def __init__(self, ism, rtid, pkt):
#OSPF neighbor information
self.state = NSM_STATE['NSM_Down'] # NSM status.
self._inactive_timer = None
self._dd_exstart_timer = None
self.lsr_resend_timer = None
self.dd_flags = 0 # DD bit flags. Slave or master.
self.dd_seqnum = 0 # DD Sequence Number.
#Last sent Database Description packet.
self.last_send = None # just the packet, not tuple
#Timestemp when last Database Description packet was sent
self.last_send_ts = 0 # not used
#Last received Database Description packet.
self.last_recv = tuple() # pattern: (ddseq, init, more, ms)
#LSA data.
self.ls_rxmt = list() # Link state retransmission list
self.db_sum = list() # Database summary list
self.ls_req = list() # Link state request list
self.ism = ism
self.rtid = rtid # neighbor router id
self.nsm = dict()
#Neighbor Information from Hello.
self.src = pkt['H']['SRC']
self.options = pkt['V']['V']['OPTS']
self.priority = pkt['V']['V']['PRIO']
self.d_router = pkt['V']['V']['DESIG']
self.bd_router = pkt['V']['V']['BDESIG']
#inactive timer is equal to dead interval
self.inactive_timer_interval = self.ism.dead_interval
self.ep = ExchangeProtocol(self)
self.fp = FloodProtocol(self)
#register all nsm events
for nsmEvent in NSM_EVENT.keys():
if nsmEvent == 'NSM_PacketReceived':
self.nsm[nsmEvent] = self._hello_received
elif nsmEvent == 'NSM_TwoWayReceived':
self.nsm[nsmEvent] = self._two_way_or_exstart
elif nsmEvent == 'NSM_OneWayReceived':
self.nsm[nsmEvent] = self._init
elif nsmEvent == 'NSM_NegotiationDone':
self.nsm[nsmEvent] = self._exchange
elif nsmEvent == 'NSM_SeqNumberMismatch':
self.nsm[nsmEvent] = self._seq_mismatch_or_bad_lsr
elif nsmEvent == 'NSM_ExchangeDone':
self.nsm[nsmEvent] = self._loading
elif nsmEvent == 'NSM_BadLSReq':
self.nsm[nsmEvent] = self._seq_mismatch_or_bad_lsr
elif nsmEvent == 'NSM_LoadingDone':
self.nsm[nsmEvent] = self._full
else:
continue
def __init__(self, ism, rtid, pkt):
# OSPF neighbor information
self.state = NSM_STATE["NSM_Down"] # NSM status.
self._inactive_timer = None
self._dd_exstart_timer = None
self.lsr_resend_timer = None
self.dd_flags = 0 # DD bit flags. Slave or master.
self.dd_seqnum = 0 # DD Sequence Number.
# Last sent Database Description packet.
self.last_send = None # just the packet, not tuple
# Timestemp when last Database Description packet was sent
self.last_send_ts = 0 # not used
# Last received Database Description packet.
self.last_recv = tuple() # pattern: (ddseq, init, more, ms)
# LSA data.
self.ls_rxmt = list() # Link state retransmission list
self.db_sum = list() # Database summary list
self.ls_req = list() # Link state request list
self.ism = ism
self.rtid = rtid # neighbor router id
self.nsm = dict()
# Neighbor Information from Hello.
self.src = pkt["H"]["SRC"]
self.options = pkt["V"]["V"]["OPTS"]
self.priority = pkt["V"]["V"]["PRIO"]
self.d_router = pkt["V"]["V"]["DESIG"]
self.bd_router = pkt["V"]["V"]["BDESIG"]
# inactive timer is equal to dead interval
self.inactive_timer_interval = self.ism.dead_interval
self.ep = ExchangeProtocol(self)
self.fp = FloodProtocol(self)
# register all nsm events
for nsmEvent in NSM_EVENT.keys():
if nsmEvent == "NSM_PacketReceived":
self.nsm[nsmEvent] = self._hello_received
elif nsmEvent == "NSM_TwoWayReceived":
self.nsm[nsmEvent] = self._two_way_or_exstart
elif nsmEvent == "NSM_OneWayReceived":
self.nsm[nsmEvent] = self._init
elif nsmEvent == "NSM_NegotiationDone":
self.nsm[nsmEvent] = self._exchange
elif nsmEvent == "NSM_SeqNumberMismatch":
self.nsm[nsmEvent] = self._seq_mismatch_or_bad_lsr
elif nsmEvent == "NSM_ExchangeDone":
self.nsm[nsmEvent] = self._loading
elif nsmEvent == "NSM_BadLSReq":
self.nsm[nsmEvent] = self._seq_mismatch_or_bad_lsr
elif nsmEvent == "NSM_LoadingDone":
self.nsm[nsmEvent] = self._full
else:
continue
class NSM(object):
"""
Neighbor State Machine
:param ism: ISM objects.
