IMPLIED WARRANTIES OF TITLE, MERCHANTABILITY, AGAINST
# INFRINGEMENT, AND FITNESS FOR A PARTICULAR PURPOSE.
"""Library for forking storage server and connecting client storage"""
import asyncore
import os
import profile
import random
import socket
import sys
import traceback
import types
import ZEO.ClientStorage, ZEO.StorageServer
# Change value of PROFILE to enable server-side profiling
PROFILE = 0
if PROFILE:
import hotshot
def get_port():
"""Return a port that is not in use.
......@@ -66,9 +78,11 @@ else:
buf = self.recv(4)
if buf:
assert buf == "done"
server.close_server()
asyncore.socket_map.clear()
def handle_close(self):
server.close_server()
asyncore.socket_map.clear()
class ZEOClientExit:
......@@ -77,20 +91,27 @@ else:
self.pipe = pipe
def close(self):
os.write(self.pipe, "done")
os.close(self.pipe)
try:
os.write(self.pipe, "done")
os.close(self.pipe)
except os.error:
pass
def start_zeo_server(storage, addr):
rd, wr = os.pipe()
pid = os.fork()
if pid == 0:
if PROFILE:
p = profile.Profile()
p.runctx("run_server(storage, addr, rd, wr)", globals(),
locals())
p.dump_stats("stats.s.%d" % os.getpid())
else:
run_server(storage, addr, rd, wr)
try:
if PROFILE:
p = hotshot.Profile("stats.s.%d" % os.getpid())
p.runctx("run_server(storage, addr, rd, wr)",
globals(), locals())
p.close()
else:
run_server(storage, addr, rd, wr)
except:
print "Exception in ZEO server process"
traceback.print_exc()
os._exit(0)
else:
os.close(rd)
......@@ -98,11 +119,11 @@ else:
def run_server(storage, addr, rd, wr):
# in the child, run the storage server
global server
os.close(wr)
ZEOServerExit(rd)
serv = ZEO.StorageServer.StorageServer(addr, {'1':storage})
server = ZEO.StorageServer.StorageServer(addr, {'1':storage})
asyncore.loop()
os.close(rd)
storage.close()
if isinstance(addr, types.StringType):
os.unlink(addr)
......@@ -128,6 +149,7 @@ else:
s = ZEO.ClientStorage.ClientStorage(addr, storage_id,
debug=1, client=cache,
cache_size=cache_size,
min_disconnect_poll=0.5)
min_disconnect_poll=0.5,
wait_for_server_on_startup=1)
return s, exit, pid
import random
import unittest
from ZEO.TransactionBuffer import TransactionBuffer
def random_string(size):
"""Return a random string of size size."""
l = [chr(random.randrange(256)) for i in range(size)]
return "".join(l)
def new_store_data():
"""Return arbitrary data to use as argument to store() method."""
return random_string(8), '', random_string(random.randrange(1000))
def new_invalidate_data():
"""Return arbitrary data to use as argument to invalidate() method."""
return random_string(8), ''
class TransBufTests(unittest.TestCase):
def checkTypicalUsage(self):
tbuf = TransactionBuffer()
tbuf.store(*new_store_data())
tbuf.invalidate(*new_invalidate_data())
tbuf.begin_iterate()
while 1:
o = tbuf.next()
if o is None:
break
tbuf.clear()
def doUpdates(self, tbuf):
data = []
for i in range(10):
d = new_store_data()
tbuf.store(*d)
data.append(d)
d = new_invalidate_data()
tbuf.invalidate(*d)
data.append(d)
tbuf.begin_iterate()
for i in range(len(data)):
x = tbuf.next()
if x[2] is None:
# the tbuf add a dummy None to invalidates
x = x[:2]
self.assertEqual(x, data[i])
def checkOrderPreserved(self):
tbuf = TransactionBuffer()
self.doUpdates(tbuf)
def checkReusable(self):
tbuf = TransactionBuffer()
self.doUpdates(tbuf)
tbuf.clear()
self.doUpdates(tbuf)
tbuf.clear()
self.doUpdates(tbuf)
def test_suite():
return unittest.makeSuite(TransBufTests, 'check')
......@@ -85,11 +85,14 @@
"""Sized message async connections
"""
__version__ = "$Revision: 1.11 $"[11:-2]
__version__ = "$Revision: 1.12 $"[11:-2]
import asyncore, struct
from Exceptions import Disconnected
from zLOG import LOG, TRACE, ERROR, INFO, BLATHER
from types import StringType
import asyncore, string, struct, zLOG, sys, Acquisition
import socket, errno
from zLOG import LOG, TRACE, ERROR, INFO
# Use the dictionary to make sure we get the minimum number of errno
# entries. We expect that EWOULDBLOCK == EAGAIN on most systems --
......@@ -109,81 +112,101 @@ tmp_dict = {errno.EAGAIN: 0,
expected_socket_write_errors = tuple(tmp_dict.keys())
del tmp_dict
class SizedMessageAsyncConnection(Acquisition.Explicit, asyncore.dispatcher):
class SizedMessageAsyncConnection(asyncore.dispatcher):
__super_init = asyncore.dispatcher.__init__
__super_close = asyncore.dispatcher.close
__closed = 1 # Marker indicating that we're closed
__append=None # Marker indicating that we're closed
socket = None # to outwit Sam's getattr
socket=None # to outwit Sam's getattr
READ_SIZE = 8096
def __init__(self, sock, addr, map=None, debug=None):
SizedMessageAsyncConnection.inheritedAttribute(
'__init__')(self, sock, map)
self.addr=addr
self.__super_init(sock, map)
self.addr = addr
if debug is not None:
self._debug=debug
self._debug = debug
elif not hasattr(self, '_debug'):
self._debug=__debug__ and 'smac'
self.__state=None
self.__inp=None
self.__inpl=0
self.__l=4
self.__output=output=[]
self.__append=output.append
self.__pop=output.pop
def handle_read(self,
join=string.join, StringType=type(''), _type=type,
_None=None):
self._debug = __debug__ and 'smac'
self.__state = None
self.__inp = None # None, a single String, or a list
self.__input_len = 0
self.__msg_size = 4
self.__output = []
