drivers/CiscoSX300.py - lava/vland.git - Linaro Git Browser

 #! /usr/bin/python

 #  Copyright 2014 Linaro Limited
 #
 #  This program is free software; you can redistribute it and/or modify
 #  it under the terms of the GNU General Public License as published by
 #  the Free Software Foundation; either version 2 of the License, or
 #  (at your option) any later version.
 #
 #  This program is distributed in the hope that it will be useful,
 #  but WITHOUT ANY WARRANTY; without even the implied warranty of
 #  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 #  GNU General Public License for more details.
 #
 #  You should have received a copy of the GNU General Public License
 #  along with this program; if not, write to the Free Software
 #  Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston,
 #  MA 02110-1301, USA.

 import logging
 import pexpect
 import sys
 import time
 import re
 from common import SwitchDriver

 class CiscoSX300(SwitchDriver):

     connection = None

     # No extra capabilities for this switch/driver yet
     _capabilities = [
     ]

     # Regexp of expected hardware information - fail if we don't see
     # this
     _expected_descr_re = re.compile('S.300-\d+')

     logfile = sys.stderr
     logfile = None

     def __init__(self, switch_hostname, switch_telnetport=23):
         self.exec_string = "/usr/bin/telnet %s %d" % (switch_hostname, switch_telnetport)

     ################################
     ### Switch-level API functions
     ################################

     # Connect to the switch and log in
     def switch_connect(self, username, password, enablepassword):
         logging.debug("Connecting to Switch with: %s" % self.exec_string)
         self.connection = pexpect.spawn(self.exec_string, logfile = self.logfile)
         self._login(username, password)

         # Try to avoid paged output
         self.connection.setwinsize(132, 1000)

         # And grab details about the switch. in case we need it
         self._get_systemdata()

         # And also validate them - make sure we're driving a switch of
         # the correct model! Also store the serial number
         descr_regex = re.compile('System Description:.\s+(\S.*)')
         sn_regex = re.compile('SN:\s+(\S_)')
         descr = ""

         for line in self._systemdata:
             match = descr_regex.match(line)
             if match:
                 descr = match.group(1)
             match = sn_regex.match(line)
             if match:
                 self.serial_number = match.group(1)

         if not self._expected_descr_re.match(descr):
             raise IOError("Switch %s not recognised by this driver: abort" % descr)

         # Now build a list of our ports, for later sanity checking
         self._ports = self._get_port_names()
         if len(self._ports) < 4:
             raise IOError("Not enough ports detected - problem!")

     # Log out of the switch and drop the connection and all state
     def switch_disconnect(self):
         self._logout()
         logging.debug("Closing connection: %s" % self.connection)
         self.connection.close(True)
         self._ports = []
         self._prompt_name = ''
         self._systemdata = []
         del(self)

     # Save the current running config into flash - we want config to
     # remain across reboots
     def switch_save_running_config(self):
         self._cli("copy running-config startup-config")
         self.connection.expect("Y/N")
         self._cli("y")
         self.connection.expect("succeeded")

     # Restart the switch - we need to reload config to do a
     # roll-back. Do NOT save running-config first if the switch asks -
     # we're trying to dump recent changes, not save them.
     #
     # This will also implicitly cause a connection to be closed
     def switch_restart(self):
         self._cli("reload")
         index = self.connection.expect(['Are you sure', 'will reset'])
         if index == 0:
             self._cli("y") # Yes, continue without saving
             self.connection.expect("reset the whole")

         # Fall through
         self._cli("y") # Yes, continue to reset
         self.connection.close(True)

     ################################
     ### VLAN API functions
     ################################

     # Create a VLAN with the specified tag
     def vlan_create(self, tag):
         logging.debug("Creating VLAN %d" % tag)
         self._configure()
         self._cli("vlan database")
         self._cli("vlan %d" % tag)
         self._end_configure()

         # Validate it happened
         vlans = self.vlan_get_list()
         for vlan in vlans:
             if vlan == tag:
                 return
         raise IOError("Failed to create VLAN %d" % tag)

     # Destroy a VLAN with the specified tag
     def vlan_destroy(self, tag):
         logging.debug("Destroying VLAN %d" % tag)
         self._configure()
         self._cli("no vlan %d" % tag)
         self._end_configure()

         # Validate it happened
         vlans = self.vlan_get_list()
         for vlan in vlans:
             if vlan == tag:
                 raise IOError("Failed to destroy VLAN %d" % tag)