:param rtid: RouterID.
:param pkt: coming hello packet.
"""
def __init__(self, ism, rtid, pkt):
# OSPF neighbor information
self.state = NSM_STATE["NSM_Down"] # NSM status.
self._inactive_timer = None
self._dd_exstart_timer = None
self.lsr_resend_timer = None
self.dd_flags = 0 # DD bit flags. Slave or master.
self.dd_seqnum = 0 # DD Sequence Number.
# Last sent Database Description packet.
self.last_send = None # just the packet, not tuple
# Timestemp when last Database Description packet was sent
self.last_send_ts = 0 # not used
# Last received Database Description packet.
self.last_recv = tuple() # pattern: (ddseq, init, more, ms)
# LSA data.
self.ls_rxmt = list() # Link state retransmission list
self.db_sum = list() # Database summary list
self.ls_req = list() # Link state request list
self.ism = ism
self.rtid = rtid # neighbor router id
self.nsm = dict()
# Neighbor Information from Hello.
self.src = pkt["H"]["SRC"]
self.options = pkt["V"]["V"]["OPTS"]
self.priority = pkt["V"]["V"]["PRIO"]
self.d_router = pkt["V"]["V"]["DESIG"]
self.bd_router = pkt["V"]["V"]["BDESIG"]
# inactive timer is equal to dead interval
self.inactive_timer_interval = self.ism.dead_interval
self.ep = ExchangeProtocol(self)
self.fp = FloodProtocol(self)
# register all nsm events
for nsmEvent in NSM_EVENT.keys():
if nsmEvent == "NSM_PacketReceived":
self.nsm[nsmEvent] = self._hello_received
elif nsmEvent == "NSM_TwoWayReceived":
self.nsm[nsmEvent] = self._two_way_or_exstart
elif nsmEvent == "NSM_OneWayReceived":
self.nsm[nsmEvent] = self._init
elif nsmEvent == "NSM_NegotiationDone":
self.nsm[nsmEvent] = self._exchange
elif nsmEvent == "NSM_SeqNumberMismatch":
self.nsm[nsmEvent] = self._seq_mismatch_or_bad_lsr
elif nsmEvent == "NSM_ExchangeDone":
self.nsm[nsmEvent] = self._loading
elif nsmEvent == "NSM_BadLSReq":
self.nsm[nsmEvent] = self._seq_mismatch_or_bad_lsr
elif nsmEvent == "NSM_LoadingDone":
self.nsm[nsmEvent] = self._full
else:
continue
def fire(self, event):
self.nsm[event]()
def reset(self):
self.change_nsm_state("NSM_Down")
if self._dd_exstart_timer is not None:
self._dd_exstart_timer.stop()
del self._dd_exstart_timer
if self.lsr_resend_timer is not None:
self.lsr_resend_timer.stop()
del self.lsr_resend_timer
self._dd_exstart_timer = None
self.lsr_resend_timer = None
self.ls_req = list()
self.ls_rxmt = list()
self.db_sum = list()
self.last_recv = tuple()
self.last_send = None
self.last_send_ts = 0
# Delete all LSA in LSDB
self.ism.ai.oi.lsdb.empty_lsdb()
def dead(self):
neighborLock.acquire()
self.reset()
self.rtid = 0
self.src = 0
self.options = {"E": 0, "MC": 0, "L": 0, "NP": 0, "DC": 0, "O": 0, "DN": 0, "Q": 0}
self.priority = 0
self.d_router = 0
self.bd_router = 0
if self._inactive_timer is not None:
self._inactive_timer.stop()
del self._inactive_timer
self._inactive_timer = None
LOG.info("[ISM] Event: ISM_NeighborChange")
self.ism.fire("ISM_NeighborChange")
neighborLock.release()
def _hello_received(self):
if self.state == NSM_STATE["NSM_Down"]:
self.change_nsm_state("NSM_Init")
# start inactive timer
if self._inactive_timer is None or self._inactive_timer.is_stop():
self._inactive_timer = Timer(self.inactive_timer_interval, self.dead)
self._inactive_timer.start()
LOG.debug("[NSM] %s starts inactive timer." % util.int2ip(self.rtid))
