view rpc.py @ 79:84f96c5fe791

Use different message ID that does not result in "Query UNTERMINATE" messages in the error log. Fix testsrq. Rename queryrsb to querystb as that matches the operating manual.
author Daniel O'Connor <doconnor@gsoft.com.au>
date Fri, 27 Sep 2024 16:53:43 +0930
parents 91b476ebc0f2
children
line wrap: on
line source

"A an RPC module, with optimizations for VXI-11 rpc calls"
_rcsid="$Id: rpc.py 323 2011-04-06 19:10:03Z marcus $"

#this module is 99% from the python distribution, Demo/rpc/rpc.py, with a few modifications 
#by Marcus Mendenhall to improve timeout handling, etc.  It probably should follow any licensing 
#intent of whoever originated it.

# Sun RPC version 2 -- RFC1057.

# XXX There should be separate exceptions for the various reasons why
# XXX an RPC can fail, rather than using RuntimeError for everything

# XXX The UDP version of the protocol resends requests when it does
# XXX not receive a timely reply -- use only for idempotent calls!

# XXX There is no provision for call timeout on TCP connections
# Now there is, on receives. 2003.02.20 Marcus Mendenhall, Vanderbilt University marcus.h.mendenhall@vanderbilt.edu

import xdrlib as xdr
import socket
import os
from exceptions import *

RPCVERSION = 2

CALL = 0
REPLY = 1

AUTH_NULL = 0
AUTH_UNIX = 1
AUTH_SHORT = 2
AUTH_DES = 3

MSG_ACCEPTED = 0
MSG_DENIED = 1

SUCCESS = 0				# RPC executed successfully
PROG_UNAVAIL  = 1			# remote hasn't exported program
PROG_MISMATCH = 2			# remote can't support version #
PROC_UNAVAIL  = 3			# program can't support procedure
GARBAGE_ARGS  = 4			# procedure can't decode params

RPC_MISMATCH = 0			# RPC version number != 2
AUTH_ERROR = 1				# remote can't authenticate caller

AUTH_BADCRED      = 1			# bad credentials (seal broken)
AUTH_REJECTEDCRED = 2			# client must begin new session
AUTH_BADVERF      = 3			# bad verifier (seal broken)
AUTH_REJECTEDVERF = 4			# verifier expired or replayed
AUTH_TOOWEAK      = 5			# rejected for security reasons


class Packer(xdr.Packer):

	def pack_auth(self, auth):
		flavor, stuff = auth
		self.pack_enum(flavor)
		self.pack_opaque(stuff)

	def pack_auth_unix(self, stamp, machinename, uid, gid, gids):
		self.pack_uint(stamp)
		self.pack_string(machinename)
		self.pack_uint(uid)
		self.pack_uint(gid)
		self.pack_uint(len(gids))
		for i in gids:
			self.pack_uint(i)

	def pack_callheader(self, xid, prog, vers, proc, cred, verf):
		self.pack_uint(xid)
		self.pack_enum(CALL)
		self.pack_uint(RPCVERSION)
		self.pack_uint(prog)
		self.pack_uint(vers)
		self.pack_uint(proc)
		self.pack_auth(cred)
		self.pack_auth(verf)
		# Caller must add procedure-specific part of call

	def pack_replyheader(self, xid, verf):
		self.pack_uint(xid)
		self.pack_enum(REPLY)
		self.pack_uint(MSG_ACCEPTED)
		self.pack_auth(verf)
		self.pack_enum(SUCCESS)
		# Caller must add procedure-specific part of reply


