#!/usr/bin/python import collections import ipaddress import re from copy import deepcopy mac_prefix = "f2" # VRF configuration map vrf_info = { 'vrf_external' : { 'table' : 1023, 'fwmark' : [ '0x1', '0x1023' ], }, } # # Default parameters added to any given bonding interface, # if not specified at the interface configuration. default_bond_config = { 'bond-mode': '802.3ad', 'bond-min-links': '1', 'bond-xmit-hash-policy': 'layer3+4' } # # Default parameters added to any given bonding interface, # if not specified at the interface configuration. default_bridge_config = { 'bridge-fd' : '0', 'bridge-stp' : 'no' } # # Hop penalty to be set if none is explicitly specified. # Check if one of these roles is configured for any given node, use first match. default_hop_penalty_by_role = { 'bbr' : 5, 'bras' : 50, 'batman_gw' : 5, 'batman_ext': 50, } batman_role_evaluation_order = [ 'bbr', 'batman_gw', 'bras' ] # # Default interface attributes to be added to GRE interface to AS201701 when # not already present in pillar interface configuration. GRE_FFRL_attrs = { 'mode' : 'gre', 'method' : 'tunnel', 'mtu' : '1400', 'ttl' : '64', } # The IPv4/IPv6 prefix used for Loopback IPs loopback_prefix = { 'v4' : '10.132.255.', 'v6' : '2a03:2260:2342:ffff::', } # The DNS zone base names used for generating zone files from IP address # configured on nodes interfaces. DNS_zone_names = { 'forward' : 'ffho.net', 'rev_v4' : [ '132.10.in-addr.arpa', '30.172.in-addr.arpa', ], 'rev_v6' : [ '2.4.3.2.0.6.2.2.3.0.a.2.ip6.arpa', ] } # MTU configuration MTU = { # The default MTU for any interface which does not have a MTU configured # explicitly in the pillar node config or does not get a MTU configured # by any means of this SDN stuff here. 'default' : 1500, # A batman underlay device, probably a VXLAN or VLAN interface. # # 1500 # + 60 B.A.T.M.A.N. adv header + network coding (activated by default by Debian) 'batman_underlay_iface' : 1560, # VXLAN underlay device, probably a VLAN within $POP or between two BBRs. # # 1560 # + 14 Inner Ethernet Frame # + 8 VXLAN Header # + 8 UDP Header # + 20 IPv4 Header 'vxlan_underlay_iface' : 1610, } ################################################################################ # # # Internal data types and functions # # # # Touching anything below will void any warranty you never had ;) # # # ################################################################################ ################################################################################ # Data types # ################################################################################ class Prefix (object): """An internet address with a prefix length. The given address is expected to be of format ip/plen in CIDR notation. The IP as well as the prefix length and address family will be stored in attributes. .. code-block:: pycon >>> a = Prefix ('10.132.23.42/24') >>> str (a.ip) '10.132.23.42' >>> str (a.af) '4' >>> str (a.plen) '24' >>> str (a.netmask) '255.255.255.0' >>> str (a.network_address) '10.132.23.0' """ def __init__ (self, prefix): self.prefix = prefix self.ip_network = ipaddress.ip_network (u'%s' % prefix, strict = False) def __eq__ (self, other): if isinstance (other, Prefix): return self.ip_network == other.ip_network return NotImplemented def __lt__ (self, other): if isinstance (other, Prefix): return self.ip_network < other.ip_network return NotImplemented def __str__ (self): return self.prefix @property def ip (self): return self.prefix.split ('/')[0] @property def af (self): return self.ip_network.version @property def plen (self): return self.ip_network.prefixlen @property def netmask (self): return self.ip_network.netmask @property def network_address (self): return self.ip_network.network_address ################################################################################ # Functions # ################################################################################ sites = None def _get_site_no (sites_config, site_name): global sites if sites == None: sites = {} for site in sites_config: if site.startswith ("_"): continue sites[site] = sites_config[site].get ("site_no", -2) return sites.get (site_name, -1) # # Generate a MAC address after the format f2:dd:dd:ss:nn:nn where # dd:dd is the hexadecimal reprensentation of the nodes device_id # ff:ff representing the gluon nodes # # ss is the hexadecimal reprensentation of the site_id the interface is connected to # # nn:nn is the decimal representation of the network the interface is connected to, with # 00:00 being the BATMAN interface # 00:0d being the dummy interface # 00:0f being the VEth internal side interface # 00:e0 being an external instance BATMAN interface # 00:ed being an external instance dummy interface # 00:e1 being an inter-gw-vpn interface # 00:e4 being an nodes fastd tunnel interface of IPv4 transport # 00:e6 being an nodes fastd tunnel interface of IPv6 transport # 00:ef being an extenral instance VEth interface side # 02:xx being a connection to local Vlan 2xx # xx:xx being a VXLAN tunnel for site ss, with xx being the underlay VLAN ID (1xyz, 