Allgemeines
Name | Hans-Bredow-Straße |
Thema | Versorgung des ehemaligen Gerling Verwaltungssitzes in Wiesbaden-Südost, Hans-Bredow-Straße 2 mit Freifunk. Dort sind bis zu 600 Geflüchtete untergebracht. |
Verantwortlicher | GÜ-NN1 |
Mitglieder | Axel, Benito, GÜ-NN1, Peter, Volker, Kokel |
Planungs-Mailing-Liste | Hans |
Berichtsturnus | auf ML |
Beginn | 2016-02-02 |
Ende | ? |
Ergebnisse |
aktueller Stand
- 2016-08-25 | 02 Pers. X 02 h | Ausrichtung NB5-AC zu Weilstraße
- 2016-08-12 | 01 Pers. X 01 h | Telekomrouter konfiguriert
- 2016-07-10 | 02 Pers. X 04 h | 4 Kabel gecrimpt, Server + Gluon-VM konfiguriert
- 2016-07-06 | 02 Pers. X 03 h | 2 Kabel gecrimpt, 2 Switche konfiguriert, 2 PBE-5AC-400 ausgerichtet + konfiguriert
- 2016-05-15 | 01 Pers. X 05 h | Switche/USV in Schrank montiert
- 2016-05-14 | 02 Pers. X 08 h | Installation vom Server, Switche/USV in Schrank montiert
- 2016-05-11 | 02 Pers. X 02 h | Einlagerung der bestellten Hardware zur Weiternutzung
- 2016-03-03 | 04 Pers. X 03 h | Ausmessung eines Stockwerkes und Bedarfsfestlegung (Bestellung Hardware)
- 2016-02-02 | 03 Pers. X 01 h | Vor-Ort-Termin
Lokationsbeschreibung
HBS hat 8 Stockwerke, ein längliches Gebäude, wo vom mittigen Flur rechts und links die Zimmer abgehen. Außerdem gibt es einen zweistöckigen Anbau, der im rechten Winkel am achtstöckigen Teil angebaut ist. Dort im UG ist die Kantine / Aufenthaltsraum.
Befreifunkt sollen alle 8 Stockwerke, die 2 Stockwerke des Anbaus und der Aufenthaltbereich.
Bing-Standort: http://binged.it/1QbZhTd
Vom Dach hat man einen guten Rundumblick auf viele Standorte in der Stadt und bis nach Mainz. Fotos: http://photos.wiesbaden.freifunk.net/index.php?/category/30
Das 2., 3. und 4. OG soll am 15.2. in Betrieb gehen, der Rest später. Belegung werden 500 - 600 Personen sein.
An einen zentralen Punkt im Haus käme ein PoE-fähiger Switch. Von dort bekommen wir LAN an die nötigen Routerplätze gelegt. Auf das Dach wird ebenfalls LAN gelegt, zwecks Anbindung BB.--Axel (Diskussion) 22:42, 3. Feb. 2016 (CET)
Technik
Folgende Richtlinien sollen gelten:
- VLAN 5 = Freifunk Client Netz
- VLANs 100-121/201-222/301-316/401-422/501-512 = Untagged VLANs für CPE210/TL-WR841N
- VLANs 11-22 = Tagged VLANs für Richtfunk
- CPE210 = Mesh-On-LAN/-WAN aktiviert
- TL-WR841N = Mesh-On-LAN/-WAN/-WiFi aktiviert
Port-Legende: "X YZ YZ .. "
X: Port-Bezeichnung (Gerät, nicht Software intern)
Y: VLAN-ID
Z: U = Untagged, T = Tagged
WLAN-Legende: "CX/MX"
C: Client-WLAN
M: Mesh-WLAN
X: 0 = deaktiviert; >0 = WLAN-Kanal (+ aktiviert)
End-Geräte Knoten
Client-WLAN sind alle auf 2,4GHz eingestellt
Lfd. Nr. | Knotenname | Standort | Routertyp | 2,4GHz | IPv4 | Kommentar |
---|---|---|---|---|---|---|
01. | HanS-EG-1 | CPE210 v1.1 | C01/M00 | 10.56.8.0 | ||
02. | HanS-EG-2 | CPE210 v1.1 | C05/M00 | 10.56.8.2 | ||
03. | HanS-EG-3 | CPE210 v1.1 | C09/M00 | 10.56.8.3 | ||
04. | HanS-EG-4 | CPE210 v1.1 | C13/M00 | 10.56.8.4 | ||
05. | HanS-1.OG-1 | CPE210 v1.1 | C13/M00 | 10.56.8.5 | ||
06. | HanS-1.OG-2 | CPE210 v1.1 | C09/M00 | 10.56.8.6 | ||
07. | HanS-1.OG-3 | CPE210 v1.1 | C05/M00 | 10.56.8.7 | ||
08. | HanS-1.OG-4 | CPE210 v1.1 | C01/M00 | 10.56.8.8 | ||
09. | HanS-2.OG-1 | CPE210 v1.1 | C01/M00 | 10.56.8.9 | ||
10. | HanS-2.OG-2 | CPE210 v1.1 | C05/M00 | 10.56.8.10 | ||
11. | HanS-2.OG-3 | CPE210 v1.1 | C09/M00 | 10.56.8.11 | ||
12. | HanS-2.OG-4 | CPE210 v1.1 | C13/M00 | 10.56.8.12 | ||
13. | HanS-3.OG-1 | CPE210 v1.1 | C13/M00 | 10.56.8.13 | ||
14. | HanS-3.OG-2 | CPE210 v1.1 | C09/M00 | 10.56.8.14 | ||