# Exceptions
BadRPCFormat = 'rpc.BadRPCFormat'
BadRPCVersion = 'rpc.BadRPCVersion'
GarbageArgs = 'rpc.GarbageArgs'

class Unpacker(xdr.Unpacker):

	def unpack_auth(self):
		flavor = self.unpack_enum()
		stuff = self.unpack_opaque()
		return (flavor, stuff)

	def unpack_callheader(self):
		xid = self.unpack_uint(xid)
		temp = self.unpack_enum()
		if temp != CALL:
			raise BadRPCFormat('no CALL but ' + repr(temp))
		temp = self.unpack_uint()
		if temp != RPCVERSION:
			raise BadRPCVerspion('bad RPC version ' + repr(temp))
		prog = self.unpack_uint()
		vers = self.unpack_uint()
		proc = self.unpack_uint()
		cred = self.unpack_auth()
		verf = self.unpack_auth()
		return xid, prog, vers, proc, cred, verf
		# Caller must add procedure-specific part of call

	def unpack_replyheader(self):
		xid = self.unpack_uint()
		mtype = self.unpack_enum()
		if mtype != REPLY:
			raise RuntimeError('no REPLY but ' + repr(mtype))
		stat = self.unpack_enum()
		if stat == MSG_DENIED:
			stat = self.unpack_enum()
			if stat == RPC_MISMATCH:
				low = self.unpack_uint()
				high = self.unpack_uint()
				raise RuntimeError('MSG_DENIED: RPC_MISMATCH: ' + repr((low, high)))
			if stat == AUTH_ERROR:
				stat = self.unpack_uint()
				raise RuntimeError('MSG_DENIED: AUTH_ERROR: ' + repr(stat))
			raise RuntimeError('MSG_DENIED: ' + repr(stat))
		if stat != MSG_ACCEPTED:
			raise RuntimeError('Neither MSG_DENIED nor MSG_ACCEPTED: ' + repr(stat))
		verf = self.unpack_auth()
		stat = self.unpack_enum()
		if stat == PROG_UNAVAIL:
			raise RuntimeError('call failed: PROG_UNAVAIL')
		if stat == PROG_MISMATCH:
			low = self.unpack_uint()
			high = self.unpack_uint()
			raise RuntimeError('call failed: PROG_MISMATCH: ' + repr((low, high)))
		if stat == PROC_UNAVAIL:
			raise RuntimeError('call failed: PROC_UNAVAIL')
		if stat == GARBAGE_ARGS:
			raise RuntimeError('call failed: GARBAGE_ARGS')
		if stat != SUCCESS:
			raise RuntimeError('call failed: ' + repr(stat))
		return xid, verf
		# Caller must get procedure-specific part of reply


# Subroutines to create opaque authentication objects

def make_auth_null():
	return ''

def make_auth_unix(seed, host, uid, gid, groups):
	p = Packer()
	p.pack_auth_unix(seed, host, uid, gid, groups)
	return p.get_buf()

def make_auth_unix_default():
	try:
		from os import getuid, getgid
		uid = getuid()
		gid = getgid()
	except ImportError:
		uid = gid = 0
	import time
	return make_auth_unix(int(time.time()-unix_epoch()), \
		  socket.gethostname(), uid, gid, [])

_unix_epoch = -1
def unix_epoch():
    """Very painful calculation of when the Unix Epoch is.

    This is defined as the return value of time.time() on Jan 1st,
    1970, 00:00:00 GMT.

    On a Unix system, this should always return 0.0.  On a Mac, the
    calculations are needed -- and hard because of integer overflow
    and other limitations.

    """
    global _unix_epoch
    if _unix_epoch >= 0: return _unix_epoch
    import time
    now = time.time()
    localt = time.localtime(now)	# (y, m, d, hh, mm, ss, ..., ..., ...)
    gmt = time.gmtime(now)
    offset = time.mktime(localt) - time.mktime(gmt)
    y, m, d, hh, mm, ss = 1970, 1, 1, 0, 0, 0
    offset, ss = divmod(ss + offset, 60)
    offset, mm = divmod(mm + offset, 60)
    offset, hh = divmod(hh + offset, 24)
    d = d + offset
    _unix_epoch = time.mktime((y, m, d, hh, mm, ss, 0, 0, 0))
    print("Unix epoch:", time.ctime(_unix_epoch))
    return _unix_epoch