     # Set the name of a VLAN
     def vlan_set_name(self, tag, name):
         logging.debug("Setting name of VLAN %d to %s" % (tag, name))
         self._configure()
         self._cli("vlan %d" % tag)
         self._cli("interface vlan %d" % tag)
         self._cli("name %s" % name)
         self._end_configure()

         # Validate it happened
         read_name = self.vlan_get_name(tag)
         if read_name != name:
             raise IOError("Failed to set name for VLAN %d (name found is \"%s\", not \"%s\")"
                           % (tag, read_name, name))

     # Get a list of the VLAN tags currently registered on the switch
     def vlan_get_list(self):
         logging.debug("Grabbing list of VLANs")
         vlans = []

         regex = re.compile('^ *(\d+).*(D|S|G|R)')

         self._cli("show vlan")
         for line in self._read_paged_output():
             match = regex.match(line)
             if match:
                 vlans.append(int(match.group(1)))
         return vlans

     # For a given VLAN tag, ask the switch what the associated name is
     def vlan_get_name(self, tag):
         logging.debug("Grabbing the name of VLAN %d" % tag)
         name = None
         regex = re.compile('^ *\d+\s+(\S+).*(D|S|G|R)')
         self._cli("show vlan tag %d" % tag)
         for line in self._read_paged_output():
             match = regex.match(line)
             if match:
                 name = match.group(1)
         name.strip()
         return name


     ################################
     ### Port API functions
     ################################

     # Set the mode of a port: access or trunk
     def port_set_mode(self, port, mode):
         logging.debug("Setting port %s to %s" % (port, mode))
         if not self._is_port_mode_valid(mode):
             raise IndexError("Port mode %s is not allowed" % mode)
         if not self._is_port_name_valid(port):
             raise IndexError("Port name %s not recognised" % port)
         self._configure()
         self._cli("interface %s" % port)
         self._cli("switchport mode %s" % mode)
         self._end_configure()

         # Validate it happened
         read_mode = self.port_get_mode(port)
         if read_mode != mode:
             raise IOError("Failed to set mode for port %s" % port)


     # Get the mode of a port: access or trunk
     def port_get_mode(self, port):
         logging.debug("Getting mode of port %s" % port)
         mode = ''
         if not self._is_port_name_valid(port):
             raise IndexError("Port name %s not recognised" % port)
         regex = re.compile('Port Mode: (\S+)')
         self._cli("show interfaces switchport %s" % port)
         for line in self._read_paged_output():
             match = regex.match(line)
             if match:
                 mode = match.group(1)
         return mode.lower()

     # Set an access port to be in a specified VLAN (tag)
     def port_set_access_vlan(self, port, tag):
         logging.debug("Setting access port %s to VLAN %d" % (port, tag))
         if not self._is_port_name_valid(port):
             raise IndexError("Port name %s not recognised" % port)
         if not (self.port_get_mode(port) == "access"):
             raise IndexError("Port %s not in access mode" % port)

         self._configure()
         self._cli("interface %s" % port)
         self._cli("switchport access vlan %d" % tag)
         self._end_configure()

         # Validate things worked
         read_vlan = int(self.port_get_access_vlan(port))
         if read_vlan != tag:
             raise IOError("Failed to move access port %s to VLAN %d - got VLAN %d instead"
                           % (port, tag, read_vlan))

     # Add a trunk port to a specified VLAN (tag)
     def port_add_trunk_to_vlan(self, port, tag):
         logging.debug("Adding trunk port %s to VLAN %d" % (port, tag))
         if not self._is_port_name_valid(port):
             raise IndexError("Port name %s not recognised" % port)
         if not (self.port_get_mode(port) == "trunk"):
             raise IndexError("Port %s not in trunk mode" % port)
         self._configure()
         self._cli("interface %s" % port)
         self._cli("switchport trunk allowed vlan add %d" % tag)
         self._end_configure()

         # Validate it happened
         read_vlans = self.port_get_trunk_vlan_list(port)
         for vlan in read_vlans:
             if vlan == tag:
                 return
         raise IOError("Failed to add trunk port %s to VLAN %d" % (port, tag))

     # Remove a trunk port from a specified VLAN (tag)
     def port_remove_trunk_from_vlan(self, port, tag):
         logging.debug("Removing trunk port %s from VLAN %d" % (port, tag))
         if not self._is_port_name_valid(port):
             raise IndexError("Port name %s not recognised" % port)
         if not (self.port_get_mode(port) == "trunk"):
             raise IndexError("Port %s not in trunk mode" % port)
         self._configure()
         self._cli("interface %s" % port)
         self._cli("switchport trunk allowed vlan remove %d" % tag)
         self._end_configure()