2xyz) # ff:ff being the gluon next-node interface def gen_batman_iface_mac (site_no, device_no, network): net_type_map = { 'bat' : "00:00", 'dummy' : "00:0d", 'int2ext' : "00:0f", 'bat-e' : "00:e0", 'intergw' : "00:e1", 'nodes4' : "00:e4", 'nodes6' : "00:e6", 'dummy-e' : "00:ed", 'ext2int' : "00:ef", } # Well-known network type? if network in net_type_map: last = net_type_map[network] elif type (network) == int: last = re.sub (r'(\d{2})(\d{2})', '\g<1>:\g<2>', "%04d" % network) else: last = "ee:ee" # Convert device_no to hex, format number to 4 digits with leading zeros and : betwwen 2nd and 3rd digit device_no_hex = re.sub (r'([0-9a-fA-F]{2})([0-9a-fA-F]{2})', '\g<1>:\g<2>', "%04x" % int (device_no)) # Format site_no to two digit number with leading zero site_no_hex = "%02d" % int (site_no) return "%s:%s:%s:%s" % (mac_prefix, device_no_hex, site_no_hex, last) # Gather B.A.T.M.A.N. related config options for real batman devices (e.g. bat0) # as well as for batman member interfaces (e.g. eth0.100, fastd ifaces etc.) def _update_batman_config (node_config, iface, sites_config): try: node_batman_hop_penalty = int (node_config['batman']['hop-penalty']) except (KeyError,ValueError): node_batman_hop_penalty = None iface_config = node_config['ifaces'][iface] iface_type = iface_config.get ('type', 'inet') batman_config = {} for item in list (iface_config.keys ()): value = iface_config.get (item) if item.startswith ('batman-'): batman_config[item] = value iface_config.pop (item) # B.A.T.M.A.N. device (e.g. bat0) if iface_type == 'batman': if 'batman-hop-penalty' not in batman_config: # If there's a hop penalty set for the node, but not for the interface # apply the nodes hop penalty if node_batman_hop_penalty: batman_config['batman-hop-penalty'] = node_batman_hop_penalty # If there's no hop penalty set for the node, use a default hop penalty # for the roles the node might have, if any else: node_roles = node_config.get ('roles', []) for role in batman_role_evaluation_order: if role in node_roles: batman_config['batman-hop-penalty'] = default_hop_penalty_by_role[role] if 'batman_ext' in node_roles and iface.endswith('-ext'): batman_config['batman-hop-penalty'] = default_hop_penalty_by_role['batman_ext'] # If batman ifaces were specified as a list - which they should - # generate a sorted list of interface names as string representation if 'batman-ifaces' in batman_config and type (batman_config['batman-ifaces']) == list: batman_iface_str = " ".join (sorted (batman_config['batman-ifaces'])) batman_config['batman-ifaces'] = batman_iface_str # B.A.T.M.A.N. member interface (e.g. eth.100, fastd ifaces, etc.) elif iface_type == 'batman_iface': # Generate unique MAC address for every batman iface, as B.A.T.M.A.N. # will get puzzled with multiple interfaces having the same MAC and # do nasty things. site = iface_config.get ('site') site_no = _get_site_no (sites_config, site) device_no = node_config.get ('id') network = 1234 # Generate a unique BATMAN-MAC for this interfaces match = re.search (r'^vlan(\d+)', iface) if match: network = int (match.group (1)) iface_config['hwaddress'] = gen_batman_iface_mac (site_no, device_no, network) iface_config['batman'] = batman_config # Mangle bond specific config items with default values and store them in # separate sub-dict for easier access and configuration. def _update_bond_config (config): bond_config = default_bond_config.copy () to_pop = [] for item, value in config.items (): if item.startswith ('bond-'): bond_config[item] = value to_pop.append (item) for item in to_pop: config.pop (item) if bond_config['bond-mode'] not in ['2', 'balance-xor', '4', '802.3ad']: bond_config.pop ('bond-xmit-hash-policy') config['bond'] = bond_config # Mangle bridge specific config items with default values and store them in # separate sub-dict for easier access and configuration. def _update_bridge_config (config): bridge_config = default_bridge_config.copy () for item in list (config.keys ()): value = config.get (item) if item.startswith ('bridge-'): bridge_config[item] = value config.pop (item) # Fix and salt mangled string interpretation back to real string. if type (value) == bool: bridge_config[item] = "yes" if value else "no" # If bridge ports were specified as a list - which they should - # generate a sorted list of interface names as string representation if 'bridge-ports' in bridge_config and type (bridge_config['bridge-ports']) == list: bridge_ports_str = " ".join (sorted (bridge_config['bridge-ports'])) bridge_config['bridge-ports'] = bridge_ports_str config['bridge'] = bridge_config # Move vlan specific config items into a sub-dict for easier access and pretty-printing # in the configuration file def _update_vlan_config (config): vlan_config = {} for item in list (config.keys ()): value = config.get (item) if item.startswith ('vlan-'): vlan_config[item] = value config.pop (item) config['vlan'] = vlan_config # Pimp Veth interfaces # * Add peer interface name IF not present # * Add link-type veth IF not present def _update_veth_config (interface, config): veth_peer_name = { 