# Common base class for clients

class Client:

	def __init__(self, host, prog, vers, port):
		self.host = host
		self.prog = prog
		self.vers = vers
		self.port = port
		self.makesocket() # Assigns to self.sock
		self.bindsocket()
		self.connsocket()
		self.lastxid = 0 # XXX should be more random?
		self.addpackers()
		self.cred = None
		self.verf = None

	def close(self):
		self.sock.close()

	def makesocket(self):
		# This MUST be overridden
		raise RuntimeError('makesocket not defined')

	def connsocket(self):
		# Override this if you don't want/need a connection
		self.sock.connect((self.host, self.port))

	def bindsocket(self):
		# Override this to bind to a different port (e.g. reserved)
		self.sock.bind(('', 0))

	def addpackers(self):
		# Override this to use derived classes from Packer/Unpacker
		self.packer = Packer()
		self.unpacker = Unpacker('')

	def make_call(self, proc, args, pack_func, unpack_func):
		#print "make_call() args = " + str(args)
		# Don't normally override this (but see Broadcast)
		if pack_func is None and args is not None:
			raise TypeError('non-null args with null pack_func')
		#print "packed args"
		self.start_call(proc)
		if pack_func:
			pack_func(args)
		self.do_call()
		if unpack_func:
			result = unpack_func()
		else:
			result = None
		#print "result = " + str(result)
		self.unpacker.done()
		return result

	def start_call(self, proc):
		# Don't override this
		self.lastxid = xid = self.lastxid + 1
		cred = self.mkcred()
		verf = self.mkverf()
		p = self.packer
		p.reset()
		p.pack_callheader(xid, self.prog, self.vers, proc, cred, verf)

	def do_call(self):
		# This MUST be overridden
		raise RuntimeError('do_call not defined')

	def mkcred(self):
		# Override this to use more powerful credentials
		if self.cred == None:
			self.cred = (AUTH_NULL, make_auth_null())
		return self.cred

	def mkverf(self):
		# Override this to use a more powerful verifier
		if self.verf == None:
			self.verf = (AUTH_NULL, make_auth_null())
		return self.verf

	def call_0(self):		# Procedure 0 is always like this
		return self.make_call(0, None, None, None)


# Record-Marking standard support

try:
	from select import select as _select
except:
	_select=None

def sendfrag_with_timeout(sock,  last, frag, timeout_seconds=None):
	x = len(frag)
	if last: x = x | 0x80000000
	header = (chr(int(x>>24 & 0xff)) + chr(int(x>>16 & 0xff)) + \
		  chr(int(x>>8 & 0xff)) + chr(int(x & 0xff)))
	block=header+frag
	n=len(block)
	nsent=0
	while(nsent<n):
		if _select and timeout_seconds:
			rlist, wlist, xlist=_select([],[sock],[], timeout_seconds)
			if not wlist:
				raise EOFError("Blocked write in sendfrag()")		
		nsent+=sock.send(block[nsent:])
	
def recvfrag_with_timeout(sock, timeout_seconds=None):
	#print "receiving from ", sock
	if _select and timeout_seconds:
		#print "Selecting with timeout...", timeout_seconds
		rlist, wlist, xlist=_select([sock],[],[], timeout_seconds)
		if not rlist:
			raise EOFError("No header at all in recvfrag()")

	header = sock.recv(4)
	if len(header) < 4:
		raise EOFError
	x = int(ord(header[0]))<<24 | ord(header[1])<<16 | \
	    ord(header[2])<<8 | ord(header[3])
	last = ((x & 0x80000000) != 0)
	n = int(x & 0x7fffffff)
	
	frag=''
	
	while(len(frag) < n):	
		if _select and timeout_seconds:
			#print "Selecting with timeout...", timeout_seconds
			rlist, wlist, xlist=_select([sock],[],[], timeout_seconds)
			if not rlist:
				raise EOFError("No data after header in recvfrag()")
		frag += sock.recv(n-len(frag))
				
	return last, frag


def recvrecord(sock, timeout_seconds=None):
	record = ''
	last = 0
	while not last:
		last, frag = recvfrag_with_timeout(sock, timeout_seconds)
		record = record + frag
	return record

def sendrecord(sock, record, timeout_seconds=None):
	sendfrag_with_timeout(sock, 1, record, timeout_seconds)



