# vim: tabstop=4 shiftwidth=4 softtabstop=4 # Copyright 2014 IBM Corporation # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # # This represents the low layer message framing portion of IPMI import pyghmi.exceptions as exc import struct import threading from pyghmi.ipmi.private import constants from pyghmi.ipmi.private import session class Console(object): """IPMI SOL class. This object represents an SOL channel, multiplexing SOL data with commands issued by ipmi.command. :param bmc: hostname or ip address of BMC :param userid: username to use to connect :param password: password to connect to the BMC :param iohandler: Either a function to call with bytes, a filehandle to use for input and output, or a tuple of (input, output) handles :param kg: optional parameter for BMCs configured to require it """ # TODO(jbjohnso): still need an exit and a data callin function def __init__(self, bmc, userid, password, iohandler, port=623, force=False, kg=None): self.outputlock = threading.RLock() self.keepaliveid = None self.connected = False self.broken = False self.out_handler = iohandler self.remseq = 0 self.myseq = 0 self.lastsize = 0 self.retriedpayload = 0 self.pendingoutput = [] self.awaitingack = False self.activated = False self.force_session = force self.port = port self.ipmi_session = session.Session(bmc=bmc, userid=userid, password=password, port=port, kg=kg, onlogon=self._got_session) # induce one iteration of the loop, now that we would be # prepared for it in theory session.Session.wait_for_rsp(0) def _got_session(self, response): """Private function to navigate SOL payload activation """ if 'error' in response: self._print_error(response['error']) return # Send activate sol payload directive # netfn= 6 (application) # command = 0x48 (activate payload) # data = (1, sol payload type # 1, first instance # 0b11000000, -encrypt, authenticate, # disable serial/modem alerts, CTS fine # 0, 0, 0 reserved response = self.ipmi_session.raw_command(netfn=0x6, command=0x48, data=(1, 1, 192, 0, 0, 0)) # given that these are specific to the command, # it's probably best if one can grep the error # here instead of in constants sol_activate_codes = { 0x81: 'SOL is disabled', 0x82: 'Maximum SOL session count reached', 0x83: 'Cannot activate payload with encryption', 0x84: 'Cannot activate payload without encryption', } if 'code' in response and response['code']: if response['code'] in constants.ipmi_completion_codes: self._print_error( constants.ipmi_completion_codes[response['code']]) return elif response['code'] == 0x80: if self.force_session and not self.retriedpayload: self.retriedpayload = 1 sessrsp = self.ipmi_session.raw_command( netfn=0x6, command=0x49, data=(1, 1, 0, 0, 0, 0)) self._got_session(sessrsp) return else: self._print_error('SOL Session active for another client') return elif response['code'] in sol_activate_codes: self._print_error(sol_activate_codes[response['code']]) return else: self._print_error( 'SOL encountered Unrecognized error code %d' % response['code']) return if 'error' in response: self._print_error(response['error']) return self.activated = True # data[0:3] is reserved except for the test mode, which we don't use data = response['data'] self.maxoutcount = (data[5] << 8) + data[4] # BMC tells us this is the maximum allowed size # data[6:7] is the promise of how small packets are going to be, but we # don't have any reason to worry about it # some BMCs disagree on the endianness, so do both valid_ports = (self.port, struct.unpack( 'H', self.port))[0]) if (data[8] + (data[9] << 8)) not in valid_ports: # TODO(jbjohnso): support atypical SOL port number raise NotImplementedError("Non-standard SOL Port Number") # ignore data[10:11] for now, the vlan detail, shouldn't matter to this # code anyway... # NOTE(jbjohnso): # We will use a special purpose keepalive if self.ipmi_session.sol_handler is not None: # If there is erroneously another SOL handler already, notify # it of newly established session self.ipmi_session.sol_handler({'error': 'Session Disconnected'}) self.keepaliveid = self.ipmi_session.register_keepalive( cmd={'netfn': 6, 'command': 0x4b, 'data': (1, 1)}, callback=self._got_payload_instance_info) self.ipmi_session.sol_handler = self._got_sol_payload self.connected = True # self._sendpendingoutput() checks len(self._sendpendingoutput) self._sendpendingoutput() def _got_payload_instance_info(self, response): if 'error' in response: self.activated = False self._print_error(response['error']) return currowner = struct.unpack( " self.maxoutcount: chunk = self.pendingoutput[0][:self.maxoutcount] self.pendingoutput[0] = self.pendingoutput[0][ self.maxoutcount:] else: chunk = self.pendingoutput[0] del self.pendingoutput[0] self._sendoutput(chunk) def _sendoutput(self, output, sendbreak=False): self.myseq += 1 self.myseq &= 0xf if self.myseq == 0: self.myseq = 1 # currently we don't try to combine ack with outgoing data # so we use 0 for ack sequence number and accepted character # count breakbyte = 0 if sendbreak: breakbyte = 0b10000 payload = struct.pack("BBBB", self.myseq, 0, 0, breakbyte) payload += output self.lasttextsize = len(output) needskeepalive = False if self.lasttextsize == 0: needskeepalive = True self.awaitingack = True payload = struct.unpack("%dB" % len(payload), payload) self.lastpayload = payload self.send_payload(payload, needskeepalive=needskeepalive) def send_payload(self, payload, payload_type=1, retry=True, needskeepalive=False): while not (self.connected or self.broken): session.Session.wait_for_rsp(timeout=10) if not self.ipmi_session.logged: raise exc.IpmiException('Session no longer connected') self.ipmi_session.send_payload(payload, payload_type=payload_type, retry=retry, needskeepalive=needskeepalive) def _print_info(self, info): self._print_data({'info': info}) def _print_error(self, error): self.broken = True if self.ipmi_session: self.ipmi_session.unregister_keepalive(self.keepaliveid) if (self.ipmi_session.sol_handler and self.ipmi_session.sol_handler.__self__ is self): self.ipmi_session.sol_handler = None self.ipmi_session = None if type(error) == dict: self._print_data(error) else: self._print_data({'error': error}) def _print_data(self, data): """Convey received data back to caller in the format of their choice. Caller may elect to provide this class filehandle(s) or else give a callback function that this class will use to convey data back to caller. """ self.out_handler(data) def _got_sol_payload(self, payload): """SOL payload callback """ # TODO(jbjohnso) test cases to throw some likely scenarios at functions # for example, retry with new data, retry with no new data # retry with unexpected sequence number if type(payload) == dict: # we received an error condition self.activated = False self._print_error(payload) return newseq = payload[0] & 0b1111 ackseq = payload[1] & 0b1111 ackcount = payload[2] nacked = payload[3] & 0b1000000 poweredoff = payload[3] & 0b100000 deactivated = payload[3] & 0b10000 breakdetected = payload[3] & 0b100 # for now, ignore overrun. I assume partial NACK for this reason or # for no reason would be treated the same, new payload with partial # data. remdata = "" remdatalen = 0 if newseq != 0: # this packet at least has some data to send to us.. if len(payload) > 4: remdatalen = len(payload[4:]) # store remote len before dupe # retry logic, we must ack *this* many even if it is # a retry packet with new partial data remdata = struct.pack("%dB" % remdatalen, *payload[4:]) if newseq == self.remseq: # it is a retry, but could have new data if remdatalen > self.lastsize: remdata = remdata[4 + self.lastsize:] else: # no new data... remdata = "" else: # TODO(jbjohnso) what if remote sequence number is wrong?? self.remseq = newseq self.lastsize = remdatalen if remdata: # Do not subject callers to empty data self._print_data(remdata) ackpayload = (0, self.remseq, remdatalen, 0) # Why not put pending data into the ack? because it's rare # and might be hard to decide what to do in the context of # retry situation try: self.send_payload(ackpayload, retry=False) except exc.IpmiException: # if the session is broken, then close the SOL session self.close() if self.myseq != 0 and ackseq == self.myseq: # the bmc has something # to say about last xmit self.awaitingack = False if nacked and not breakdetected: # the BMC was in some way unhappy if poweredoff: self._print_info("Remote system is powered down") if deactivated: self.activated = False self._print_error("Remote IPMI console disconnected") else: # retry all or part of packet, but in a new form # also add pending output for efficiency and ease newtext = self.lastpayload[4 + ackcount:] newtext = struct.pack("B"*len(newtext), *newtext) with self.outputlock: if (self.pendingoutput and not isinstance(self.pendingoutput[0], dict)): self.pendingoutput[0] = \ newtext + self.pendingoutput[0] else: self.pendingoutput = [newtext] + self.pendingoutput # self._sendpendingoutput() checks len(self._sendpendingoutput) self._sendpendingoutput() elif ackseq != 0 and self.awaitingack: # if an ack packet came in, but did not match what we # expected, retry our payload now. # the situation that was triggered was a senseless retry # when data came in while we xmitted. In theory, a BMC # should handle a retry