15. | HanS-3.OG-3 | CPE210 v1.1 | C05/M00 | 10.56.8.15 | ||
16. | HanS-3.OG-4 | CPE210 v1.1 | C01/M00 | 10.56.8.16 | ||
17. | HanS-4.OG-1 | CPE210 v1.1 | C01/M00 | 10.56.8.17 | ||
18. | HanS-4.OG-2 | CPE210 v1.1 | C05/M00 | 10.56.8.18 | ||
19. | HanS-4.OG-3 | CPE210 v1.1 | C09/M00 | 10.56.8.19 | ||
20. | HanS-4.OG-4 | CPE210 v1.1 | C13/M00 | 10.56.8.20 | ||
21. | HanS-5.OG-1 | CPE210 v1.1 | C13/M00 | 10.56.8.21 | ||
22. | HanS-5.OG-2 | CPE210 v1.1 | C09/M00 | 10.56.8.22 | ||
23. | HanS-5.OG-3 | CPE210 v1.1 | C05/M00 | 10.56.8.23 | ||
24. | HanS-5.OG-4 | CPE210 v1.1 | C01/M00 | 10.56.8.24 | ||
25. | HanS-6.OG-1 | CPE210 v1.1 | C01/M00 | 10.56.8.25 | ||
26. | HanS-6.OG-2 | CPE210 v1.1 | C05/M00 | 10.56.8.26 | ||
27. | HanS-6.OG-3 | CPE210 v1.1 | C09/M00 | 10.56.8.27 | ||
28. | HanS-6.OG-4 | CPE210 v1.1 | C13/M00 | 10.56.8.28 | ||
29. | HanS-7.OG-1 | CPE210 v1.1 | C13/M00 | 10.56.8.29 | ||
30. | HanS-7.OG-2 | CPE210 v1.1 | C09/M00 | 10.56.8.30 | ||
31. | HanS-7.OG-3 | CPE210 v1.1 | C05/M00 | 10.56.8.31 | ||
32. | HanS-7.OG-4 | CPE210 v1.1 | C01/M00 | 10.56.8.32 | ||
33. | HanS-8.OG-1 | CPE210 v1.1 | C01/M00 | 10.56.8.33 | ||
34. | HanS-8.OG-2 | CPE210 v1.1 | C05/M00 | 10.56.8.34 | ||
35. | HanS-8.OG-3 | CPE210 v1.1 | C09/M00 | 10.56.8.35 | ||
36. | HanS-8.OG-4 | CPE210 v1.1 | C13/M00 | 10.56.8.36 | ||
37. | HanS-Flur-EG-1 | CPE210 v1.1 | C01/M01 | Mesh mit HanS-Flur-EG-1.1 | ||
38. | HanS-Flur-EG-1.1 | TL-WR841N | C01/M01 | Mesh mit HanS-Flur-EG-1 | ||
39. | HanS-Flur-EG-2 | CPE210 v1.1 | C05/M05 | Mesh mit HanS-Flur-EG-2.1 | ||
40. | HanS-Flur-EG-2.1 | TL-WR841N | C05/M05 | Mesh mit HanS-Flur-EG-2 | ||
41. | HanS-Flur-1.OG-1 | CPE210 v1.1 | C09/M09 | Mesh mit HanS-Flur-1.OG-1.1 | ||
42. | HanS-Flur-1.OG-1.1 | TL-WR841N | C09/M09 | Mesh mit HanS-Flur-1.OG-1 | ||
43. | HanS-Flur-1.OG-2 | CPE210 v1.1 | C13/M13 | Mesh mit HanS-Flur-1.OG-2.1 | ||
44. | HanS-Flur-1.OG-2.1 | TL-WR841N | C13/M13 | Mesh mit HanS-Flur-1.OG-2 |
WLAN-Kanäle bei IEEE 802.11g und 802.11n (2,4 GHz überlappungsfrei bei 20 MHz Kanalbreite)
Quelle: www.elektronik-kompendium.de
Richtfunk
Lfd. Nr. | Knotenname | Standort | Routertyp | nach | Kommentar |
---|---|---|---|---|---|
01. | ffmwu-hans-fw1 | PowerBeam 5AC 400 | FW1 | AP PtP ffmwu-hans-fw1-11ac | |
02. | ffmwu-hans-opel | PowerBeam 5AC 400 | Opel | AP PtP ffmwu-hans-opel-11ac | |
03. | ffmwu-Accesspoint-client-Standort | PowerBeam 5AC 400 | Point-to-Point | ||
04. | ffmwu-Accesspoint-client-Standort | PowerBeam 5AC 400 | Point-to-Point | ||
05. | ffmwu-Accesspoint-client-Standort | NanoBeam 5AC 19 | Point-to-Point | ||
06. | ffmwu-Accesspoint-client-Standort | NanoBeam 5AC 19 | Point-to-Point | ||
07. | ffmwu-Accesspoint-client-Standort | NanoBeam 5AC 19 | Point-to-Point | ||
08. | ffmwu-Accesspoint-client-Standort | NanoBeam 5AC 19 | Point-to-Point | ||
09. | ffmwu-hans-11ac-116 | LiteBeam 5AC 16 120 | Luisenstraße | Point-to-Multipoint | |
10. | ffmwu-hans-weil | NanoBeam 5AC 19 | Weil | Point-to-Point |
Switche
Portbelegung der 5 Ubiquiti EdgeSwitch ES-24-250W, die in den Racks verbaut sind
HanS-EG-Switch-1
Port | VLANs | Tag-Modi | Patch-Punkt/Gerät | PoE-Status |
---|---|---|---|---|
1 | 5 | untagged | WLAN EG 1.1 | 24V passive |
2 | 5 | untagged | WLAN EG 1.2 | 24V passive |
3 | 5 | untagged | WLAN EG 2.1 | 24V passive |
4 | 5 | untagged | WLAN EG 2.2 | 24V passive |
5 | 5 | untagged | WLAN EG 3.1 | 24V passive |
6 | 5 | untagged | WLAN EG 3.2 | 24V passive |
7 | 5 | untagged | WLAN EG 4.1 | 24V passive |
8 | 5 | untagged | WLAN EG 4.2 | 24V passive |