# Try to bind to a reserved port (must be root)

last_resv_port_tried = None
def bindresvport(sock, host):
	global last_resv_port_tried
	FIRST, LAST = 600, 1024 # Range of ports to try
	if last_resv_port_tried == None:
		import os
		last_resv_port_tried = FIRST + os.getpid() % (LAST-FIRST)
	for i in list(range(last_resv_port_tried, LAST)) + \
		  list(range(FIRST, last_resv_port_tried)):
		last_resv_port_tried = i
		try:
			sock.bind((host, i))
			return last_resv_port_tried
		except socket.error as xxx_todo_changeme:
			(errno, msg) = xxx_todo_changeme.args
			if errno != 114:
				raise socket.error(errno, msg)
	raise RuntimeError('can\'t assign reserved port')


# Client using TCP to a specific port

class RawTCPClient(Client):

	select_timeout_seconds=None
	
	def makesocket(self):
		self.sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)

	def do_call(self):
		call = self.packer.get_buf()
		sendrecord(self.sock, call, self.select_timeout_seconds)
		reply = recvrecord(self.sock, self.select_timeout_seconds)
		u = self.unpacker
		u.reset(reply)
		xid, verf = u.unpack_replyheader()
		if xid != self.lastxid:
			# Can't really happen since this is TCP...
			raise RuntimeError('wrong xid in reply ' + repr(xid) + \
				' instead of ' + repr(self.lastxid))


# Client using UDP to a specific port

class RawUDPClient(Client):

	def makesocket(self):
		self.sock = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)

	def do_call(self):
		call = self.packer.get_buf()
		self.sock.send(call)
		try:
			from select import select
		except ImportError:
			print('WARNING: select not found, RPC may hang')
			select = None
		BUFSIZE = 8192 # Max UDP buffer size
		timeout = 1
		count = 5
		while 1:
			r, w, x = [self.sock], [], []
			if select:
				r, w, x = select(r, w, x, timeout)
			if self.sock not in r:
				count = count - 1
				if count < 0: raise RuntimeError('timeout')
				if timeout < 25: timeout = timeout *2
##				print 'RESEND', timeout, count
				self.sock.send(call)
				continue
			reply = self.sock.recv(BUFSIZE)
			u = self.unpacker
			u.reset(reply)
			xid, verf = u.unpack_replyheader()
			if xid != self.lastxid:
##				print 'BAD xid'
				continue
			break


# Client using UDP broadcast to a specific port

class RawBroadcastUDPClient(RawUDPClient):

	def __init__(self, bcastaddr, prog, vers, port):
		RawUDPClient.__init__(self, bcastaddr, prog, vers, port)
		self.reply_handler = None
		self.timeout = 30

	def connsocket(self):
		# Don't connect -- use sendto
		self.sock.setsockopt(socket.SOL_SOCKET, socket.SO_BROADCAST, 1)

	def set_reply_handler(self, reply_handler):
		self.reply_handler = reply_handler

	def set_timeout(self, timeout):
		self.timeout = timeout # Use None for infinite timeout