         # Validate it happened
         read_vlans = self.port_get_trunk_vlan_list(port)
         for vlan in read_vlans:
             if vlan == tag:
                 raise IOError("Failed to remove trunk port %s from VLAN %d" % (port, tag))

     # Get the configured VLAN tag for an access port (tag)
     def port_get_access_vlan(self, port):
         logging.debug("Getting VLAN for access port %s" % port)
         vlan = 1
         if not self._is_port_name_valid(port):
             raise IndexError("Port name %s not recognised" % port)
         if not (self.port_get_mode(port) == "access"):
             raise IndexError("Port %s not in access mode" % port)
         regex = re.compile('(\d+)\s+\S+\s+Untagged\s+Static')
         self._cli("show interfaces switchport %s" % port)
         for line in self._read_paged_output():
             match = regex.match(line)
             if match:
                 vlan = match.group(1)
         return int(vlan)

     # Get the list of configured VLAN tags for a trunk port
     def port_get_trunk_vlan_list(self, port):
         logging.debug("Getting VLANs for trunk port %s" % port)
         vlans = [ ]
         if not self._is_port_name_valid(port):
             raise IndexError("Port name %s not recognised" % port)
         if not (self.port_get_mode(port) == "trunk"):
             raise IndexError("Port %s not in trunk mode" % port)
         regex = re.compile('(\d+)\s+\S+\s+(Tagged|Untagged)\s+Static')
         self._cli("show interfaces switchport %s" % port)
         for line in self._read_paged_output():
             match = regex.match(line)
             if match:
                 vlans.append (int(match.group(1)))
         return vlans

     ################################
     ### Internal functions
     ################################

     def _login(self, username, password):
         logging.debug("attempting login with username %s, password %s" % (username, password))
         self._cli("")
         self.connection.expect("User Name:")
         self._cli("%s" % username)
         self.connection.expect("Password:")
         self._cli("%s" % password, False)
         self.connection.expect("\*\*")
         while True:
             index = self.connection.expect(['User Name:', 'authentication failed', r'(.*)#', 'Password:', '.+'])
             if index == 0 or index == 1: # Failed to log in!
                 logging.error("Login failure: %s\n" % self.connection.match)
                 raise IOError
             elif index == 2:
                 self._prompt_name = self.connection.match.group(1).strip()
                 logging.debug("Got prompt name %s" % self._prompt_name)
                 return 0
             elif index == 3 or index == 4:
                 self._cli("", False)

     def _logout(self):
         logging.debug("Logging out")
         self._cli("exit", False)

     def _configure(self):
         self._cli("configure terminal")

     def _end_configure(self):
         self._cli("end")

     def _read_paged_output(self):
         buf = []
         prompt = self._prompt_name + '#'
         while True:
             index = self.connection.expect(['\x1b\[0mMore:.*<return>.*$', prompt])
             if index == 0: # More: <space>
                 for line in self.connection.before.split('\r\n'):
                     buf.append(line.strip())
                 self._cli(' ', False)
             elif index == 1: # Back to a prompt, says output is finished
                 break

         for line in self.connection.before.split('\r\n'):
             buf.append(line.strip())

         return buf

     def _get_port_names(self):
         logging.debug("Grabbing list of ports")
         interfaces = []

         # Use "Up" or "Down" to only identify lines in the output that
         # match interfaces that exist
         regex = re.compile('^(\w+).*(Up|Down)')

         self._cli("show interfaces status detailed")
         for line in self._read_paged_output():
             match = regex.match(line)
             if match:
                 interfaces.append(match.group(1))
         return interfaces

     def _show_config(self):
         logging.debug("Grabbing config")
         self._cli("show running-config")
         return self._read_paged_output()

     def _show_clock(self):
         logging.debug("Grabbing time")
         self._cli("show clock")
         return self._read_paged_output()

     def _get_systemdata(self):

         self._systemdata = []

         logging.debug("Grabbing system data")
         self._cli("show system")
         for line in self._read_paged_output():
             self._systemdata.append(line)

         logging.debug("Grabbing system sw and hw versions")
         self._cli("show version")
         for line in self._read_paged_output():
             self._systemdata.append(line)