else:
self._inactive_timer.reset()
else:
self._inactive_timer.reset()
def _attempt(self):
"""
Only for nbma network
"""
self.change_nsm_state("NSM_Attempt")
def _init(self):
if self.state == NSM_STATE["NSM_Init"]:
return
self.change_nsm_state("NSM_Init")
self.last_recv = tuple()
self.last_send = None
self.last_send_ts = 0
self.ls_req = list()
self.ls_rxmt = list()
self.db_sum = list()
if not self.lsr_resend_timer is None:
self.lsr_resend_timer.stop()
def _two_way_or_exstart(self):
# whether become adjacent in broadcast, rfc 10.4
if self.state == NSM_STATE["NSM_Init"] or self.state == NSM_STATE["NSM_TwoWay"]:
# need to make adjacency
if self.ism.bdrip == self.src or self.ism.drip == self.src or self.ism.link_type == "Point-to-Point":
self.change_nsm_state("NSM_ExStart")
# Generate dd_sum from each lsa list, and exception for virtual link and stub area.
# But as a probe, we need not to send dd_sum.
# start dd sync procedure
self.dd_seqnum = int(time.time())
self.dd_flags = 7 # set init bit, more bit, master bit
self._send_dd()
if self._dd_exstart_timer is None:
pass
elif self._dd_exstart_timer.is_stop():
del self._dd_exstart_timer
else:
self._dd_exstart_timer.stop()
del self._dd_exstart_timer
self._dd_exstart_timer = Timer(self.ism.rxmt_interval, self._send_dd)
self._dd_exstart_timer.start()
# do not need to make adjacency
else:
if self.state == NSM_STATE["NSM_Init"]:
# change to 2-way state
self.change_nsm_state("NSM_TwoWay")
else:
# stay in 2-way state
pass
def _exchange(self):
self.change_nsm_state("NSM_Exchange")
self._dd_exstart_timer.stop()
self.fp.set_ospf_header(self.ism.version, self.ism.area_id, self.ism.rid, self.ism.options)
self.ep.exchange()
def _loading(self):
self.change_nsm_state("NSM_Loading")
# start to send first lsr
if len(self.ls_req) != 0:
self._send_lsr(self.ls_req)
self.lsr_resend_timer = Timer(self.ism.rxmt_interval, self._send_lsr, self.ls_req)
self.lsr_resend_timer.start()
else:
self._full()
def _full(self):
self.change_nsm_state("NSM_Full")
def _seq_mismatch_or_bad_lsr(self):
LOG.warn("[NSM] %s sequence mismatch or bad LSR." % util.int2ip(self.rtid))
# make sure that all these are clear
self.ls_req = list()
self.ls_rxmt = list()
self.db_sum = list()
self.last_recv = tuple()
self.last_send = None
self.last_send_ts = 0
self.change_nsm_state("NSM_ExStart")
self.dd_flags = 7 # set init bit, more bit, master bit
self.dd_seqnum = int(time.time())
self._send_dd()
if self._dd_exstart_timer is None:
self._dd_exstart_timer = Timer(self.ism.rxmt_interval, self._send_dd)
self._dd_exstart_timer.start()
elif self._dd_exstart_timer.is_stop():
del self._dd_exstart_timer
self._dd_exstart_timer = Timer(self.ism.rxmt_interval, self._send_dd)
self._dd_exstart_timer.start()
else:
self._dd_exstart_timer.reset()
def _send_dd(self, lsa=None):
self.ep.set_ospf_header(self.ism.version, self.ism.area_id, self.ism.rid, self.ism.options)
self.ep.set_dd_options()
self.ep.send_dd(self.ep.gen_dd(lsa))
def _send_lsr(self, lsr):
self.ep.send_lsr(self.ep.gen_lsr(lsr))
def change_nsm_state(self, newstate):
LOG.info("[NSM] %s change state to %s." % (util.int2ip(self.rtid), newstate))
self.state = NSM_STATE[newstate]
class NSM(object):
"""
Neighbor State Machine
:param ism: ISM objects.