'veth_ext2int' : 'veth_int2ext', 'veth_int2ext' : 'veth_ext2int' } if interface not in veth_peer_name: return if 'link-type' not in config: config['link-type'] = 'veth' if 'veth-peer-name' not in config: config['veth-peer-name'] = veth_peer_name[interface] # The given MTU to the given interface - presented by it's interface config dict - # IFF no MTU has already been set in the node pillar. # # @param ifaces: All interface configuration (as dict) # @param iface_name: Name of the interface to set MTU for # @param mtu: The MTU value to set (integer) # When is <= 0, the configured for # will be used to set the MTU of the upper interface, and the # default MTU if none is configured explicitly. def _set_mtu_to_iface_and_upper (ifaces, iface_name, mtu): iface_config = ifaces.get (iface_name) # By default we assume that we should set the given MTU value as the 'automtu' # attribute to allow distinction between manually set and autogenerated MTU # values. set_automtu = True # If a mtu values <= 0 is given, use the MTU configured for this interface # or, if none is set, the default value when configuring the vlan-raw-device. if mtu <= 0: set_automtu = False mtu = iface_config.get ('mtu', MTU['default']) # If this interface already has a MTU set - probably because someone manually # specified one in the node pillar - we do not touch the MTU of this interface. # Nevertheless it's worth looking at any underlying interface. if 'mtu' in iface_config: set_automtu = False # There might be - read: "we have" - a situation where on top of e.g. bond0 # there are vlans holding VXLAN communicaton as well as VLANs directly carrying # BATMAN traffic. Now depending on which interface is evaluated first, the upper # MTU is either correct, or maybe to small. # # If any former autogenerated MTU is greater-or-equal than the one we want to # set now, we'll ignore it, and go for the greater one. elif 'automtu' in iface_config and iface_config['automtu'] >= mtu: set_automtu = False # If we still consider this a good move, set given MTU to this device. if set_automtu: iface_config['automtu'] = mtu # If this is a VLAN - which it probably is - fix the MTU of the underlying interface, too. # Check for 'vlan-raw-device' in iface_config and in vlan subconfig (yeah, that's not ideal). vlan_raw_device = None if 'vlan-raw-device' in iface_config: vlan_raw_device = iface_config['vlan-raw-device'] elif 'vlan' in iface_config and 'vlan-raw-device' in iface_config['vlan']: vlan_raw_device = iface_config['vlan']['vlan-raw-device'] if vlan_raw_device: vlan_raw_device_config = ifaces.get (vlan_raw_device, None) # vlan-raw-device might point to ethX which usually isn't configured explicitly # as ifupdown2 simply will bring it up anyway by itself. To set the MTU of such # an interface we have to add a configuration stanza for it here. if vlan_raw_device_config == None: vlan_raw_device_config = {} ifaces[vlan_raw_device] = vlan_raw_device_config # If there is a manually set MTU for this device, we don't do nothin' if 'mtu' in vlan_raw_device_config: return if 'automtu' in vlan_raw_device_config and vlan_raw_device_config['automtu'] >= mtu: return vlan_raw_device_config['automtu'] = mtu # Generate configuration entries for any batman related interfaces not # configured explicitly, but asked for implicitly by role batman and a # (list of) site(s) specified in the node config. def _generate_batman_interface_config (node_config, ifaces, sites_config): # No role 'batman', nothing to do roles = node_config.get ('roles', []) if 'batman' not in roles: return # Should there be a 2nd external BATMAN instance? batman_ext = 'batman_ext' in roles or 'bras' in roles device_no = node_config.get ('id', -1) for site in node_config.get ('sites', []): site_no = _get_site_no (sites_config, site) # Predefine interface names for regular/external BATMAN instance # and possible VEth link pair for connecting both instances. bat_site_if = "bat-%s" % site dummy_site_if = "dummy-%s" % site bat_site_if_ext = "bat-%s-ext" % site dummy_site_if_ext = "dummy-%s-e" % site int2ext_site_if = "i2e-%s" % site ext2int_site_if = "e2i-%s" % site site_ifaces = { # Regular BATMAN interface, always present bat_site_if : { 'type' : 'batman', # int2ext_site_if will be added automagically if requred 'batman-ifaces' : [ dummy_site_if ], 'batman-ifaces-ignore-regex': '.*_.*', 'hwaddress' : gen_batman_iface_mac (site_no, device_no, 'bat'), }, # Dummy interface always present in regular BATMAN instance dummy_site_if : { 'link-type' : 'dummy', 'hwaddress' : gen_batman_iface_mac (site_no, device_no, 'dummy'), 'mtu' : MTU['batman_underlay_iface'], }, # Optional 2nd "external" BATMAN instance bat_site_if_ext : { 'type' : 'batman', 'batman-ifaces' : [ dummy_site_if_ext, ext2int_site_if ], 'batman-ifaces-ignore-regex': '.*_.