     ######################################
     # Internal port access helper methods
     ######################################
     # N.B. No parameter checking here, for speed reasons - if you're
     # calling this internal API then you should already have validated
     # things yourself! Equally, no post-set checks in here - do that
     # at the higher level.
     ######################################

     # Wrapper around connection.send - by default, expect() the same
     # text we've sent, to remove it from the output from the
     # switch. For the few cases where we don't need that, override
     # this using echo=False.
     # Horrible, but seems to work.
     def _cli(self, text, echo=True):
         self.connection.send(text + '\r')
         if echo:
             self.connection.expect(text)

 if __name__ == "__main__":
 #    p = CiscoSX300('10.172.2.52', 23)
     p = CiscoSX300('vlandswitch02', 23)
     p.switch_connect('cisco', 'cisco', None)
     #buf = p._show_clock()
     #print "%s" % buf
     #buf = p._show_config()
     #p._dump_list(buf)

     print "System data:"
     p._dump_list(p._systemdata)

     print "Creating VLANs for testing:"
     for i in [ 2, 3, 4, 5, 20 ]:
         p.vlan_create(i)
         p.vlan_set_name(i, "test%d" % i)
         print "  %d (test%d)" % (i, i)

     #print "And dump config\n"
     #buf = p._show_config()
     #print "%s" % buf

     #print "Destroying VLAN 2\n"
     #p.vlan_destroy(2)

     #print "And dump config\n"
     #buf = p._show_config()
     #print "%s" % buf

     #print "Port names are:"
     #buf = p.switch_get_port_names()
     #p._dump_list(buf)

     #buf = p.vlan_get_name(25)
     #print "VLAN with tag 25 is called \"%s\"" % buf

     #p.vlan_set_name(35, "foo")
     #print "VLAN with tag 35 is called \"foo\""

     #buf = p.port_get_mode("fa12")
     #print "Port fa12 is in %s mode" % buf

     # Test access stuff
     print "Set fa6 to access mode"
     p.port_set_mode("fa6", "access")
     print "Move fa6 to VLAN 2"
     p.port_set_access_vlan("fa6", 2)
     buf = p.port_get_access_vlan("fa6")
     print "Read from switch: fa6 is on VLAN %s" % buf
     print "Move fa6 back to default VLAN 1"
     p.port_set_access_vlan("fa6", 1)
     #print "And move fa6 back to a trunk port"
     #p.port_set_mode("fa6", "trunk")
     #buf = p.port_get_mode("fa6")
     #print "Port fa6 is in %s mode" % buf

     # Test trunk stuff
     print "Set gi2 to trunk mode"
     p.port_set_mode("gi2", "trunk")
     print "Add gi2 to VLAN 2"
     p.port_add_trunk_to_vlan("gi2", 2)
     print "Add gi2 to VLAN 3"
     p.port_add_trunk_to_vlan("gi2", 3)
     print "Add gi2 to VLAN 4"
     p.port_add_trunk_to_vlan("gi2", 4)
     print "Read from switch: which VLANs is gi2 on?"
     buf = p.port_get_trunk_vlan_list("gi2")
     p._dump_list(buf)

     print "Remove gi2 from VLANs 3,3,4"
     p.port_remove_trunk_from_vlan("gi2", 3)
     p.port_remove_trunk_from_vlan("gi2", 3)
     p.port_remove_trunk_from_vlan("gi2", 4)
     print "Read from switch: which VLANs is gi2 on?"
     buf = p.port_get_trunk_vlan_list("gi2")
     p._dump_list(buf)

  #   print "Adding lots of ports to VLANs"
  #   p.port_add_trunk_to_vlan("fa1", 2)
  #   p.port_add_trunk_to_vlan("fa3", 2)
  #   p.port_add_trunk_to_vlan("fa5", 2)
  #   p.port_add_trunk_to_vlan("fa7", 2)
  #   p.port_add_trunk_to_vlan("fa9", 2)
  #   p.port_add_trunk_to_vlan("fa11", 2)
  #   p.port_add_trunk_to_vlan("fa13", 2)
  #   p.port_add_trunk_to_vlan("fa15", 2)
  #   p.port_add_trunk_to_vlan("fa17", 2)
  #   p.port_add_trunk_to_vlan("fa19", 2)
  #   p.port_add_trunk_to_vlan("fa21", 2)
  #   p.port_add_trunk_to_vlan("fa23", 2)
  #   p.port_add_trunk_to_vlan("gi4", 2)

     print "VLANs are:"
     buf = p.vlan_get_list()
     p._dump_list(buf)