:param rtid: RouterID.
:param pkt: coming hello packet.
"""
def __init__(self, ism, rtid, pkt):
#OSPF neighbor information
self.state = NSM_STATE['NSM_Down'] # NSM status.
self._inactive_timer = None
self._dd_exstart_timer = None
self.lsr_resend_timer = None
self.dd_flags = 0 # DD bit flags. Slave or master.
self.dd_seqnum = 0 # DD Sequence Number.
#Last sent Database Description packet.
self.last_send = None # just the packet, not tuple
#Timestemp when last Database Description packet was sent
self.last_send_ts = 0 # not used
#Last received Database Description packet.
self.last_recv = tuple() # pattern: (ddseq, init, more, ms)
#LSA data.
self.ls_rxmt = list() # Link state retransmission list
self.db_sum = list() # Database summary list
self.ls_req = list() # Link state request list
self.ism = ism
self.rtid = rtid # neighbor router id
self.nsm = dict()
#Neighbor Information from Hello.
self.src = pkt['H']['SRC']
self.options = pkt['V']['V']['OPTS']
self.priority = pkt['V']['V']['PRIO']
self.d_router = pkt['V']['V']['DESIG']
self.bd_router = pkt['V']['V']['BDESIG']
#inactive timer is equal to dead interval
self.inactive_timer_interval = self.ism.dead_interval
self.ep = ExchangeProtocol(self)
self.fp = FloodProtocol(self)
#register all nsm events
for nsmEvent in NSM_EVENT.keys():
if nsmEvent == 'NSM_PacketReceived':
self.nsm[nsmEvent] = self._hello_received
elif nsmEvent == 'NSM_TwoWayReceived':
self.nsm[nsmEvent] = self._two_way_or_exstart
elif nsmEvent == 'NSM_OneWayReceived':
self.nsm[nsmEvent] = self._init
elif nsmEvent == 'NSM_NegotiationDone':
self.nsm[nsmEvent] = self._exchange
elif nsmEvent == 'NSM_SeqNumberMismatch':
self.nsm[nsmEvent] = self._seq_mismatch_or_bad_lsr
elif nsmEvent == 'NSM_ExchangeDone':
self.nsm[nsmEvent] = self._loading
elif nsmEvent == 'NSM_BadLSReq':
self.nsm[nsmEvent] = self._seq_mismatch_or_bad_lsr
elif nsmEvent == 'NSM_LoadingDone':
self.nsm[nsmEvent] = self._full
else:
continue
def fire(self, event):
self.nsm[event]()
def reset(self):
self.change_nsm_state('NSM_Down')
if self._dd_exstart_timer is not None:
self._dd_exstart_timer.stop()
del self._dd_exstart_timer
if self.lsr_resend_timer is not None:
self.lsr_resend_timer.stop()
del self.lsr_resend_timer
self._dd_exstart_timer = None
self.lsr_resend_timer = None
self.ls_req = list()
self.ls_rxmt = list()
self.db_sum = list()
self.last_recv = tuple()
self.last_send = None
self.last_send_ts = 0
#Delete all LSA in LSDB
self.ism.ai.oi.lsdb.empty_lsdb()
def dead(self):
neighborLock.acquire()
self.reset()
self.rtid = 0
self.src = 0
self.options = {'E': 0, 'MC': 0, 'L': 0, 'NP': 0, 'DC': 0, 'O': 0, 'DN': 0, 'Q': 0}
self.priority = 0
self.d_router = 0
self.bd_router = 0
if self._inactive_timer is not None:
self._inactive_timer.stop()
del self._inactive_timer
self._inactive_timer = None
LOG.info('[ISM] Event: ISM_NeighborChange')
self.ism.fire('ISM_NeighborChange')
neighborLock.release()
def _hello_received(self):
if self.state == NSM_STATE['NSM_Down']:
self.change_nsm_state('NSM_Init')
#start inactive timer
if self._inactive_timer is None or self._inactive_timer.is_stop():
self._inactive_timer = Timer(self.inactive_timer_interval, self.dead)
self._inactive_timer.start()