9 | 5 | untagged | WLAN 1.OG 1.1 | 24V passive |
10 | 5 | untagged | WLAN 1.OG 1.2 | 24V passive |
11 | 5 | untagged | WLAN 1.OG 2.1 | 24V passive |
12 | 5 | untagged | WLAN 1.OG 2.2 | 24V passive |
13 | 5 | untagged | WLAN 1.OG 3.1 | 24V passive |
14 | 5 | untagged | WLAN 1.OG 3.2 | 24V passive |
15 | 5 | untagged | WLAN 1.OG 4.1 | 24V passive |
16 | 5 | untagged | WLAN 1.OG 4.2 | 24V passive |
17 | 5 | untagged | WLAN 2.OG 1.1 | 24V passive |
18 | 5 | untagged | WLAN 2.OG 1.2 | 24V passive |
19 | 5 | untagged | WLAN 2.OG 2.1 | 24V passive |
20 | 5 | untagged | WLAN 2.OG 2.2 | 24V passive |
21 | 5 | untagged | frei | 24V passive |
22 | 5 | untagged | RaspberryPi B+ | disabled |
23 | 5 | untagged | frei/Out-of-Band Mgmt | disabled |
24 | 5 | tagged | Panel-A Port 1/Server-Port enp2s0f1 | disabled |
HanS-EG-Switch-2
Port | VLANs | Tag-Modi | Patch-Punkt/Gerät | PoE-Status |
---|---|---|---|---|
1 | 5 | untagged | WLAN 2.OG 3.1 | 24V passive |
2 | 5 | untagged | WLAN 2.OG 3.2 | 24V passive |
3 | 5 | untagged | WLAN 2.OG 4.1 | 24V passive |
4 | 5 | untagged | WLAN 2.OG 4.2 | 24V passive |
5 | 5 | untagged | WLAN 3.OG 1.1 | 24V passive |
6 | 5 | untagged | WLAN 3.OG 1.2 | 24V passive |
7 | 5 | untagged | WLAN 3.OG 2.1 | 24V passive |
8 | 5 | untagged | WLAN 3.OG 2.2 | 24V passive |
9 | 5 | untagged | WLAN 3.OG 3.1 | 24V passive |
10 | 5 | untagged | WLAN 3.OG 3.2 | 24V passive |
11 | 5 | untagged | WLAN 3.OG 4.1 | 24V passive |
12 | 5 | untagged | WLAN 3.OG 4.2 | 24V passive |
13 | 5 | untagged | WLAN 4.OG 1.1 | 24V passive |
14 | 5 | untagged | WLAN 4.OG 1.2 | 24V passive |
15 | 5 | untagged | WLAN 4.OG 2.1 | 24V passive |
16 | 5 | untagged | WLAN 4.OG 2.2 | 24V passive |
17 | 5 | untagged | WLAN 4.OG 3.1 | 24V passive |
18 | 5 | untagged | WLAN 4.OG 3.2 | 24V passive |
19 | 5 | untagged | WLAN 4.OG 4.1 | 24V passive |
20 | 5 | untagged | WLAN 4.OG 4.2 | 24V passive |
21 | 5 | untagged | frei | 24V passive |
22 | 5 | untagged | frei | 24V passive |
23 | 5,317-322 | tagged | ffmwu-hans-sw03 Port 24 | disabled |
24 | 5,301,303,317-322 | tagged | Panel-A Port 2/Server-Port ens1f0 | disabled |
HanS-EG-Switch-3
Port | VLANs | Tag-Modi | Patch-Punkt/Gerät | PoE-Status |
---|---|---|---|---|
1 | 301 | untagged | WLAN Flur EG 1.1 | 24V passive |
2 | 5 | untagged | WLAN Flur EG 1.2 | 24V passive |
3 | 5 | 303 | WLAN Flur EG 2.1 | 24V passive |
4 | 5 | untagged | WLAN Flur EG 2.2 | 24V passive |
5 | 5 | untagged | WLAN Flur 1.OG 1.1 | 24V passive |
6 | 5 | untagged | WLAN Flur 1.OG 1.2 | 24V passive |
7 | 5 | untagged | WLAN Flur 1.OG 2.1 | 24V passive |
8 | 5 | untagged | WLAN Flur 1.OG 2.2 | 24V passive |
9 | 5 | untagged | frei | 24V passive |
10 | 5 | untagged | frei | 24V passive |
11 | 5 | untagged | frei | 24V passive |
12 | 5 | untagged | frei | 24V passive |
13 | 5 | untagged | frei | 24V passive |
14 | 5 | untagged | frei | 24V passive |
15 | 5 | untagged | frei | 24V passive |
16 | 5 | untagged | frei | 24V passive |
17 | 5,317 | tagged | Dach 4.1 | 24V passive |
18 | 5,318 | tagged | Dach 4.2 | 24V passive |
19 | 5,319 | tagged | Dach 5.1 | 24V passive |
20 | 5,320 | tagged | Dach 5.2 | 24V passive |
21 | 5,321 | tagged | Dach 6.1 | 24V passive |
22 | 5,322 | tagged | Dach 6.2 | 24V passive |
23 | 5 | untagged | Out-of-Band Mgmt | disabled |
24 | 5,301,303,317-322 | tagged | ffmwu-hans-sw02 Port 23 | disabled |
HanS-8OG-Switch-4
Port | VLANs | Tag-Modi | Patch-Punkt/Gerät | PoE-Status |
---|---|---|---|---|
1 | 5 | untagged | WLAN 5.OG 1.1 | 24V passive |
