# Implement (a subset of) Sun RPC, version 2 -- RFC1057. import xdr import socket import os 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 class Unpacker(xdr.Unpacker): def unpack_auth(self): flavor = self.unpack_enum() stuff = self.unpack_opaque() return (flavor, stuff) def unpack_replyheader(self): xid = self.unpack_uint() mtype = self.unpack_enum() if mtype <> REPLY: raise RuntimeError, 'no REPLY but ' + str(mtype) stat = self.unpack_enum() if stat <> MSG_ACCEPTED: if stat == MSG_DENIED: stat = self.unpack_enum() if stat == RPC_MISMATCH: low = self.unpack_uint() high = self.unpack_uint() raise 'RPC_MISMATCH', (low, high) if stat == AUTH_ERROR: stat = self.unpack_uint() raise 'AUTH_ERROR', str(stat) raise 'MSG_REJECTED', str(stat) raise RuntimeError, 'no MSG_ACCEPTED but ' + str(stat) verf = self.unpack_auth() stat = self.unpack_enum() if stat <> SUCCESS: raise RuntimeError, 'no SUCCESS but ' + str(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().init() p.pack_auth_unix(seed, host, uid, gid, groups) return p.get_buf() def make_auth_unix_default(): return make_auth_unix(0, socket.gethostname(), \ os.getuid(), os.getgid(), []) # Common base class for clients class Client: def init(self, host, prog, vers, port, type): self.host = host self.prog = prog self.vers = vers self.port = port self.type = type self.sock = socket.socket(socket.AF_INET, type) self.sock.connect((host, port)) self.lastxid = 0 self.addpackers() self.cred = None self.verf = None return self def Null(self): # Procedure 0 is always like this self.start_call(0) self.do_call(0) self.end_call() def close(self): self.sock.close() # Functions that may be overridden by specific derived classes def addpackers(self): self.packer = Packer().init() self.unpacker = Unpacker().init('') def mkcred(self, proc): if self.cred == None: self.cred = (AUTH_NULL, make_auth_null()) return self.cred def mkverf(self, proc): if self.verf == None: self.verf = (AUTH_NULL, make_auth_null()) return self.verf # Record-Marking standard support def sendfrag(sock, last, frag): x = len(frag) if last: x = x | 0x80000000L header = (chr(int(x>>24 & 0xff)) + chr(int(x>>16 & 0xff)) + \ chr(int(x>>8 & 0xff)) + chr(int(x & 0xff))) sock.send(header + frag) def sendrecord(sock, record): sendfrag(sock, 1, record) def recvfrag(sock): header = sock.recv(4) x = long(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 n > 0: buf = sock.recv(n) if not buf: raise EOFError n = n - len(buf) frag = frag + buf return last, frag def recvrecord(sock): record = '' last = 0 while not last: last, frag = recvfrag(sock) record = record + frag return record # Raw TCP-based client class RawTCPClient(Client): def init(self, host, prog, vers, port): return Client.init(self, host, prog, vers, port, \ socket.SOCK_STREAM) def start_call(self, proc): self.lastxid = xid = self.lastxid + 1 cred = self.mkcred(proc) verf = self.mkverf(proc) p = self.packer p.reset() p.pack_callheader(xid, self.prog, self.vers, proc, cred, verf) def do_call(self, *rest): # rest is used for UDP buffer size; ignored for TCP call = self.packer.get_buf() sendrecord(self.sock, call) reply = recvrecord(self.sock) 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 ' + `xid` + \ ' instead of ' + `self.lastxid` def end_call(self): self.unpacker.done() # Raw UDP-based client # XXX This class does not recover from missed/duplicated packets! class RawUDPClient(Client): def init(self, host, prog, vers, port): return Client.init(self, host, prog, vers, port, \ socket.SOCK_DGRAM) def start_call(self, proc): self.lastxid = xid = self.lastxid + 1 cred = self.mkcred(proc) verf = self.mkverf(proc) p = self.packer p.reset() p.pack_callheader(xid, self.prog, self.vers, proc, cred, verf) def do_call(self, *rest): if len(rest) == 0: bufsize = 8192 elif len(rest) > 1: raise TypeError, 'too many args' else: bufsize = rest[0] + 512 call = self.packer.get_buf() self.sock.send(call) # XXX What about time-out and retry? reply = self.sock.recv(bufsize) u = self.unpacker u.reset(reply) xid, verf = u.unpack_replyheader() if xid <> self.lastxid: # XXX Should assume it's an old reply raise RuntimeError, 'wrong xid in reply ' + `xid` + \ ' instead of ' + `self.lastxid` def end_call(self): self.unpacker.done() # Port mapper interface PMAP_PORT = 111 PMAP_PROG = 100000 PMAP_VERS = 2 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) 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) class PartialPortMapperClient: def addpackers(self): self.packer = PortMapperPacker().init() self.unpacker = PortMapperUnpacker().init('') def Getport(self, mapping): self.start_call(PMAPPROC_GETPORT) self.packer.pack_mapping(mapping) self.do_call(4) port = self.unpacker.unpack_uint() self.end_call() return port def Dump(self): self.start_call(PMAPPROC_DUMP) self.do_call(8192-512) list = self.unpacker.unpack_pmaplist() self.end_call() return list class TCPPortMapperClient(PartialPortMapperClient, RawTCPClient): def init(self, host): return RawTCPClient.init(self, \ host, PMAP_PROG, PMAP_VERS, PMAP_PORT) class UDPPortMapperClient(PartialPortMapperClient, RawUDPClient): def init(self, host): return RawUDPClient.init(self, \ host, PMAP_PROG, PMAP_VERS, PMAP_PORT) class TCPClient(RawTCPClient): def init(self, host, prog, vers): pmap = TCPPortMapperClient().init(host) port = pmap.Getport((prog, vers, IPPROTO_TCP, 0)) pmap.close() return RawTCPClient.init(self, host, prog, vers, port) class UDPClient(RawUDPClient): def init(self, host, prog, vers): pmap = UDPPortMapperClient().init(host) port = pmap.Getport((prog, vers, IPPROTO_UDP, 0)) pmap.close() return RawUDPClient.init(self, host, prog, vers, port) def test(): import T T.TSTART() pmap = UDPPortMapperClient().init('') T.TSTOP() pmap.Null() T.TSTOP() list = pmap.Dump() T.TSTOP() list.sort() for prog, vers, prot, port in list: print prog, vers, if prot == IPPROTO_TCP: print 'tcp', elif prot == IPPROTO_UDP: print 'udp', else: print prot, print port