	def make_call(self, proc, args, pack_func, unpack_func):
		if pack_func is None and args is not None:
			raise TypeError('non-null args with null pack_func')
		self.start_call(proc)
		if pack_func:
			pack_func(args)
		call = self.packer.get_buf()
		self.sock.sendto(call, (self.host, self.port))
		try:
			from select import select
		except ImportError:
			print('WARNING: select not found, broadcast will hang')
			select = None
		BUFSIZE = 8192 # Max UDP buffer size (for reply)
		replies = []
		if unpack_func is None:
			def dummy(): pass
			unpack_func = dummy
		while 1:
			r, w, x = [self.sock], [], []
			if select:
				if self.timeout is None:
					r, w, x = select(r, w, x)
				else:
					r, w, x = select(r, w, x, self.timeout)
			if self.sock not in r:
				break
			reply, fromaddr = self.sock.recvfrom(BUFSIZE)
			u = self.unpacker
			u.reset(reply)
			xid, verf = u.unpack_replyheader()
			if xid != self.lastxid:
##				print 'BAD xid'
				continue
			reply = unpack_func()
			self.unpacker.done()
			replies.append((reply, fromaddr))
			if self.reply_handler:
				self.reply_handler(reply, fromaddr)
		return replies


# Port mapper interface

# Program number, version and (fixed!) port number
PMAP_PROG = 100000
PMAP_VERS = 2
PMAP_PORT = 111

# Procedure numbers
PMAPPROC_NULL = 0			# (void) -> void
PMAPPROC_SET = 1			# (mapping) -> bool
PMAPPROC_UNSET = 2			# (mapping) -> bool
PMAPPROC_GETPORT = 3			# (mapping) -> unsigned int
PMAPPROC_DUMP = 4			# (void) -> pmaplist
PMAPPROC_CALLIT = 5			# (call_args) -> call_result

# A mapping is (prog, vers, prot, port) and prot is one of:

IPPROTO_TCP = 6
IPPROTO_UDP = 17

# A pmaplist is a variable-length list of mappings, as follows:
# either (1, mapping, pmaplist) or (0).

# A call_args is (prog, vers, proc, args) where args is opaque;
# a call_result is (port, res) where res is opaque.


class PortMapperPacker(Packer):

	def pack_mapping(self, mapping):
		prog, vers, prot, port = mapping
		self.pack_uint(prog)
		self.pack_uint(vers)
		self.pack_uint(prot)
		self.pack_uint(port)

	def pack_pmaplist(self, list):
		self.pack_list(list, self.pack_mapping)

	def pack_call_args(self, ca):
		prog, vers, proc, args = ca
		self.pack_uint(prog)
		self.pack_uint(vers)
		self.pack_uint(proc)
		self.pack_opaque(args)


class PortMapperUnpacker(Unpacker):

	def unpack_mapping(self):
		prog = self.unpack_uint()
		vers = self.unpack_uint()
		prot = self.unpack_uint()
		port = self.unpack_uint()
		return prog, vers, prot, port

	def unpack_pmaplist(self):
		return self.unpack_list(self.unpack_mapping)

	def unpack_call_result(self):
		port = self.unpack_uint()
		res = self.unpack_opaque()
		return port, res


class PartialPortMapperClient:

	def addpackers(self):
		self.packer = PortMapperPacker()
		self.unpacker = PortMapperUnpacker('')

	def Set(self, mapping):
		return self.make_call(PMAPPROC_SET, mapping, \
			self.packer.pack_mapping, \
			self.unpacker.unpack_uint)

	def Unset(self, mapping):
		return self.make_call(PMAPPROC_UNSET, mapping, \
			self.packer.pack_mapping, \
			self.unpacker.unpack_uint)

	def Getport(self, mapping):
		return self.make_call(PMAPPROC_GETPORT, mapping, \
			self.packer.pack_mapping, \
			self.unpacker.unpack_uint)

	def Dump(self):
		return self.make_call(PMAPPROC_DUMP, None, \
			None, \
			self.unpacker.unpack_pmaplist)

	def Callit(self, ca):
		return self.make_call(PMAPPROC_CALLIT, ca, \
			self.packer.pack_call_args, \
			self.unpacker.unpack_call_result)