2 | 5 | untagged | WLAN 5.OG 1.2 | 24V passive |
3 | 5 | untagged | WLAN 5.OG 2.1 | 24V passive |
4 | 5 | untagged | WLAN 5.OG 2.2 | 24V passive |
5 | 5 | untagged | WLAN 5.OG 3.1 | 24V passive |
6 | 5 | untagged | WLAN 5.OG 3.2 | 24V passive |
7 | 5 | untagged | WLAN 5.OG 4.1 | 24V passive |
8 | 5 | untagged | WLAN 5.OG 4.2 | 24V passive |
9 | 5 | untagged | WLAN 6.OG 1.1 | 24V passive |
10 | 5 | untagged | WLAN 6.OG 1.2 | 24V passive |
11 | 5 | untagged | WLAN 6.OG 2.1 | 24V passive |
12 | 5 | untagged | WLAN 6.OG 2.2 | 24V passive |
13 | 5 | untagged | WLAN 6.OG 3.1 | 24V passive |
14 | 5 | untagged | WLAN 6.OG 3.2 | 24V passive |
15 | 5 | untagged | WLAN 6.OG 4.1 | 24V passive |
16 | 5 | untagged | WLAN 6.OG 4.2 | 24V passive |
17 | 5 | untagged | WLAN 7.OG 1.1 | 24V passive |
18 | 5 | untagged | WLAN 7.OG 1.2 | 24V passive |
19 | 5 | untagged | WLAN 7.OG 2.1 | 24V passive |
20 | 5 | untagged | WLAN 7.OG 2.2 | 24V passive |
21 | 5 | untagged | TL-WR841N | disabled |
22 | 5 | untagged | frei | 24V passive |
23 | 5 | untagged | Out-of-Band Mgmt | disabled |
24 | 5 | tagged | ffmwu-hans-sw05 Port 23 | disabled |
HanS-8OG-Switch-5
Port | VLANs | Tag-Modi | Patch-Punkt/Gerät | PoE-Status |
---|---|---|---|---|
1 | 5 | untagged | WLAN 7.OG 3.1 | 24V passive |
2 | 5 | untagged | WLAN 7.OG 3.2 | 24V passive |
3 | 5 | untagged | WLAN 7.OG 4.1 | 24V passive |
4 | 5 | untagged | WLAN 7.OG 4.2 | 24V passive |
5 | 5 | untagged | WLAN 8.OG 1.1 | 24V passive |
6 | 5 | untagged | WLAN 8.OG 1.2 | 24V passive |
7 | 5 | untagged | WLAN 8.OG 2.1 | 24V passive |
8 | 5 | untagged | WLAN 8.OG 2.2 | 24V passive |
9 | 5 | untagged | WLAN 8.OG 3.1 | 24V passive |
10 | 5 | untagged | WLAN 8.OG 3.2 | 24V passive |
11 | 5 | untagged | WLAN 8.OG 4.1 | 24V passive |
12 | 5 | untagged | WLAN 8.OG 4.2 | 24V passive |
13 | 5,513 | tagged | Dach 1.1 | 24V passive |
14 | 5,514 | tagged | Dach 1.2 | 24V passive |
15 | 5,515 | tagged | Dach 2.1 | 24V passive |
16 | 5,516 | tagged | Dach 2.2 | 24V passive |
17 | 5,517 | tagged | Dach 3.1 | 24V passive |
18 | 5,518 | tagged | Dach 3.2 | 24V passive |
19 | 5 | untagged | frei | 24V passive |
20 | 6 | tagged | Telekom Uplink | disabled |
21 | 5 | untagged | integrated Lights-Out (iLO) | disabled |
22 | 5 | untagged | Out-of-Band Mgmt | disabled |
23 | 5 | tagged | ffmwu-hans-sw04 Port 24 | disabled |
24 | 5,513-518 | tagged | Server-Port ens1f1 | disabled |
Server
- Modell:HP ProLiant DL380 G5 2x Xeon E5450
- Betriebssystem: Ubuntu 16.04 LTS
- Virtualisierung: KVM/QEMU
Netzwerk Config
Installation Open vSwitch
apt-get install openvswitch-switch openvswitch-common
Anlegen der Open vSwitch Bridges
ovs-vsctl add-br br-sw01
ovs-vsctl add-port br-sw01 enp2s0f1
ovs-vsctl add-br br-sw02
ovs-vsctl add-port br-sw02 ens1f0
ovs-vsctl add-br br-sw05
ovs-vsctl add-port br-sw05 ens1f1
/etc/network/interfaces
# The loopback network interface
auto lo
iface lo inet loopback
# The primary network interface
auto br-ffwi
iface br-ffwi inet static
bridge_ports enp2s0f0
bridge_stp no
bridge_fd 0
address 10.56.2.139
netmask 255.255.192.0
gateway 10.56.0.161
dns-nameservers 10.56.0.161 10.56.0.23 10.56.0.231
# Uplink ffmwu-hans-sw01
auto enp2s0f1
iface enp2s0f1 inet manual
# Uplink ffmwu-hans-sw02
auto ens1f0
iface ens1f0 inet manual
# Uplink ffmwu-hans-sw05
auto ens1f1
iface ens1f1 inet manual
# Inter-Bridge Backbone-VM <-> Uplink-VM
auto br-gluonb2b
iface br-gluonb2b inet manual
bridge_ports none
bridge_stp no
bridge_fd 0
Libvirt Networks
Man legt z.B. nach /tmp/ die Netzwerk Definitionen ab.