*', 'hwaddress' : gen_batman_iface_mac (site_no, device_no, 'bat-e'), 'ext_only' : True, }, # Optional dummy interface always present in 2nd "external" BATMAN instance dummy_site_if_ext : { 'link-type' : 'dummy', 'hwaddress' : gen_batman_iface_mac (site_no, device_no, 'dummy-e'), 'ext_only' : True, 'mtu' : MTU['batman_underlay_iface'], }, # Optional VEth interface pair - internal side int2ext_site_if : { 'link-type' : 'veth', 'veth-peer-name' : ext2int_site_if, 'hwaddress' : gen_batman_iface_mac (site_no, device_no, 'int2ext'), 'mtu' : MTU['batman_underlay_iface'], 'ext_only' : True, }, # Optional VEth interface pair - "external" side ext2int_site_if : { 'link-type' : 'veth', 'veth-peer-name' : int2ext_site_if, 'hwaddress' : gen_batman_iface_mac (site_no, device_no, 'ext2int'), 'mtu' : MTU['batman_underlay_iface'], 'ext_only' : True, }, } for iface, iface_config_tmpl in site_ifaces.items (): # Ignore any interface only relevant when role batman_ext is set # but it isn't if not batman_ext and iface_config_tmpl.get ('ext_only', False): continue # Remove ext_only key so we don't leak it into ifaces dict if 'ext_only' in iface_config_tmpl: del iface_config_tmpl['ext_only'] # If there is no trace of the desired iface config yet... if iface not in ifaces: # ... just place our template there. ifaces[iface] = iface_config_tmpl # If there should be an 2nd external BATMAN instance make sure # the internal side of the VEth iface pair is connected to the # internal BATMAN instance. if batman_ext and iface == bat_site_if: iface_config_tmpl['batman-ifaces'].append (int2ext_site_if) # If there already is an interface configuration try to enhance it with # meaningful values from our template and force correct hwaddress to be # used. else: iface_config = ifaces[iface] # Force hwaddress to be what we expect. if 'hwaddress' in iface_config_tmpl: iface_config['hwaddress'] = iface_config_tmpl['hwaddress'] # Copy every attribute of the config template missing in iface config for attr in iface_config_tmpl: if attr not in iface_config: iface_config[attr] = iface_config_tmpl[attr] # Configure bat_site_if to be part of br-, if present site_bridge = "br-%s" % site if site_bridge in ifaces: bridge_config = ifaces.get (site_bridge) bridge_ports = bridge_config.get ('bridge-ports', None) # There are bridge-ports configured already, but bat_site_if is not present if bridge_ports and bat_site_if not in bridge_ports: if type (bridge_ports) == list: bridge_ports.append (bat_site_if) else: bridge_config['bridge-ports'] += ' ' + bat_site_if # There are no bridge-ports configured if not bridge_ports: bridge_config['bridge-ports'] = bat_site_if # Make sure there is a bridge present for every site where a mesh_breakout # interface should be configured. for iface in list (ifaces.keys ()): config = ifaces.get (iface) iface_type = config.get ('type', 'inet') if iface_type not in ['mesh_breakout', 'batman_iface']: continue site = config.get ('site') site_bridge = "br-%s" % site batman_site_if = "bat-%s" % site if iface_type == 'mesh_breakout': # If the bridge has already been defined (with an IP maybe) make # sure that the corresbonding batman device is part of the bridge- # ports. if site_bridge in ifaces: bridge_config = ifaces.get (site_bridge) # If there already is/are (a) bridge-port(s) defined, add # the batman and the breakout interfaces if not present... bridge_ports = bridge_config.get ('bridge-ports', None) if bridge_ports: for dev in (batman_site_if, iface): if not dev in bridge_ports: if type (bridge_ports) == list: bridge_ports.append (dev) else: bridge_config['bridge-ports'] += ' ' + dev # ...if there is no bridge-port defined yet, just used # the batman and breakout iface. else: bridge_config['bridge-ports'] = [ iface, batman_site_if ] # If the bridge isn't present alltogether, add it. else: ifaces[site_bridge] = { 'bridge-ports' : [ iface, batman_site_if ], } elif iface_type == 'batman_iface': batman_ifaces = ifaces[batman_site_if]['batman-ifaces'] if iface not in batman_ifaces: if type (batman_ifaces) == list: batman_ifaces.append (iface) else: batman_ifaces += ' ' + iface # Use the MTU configured for this interface or, if none is set, # the default value for batman underlay iface. mtu = config.get('mtu', MTU['batman_underlay_iface']) _set_mtu_to_iface_and_upper (ifaces, iface, mtu) # # Generate any implicitly defined VXLAN interfaces defined in the nodes iface # defined in pillar. # The keyword "batman_connect_sites" on an interface will trigger the # generation of a VXLAN overlay interfaces. def _generate_vxlan_interface_config (node_config, ifaces, sites_config): # No role 'batman', nothing to do if 'batman' not in node_config.get ('roles', []): return # Sites configured on this node. Nothing to do, if none. my_sites = node_config.get ('sites', []) if len (my_sites) == 0: return # As we're still here we can now safely assume that a B.A.T.M.A.N. # device has been configured for every site specified in sites list. device_no = node_config.get ('id', -1) for iface in list (ifaces.keys ()): iface_config = ifaces.get (iface) batman_connect_sites = iface_config.get ('batman_connect_sites', []) # If we got a string, convert it to a list with a single element if type (batman_connect_sites) == str: batman_connect_sites = [ batman_connect_sites ] # If the list of sites to connect is empty, there's