 #    print 'Restarting switch, to explicitly reset config'
 #    p.switch_restart()

 #    p.switch_save_running_config()
 #    p._show_config()
	#! /usr/bin/python

	# Copyright 2014 Linaro Limited
	#
	# This program is free software; you can redistribute it and/or modify
	# it under the terms of the GNU General Public License as published by
	# the Free Software Foundation; either version 2 of the License, or
	# (at your option) any later version.
	#
	# This program is distributed in the hope that it will be useful,
	# but WITHOUT ANY WARRANTY; without even the implied warranty of
	# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	# GNU General Public License for more details.
	#
	# You should have received a copy of the GNU General Public License
	# along with this program; if not, write to the Free Software
	# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston,
	# MA 02110-1301, USA.

	import logging
	import pexpect
	import sys
	import time
	import re
	from common import SwitchDriver

	class CiscoSX300(SwitchDriver):

	connection = None

	# No extra capabilities for this switch/driver yet
	_capabilities = [
	]

	# Regexp of expected hardware information - fail if we don't see
	# this
	_expected_descr_re = re.compile('S.300-\d+')

	logfile = sys.stderr
	logfile = None

	def __init__(self, switch_hostname, switch_telnetport=23):
	self.exec_string = "/usr/bin/telnet %s %d" % (switch_hostname, switch_telnetport)

	################################
	### Switch-level API functions
	################################

	# Connect to the switch and log in
	def switch_connect(self, username, password, enablepassword):
	logging.debug("Connecting to Switch with: %s" % self.exec_string)
	self.connection = pexpect.spawn(self.exec_string, logfile = self.logfile)
	self._login(username, password)

	# Try to avoid paged output
	self.connection.setwinsize(132, 1000)

	# And grab details about the switch. in case we need it
	self._get_systemdata()

	# And also validate them - make sure we're driving a switch of
	# the correct model! Also store the serial number
	descr_regex = re.compile('System Description:.\s+(\S.*)')
	sn_regex = re.compile('SN:\s+(\S_)')
	descr = ""

	for line in self._systemdata:
	match = descr_regex.match(line)
	if match:
	descr = match.group(1)
	match = sn_regex.match(line)
	if match:
	self.serial_number = match.group(1)

	if not self._expected_descr_re.match(descr):
	raise IOError("Switch %s not recognised by this driver: abort" % descr)

	# Now build a list of our ports, for later sanity checking
	self._ports = self._get_port_names()
	if len(self._ports) < 4:
	raise IOError("Not enough ports detected - problem!")

	# Log out of the switch and drop the connection and all state
	def switch_disconnect(self):
	self._logout()
	logging.debug("Closing connection: %s" % self.connection)
	self.connection.close(True)
	self._ports = []
	self._prompt_name = ''
	self._systemdata = []
	del(self)

	# Save the current running config into flash - we want config to
	# remain across reboots
	def switch_save_running_config(self):
	self._cli("copy running-config startup-config")
	self.connection.expect("Y/N")
	self._cli("y")
	self.connection.expect("succeeded")

	# Restart the switch - we need to reload config to do a
	# roll-back. Do NOT save running-config first if the switch asks -
	# we're trying to dump recent changes, not save them.
	#
	# This will also implicitly cause a connection to be closed
	def switch_restart(self):
	self._cli("reload")
	index = self.connection.expect(['Are you sure', 'will reset'])
	if index == 0:
	self._cli("y") # Yes, continue without saving
	self.connection.expect("reset the whole")

	# Fall through
	self._cli("y") # Yes, continue to reset
	self.connection.close(True)

	################################
	### VLAN API functions
	################################

	# Create a VLAN with the specified tag
	def vlan_create(self, tag):
	logging.debug("Creating VLAN %d" % tag)
	self._configure()
	self._cli("vlan database")
	self._cli("vlan %d" % tag)
	self._end_configure()

	# Validate it happened
	vlans = self.vlan_get_list()
	for vlan in vlans:
	if vlan == tag:
	return
	raise IOError("Failed to create VLAN %d" % tag)

	# Destroy a VLAN with the specified tag
	def vlan_destroy(self, tag):
	logging.debug("Destroying VLAN %d" % tag)
	self._configure()
	self._cli("no vlan %d" % tag)
	self._end_configure()

	# Validate it happened
	vlans = self.vlan_get_list()
	for vlan in vlans:
	if vlan == tag:
	raise IOError("Failed to destroy VLAN %d" % tag)