Datei /tmp/ovs-sw01.xml
<networkstatus>
<class_id bitmap='0-2'/>
<floor sum='0'/>
<network>
<name>ovs-sw01</name>
<uuid>e5992f9c-4dc1-4f7d-b4e5-6865e80c57f0</uuid>
<forward mode='bridge'/>
<bridge name='br-sw01'/>
<virtualport type='openvswitch'/>
<portgroup name='vlan-all' default='yes'>
<vlan trunk='yes'>
<tag id='5'/>
</vlan>
</portgroup>
</network>
</networkstatus>
Datei /tmp/ovs-sw02.xml
<networkstatus>
<class_id bitmap='0-2'/>
<floor sum='0'/>
<network>
<name>ovs-sw02</name>
<uuid>3ceae5b0-cdb4-4996-a0d0-be5f206ed3c2</uuid>
<forward mode='bridge'/>
<bridge name='br-sw02'/>
<virtualport type='openvswitch'/>
<portgroup name='vlan-all' default='yes'>
<vlan trunk='yes'>
<tag id='5'/>
<tag id='317'/>
<tag id='318'/>
<tag id='319'/>
<tag id='320'/>
<tag id='321'/>
<tag id='322'/>
</vlan>
</portgroup>
</network>
</networkstatus>
Datei /tmp/ovs-sw05.xml
<networkstatus>
<class_id bitmap='0-2'/>
<floor sum='0'/>
<network>
<name>ovs-sw05</name>
<uuid>c22babeb-8513-4b83-b4eb-ea9252500477</uuid>
<forward mode='bridge'/>
<bridge name='br-sw05'/>
<virtualport type='openvswitch'/>
<portgroup name='vlan-all' default='yes'>
<vlan trunk='yes'>
<tag id='5'/>
<tag id='513'/>
<tag id='514'/>
<tag id='515'/>
<tag id='516'/>
<tag id='517'/>
<tag id='518'/>
</vlan>
</portgroup>
<portgroup name='vlan-6'>
<vlan>
<tag id='6'/>
</vlan>
</network>
</networkstatus>
Netzwerk-Definitionen einlesen, starten und für den Autostart markieren.
virsh net-define /tmp/ovs-sw01.xml
virsh net-define /tmp/ovs-sw02.xml
virsh net-define /tmp/ovs-sw05.xml
virsh net-start ovs-sw01
virsh net-start ovs-sw02
virsh net-start ovs-sw05
virsh net-autostart ovs-sw01
virsh net-autostart ovs-sw02
virsh net-autostart ovs-sw05
Libvirt Domain Configs
ffmwu-hans-core
<domain type='kvm' id='1'>
<name>ffmwu-hans-core</name>
<uuid>04502792-af13-41de-9073-a777ec8eea80</uuid>
<memory unit='KiB'>524288</memory>
<currentMemory unit='KiB'>524288</currentMemory>
<vcpu placement='static'>1</vcpu>
<resource>
<partition>/machine</partition>
</resource>
<os>
<type arch='x86_64' machine='pc-i440fx-wily'>hvm</type>
<boot dev='hd'/>
</os>
<features>
<acpi/>
<apic/>
<vmport state='off'/>
</features>
<cpu mode='host-model'>
<model fallback='allow'/>
</cpu>
<clock offset='utc'>
<timer name='rtc' tickpolicy='catchup'/>
<timer name='pit' tickpolicy='delay'/>
<timer name='hpet' present='no'/>
</clock>
<on_poweroff>destroy</on_poweroff>
<on_reboot>restart</on_reboot>
<on_crash>restart</on_crash>
<pm>
<suspend-to-mem enabled='no'/>
<suspend-to-disk enabled='no'/>
</pm>
<devices>
<emulator>/usr/bin/kvm-spice</emulator>
<disk type='file' device='disk'>
<driver name='qemu' type='raw'/>
<source file='/var/lib/libvirt/images/ffmwu-hans-core.img'/>
<backingStore/>
<target dev='vda' bus='virtio'/>
<alias name='virtio-disk0'/>
<address type='pci' domain='0x0000' bus='0x00' slot='0x08' function='0x0'/>
</disk>
<controller type='usb' index='0' model='ich9-ehci1'>
<alias name='usb'/>
<address type='pci' domain='0x0000' bus='0x00' slot='0x07' function='0x7'/>
</controller>
<controller type='usb' index='0' model='ich9-uhci1'>
<alias name='usb'/>
<master startport='0'/>
<address type='pci' domain='0x0000' bus='0x00' slot='0x07' function='0x0' multifunction='on'/>
</controller>
<controller type='usb' index='0' model='ich9-uhci2'>
<alias name='usb'/>
<master startport='2'/>
<address type='pci' domain='0x0000' bus='0x00' slot='0x07' function='0x1'/>
</controller>
<controller type='usb' index='0' model='ich9-uhci3'>
<alias name='usb'/>
<master startport='4'/>
<address type='pci' domain='0x0000' bus='0x00' slot='0x07' function='0x2'/>
</controller>
<controller type='pci' index='0' model='pci-root'>
<alias name='pci.0'/>
</controller>
<controller type='virtio-serial' index='0'>
<alias name='virtio-serial0'/>
<address type='pci' domain='0x0000' bus='0x00' slot='0x06' function='0x0'/>
</controller>
<interface type='network'>
<mac address='52:54:00:dd:cc:9d'/>
<source network='ovs-sw01' portgroup='vlan-all'/>