class TCPPortMapperClient(PartialPortMapperClient, RawTCPClient):

	def __init__(self, host, port=PMAP_PORT, timeout_seconds=None):
		RawTCPClient.__init__(self, \
			host, PMAP_PROG, PMAP_VERS, port)
		self.select_timeout_seconds=timeout_seconds


class UDPPortMapperClient(PartialPortMapperClient, RawUDPClient):

	def __init__(self, host, port=PMAP_PORT):
		RawUDPClient.__init__(self, \
			host, PMAP_PROG, PMAP_VERS, port)

class BroadcastUDPPortMapperClient(PartialPortMapperClient, \
				   RawBroadcastUDPClient):

	def __init__(self, bcastaddr):
		RawBroadcastUDPClient.__init__(self, \
			bcastaddr, PMAP_PROG, PMAP_VERS, PMAP_PORT)


# Generic clients that find their server through the Port mapper

class TCPClient(RawTCPClient):

	def __init__(self, host, prog, vers, portmap_proxy_host=None, portmap_proxy_port=PMAP_PORT, timeout_seconds=None):
		
		self.select_timeout_seconds=timeout_seconds
		if portmap_proxy_host is None:
			portmap_proxy_host=host #use a proxy to get around firewalled portmappers
		pmap = TCPPortMapperClient(portmap_proxy_host, portmap_proxy_port,timeout_seconds)
		port = pmap.Getport((prog, vers, IPPROTO_TCP, 0))
		pmap.close()
		if port == 0:
			raise RuntimeError('program not registered')
		RawTCPClient.__init__(self, host, prog, vers, port)


class UDPClient(RawUDPClient):

	def __init__(self, host, prog, vers, portmap_proxy_host=None, portmap_proxy_port=PMAP_PORT):
		if portmap_proxy_host is None:
			portmap_proxy_host=host #use a proxy to get around firewalled portmappers
		pmap = UDPPortMapperClient(portmap_proxy_host, portmap_proxy_port)
		port = pmap.Getport((prog, vers, IPPROTO_UDP, 0))
		pmap.close()
		if port == 0:
			raise RuntimeError('program not registered')
		RawUDPClient.__init__(self, host, prog, vers, port)


class BroadcastUDPClient(Client):

	def __init__(self, bcastaddr, prog, vers):
		self.pmap = BroadcastUDPPortMapperClient(bcastaddr)
		self.pmap.set_reply_handler(self.my_reply_handler)
		self.prog = prog
		self.vers = vers
		self.user_reply_handler = None
		self.addpackers()

	def close(self):
		self.pmap.close()

	def set_reply_handler(self, reply_handler):
		self.user_reply_handler = reply_handler

	def set_timeout(self, timeout):
		self.pmap.set_timeout(timeout)

	def my_reply_handler(self, reply, fromaddr):
		port, res = reply
		self.unpacker.reset(res)
		result = self.unpack_func()
		self.unpacker.done()
		self.replies.append((result, fromaddr))
		if self.user_reply_handler is not None:
			self.user_reply_handler(result, fromaddr)

	def make_call(self, proc, args, pack_func, unpack_func):
		self.packer.reset()
		if pack_func:
			pack_func(args)
		if unpack_func is None:
			def dummy(): pass
			self.unpack_func = dummy
		else:
			self.unpack_func = unpack_func
		self.replies = []
		packed_args = self.packer.get_buf()
		dummy_replies = self.pmap.Callit( \
			(self.prog, self.vers, proc, packed_args))
		return self.replies