nothing to do here. if len (batman_connect_sites) == 0: continue # Set the MTU of this (probably) VLAN device to the MTU required for a VXLAN underlay # device, where B.A.T.M.A.N. adv. is to be expected within the VXLAN overlay. _set_mtu_to_iface_and_upper (ifaces, iface, MTU['vxlan_underlay_iface']) # If the string 'all' is part of the list, blindly use all sites configured for this node if 'all' in batman_connect_sites: batman_connect_sites = my_sites for site in batman_connect_sites: # Silenty ignore sites not configured on this node if site not in my_sites: continue # iface_name := vx__ stripped to 15 chars vx_iface = ("vx_%s_%s" % (re.sub ('vlan', 'v', iface)[-5:], re.sub (r'[_-]', '', site)))[:15] site_no = _get_site_no (sites_config, site) vni = 100 + site_no bat_iface = "bat-%s" % site try: iface_id = int (re.sub ('vlan', '', iface)) # Gather interface specific mcast address. # The address is derived from the vlan-id of the underlying interface, # assuming that it in fact is a vlan interface. # Mangle the vlan-id into two 2 digit values, eliminating any leading zeros. iface_id_4digit = "%04d" % iface_id octet2 = int (iface_id_4digit[0:2]) octet3 = int (iface_id_4digit[2:4]) mcast_ip = "225.%s.%s.%s" % (octet2, octet3, site_no) vni = octet2 * 256 * 256 + octet3 * 256 + site_no except ValueError: iface_id = 9999 mcast_ip = "225.0.0.%s" % site_no vni = site_no # bail out if VXLAN tunnel already configured if vx_iface in ifaces: continue # If there's no batman interface for this site, there's no point # in setting up a VXLAN interfaces if bat_iface not in ifaces: continue # Add the VXLAN interface ifaces[vx_iface] = { 'vxlan' : { 'vxlan-id' : vni, 'vxlan-svcnodeip' : mcast_ip, 'vxlan-physdev' : iface, }, 'hwaddress' : gen_batman_iface_mac (site_no, device_no, iface_id), 'mtu' : MTU['batman_underlay_iface'], } # If the batman interface for this site doesn't have any interfaces # set up - which basicly cannot happen - add this VXLAN tunnel as # the first in the list. if not 'batman-ifaces' in ifaces[bat_iface]: ifaces[bat_iface]['batman-ifaces'] = [ vx_iface ] continue # In the hope there already are interfaces for batman set up already # add this VXLAN tunnel to the list batman_ifaces = ifaces[bat_iface]['batman-ifaces'] if vx_iface not in batman_ifaces: if type (batman_ifaces) == list: batman_ifaces.append (vx_iface) else: batman_ifaces += ' ' + vx_iface # # Generate implicitly defined VRFs according to the vrf_info dict at the top # of this file def _generate_vrfs (ifaces): for iface in list (ifaces.keys ()): iface_config = ifaces.get (iface) vrf = iface_config.get ('vrf', None) if vrf and vrf not in ifaces: conf = vrf_info.get (vrf, {}) table = conf.get ('table', 1234) fwmark = conf.get ('fwmark', None) ifaces[vrf] = { 'vrf-table' : table, } # Create ip rule's for any fwmarks defined if fwmark: up = [] # Make sure we are dealing with a list even if there is only one mark to be set up if type (fwmark) in (str, int): fwmark = [ fwmark ] # Create ip rule entries for IPv4 and IPv6 for every fwmark for mark in fwmark: up.append ("ip rule add fwmark %s table %s" % (mark, table)) up.append ("ip -6 rule add fwmark %s table %s" % (mark, table)) ifaces[vrf]['up'] = up def _generate_ffrl_gre_tunnels (ifaces): for iface, iface_config in ifaces.items (): # We only care for GRE_FFRL type interfaces if iface_config.get ('type', '') != 'GRE_FFRL': continue # Copy default values to interface config for attr, val in GRE_FFRL_attrs.items (): if not attr in iface_config: iface_config[attr] = val # Guesstimate local IPv4 tunnel endpoint address from tunnel-physdev if not 'local' in iface_config and 'tunnel-physdev' in iface_config: try: physdev_prefixes = [p.split ('/')[0] for p in ifaces[iface_config['tunnel-physdev']]['prefixes'] if '.' in p] if len (physdev_prefixes) == 1: iface_config['local'] = physdev_prefixes[0] except KeyError: pass def _generate_loopback_ips (ifaces, node_config, node_id): # If this node has primary_ips set and filled there are either IPs # configured on lo or IPs on another interface - possibly ones on # the only interface present - are considered as primary IPs. if node_config.get ('primary_ips', False): return v4_ip = "%s/32" % get_primary_ip (node_config, 'v4').ip v6_ip = "%s/128" % get_primary_ip (node_config, 'v6').ip # Interface lo already present? if 'lo' not in ifaces: ifaces['lo'] = { 'prefixes' : [] } # Add 'prefixes' list if not present if 'prefixes' not in ifaces['lo']: ifaces['lo']['prefixes'] = [] prefixes = ifaces['lo']['prefixes'] if v4_ip not in prefixes: prefixes.append (v4_ip) if v6_ip not in prefixes: prefixes.append (v6_ip) # Generate interface descriptions / aliases for auto generated or manually # created interfaces. Currently this only is done for bridges associated # with BATMAN instanzes. # # @param node_config: The configuration of the given node (as dict) # @param sites_config Global sites configuration (as dict) def _update_interface_desc (node_config, sites_config): # Currently we only care for nodes with batman role. if 'batman' not in node_config.get ('roles', []): return for iface, iface_config in node_config.get ('ifaces', {}).items (): if 'desc' in sites_config: continue # If the interface name looks like a bridge for a BATMAN instance # try to get the name of the corresponding site match = re.search (r'^br-([a-z_-]+)$', iface) if match and match.group (1) in sites_config: try: iface_config['desc'] = sites_config[match.group (1)]['name'] except KeyError: pass ################################################################################ # Public functions # ################################################################################ # Generate network interface configuration for given node. # # This function will read the network configuration from pillar and will # * enhance it with all default values configured at the top this file # * auto generate any implicitly configured # * VRFs # * B.A.T.M.A.N. instances and interfaces # * VXLAN interfaces to connect B.A.T.M.A.N. sites # * Loopback IPs derived from numeric node ID # # @param: node_config Pillar node configuration (as dict) # @param: sites_config Pillar sites configuration (as dict) # @param: node_id Minion name / Pillar node configuration key def get_interface_config (node_config, sites_config, node_id = ""): # Make a copy of the node_config dictionary to suppress side-effects. # This function deletes some keys from the node_config which will break # any re-run of this function or other functions relying on the node_config # to be complete. node_config = deepcopy (node_config) # Get config of this node and dict of all configured ifaces ifaces = node_config.get ('ifaces', {}) # Generate configuration entries for any batman related interfaces not # configured explicitly, but asked for implicitly by role and # a (list of) site(s) specified in the node config. _generate_batman_interface_config (node_config, ifaces, sites_config) # Generate VXLAN tunnels for every interfaces specifying 'batman_connect_sites' _generate_vxlan_interface_config (node_config, ifaces, sites_config) # Enhance ifaces configuration with some meaningful defaults for # bonding, bridge and vlan interfaces, MAC address for batman ifaces, etc. for interface in list (ifaces.keys ()): config = ifaces.get (interface) iface_type = config.get ('type', 'inet') if 'batman-ifaces' in config or iface_type.startswith ('batman'): _update_batman_config (node_config, interface, sites_config) if 'bond-slaves' in config: _update_bond_config (config) # FIXME: This maybe will not match on bridges without any member ports configured! if 'bridge-ports' in config or interface.startswith ('br-'): _update_bridge_config (config) if 'vlan-raw-device' in config or 'vlan-id' in config: _update_vlan_config (config) _set_mtu_to_iface_and_upper (ifaces, interface, 0) # Pimp configuration for VEth link pairs if interface.startswith ('veth_'): _update_veth_config (interface, config) # Auto generate Loopback IPs IFF not present _generate_loopback_ips (ifaces, node_config, node_id) # Auto generated VRF devices for any VRF found in ifaces and not already configured. _generate_vrfs (ifaces) # Pimp GRE_FFRL type inteface configuration with default values _generate_ffrl_gre_tunnels (ifaces) # Drop any config parameters used in node interface configuration not # relevant anymore for config file generation. for interface, config in ifaces.items (): # Set default MTU if not already set manually or by any earlier function if interface != 'lo' and ('mtu' not in config): # Set the MTU value of this interface to the autogenerated value (if any) # or set the default, when no automtu is present. config['mtu'] = config.get ('automtu', MTU['default']) for key in [ 'automtu', 'batman_connect_sites', 'has_gateway', 'ospf', 'site', 'type', 'tagged_vlans' ]: if key in config: config.pop (key) # Remove route metric on non-router nodes if 'metric' in config and not 'router' in node_config.get ('roles', []): config.pop ('metric') # This leaves 'auto', 'prefixes' and 'desc' as keys which should not be directly # printed into the remaining configuration. These are handled within the jinja # interface template. # Generate meaningful interface descriptions / aliases where useful _update_interface_desc (node_config, sites_config) return ifaces # Generate entries for /etc/bat-hosts for every batman interface we will configure on any node. # For readability purposes superflous/redundant information is being stripped/supressed. # As these names will only show up in batctl calls with a specific site, site_names in interfaces # are stripped. Dummy interfaces are stripped as well. def gen_bat_hosts (nodes_config, sites_config): bat_hosts = {} for node_id in sorted (nodes_config.keys ()): node_config = nodes_config.get (node_id) node_name = node_id.split ('.')[0] if 'batman' not in node_config['roles']: continue ifaces = get_interface_config (node_config, sites_config, node_id) for iface in sorted (ifaces): iface_config = ifaces.get (iface) hwaddress = iface_config.get ('hwaddress', None) if hwaddress == None: continue entry_name = node_name match = re.search (r'^dummy-(.