<actual type='bridge'>
<source bridge='br-sw01'/>
<vlan trunk='yes'>
<tag id='5'/>
<tag id='11'/>
<tag id='12'/>
<tag id='13'/>
<tag id='14'/>
<tag id='15'/>
<tag id='16'/>
</vlan>
<virtualport type='openvswitch'>
<parameters interfaceid='2aa233d9-3a8e-46db-8230-72ea0b730ee2'/>
</virtualport>
</actual>
<target dev='vnet0'/>
<model type='virtio'/>
<alias name='net0'/>
<address type='pci' domain='0x0000' bus='0x00' slot='0x03' function='0x0'/>
</interface>
<interface type='network'>
<mac address='52:54:00:12:3b:c2'/>
<source network='ovs-sw02' portgroup='vlan-all'/>
<actual type='bridge'>
<source bridge='br-sw02'/>
<vlan trunk='yes'>
<tag id='5'/>
</vlan>
<virtualport type='openvswitch'>
<parameters interfaceid='c1a010f5-7911-4651-ae41-080b8892e3e5'/>
</virtualport>
</actual>
<target dev='vnet1'/>
<model type='virtio'/>
<alias name='net1'/>
<address type='pci' domain='0x0000' bus='0x00' slot='0x04' function='0x0'/>
</interface>
<interface type='network'>
<mac address='52:54:00:93:ba:bb'/>
<source network='ovs-sw05' portgroup='vlan-all'/>
<actual type='bridge'>
<source bridge='br-sw05'/>
<vlan trunk='yes'>
<tag id='5'/>
<tag id='51'/>
<tag id='52'/>
<tag id='53'/>
<tag id='54'/>
<tag id='55'/>
<tag id='56'/>
</vlan>
<virtualport type='openvswitch'>
<parameters interfaceid='d0223530-25ae-4649-8103-405ba0e79761'/>
</virtualport>
</actual>
<target dev='vnet2'/>
<model type='virtio'/>
<alias name='net2'/>
<address type='pci' domain='0x0000' bus='0x00' slot='0x0b' function='0x0'/>
</interface>
<serial type='pty'>
<source path='/dev/pts/0'/>
<target port='0'/>
<alias name='serial0'/>
</serial>
<console type='pty' tty='/dev/pts/0'>
<source path='/dev/pts/0'/>
<target type='serial' port='0'/>
<alias name='serial0'/>
</console>
<channel type='spicevmc'>
<target type='virtio' name='com.redhat.spice.0' state='disconnected'/>
<alias name='channel0'/>
<address type='virtio-serial' controller='0' bus='0' port='1'/>
</channel>
<input type='mouse' bus='ps2'/>
<input type='keyboard' bus='ps2'/>
<graphics type='spice' port='5900' autoport='yes' listen='127.0.0.1'>
<listen type='address' address='127.0.0.1' fromConfig='1'/>
</graphics>
<sound model='ich6'>
<alias name='sound0'/>
<address type='pci' domain='0x0000' bus='0x00' slot='0x05' function='0x0'/>
</sound>
<video>
<model type='qxl' ram='65536' vram='65536' vgamem='16384' heads='1'/>
<alias name='video0'/>
<address type='pci' domain='0x0000' bus='0x00' slot='0x02' function='0x0'/>
</video>
<redirdev bus='usb' type='spicevmc'>
<alias name='redir0'/>
</redirdev>
<redirdev bus='usb' type='spicevmc'>
<alias name='redir1'/>
</redirdev>
<watchdog model='i6300esb' action='reset'>
<alias name='watchdog0'/>
<address type='pci' domain='0x0000' bus='0x00' slot='0x0a' function='0x0'/>
</watchdog>
<memballoon model='virtio'>
<alias name='balloon0'/>
<address type='pci' domain='0x0000' bus='0x00' slot='0x09' function='0x0'/>
</memballoon>
</devices>
<seclabel type='dynamic' model='apparmor' relabel='yes'>
<label>libvirt-04502792-af13-41de-9073-a777ec8eea80</label>
<imagelabel>libvirt-04502792-af13-41de-9073-a777ec8eea80</imagelabel>
</seclabel>
</domain>
ffmwu-hans-uplink
<domain type='kvm' id='15'>
<name>ffmwu-hans-uplink</name>
<uuid>d768984d-d16e-400d-9a22-273f45bd9ab2</uuid>
<memory unit='KiB'>524288</memory>
<currentMemory unit='KiB'>524288</currentMemory>
<vcpu placement='static'>1</vcpu>
<resource>
<partition>/machine</partition>
</resource>
<os>
<type arch='x86_64' machine='pc-i440fx-wily'>hvm</type>
<boot dev='hd'/>
</os>
<features>
<acpi/>
<apic/>
<vmport state='off'/>
</features>
<cpu mode='custom' match='exact'>
<model fallback='allow'>Nehalem</model>
</cpu>
<clock offset='utc'>
<timer name='rtc' tickpolicy='catchup'/>
<timer name='pit' tickpolicy='delay'/>
<timer name='hpet' present='no'/>
</clock>
<on_poweroff>destroy</on_poweroff>
<on_reboot>restart</on_reboot>
<on_crash>restart</on_crash>
<pm>
<suspend-to-mem enabled='no'/>
<suspend-to-disk enabled='no'/>
</pm>
<devices>