correctly, but some do not, so # try to mitigate by avoiding overeager retries # occasional retry of a packet # sooner than timeout suggests is evidently a big deal self.send_payload(payload=self.lastpayload) def main_loop(self): """Process all events until no more sessions exist. If a caller is a simple little utility, provide a function to eternally run the event loop. More complicated usage would be expected to provide their own event loop behavior, though this could be used within the greenthread implementation of caller's choice if desired. """ # wait_for_rsp promises to return a false value when no sessions are # alive anymore # TODO(jbjohnso): wait_for_rsp is not returning a true value for our # own session while (1): session.Session.wait_for_rsp(timeout=600) class ServerConsole(Console): """IPMI SOL class. This object represents an SOL channel, multiplexing SOL data with commands issued by ipmi.command. :param session: IPMI session :param iohandler: I/O handler """ def __init__(self, _session, iohandler, force=False): self.outputlock = threading.RLock() self.keepaliveid = None self.connected = True self.broken = False self.out_handler = iohandler self.remseq = 0 self.myseq = 0 self.lastsize = 0 self.retriedpayload = 0 self.pendingoutput = [] self.awaitingack = False self.activated = True self.force_session = force self.ipmi_session = _session self.ipmi_session.sol_handler = self._got_sol_payload self.maxoutcount = 256 self.poweredon = True session.Session.wait_for_rsp(0) def _got_sol_payload(self, payload): """SOL payload callback """ # TODO(jbjohnso) test cases to throw some likely scenarios at functions # for example, retry with new data, retry with no new data # retry with unexpected sequence number if type(payload) == dict: # we received an error condition self.activated = False self._print_error(payload) return newseq = payload[0] & 0b1111 ackseq = payload[1] & 0b1111 ackcount = payload[2] nacked = payload[3] & 0b1000000 breakdetected = payload[3] & 0b10000 # for now, ignore overrun. I assume partial NACK for this reason or # for no reason would be treated the same, new payload with partial # data. remdata = "" remdatalen = 0 flag = 0 if not self.poweredon: flag |= 0b1100000 if not self.activated: flag |= 0b1010000 if newseq != 0: # this packet at least has some data to send to us.. if len(payload) > 4: remdatalen = len(payload[4:]) # store remote len before dupe # retry logic, we must ack *this* many even if it is # a retry packet with new partial data remdata = struct.pack("%dB" % remdatalen, *payload[4:]) if newseq == self.remseq: # it is a retry, but could have new data if remdatalen > self.lastsize: remdata = remdata[4 + self.lastsize:] else: # no new data... remdata = "" else: # TODO(jbjohnso) what if remote sequence number is wrong?? self.remseq = newseq self.lastsize = remdatalen ackpayload = (0, self.remseq, remdatalen, flag) # Why not put pending data into the ack? because it's rare # and might be hard to decide what to do in the context of # retry situation try: self.send_payload(ackpayload, retry=False) except exc.IpmiException: # if the session is broken, then close the SOL session self.close() if remdata: # Do not subject callers to empty data self._print_data(remdata) if self.myseq != 0 and ackseq == self.myseq: # the bmc has something # to say about last xmit self.awaitingack = False if nacked and not breakdetected: # the BMC was in some way unhappy newtext = self.lastpayload[4 + ackcount:] newtext = struct.pack("B"*len(newtext), *newtext) with self.outputlock: if (self.pendingoutput and not isinstance(self.pendingoutput[0], dict)): self.pendingoutput[0] = newtext + self.pendingoutput[0] else: self.pendingoutput = [newtext] + self.pendingoutput # self._sendpendingoutput() checks len(self._sendpendingoutput) self._sendpendingoutput() elif ackseq != 0 and self.awaitingack: # if an ack packet came in, but did not match what we # expected, retry our payload now. # the situation that was triggered was a senseless retry # when data came in while we xmitted. In theory, a BMC # should handle a retry correctly, but some do not, so # try to mitigate by avoiding overeager retries # occasional retry of a packet # sooner than timeout suggests is evidently a big deal self.send_payload(payload=self.lastpayload) def send_payload(self, payload, payload_type=1, retry=True, needskeepalive=False): while not (self.connected or self.broken): session.Session.wait_for_rsp(timeout=10) self.ipmi_session.send_payload(payload, payload_type=payload_type, retry=retry, needskeepalive=needskeepalive) def close(self): """Shut down an SOL session, """ self.activated = False