|Deletions are marked like this.||Additions are marked like this.|
|Line 23:||Line 23:|
|* VLAN 8: Netboot (Ubuntu port)||* VLAN 8: Untrusted wireless network.|
|Line 30:||Line 30:|
|Layer three at UCC is pretty nasty, and the firewall script alone probably deserves its own article. However, a brief summary of how it all works:||Layer three at UCC is reasonably straightforward these days. A brief summary:|
|Line 33:||Line 33:|
|* 220.127.116.11/24 is the public address space for our AARNet connection. Incoming, non-peering traffic to these addresses is charged at 4c/mb. This range is routed to us via VLAN 13.||* 18.104.22.168/24 is the public address space for our AARNet connection. This range is routed to us via VLAN 13.|
|Line 36:||Line 36:|
| * 22.214.171.124/29 is the public address space for our Silk connection. Traffic to and from these addresses is unmetered. This range is also routed to us via VLAN 13.
* 10.13.13.0/24 is a private range used for network printers. These addresses reside on VLAN 7 and are not routed outside.
* 10.203.13.0/24 is our address range on the Resnet (college) network. Routed via VLAN 13.
|* 10.13.13.0/24 is a private range used for network printers, but is not currently used. These addresses reside on VLAN 7 and are not routed outside.|
|Line 40:||Line 38:|
|* 172.26.42.8/29 is the Ubuntu Port (netboot install) network.||* 172.26.42.0/26 is for public wireless (unauthenticated clients).|
|Line 43:||Line 41:|
| * 172.26.42.192/27 is the 'ugg' wireless network range
* 172.26.24.224/27 is used by Flying for the 'ucc' wireless network, currently unavailable.
|* 172.26.42.192/27 is the UCC wireless network range (for authenticated clients).|
|Line 51:||Line 48:|
|Line 59:||Line 59:|
|Mail will be received over IPv6 if it is sent to [email protected] (or ipv6.ucc.gu.uwa.edu.au).
|Line 66:||Line 68:|
|IPv6 link-local addresses are handed out by the PPTP/PPP daemon, but radvd has not been configured to provide globally routeable addresses to PPTP/PPP clients yet.||IPv6 link-local addresses are handed out by the PPTP/PPP daemon, and radvd is started for each link to hand out globally-routeable addresses - see [[http://lists.ucc.gu.uwa.edu.au/pipermail/tech/2010-July/003870.html|here]].|
|Line 74:||Line 76:|
|Lots of port 80 traffic somehow gets slurped up by a cacheboy http proxy maintained by [AHC].
There is sometimes a PPTP server running on madako, though SSH tends to be the most reliable protocol for tunneling about UWA.
|There is a PPTP server running on madako, though SSH tends to be the most reliable protocol for tunneling about UWA.|
Understanding UCC's network can be a bit challenging at first, but after some reading you'll find that it is actually very challenging, and give up. This article is a general overview of how it works.
There is a long piece of CAT5 running through the walls from the machine room to the Guild machine room in Cameron Hall (across from UWAnime). This plugs in to a 100M D-Link media converter, which leads to a similar media converter in the Guild comms room in the main Guild building. Our uplink is into an ITS managed switch called 'cruzob'. If you're looking for where the cable runs, it's possibly disguised as a network outlet cable in one of the other student clubrooms.
The machine room contains two switches and a router:
- Madako, a linux-based router running iptables.
- Coconut, a Cisco Catalyst 2948G-GE-TX running CatOS which has 48 GigE ports and 4 SFP slots.
Olive, a Cisco Catalyst 2924 XL running IOS which has 24 FastEthernet ports.
These are all labeled and in the rack. There is also a patch panel for the clubroom wall-ports at the top of the rack.
There is CAT5 cabling run from a patch panel at the top of the rack to a number of wall ports throughout the room. Where not enough wall-ports are available, there are small 5-port unmanaged switches used to attach more devices to the network.
UCC uses seven VLANs internally for various purposes:
- VLAN 1: Network and server management.