<emulator>/usr/bin/kvm-spice</emulator>
<disk type='file' device='disk'>
<driver name='qemu' type='raw'/>
<source file='/var/lib/libvirt/images/ffmwu-hans-uplink.img'/>
<backingStore/>
<target dev='vda' bus='virtio'/>
<alias name='virtio-disk0'/>
<address type='pci' domain='0x0000' bus='0x00' slot='0x0a' function='0x0'/>
</disk>
<controller type='usb' index='0' model='ich9-ehci1'>
<alias name='usb'/>
<address type='pci' domain='0x0000' bus='0x00' slot='0x07' function='0x7'/>
</controller>
<controller type='usb' index='0' model='ich9-uhci1'>
<alias name='usb'/>
<master startport='0'/>
<address type='pci' domain='0x0000' bus='0x00' slot='0x07' function='0x0' multifunction='on'/>
</controller>
<controller type='usb' index='0' model='ich9-uhci2'>
<alias name='usb'/>
<master startport='2'/>
<address type='pci' domain='0x0000' bus='0x00' slot='0x07' function='0x1'/>
</controller>
<controller type='usb' index='0' model='ich9-uhci3'>
<alias name='usb'/>
<master startport='4'/>
<address type='pci' domain='0x0000' bus='0x00' slot='0x07' function='0x2'/>
</controller>
<controller type='pci' index='0' model='pci-root'>
<alias name='pci.0'/>
</controller>
<controller type='virtio-serial' index='0'>
<alias name='virtio-serial0'/>
<address type='pci' domain='0x0000' bus='0x00' slot='0x06' function='0x0'/>
</controller>
<controller type='ide' index='0'>
<alias name='ide'/>
<address type='pci' domain='0x0000' bus='0x00' slot='0x01' function='0x1'/>
</controller>
<controller type='scsi' index='0'>
<alias name='scsi0'/>
<address type='pci' domain='0x0000' bus='0x00' slot='0x08' function='0x0'/>
</controller>
<interface type='bridge'>
<mac address='52:54:00:1c:86:61'/>
<source bridge='br-gluonb2b'/>
<target dev='vnet3'/>
<model type='virtio'/>
<alias name='net0'/>
<address type='pci' domain='0x0000' bus='0x00' slot='0x03' function='0x0'/>
</interface>
<interface type='network'>
<mac address='52:54:00:fd:c1:33'/>
<source network='ovs-sw05' portgroup='vlan-6'/>
<actual type='bridge'>
<source bridge='br-sw05'/>
<virtualport type='openvswitch'>
<parameters interfaceid='47c1d339-fc70-4734-8f77-197ceecaed70'/>
</virtualport>
</actual>
<target dev='vnet4'/>
<model type='virtio'/>
<alias name='net1'/>
<address type='pci' domain='0x0000' bus='0x00' slot='0x04' function='0x0'/>
</interface>
<serial type='pty'>
<source path='/dev/pts/2'/>
<target port='0'/>
<alias name='serial0'/>
</serial>
<console type='pty' tty='/dev/pts/2'>
<source path='/dev/pts/2'/>
<target type='serial' port='0'/>
<alias name='serial0'/>
</console>
<channel type='spicevmc'>
<target type='virtio' name='com.redhat.spice.0' state='disconnected'/>
<alias name='channel0'/>
<address type='virtio-serial' controller='0' bus='0' port='1'/>
</channel>
<input type='tablet' bus='usb'>
<alias name='input0'/>
</input>
<input type='mouse' bus='ps2'/>
<input type='keyboard' bus='ps2'/>
<graphics type='spice' port='5901' autoport='yes' listen='127.0.0.1'>
<listen type='address' address='127.0.0.1' fromConfig='1'/>
</graphics>
<sound model='ich6'>
<alias name='sound0'/>
<address type='pci' domain='0x0000' bus='0x00' slot='0x05' function='0x0'/>
</sound>
<video>
<model type='qxl' ram='65536' vram='65536' vgamem='16384' heads='1'/>
<alias name='video0'/>
<address type='pci' domain='0x0000' bus='0x00' slot='0x02' function='0x0'/>
</video>
<redirdev bus='usb' type='spicevmc'>
<alias name='redir0'/>
</redirdev>
<redirdev bus='usb' type='spicevmc'>
<alias name='redir1'/>
</redirdev>
<memballoon model='virtio'>
<alias name='balloon0'/>
<address type='pci' domain='0x0000' bus='0x00' slot='0x09' function='0x0'/>
</memballoon>
</devices>
<seclabel type='dynamic' model='apparmor' relabel='yes'>
<label>libvirt-d768984d-d16e-400d-9a22-273f45bd9ab2</label>
<imagelabel>libvirt-d768984d-d16e-400d-9a22-273f45bd9ab2</imagelabel>
</seclabel>
</domain>
VM-Watchdog-Script
Wenn die VM unerwartet crasht, kann diese per Remote nicht resettet werden. Dies machen wir automatisiert mit diesem Script, das in /usr/local/bin liegt.