# Server classes

# These are not symmetric to the Client classes
# XXX No attempt is made to provide authorization hooks yet

class Server:

	def __init__(self, host, prog, vers, port):
		self.host = host # Should normally be '' for default interface
		self.prog = prog
		self.vers = vers
		self.port = port # Should normally be 0 for random port
		self.makesocket() # Assigns to self.sock and self.prot
		self.bindsocket()
		self.host, self.port = self.sock.getsockname()
		self.addpackers()

	def handle(self, call):
		# Don't use unpack_header but parse the header piecewise
		# XXX I have no idea if I am using the right error responses!
		self.unpacker.reset(call)
		self.packer.reset()
		xid = self.unpacker.unpack_uint()
		self.packer.pack_uint(xid)
		temp = self.unpacker.unpack_enum()
		if temp != CALL:
			return None # Not worthy of a reply
		self.packer.pack_uint(REPLY)
		temp = self.unpacker.unpack_uint()
		if temp != RPCVERSION:
			self.packer.pack_uint(MSG_DENIED)
			self.packer.pack_uint(RPC_MISMATCH)
			self.packer.pack_uint(RPCVERSION)
			self.packer.pack_uint(RPCVERSION)
			return self.packer.get_buf()
		self.packer.pack_uint(MSG_ACCEPTED)
		self.packer.pack_auth((AUTH_NULL, make_auth_null()))
		prog = self.unpacker.unpack_uint()
		if prog != self.prog:
			self.packer.pack_uint(PROG_UNAVAIL)
			return self.packer.get_buf()
		vers = self.unpacker.unpack_uint()
		if vers != self.vers:
			self.packer.pack_uint(PROG_MISMATCH)
			self.packer.pack_uint(self.vers)
			self.packer.pack_uint(self.vers)
			return self.packer.get_buf()
		proc = self.unpacker.unpack_uint()
		methname = 'handle_' + repr(proc)
		try:
			meth = getattr(self, methname)
		except AttributeError:
			self.packer.pack_uint(PROC_UNAVAIL)
			return self.packer.get_buf()
		cred = self.unpacker.unpack_auth()
		verf = self.unpacker.unpack_auth()
		try:
			meth() # Unpack args, call turn_around(), pack reply
		except (EOFError, GarbageArgs):
			# Too few or too many arguments
			self.packer.reset()
			self.packer.pack_uint(xid)
			self.packer.pack_uint(REPLY)
			self.packer.pack_uint(MSG_ACCEPTED)
			self.packer.pack_auth((AUTH_NULL, make_auth_null()))
			self.packer.pack_uint(GARBAGE_ARGS)
		return self.packer.get_buf()

	def turn_around(self):
		try:
			self.unpacker.done()
		except RuntimeError:
			raise GarbageArgs
		self.packer.pack_uint(SUCCESS)

	def handle_0(self): # Handle NULL message
		self.turn_around()

	def makesocket(self):
		# This MUST be overridden
		raise RuntimeError('makesocket not defined')

	def bindsocket(self):
		# Override this to bind to a different port (e.g. reserved)
		self.sock.bind((self.host, self.port))

	def addpackers(self):
		# Override this to use derived classes from Packer/Unpacker
		self.packer = Packer()
		self.unpacker = Unpacker('')


class TCPServer(Server):

	def register(self):
		mapping = self.prog, self.vers, self.prot, self.port
		p = TCPPortMapperClient(self.host)
		if not p.Set(mapping):
			raise RuntimeError('register failed')

	def unregister(self):
		mapping = self.prog, self.vers, self.prot, self.port
		p = TCPPortMapperClient(self.host)
		if not p.Unset(mapping):
			raise RuntimeError('unregister failed')

	def makesocket(self):
		self.sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
		self.prot = IPPROTO_TCP

	def loop(self):
		self.sock.listen(0)
		while 1:
			self.session(self.sock.accept())

	def session(self, connection):
		sock, (host, port) = connection
		while 1:
			try:
				call = recvrecord(sock)
			except EOFError:
				break
			except socket.error as msg:
				print('socket error:', msg)
				break
			reply = self.handle(call)
			if reply is not None:
				sendrecord(sock, reply)