LOG.debug('[NSM] %s starts inactive timer.' % util.int2ip(self.rtid))
else:
self._inactive_timer.reset()
else:
self._inactive_timer.reset()
def _attempt(self):
"""
Only for nbma network
"""
self.change_nsm_state('NSM_Attempt')
def _init(self):
if self.state == NSM_STATE['NSM_Init']:
return
self.change_nsm_state('NSM_Init')
self.last_recv = tuple()
self.last_send = None
self.last_send_ts = 0
self.ls_req = list()
self.ls_rxmt = list()
self.db_sum = list()
if not self.lsr_resend_timer is None:
self.lsr_resend_timer.stop()
def _two_way_or_exstart(self):
#whether become adjacent in broadcast, rfc 10.4
if self.state == NSM_STATE['NSM_Init'] or self.state == NSM_STATE['NSM_TwoWay']:
#need to make adjacency
if self.ism.bdrip == self.src or self.ism.drip == self.src or self.ism.link_type == 'Point-to-Point':
self.change_nsm_state('NSM_ExStart')
#Generate dd_sum from each lsa list, and exception for virtual link and stub area.
#But as a probe, we need not to send dd_sum.
#start dd sync procedure
self.dd_seqnum = int(time.time())
self.dd_flags = 7 # set init bit, more bit, master bit
self._send_dd()
if self._dd_exstart_timer is None:
pass
elif self._dd_exstart_timer.is_stop():
del self._dd_exstart_timer
else:
self._dd_exstart_timer.stop()
del self._dd_exstart_timer
self._dd_exstart_timer = Timer(self.ism.rxmt_interval, self._send_dd)
self._dd_exstart_timer.start()
#do not need to make adjacency
else:
if self.state == NSM_STATE['NSM_Init']:
#change to 2-way state
self.change_nsm_state('NSM_TwoWay')
else:
#stay in 2-way state
pass
def _exchange(self):
self.change_nsm_state('NSM_Exchange')
self._dd_exstart_timer.stop()
self.fp.set_ospf_header(
self.ism.version,
self.ism.area_id,
self.ism.rid,
self.ism.options,
)
self.ep.exchange()
def _loading(self):
self.change_nsm_state('NSM_Loading')
#start to send first lsr
if len(self.ls_req) != 0:
self._send_lsr(self.ls_req)
self.lsr_resend_timer = Timer(self.ism.rxmt_interval, self._send_lsr, self.ls_req)
self.lsr_resend_timer.start()
else:
self._full()
def _full(self):
self.change_nsm_state('NSM_Full')
def _seq_mismatch_or_bad_lsr(self):
LOG.warn('[NSM] %s sequence mismatch or bad LSR.' % util.int2ip(self.rtid))
#make sure that all these are clear
self.ls_req = list()
self.ls_rxmt = list()
self.db_sum = list()
self.last_recv = tuple()
self.last_send = None
self.last_send_ts = 0
self.change_nsm_state('NSM_ExStart')
self.dd_flags = 7 # set init bit, more bit, master bit
self.dd_seqnum = int(time.time())
self._send_dd()
if self._dd_exstart_timer is None:
self._dd_exstart_timer = Timer(self.ism.rxmt_interval, self._send_dd)
self._dd_exstart_timer.start()
elif self._dd_exstart_timer.is_stop():
del self._dd_exstart_timer
self._dd_exstart_timer = Timer(self.ism.rxmt_interval, self._send_dd)
self._dd_exstart_timer.start()
else:
self._dd_exstart_timer.reset()
def _send_dd(self, lsa=None):
self.ep.set_ospf_header(
self.ism.version,
self.ism.area_id,
self.ism.rid,
self.ism.options,
)
self.ep.set_dd_options()
self.ep.send_dd(self.ep.gen_dd(lsa))
def _send_lsr(self, lsr):
self.ep.send_lsr(self.ep.gen_lsr(lsr))
def change_nsm_state(self, newstate):
LOG.info('[NSM] %s change state to %s.' % (util.int2ip(self.rtid), newstate))
self.state = NSM_STATE[newstate]