- VLAN 2: Machine room network.
- VLAN 3: Clubroom network.
- VLAN 5: Loft network (used for LANs).
- VLAN 6: Wireless network.
- VLAN 7: Printers. (currently largely unused)
- VLAN 8: Untrusted wireless network.
ITS trunks to us the following VLANs:
- VLAN 11: SNAP.
- VLAN 13: Our main uplink, provides us our internet connection and address space.
- VLAN 102: Guild clubs. Not used by UCC, forwarded on to UniSFA.
Layer three at UCC is reasonably straightforward these days. A brief summary:
There are a number of IP ranges used at UCC for various things:
- 126.96.36.199/24 is the public address space for our AARNet connection. This range is routed to us via VLAN 13.
- 188.8.131.52/26 is the machine room address range, internally routed on VLAN 2.
- 184.108.40.206/26 is the clubroom address range, internally routed on VLAN 3.
- 10.13.13.0/24 is a private range used for network printers, but is not currently used. These addresses reside on VLAN 7 and are not routed outside.
- 172.26.42.0/24 is for 'untrusted client machines' - there is some history here, but they are never routed outside the Uni (unless NAT is involved, which it is).
- 172.26.42.0/26 is for public wireless (unauthenticated clients).
- 172.26.42.96/27 is the range we use for PPTP.
- 172.26.42.128/26 is the loft network range.
- 172.26.42.192/27 is the UCC wireless network range (for authenticated clients).
- 10.11.0.0/24 on the SNAP vlan (10.11.0.0/16 in total) is not leased out by the central SNAP dhcp server, so some IPs in this range can be taken for services. Currently 10.11.0.13 is the UCC SNAP SSH forward (which ends up at martello) and .11 is used by evil.
Most of UCC's subnets use DHCP to assign addresses based on MAC address. Further details can be found at Network/Services#DHCP.
Routing and Firewall
Madako, the Linux router, is a beast of burden. See Network/Firewall for further information on the way it operates.
UCC has 2001:388:7094:4080::/58 (which is :4080:: to :40bf:: inclusive). This used to go over a tunnel to AARNET's Sydney tunnel broker, but UWA now peers native IPv6 to AARNET. This makes the connection a fair bit faster and more reliable.
This is advertised by radvd on madako which most machines autoconfigure from, however some machines have statically assigned addresses. There is a rudimentary IPv6 firewall. IPv6 traffic is free.
Many machine room systems have IPv6 address, which are statically assigned. These are available in DNS using the ipv6.ucc zone (e.g. martello.ipv6.ucc.asn.au). There is no reverse DNS at this stage, although the delegation from AARNET to UWA exists.
IPv6 is routed to 2001:388:7094:1::1 from Madako.
Mail will be received over IPv6 if it is sent to [email protected] (or ipv6.ucc.gu.uwa.edu.au).
- 2001:388:7094:1::2/64 uplink (equivalent to 192.168.13.2, UWA VLAN 13)
- 2001:388:7094:4080::/64 machine room (VLAN 2)
- 2001:388:7094:4081::/64 clubroom (VLAN 3)
- 2001:388:7094:4083::/64 loft (VLAN 5)
- 2001:388:7094:4084::/64 wireless (VLAN 6)
IPv6 link-local addresses are handed out by the PPTP/PPP daemon, and radvd is started for each link to hand out globally-routeable addresses - see here.
UWA runs multicast in sparse PIM mode, and madako runs pimd as noted here. Make sure pimd is only listening once per interface, otherwise things won't work quite right. Multicast traffic is also free.
All HTTP goes through mooneye, and is proxied to various other machines for processing, primarily mussel. HTTPS is served by mussel on secure.ucc.asn.au, however IMAPS, POPS and SMTPS are NATted by madako to go to mooneye, since we're cheap and only have one SSL certificate.
There is a PPTP server running on madako, though SSH tends to be the most reliable protocol for tunneling about UWA.
There are various monitoring packages installed, links to which can be found on MissionControl.