+)(-e)?$', iface) if match: if match.group (2): entry_name += "-e" # Append site to make name unique entry_name += "/%s" % match.group (1) else: entry_name += "/%s" % re.sub (r'^(vx_.*|i2e|e2i)[_-](.*)$', '\g<1>/\g<2>', iface) bat_hosts[hwaddress] = entry_name if 'fastd' in node_config.get ('roles', []): device_no = node_config.get ('id') for site in node_config.get ('sites', []): site_no = _get_site_no (sites_config, site) for network in ('intergw', 'nodes4', 'nodes6'): hwaddress = gen_batman_iface_mac (site_no, device_no, network) bat_hosts[hwaddress] = "%s/%s/%s" % (node_name, network, site) return bat_hosts # Generate eBGP session parameters for FFRL Transit from nodes pillar information. def get_ffrl_bgp_config (ifaces, proto): _generate_ffrl_gre_tunnels (ifaces) sessions = {} for iface in sorted (ifaces): # We only care for GRE tunnels to the FFRL Backbone if not iface.startswith ('gre_ffrl_'): continue iface_config = ifaces.get (iface) # Search for IPv4/IPv6 prefix as defined by proto parameter local = None neighbor = None for prefix in iface_config.get ('prefixes', []): if (proto == 'v4' and '.' in prefix) or (proto == 'v6' and ':' in prefix): local = prefix.split ('/')[0] # Calculate neighbor IP as - 1 neighbor = str (ipaddress.ip_address (u'%s' % local) - 1) break # Strip gre_ prefix iface name and use it as identifier for the eBGP session. name = re.sub ('gre_ffrl_', 'ffrl_', iface) sessions[name] = { 'local' : local, 'neighbor' : neighbor, 'bgp_local_pref' : iface_config.get ('bgp_local_pref', None), } return sessions # Get list of IP address configured on given interface on given node. # # @param: node_config Pillar node configuration (as dict) # @param: iface_name Name of the interface defined in pillar node config # OR name of VRF ("vrf_") whichs ifaces are # to be examined. # @param: with_mask Don't strip the netmask from the prefix. (Default false) def get_node_iface_ips (node_config, iface_name, with_mask = False): ips = { 'v4' : [], 'v6' : [], } ifaces = node_config.get ('ifaces', {}) ifaces_names = [ iface_name ] if iface_name.startswith ('vrf_'): # Reset list of ifaces_names to consider ifaces_names = [] vrf = iface_name for iface, iface_config in ifaces.items (): # Ignore any iface NOT in the given VRF if iface_config.get ('vrf', None) != vrf: continue # Ignore any VEth pairs if iface.startswith ('veth'): continue ifaces_names.append (iface) try: for iface in ifaces_names: for prefix in ifaces[iface]['prefixes']: ip_ver = 'v6' if ':' in prefix else 'v4' if not with_mask: prefix = prefix.split ('/')[0] ips[ip_ver].append (prefix) except KeyError: pass return ips # # Get the primary IP(s) of the given node # # @param node_config: Pillar node configuration (as dict) # @param af: Address family def get_primary_ip (node_config, af): # Compatility glue if 'primary_ips' not in node_config: return Prefix ("%s%s" % (loopback_prefix[af], node_config['id'])) return Prefix (node_config['primary_ips'][af]) # # Get the router id (read: IPv4 Lo-IP) out of the given node config. def get_router_id (node_config, node_id): return get_primary_ip (node_config, 'v4').ip # Compute minions OSPF interface configuration according to FFHO routing policy # See https://wiki.ffho.net/infrastruktur:vlans for information about Vlans # # Costs are based on the following reference values: # # Iface speed | Cost # ------------+--------- # 100 Gbit/s | 1 # 40 Gbit/s | 2 # 25 Gbit/s | 4 # 20 Gbit/s | 5 # 10 Gbit/s | 10 # 1 Gbit/s | 100 # 100 Mbit/s | 1000 # VPN | 10000 # def get_ospf_interface_config (node_config, grains_id): ospf_node_config = node_config.get ('ospf', {}) ospf_interfaces = {} for iface, iface_config in node_config.get ('ifaces', {}).items (): # By default we don't speak OSPF on interfaces ospf_on = False # Defaults for OSPF interfaces ospf_config = { 'stub' : True, # Active/Passive interface 'cost' : 12345, # 'type' # Area type } # OSPF configuration for interface present? ospf_config_pillar = iface_config.get ('ospf', {}) # Should be completely ignore this interface? if ospf_config_pillar.get ('ignore', False): continue # Wireless Local Links (WLL) if re.search (r'^vlan90\d$', iface): ospf_on = True ospf_config['stub'] = True ospf_config['cost'] = 10 ospf_config['desc'] = "Wireless Local Link (WLL)" # Local Gigabit Ethernet based connections (PTP or L2 subnets), cost 10 elif re.search (r'^(br-?|br\d+\.