	# Set the name of a VLAN
	def vlan_set_name(self, tag, name):
	logging.debug("Setting name of VLAN %d to %s" % (tag, name))
	self._configure()
	self._cli("vlan %d" % tag)
	self._cli("interface vlan %d" % tag)
	self._cli("name %s" % name)
	self._end_configure()

	# Validate it happened
	read_name = self.vlan_get_name(tag)
	if read_name != name:
	raise IOError("Failed to set name for VLAN %d (name found is \"%s\", not \"%s\")"
	% (tag, read_name, name))

	# Get a list of the VLAN tags currently registered on the switch
	def vlan_get_list(self):
	logging.debug("Grabbing list of VLANs")
	vlans = []

	regex = re.compile('^ (\d+).(D\|S\|G\|R)')

	self._cli("show vlan")
	for line in self._read_paged_output():
	match = regex.match(line)
	if match:
	vlans.append(int(match.group(1)))
	return vlans

	# For a given VLAN tag, ask the switch what the associated name is
	def vlan_get_name(self, tag):
	logging.debug("Grabbing the name of VLAN %d" % tag)
	name = None
	regex = re.compile('^ \d+\s+(\S+).(D\|S\|G\|R)')
	self._cli("show vlan tag %d" % tag)
	for line in self._read_paged_output():
	match = regex.match(line)
	if match:
	name = match.group(1)
	name.strip()
	return name


	################################
	### Port API functions
	################################

	# Set the mode of a port: access or trunk
	def port_set_mode(self, port, mode):
	logging.debug("Setting port %s to %s" % (port, mode))
	if not self._is_port_mode_valid(mode):
	raise IndexError("Port mode %s is not allowed" % mode)
	if not self._is_port_name_valid(port):
	raise IndexError("Port name %s not recognised" % port)
	self._configure()
	self._cli("interface %s" % port)
	self._cli("switchport mode %s" % mode)
	self._end_configure()

	# Validate it happened
	read_mode = self.port_get_mode(port)
	if read_mode != mode:
	raise IOError("Failed to set mode for port %s" % port)


	# Get the mode of a port: access or trunk
	def port_get_mode(self, port):
	logging.debug("Getting mode of port %s" % port)
	mode = ''
	if not self._is_port_name_valid(port):
	raise IndexError("Port name %s not recognised" % port)
	regex = re.compile('Port Mode: (\S+)')
	self._cli("show interfaces switchport %s" % port)
	for line in self._read_paged_output():
	match = regex.match(line)
	if match:
	mode = match.group(1)
	return mode.lower()

	# Set an access port to be in a specified VLAN (tag)
	def port_set_access_vlan(self, port, tag):
	logging.debug("Setting access port %s to VLAN %d" % (port, tag))
	if not self._is_port_name_valid(port):
	raise IndexError("Port name %s not recognised" % port)
	if not (self.port_get_mode(port) == "access"):
	raise IndexError("Port %s not in access mode" % port)

	self._configure()
	self._cli("interface %s" % port)
	self._cli("switchport access vlan %d" % tag)
	self._end_configure()

	# Validate things worked
	read_vlan = int(self.port_get_access_vlan(port))
	if read_vlan != tag:
	raise IOError("Failed to move access port %s to VLAN %d - got VLAN %d instead"
	% (port, tag, read_vlan))

	# Add a trunk port to a specified VLAN (tag)
	def port_add_trunk_to_vlan(self, port, tag):
	logging.debug("Adding trunk port %s to VLAN %d" % (port, tag))
	if not self._is_port_name_valid(port):
	raise IndexError("Port name %s not recognised" % port)
	if not (self.port_get_mode(port) == "trunk"):
	raise IndexError("Port %s not in trunk mode" % port)
	self._configure()
	self._cli("interface %s" % port)
	self._cli("switchport trunk allowed vlan add %d" % tag)
	self._end_configure()

	# Validate it happened
	read_vlans = self.port_get_trunk_vlan_list(port)
	for vlan in read_vlans:
	if vlan == tag:
	return
	raise IOError("Failed to add trunk port %s to VLAN %d" % (port, tag))

	# Remove a trunk port from a specified VLAN (tag)
	def port_remove_trunk_from_vlan(self, port, tag):
	logging.debug("Removing trunk port %s from VLAN %d" % (port, tag))
	if not self._is_port_name_valid(port):
	raise IndexError("Port name %s not recognised" % port)
	if not (self.port_get_mode(port) == "trunk"):
	raise IndexError("Port %s not in trunk mode" % port)
	self._configure()
	self._cli("interface %s" % port)
	self._cli("switchport trunk allowed vlan remove %d" % tag)
	self._end_configure()