#!/bin/bash
count=$( ping6 -c 5 fd56:b4dc:4b1e:0:5054:ff:fedd:cc9d | grep "bytes from" | wc -l )
if [ $count -eq 0 ]
then
logger "ffmwu-hans-core: Not available -> Reset VM"
virsh reset ffmwu-hans-core || virsh start ffmwu-hans-core
exit 0
else
logger "ffmwu-hans-core: Up and running -> nothing to do"
exit 0
fi
#!/bin/bash
count=$( ping6 -c 5 fd56:b4dc:4b1e:0:5054:ff:fe1c:8661 | grep "bytes from" | wc -l )
if [ $count -eq 0 ]
then
logger "ffmwu-hans-core: Not available -> Reset VM"
virsh reset ffmwu-hans-core || virsh start ffmwu-hans-core
exit 0
else
logger "ffmwu-hans-core: Up and running -> nothing to do"
exit 0
fi
Per cronjob wird es alle 20 Minuten ausgeführt
# m h dom mon dow command
*/20 * * * * /usr/local/bin/ffmwu-hans-core.sh
*/20 * * * * /usr/local/bin/ffmwu-hans-uplink.sh
Uplink
- via Richtfunk
- 16.000 DSL Telekom
Dokumente
Flucht- & Rettungspläne
Planung
geplante Technik
- Hardwareplanung für das Projekt vom 03.03.2016
Produkt | Anzahl | Einzelpreis | Gesamt | Kommentar | Händler |
---|---|---|---|---|---|
Haupthaus | |||||
TP-Link CPE210 | 32 | 59,90 € | 1.916,80 € | Client AP | Völkner |
Ubiquiti EdgeSwitch ES-24-250W | 5 | 416,70 € | 2.083,50 € | PoE-Switch | jacob |
APC Smart-UPS 1000VA LCD RM 2U 230V | 2 | 466,60 € | 933,20 € | USV für 5 Switche + Server | jacob |
LogiLink 19" Steckdosenleiste, 8-fach mit Schalter | 2 | 22,50 € | 45,00 € | Steckdosenleiste für Serverschrank | jacob |
HP ProLiant DL380 G5 2x Xeon E5450 | 1 | 249,99 € | 249,99 € | Server | servershop24 |
HP NC364T Quad Port Gigabit Server Adapter | 2 | 49,99 € | 99,98 € | 4x Port RJ45 Netzwerkkarte | servershop24 |
HP 19" Rackmount-Schienen | 1 | 7,99 € | 7,99 € | 19" Rackmount-Schienen für Server | servershop24 |
Wandhalterung - 25cm (L) x 25cm (H) | 32 | 5,49 € | 175,68 € | Halterung für TP-Link CPE210 | varia-store |
Patchkabel | 200 | 1,99 € | 398,00 € | Patchkabel für TP-Link CPE210 | Völkner |
Kleinmaterial | 1 | 100,00 € | 100,00 € | ||
Zwischensumme | 6108,15 € | ||||
Anbau | |||||
TP-Link CPE210 | 8 | 59,90 € | 479,20 € | Client AP | Völkner |
TP-Link WR841N | 5 | 15,94 € | 79,70 € | Client Mesh | Völkner |
Wandhalterung - 25cm (L) x 25cm (H) | 8 | 5,49 € | 43,92 € | Halterung für TP-Link CPE210 | varia-store |
Zwischensumme | 602,62 € | ||||
Aufenthaltsraum | |||||
TP-Link CPE210 | 4 | 59,90 € | 239,60 € | Client AP | Völkner |
Wandhalterung - 25cm (L) x 25cm (H) | 4 | 5,49 € | 21,96 € | Halterung für TP-Link CPE210 | varia-store |
Zwischensumme | 261,56 € | ||||
Dach | |||||
NBE-5AC-19 | 4 | 99,20 € | 396,80 € | Backbone | jacob |
PBE-5AC-400 | 4 | 109,40 € | 437,60 € | Backbone | jacob |
LBE-5AC-16-120 | 1 | 89,90 € | 89,90 € | Backbone | jacob |
Zwischensumme | 924,30 € | ||||
Gesamtsumme | 7896,63 € |