	def forkingloop(self):
		# Like loop but uses forksession()
		self.sock.listen(0)
		while 1:
			self.forksession(self.sock.accept())

	def forksession(self, connection):
		# Like session but forks off a subprocess
		import os
		# Wait for deceased children
		try:
			while 1:
				pid, sts = os.waitpid(0, 1)
		except os.error:
			pass
		pid = None
		try:
			pid = os.fork()
			if pid: # Parent
				connection[0].close()
				return
			# Child
			self.session(connection)
		finally:
			# Make sure we don't fall through in the parent
			if pid == 0:
				os._exit(0)


class UDPServer(Server):

	def register(self):
		mapping = self.prog, self.vers, self.prot, self.port
		p = UDPPortMapperClient(self.host)
		if not p.Set(mapping):
			raise RuntimeError('register failed')

	def unregister(self):
		mapping = self.prog, self.vers, self.prot, self.port
		p = UDPPortMapperClient(self.host)
		if not p.Unset(mapping):
			raise RuntimeError('unregister failed')

	def makesocket(self):
		self.sock = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
		self.prot = IPPROTO_UDP

	def loop(self):
		while 1:
			self.session()

	def session(self):
		call, host_port = self.sock.recvfrom(8192)
		reply = self.handle(call)
		if reply != None:
			self.sock.sendto(reply, host_port)


# Simple test program -- dump local portmapper status

def test():
	pmap = UDPPortMapperClient('')
	list = pmap.Dump()
	list.sort()
	for prog, vers, prot, port in list:
		print(prog, vers, end=' ')
		if prot == IPPROTO_TCP: print('tcp', end=' ')
		elif prot == IPPROTO_UDP: print('udp', end=' ')
		else: print(prot, end=' ')
		print(port)


# Test program for broadcast operation -- dump everybody's portmapper status

def testbcast():
	import sys
	if sys.argv[1:]:
		bcastaddr = sys.argv[1]
	else:
		bcastaddr = '<broadcast>'
	def rh(reply, fromaddr):
		host, port = fromaddr
		print(host + '\t' + repr(reply))
	pmap = BroadcastUDPPortMapperClient(bcastaddr)
	pmap.set_reply_handler(rh)
	pmap.set_timeout(5)
	replies = pmap.Getport((100002, 1, IPPROTO_UDP, 0))


# Test program for server, with corresponding client
# On machine A: python -c 'import rpc; rpc.testsvr()'
# On machine B: python -c 'import rpc; rpc.testclt()' A
# (A may be == B)

def testsvr():
	# Simple test class -- proc 1 doubles its string argument as reply
	class S(UDPServer):
		def handle_1(self):
			arg = self.unpacker.unpack_string()
			self.turn_around()
			print('RPC function 1 called, arg', repr(arg))
			self.packer.pack_string(arg + arg)
	#
	s = S('', 0x20000000, 1, 0)
	try:
		s.unregister()
	except RuntimeError as msg:
		print('RuntimeError:', msg, '(ignored)')
	s.register()
	print('Service started...')
	try:
		s.loop()
	finally:
		s.unregister()
		print('Service interrupted.')


def testclt():
	import sys
	if sys.argv[1:]: host = sys.argv[1]
	else: host = ''
	# Client for above server
	class C(UDPClient):
		def call_1(self, arg):
			return self.make_call(1, arg, \
				self.packer.pack_string, \
				self.unpacker.unpack_string)
	c = C(host, 0x20000000, 1)
	print('making call...')
	reply = c.call_1('hello, world, ')
	print('call returned', repr(reply))

def testclt2():
	import sys
	host = '127.0.0.1'
	# Client for above server
	class C(UDPClient):
		def call_1(self, arg):
			return self.make_call(1, arg, \
				self.packer.pack_string, \
				self.unpacker.unpack_string)
	c = C(host, 0x20000000, 1)
	print('making call...')
	reply = c.call_1('hello, world, ')
	print('call returned', repr(reply))