	# Validate it happened
	read_vlans = self.port_get_trunk_vlan_list(port)
	for vlan in read_vlans:
	if vlan == tag:
	raise IOError("Failed to remove trunk port %s from VLAN %d" % (port, tag))

	# Get the configured VLAN tag for an access port (tag)
	def port_get_access_vlan(self, port):
	logging.debug("Getting VLAN for access port %s" % port)
	vlan = 1
	if not self._is_port_name_valid(port):
	raise IndexError("Port name %s not recognised" % port)
	if not (self.port_get_mode(port) == "access"):
	raise IndexError("Port %s not in access mode" % port)
	regex = re.compile('(\d+)\s+\S+\s+Untagged\s+Static')
	self._cli("show interfaces switchport %s" % port)
	for line in self._read_paged_output():
	match = regex.match(line)
	if match:
	vlan = match.group(1)
	return int(vlan)

	# Get the list of configured VLAN tags for a trunk port
	def port_get_trunk_vlan_list(self, port):
	logging.debug("Getting VLANs for trunk port %s" % port)
	vlans = [ ]
	if not self._is_port_name_valid(port):
	raise IndexError("Port name %s not recognised" % port)
	if not (self.port_get_mode(port) == "trunk"):
	raise IndexError("Port %s not in trunk mode" % port)
	regex = re.compile('(\d+)\s+\S+\s+(Tagged\|Untagged)\s+Static')
	self._cli("show interfaces switchport %s" % port)
	for line in self._read_paged_output():
	match = regex.match(line)
	if match:
	vlans.append (int(match.group(1)))
	return vlans

	################################
	### Internal functions
	################################

	def _login(self, username, password):
	logging.debug("attempting login with username %s, password %s" % (username, password))
	self._cli("")
	self.connection.expect("User Name:")
	self._cli("%s" % username)
	self.connection.expect("Password:")
	self._cli("%s" % password, False)
	self.connection.expect("\\")
	while True:
	index = self.connection.expect(['User Name:', 'authentication failed', r'(.*)#', 'Password:', '.+'])
	if index == 0 or index == 1: # Failed to log in!
	logging.error("Login failure: %s\n" % self.connection.match)
	raise IOError
	elif index == 2:
	self._prompt_name = self.connection.match.group(1).strip()
	logging.debug("Got prompt name %s" % self._prompt_name)
	return 0
	elif index == 3 or index == 4:
	self._cli("", False)

	def _logout(self):
	logging.debug("Logging out")
	self._cli("exit", False)

	def _configure(self):
	self._cli("configure terminal")

	def _end_configure(self):
	self._cli("end")

	def _read_paged_output(self):
	buf = []
	prompt = self._prompt_name + '#'
	while True:
	index = self.connection.expect(['\x1b\[0mMore:.<return>.$', prompt])
	if index == 0: # More: <space>
	for line in self.connection.before.split('\r\n'):
	buf.append(line.strip())
	self._cli(' ', False)
	elif index == 1: # Back to a prompt, says output is finished
	break

	for line in self.connection.before.split('\r\n'):
	buf.append(line.strip())

	return buf

	def _get_port_names(self):
	logging.debug("Grabbing list of ports")
	interfaces = []

	# Use "Up" or "Down" to only identify lines in the output that
	# match interfaces that exist
	regex = re.compile('^(\w+).*(Up\|Down)')

	self._cli("show interfaces status detailed")
	for line in self._read_paged_output():
	match = regex.match(line)
	if match:
	interfaces.append(match.group(1))
	return interfaces

	def _show_config(self):
	logging.debug("Grabbing config")
	self._cli("show running-config")
	return self._read_paged_output()

	def _show_clock(self):
	logging.debug("Grabbing time")
	self._cli("show clock")
	return self._read_paged_output()

	def _get_systemdata(self):

	self._systemdata = []

	logging.debug("Grabbing system data")
	self._cli("show system")
	for line in self._read_paged_output():
	self._systemdata.append(line)

	logging.debug("Grabbing system sw and hw versions")
	self._cli("show version")
	for line in self._read_paged_output():
	self._systemdata.append(line)

	######################################
	# Internal port access helper methods
	######################################
	# N.B. No parameter checking here, for speed reasons - if you're
	# calling this internal API then you should already have validated
	# things yourself! Equally, no post-set checks in here - do that
	# at the higher level.
	######################################