|vlan)10\d\d$', iface): ospf_on = True ospf_config['stub'] = False ospf_config['cost'] = 100 ospf_config['desc'] = "Wired Gigabit connection" # 10/20 Gbit/s Dark Fiber connection elif re.search (r'^vlan12\d\d$', iface): ospf_on = True ospf_config['stub'] = False ospf_config['cost'] = 10 ospf_config['desc'] = "Wired 10Gb/s connection" # VLL connection elif re.search (r'^vlan15\d\d$', iface): ospf_on = True ospf_config['stub'] = False ospf_config['cost'] = 200 ospf_config['desc'] = "VLL connection" # WBBL connection elif re.search (r'^vlan20\d\d$', iface): ospf_on = True ospf_config['stub'] = False ospf_config['cost'] = 1000 ospf_config['desc'] = "WBBL connection" # Legacy WBBL connection elif re.search (r'^vlan22\d\d$', iface): ospf_on = True ospf_config['stub'] = False ospf_config['cost'] = 1000 ospf_config['desc'] = "WBBL connection" # Management Vlans elif re.search (r'^vlan30\d\d$', iface): ospf_on = True ospf_config['stub'] = True ospf_config['cost'] = 10 # OPS Vlans elif re.search (r'^vlan39\d\d$', iface): ospf_on = True ospf_config['stub'] = True ospf_config['cost'] = 10 # Active OSPF on OpenVPN tunnels, cost 10000 elif iface.startswith ('ovpn-'): ospf_on = True ospf_config['stub'] = False ospf_config['cost'] = 10000 # Inter-Core links should have cost 5000 if iface.startswith ('ovpn-cr') and grains_id.startswith ('cr'): ospf_config['cost'] = 5000 # OpenVPN tunnels to EdgeRouters elif iface.startswith ('ovpn-er-'): ospf_config['type'] = 'broadcast' # OSPF explicitly enabled for interface elif 'ospf' in iface_config: ospf_on = True # iface ospf parameters will be applied later # Go on if OSPF should not be actived if not ospf_on: continue # Explicit OSPF interface configuration parameters take precendence over generated ones for attr, val in ospf_config_pillar.items (): ospf_config[attr] = val # Convert boolean values to 'yes' / 'no' string values for attr, val in ospf_config.items (): if type (val) == bool: ospf_config[attr] = 'yes' if val else 'no' # Store interface configuration ospf_interfaces[iface] = ospf_config return ospf_interfaces # Return (possibly empty) subset of Traffic Engineering entries from 'te' pillar entry # relevenant for this minion and protocol (IPv4 / IPv6) def get_te_prefixes (te_node_config, grains_id, proto): te_config = {} for prefix, prefix_config in te_node_config.get ('prefixes', {}).items (): prefix_proto = 'v6' if ':' in prefix else 'v4' # Should this TE policy be applied on this node and is the prefix # of the proto we are looking for? if grains_id in prefix_config.get ('nodes', []) and prefix_proto == proto: te_config[prefix] = prefix_config return te_config def generate_DNS_entries (nodes_config, sites_config): forward_zone_name = "" forward_zone = [] zones = { # : [], # : [], # : [], # ... } # Fill zones dict with zones configured in DNS_zone_names at the top of this file. # Make sure the zone base names provided start with a leading . so the string # operations later can be done easily and safely. Proceed with fingers crossed. for entry, value in DNS_zone_names.items (): if entry == "forward": zone = value if not zone.startswith ('.'): zone = ".%s" % zone zones[zone] = forward_zone forward_zone_name = zone if entry in [ 'rev_v4', 'rev_v6' ]: for zone in value: if not zone.startswith ('.'): zone = ".%s" % zone zones[zone] = [] # Process all interfaace of all nodes defined in pillar and generate forward # and reverse entries for all zones defined in DNS_zone_names. Automagically # put reverse entries into correct zone. for node_id in sorted (nodes_config): node_config = nodes_config.get (node_id) ifaces = get_interface_config (node_config, sites_config, node_id) for iface in sorted (ifaces): iface_config = ifaces.get (iface) # We only care for interfaces with IPs configured prefixes = iface_config.get ("prefixes", None) if prefixes == None: continue # Ignore any interface in $VRF if iface_config.get ('vrf', "") in [ 'vrf_external' ]: continue for prefix in sorted (prefixes): ip = ipaddress.ip_address (u'%s' % prefix.split ('/')[0]) proto = 'v%s' % ip.version # The entry name is # when interface 'lo' # .srv. when interface 'srv' (or magically detected internal srv record) # . else entry_name = node_id if iface != "lo": entry_name = "%s.%s" % (iface, node_id) elif iface == 'srv' or re.search (r'^(10.132.251|2a03:2260:2342:f251:)', prefix): entry_name = re.sub (r'^([^.]+)\.(.+)$', r'\g<1>.srv.\g<2>', entry_name) # Strip forward zone name from entry_name and store forward entry # with correct entry type for found IP address. forward_entry_name = re.sub (forward_zone_name, "", entry_name) forward_entry_name = re.sub (forward_zone_name, "", entry_name) forward_entry_typ = "A" if ip.version == 4 else "AAAA" forward_zone.append ("%s IN %s %s" % (forward_entry_name, forward_entry_typ, ip)) # Find correct reverse zone, if configured and strip reverse zone name # from calculated reverse pointer name. Store reverse entry if we found # a zone for it. If no configured reverse zone did match, this reverse # entry will be ignored. for zone in zones: if ip.reverse_pointer.find (zone) > 0: PTR_entry = re.sub (zone, "", ip.reverse_pointer) zones[zone].append ("%s IN PTR %s." % (PTR_entry, entry_name)) break return zones # Convert the CIDR network from the given prefix into a dotted netmask def cidr_to_dotted_mask (prefix): from ipcalc import Network return str (Network (prefix).netmask ()) def is_subprefix (prefix, subprefix): from ipcalc import Network return subprefix in Network(prefix) # Return the network address of the given prefix def get_network_address (prefix, with_prefixlen = False): net_h = ipaddress.ip_network (u'%s' % prefix, strict = False) network = str (net_h.network_address) if with_prefixlen: network += "/%s" % net_h.prefixlen return network