self.__closed = None
# XXX avoid expensive getattr calls?
def __nonzero__(self):
return 1
def handle_read(self):
# Use a single __inp buffer and integer indexes to make this
# fast.
try:
d=self.recv(8096)
except socket.error, err:
if err[0] in expected_socket_read_errors:
return
raise
if not d: return
inp=self.__inp
if inp is _None:
inp=d
elif _type(inp) is StringType:
inp=[inp,d]
if not d:
return
input_len = self.__input_len + len(d)
msg_size = self.__msg_size
state = self.__state
inp = self.__inp
if msg_size > input_len:
if inp is None:
self.__inp = d
elif type(self.__inp) is StringType:
self.__inp = [self.__inp, d]
else:
self.__inp.append(d)
self.__input_len = input_len
return # keep waiting for more input
# load all previous input and d into single string inp
if isinstance(inp, StringType):
inp = inp + d
elif inp is None:
inp = d
else:
inp.append(d)
inpl=self.__inpl+len(d)
l=self.__l
while 1:
if l <= inpl:
# Woo hoo, we have enough data
if _type(inp) is not StringType: inp=join(inp,'')
d=inp[:l]
inp=inp[l:]
inpl=inpl-l
if self.__state is _None:
# waiting for message
l=struct.unpack(">i",d)[0]
self.__state=1
else:
l=4
self.__state=_None
self.message_input(d)
inp = "".join(inp)
offset = 0
while (offset + msg_size) <= input_len:
msg = inp[offset:offset + msg_size]
offset = offset + msg_size
if state is None:
# waiting for message
msg_size = struct.unpack(">i", msg)[0]
state = 1
else:
break # not enough data
self.__l=l
self.__inp=inp
self.__inpl=inpl
msg_size = 4
state = None
self.message_input(msg)
def readable(self): return 1
def writable(self): return not not self.__output
self.__state = state
self.__msg_size = msg_size
self.__inp = inp[offset:]
self.__input_len = input_len - offset
def readable(self):
return 1
def writable(self):
if len(self.__output) == 0:
return 0
else:
return 1
def handle_write(self):
output=self.__output
output = self.__output
while output:
v=output[0]
v = output[0]
try:
n=self.send(v)
except socket.error, err:
......@@ -191,42 +214,33 @@ class SizedMessageAsyncConnection(Acquisition.Explicit, asyncore.dispatcher):
break # we couldn't write anything
raise
if n < len(v):
output[0]=v[n:]
output[0] = v[n:]
break # we can't write any more
else:
del output[0]
#break # waaa
def handle_close(self):
self.close()
def message_output(self, message,
pack=struct.pack, len=len):
if self._debug:
if len(message) > 40: m=message[:40]+' ...'
else: m=message
LOG(self._debug, TRACE, 'message_output %s' % `m`)
append=self.__append
if append is None:
raise Disconnected("This action is temporarily unavailable.<p>")
append(pack(">i",len(message))+message)
def log_info(self, message, type='info'):
if type=='error': type=ERROR
else: type=INFO
LOG('ZEO', type, message)
log=log_info
def message_output(self, message):
if __debug__:
if self._debug:
if len(message) > 40:
m = message[:40]+' ...'
else:
m = message
LOG(self._debug, TRACE, 'message_output %s' % `m`)
if self.__closed is not None:
raise Disconnected, (
"This action is temporarily unavailable."
"<p>"
)
# do two separate appends to avoid copying the message string
self.__output.append(struct.pack(">i", len(message)))
self.__output.append(message)
def close(self):
if self.__append is not None:
self.__append=None
SizedMessageAsyncConnection.inheritedAttribute('close')(self)
class Disconnected(Exception):
"""The client has become disconnected from the server
"""
if self.__closed is None:
self.__closed = 1
self.__super_close()
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