	# Wrapper around connection.send - by default, expect() the same
	# text we've sent, to remove it from the output from the
	# switch. For the few cases where we don't need that, override
	# this using echo=False.
	# Horrible, but seems to work.
	def _cli(self, text, echo=True):
	self.connection.send(text + '\r')
	if echo:
	self.connection.expect(text)

	if __name__ == "__main__":
	# p = CiscoSX300('10.172.2.52', 23)
	p = CiscoSX300('vlandswitch02', 23)
	p.switch_connect('cisco', 'cisco', None)
	#buf = p._show_clock()
	#print "%s" % buf
	#buf = p._show_config()
	#p._dump_list(buf)

	print "System data:"
	p._dump_list(p._systemdata)

	print "Creating VLANs for testing:"
	for i in [ 2, 3, 4, 5, 20 ]:
	p.vlan_create(i)
	p.vlan_set_name(i, "test%d" % i)
	print " %d (test%d)" % (i, i)

	#print "And dump config\n"
	#buf = p._show_config()
	#print "%s" % buf

	#print "Destroying VLAN 2\n"
	#p.vlan_destroy(2)

	#print "And dump config\n"
	#buf = p._show_config()
	#print "%s" % buf

	#print "Port names are:"
	#buf = p.switch_get_port_names()
	#p._dump_list(buf)

	#buf = p.vlan_get_name(25)
	#print "VLAN with tag 25 is called \"%s\"" % buf

	#p.vlan_set_name(35, "foo")
	#print "VLAN with tag 35 is called \"foo\""

	#buf = p.port_get_mode("fa12")
	#print "Port fa12 is in %s mode" % buf

	# Test access stuff
	print "Set fa6 to access mode"
	p.port_set_mode("fa6", "access")
	print "Move fa6 to VLAN 2"
	p.port_set_access_vlan("fa6", 2)
	buf = p.port_get_access_vlan("fa6")
	print "Read from switch: fa6 is on VLAN %s" % buf
	print "Move fa6 back to default VLAN 1"
	p.port_set_access_vlan("fa6", 1)
	#print "And move fa6 back to a trunk port"
	#p.port_set_mode("fa6", "trunk")
	#buf = p.port_get_mode("fa6")
	#print "Port fa6 is in %s mode" % buf

	# Test trunk stuff
	print "Set gi2 to trunk mode"
	p.port_set_mode("gi2", "trunk")
	print "Add gi2 to VLAN 2"
	p.port_add_trunk_to_vlan("gi2", 2)
	print "Add gi2 to VLAN 3"
	p.port_add_trunk_to_vlan("gi2", 3)
	print "Add gi2 to VLAN 4"
	p.port_add_trunk_to_vlan("gi2", 4)
	print "Read from switch: which VLANs is gi2 on?"
	buf = p.port_get_trunk_vlan_list("gi2")
	p._dump_list(buf)

	print "Remove gi2 from VLANs 3,3,4"
	p.port_remove_trunk_from_vlan("gi2", 3)
	p.port_remove_trunk_from_vlan("gi2", 3)
	p.port_remove_trunk_from_vlan("gi2", 4)
	print "Read from switch: which VLANs is gi2 on?"
	buf = p.port_get_trunk_vlan_list("gi2")
	p._dump_list(buf)

	# print "Adding lots of ports to VLANs"
	# p.port_add_trunk_to_vlan("fa1", 2)
	# p.port_add_trunk_to_vlan("fa3", 2)
	# p.port_add_trunk_to_vlan("fa5", 2)
	# p.port_add_trunk_to_vlan("fa7", 2)
	# p.port_add_trunk_to_vlan("fa9", 2)
	# p.port_add_trunk_to_vlan("fa11", 2)
	# p.port_add_trunk_to_vlan("fa13", 2)
	# p.port_add_trunk_to_vlan("fa15", 2)
	# p.port_add_trunk_to_vlan("fa17", 2)
	# p.port_add_trunk_to_vlan("fa19", 2)
	# p.port_add_trunk_to_vlan("fa21", 2)
	# p.port_add_trunk_to_vlan("fa23", 2)
	# p.port_add_trunk_to_vlan("gi4", 2)

	print "VLANs are:"
	buf = p.vlan_get_list()
	p._dump_list(buf)

	# print 'Restarting switch, to explicitly reset config'
	# p.switch_restart()

	# p.switch_save_running_config()
	# p._show_config()