Manual:CAPsMAN with VLANs: Difference between revisions
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add bridge=bridge1 interface=ether5 pvid=20 | add bridge=bridge1 interface=ether5 pvid=20 | ||
/interface bridge vlan | /interface bridge vlan | ||
add bridge= | add bridge=bridge1 tagged=ether1,ether2,ether3 untagged=ether4 vlan-ids=10 | ||
add bridge=bridge1 tagged=ether1,ether2,ether3 untagged=ether5 vlan-ids=20 | |||
</pre> | </pre> | ||
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/interface wireless cap | /interface wireless cap | ||
set bridge=bridge1 discovery-interfaces=bridge1 enabled=yes interfaces=wlan1 | set bridge=bridge1 discovery-interfaces=bridge1 enabled=yes interfaces=wlan1 | ||
</pre> | |||
* After CAPs are successfully connected to the CAPsMAN Router, the wlan1 (SSID '''WiFi_WORK''') and a newly created virtual wlan5 (SSID '''WiFi_GUEST''') interfaces get dynamically added as bridge ports. The VLAN is assigned for a wireless interface and as a result all data coming from wireless gets tagged and only data with this tag will be sent out over wireless. A bridge <var>vlan-filtering</var> can be disabled if additional VLAN managing and controlling is not needed. The associated VLAN can be seen with a port VLAN ID (PVID) property. | |||
<pre> | |||
[admin@CAP_1] /interface bridge port pr | |||
Flags: X - disabled, I - inactive, D - dynamic, H - hw-offload | |||
# INTERFACE BRIDGE HW PVID PRIORITY PATH-COST INTERNAL-PATH-COST HORIZON | |||
0 H ether1 bridge1 yes 1 0x80 10 10 none | |||
1 D wlan1 bridge1 10 0x80 10 10 none | |||
2 D wlan5 bridge1 20 0x80 10 10 none | |||
</pre> | </pre> | ||
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add bridge=bridge1 interface=ether2 pvid=20 | add bridge=bridge1 interface=ether2 pvid=20 | ||
/interface bridge vlan | /interface bridge vlan | ||
add bridge=bridge1 tagged=bridge untagged= | add bridge=bridge1 tagged=bridge1 untagged=ether1 vlan-ids=10 | ||
add bridge=bridge1 tagged=bridge1 untagged=ether2 vlan-ids=20 | |||
</pre> | </pre> | ||
{{ Note | CAPsMAN will attach CAP interfaces to the bridge and automatically will add appropriate entries to the bridge VLAN table. | {{ Note | CAPsMAN will attach CAP interfaces to the bridge and automatically will add appropriate entries to the bridge VLAN table. This feature is available starting with RouterOS v6.43 }} | ||
* Create appropriate CAP configurations for each VLAN | * Create appropriate CAP configurations for each VLAN | ||
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/interface wireless cap | /interface wireless cap | ||
set discovery-interfaces=ether1 enabled=yes interfaces=wlan1 | set discovery-interfaces=ether1 enabled=yes interfaces=wlan1 | ||
</pre> | |||
* After CAPs are successfully connected to the CAPsMAN Router, two CAP interfaces will be dynamically created on the CAPsMAN Router. Both of these interfaces will get dynamically added as bridge ports on the same CAPsMAN Router due to explicitly selecting the bridge interface with <var>datapath.bridge=bridge1</var> and using the default CAPsMAN Forwarding Mode <var>datapath.local-forwarding=no</var>. Because of using a bridge with enabled <var>vlan-filtering</var>, both CAP interfaces will also show up in a bridge VLAN table. | |||
<pre> | |||
[admin@CAPsMAN_Router] /interface bridge port print | |||
Flags: X - disabled, I - inactive, D - dynamic, H - hw-offload | |||
# INTERFACE BRIDGE HW PVID PRIORITY PATH-COST INTERNAL-PATH-COST HORIZON | |||
0 ether1 bridge1 yes 10 0x80 10 10 none | |||
1 ether2 bridge1 yes 20 0x80 10 10 none | |||
2 D cap16 bridge1 10 0x80 10 10 none | |||
3 D cap17 bridge1 20 0x80 10 10 none | |||
[admin@CAPsMAN_Router] /interface bridge vlan print | |||
Flags: X - disabled, D - dynamic | |||
# BRIDGE VLAN-IDS CURRENT-TAGGED CURRENT-UNTAGGED | |||
0 D bridge1 1 bridge1 | |||
1 bridge1 10 cap16 ether1 | |||
2 bridge1 20 cap17 ether2 | |||
</pre> | </pre> | ||
Latest revision as of 13:42, 10 January 2020
Applies to RouterOS: v6.41 +
Summary
It is possible to create centralized Access Point management setup for home or office environment that is scalable to many Access Point, such a setup is quite easy to configure and has been explained in the Simple CAPSMAN setup guide, but for more complex setups VLANs might be required. CAPsMAN has a functionality to assign a certain VLAN ID under certain conditions. This guide will provide an example how assign a VLAN ID to Wireless packets based on the AP, to which a Wireless client connects to. CAPsMAN with VLANs can be achieved either by using Local Forwarding Mode or CAPsMAN Forwarding Mode, the Local Forwarding Mode will provide the possibility to use a switch between your APs and CAPsMAN router to switch packets (to achieve larger throughput), while CAPsMAN Forwarding Mode should be used when all traffic should always be forwarded to the CAPsMAN router (in most cases to filter packets).
In this example we are going to assign all our Wireless clients to VLAN10, if they connect to WiFi_WORK, and going to assign Wireless clients to VLAN20, if they connect to WiFi_GUEST. We are going to use Virtual APs along with CAPsMAN to create multiple SSIDs for our Wireless clients to connect to while using a single physical device. An example how to use a single SSID for a single physical device will also be shown by using CAPsMAN provisioning rules.
Using Local Forwarding Mode
In Local Forwarding Mode the CAPsMAN router is distributing the configuration across all CAPs that are being provisioned by the CAPsMAN router. In Local Forwarding Mode traffic is not required to be sent to the CAPsMAN router, rather it can be sent to a different router without involving the CAPsMAN router when forwarding traffic. This mode allows you to tag traffic to a certain VLAN ID before it is being sent to your network from your Wireless client, which adds possibilities to use a switch to limit certain VLAN IDs to certain ports. In Local Forwarding Mode traffic is not encapsulated with a special CAPsMAN header, which can only be removed by a CAPsMAN router.
CAPsMAN Router
- Create appropriate CAP configurations for each VLAN
/caps-man configuration add country=latvia datapath.local-forwarding=yes datapath.vlan-id=10 datapath.vlan-mode=use-tag name=Config_WORK security.authentication-types=wpa-psk,wpa2-psk \ security.passphrase=secret_work_password ssid=WiFi_WORK add country=latvia datapath.local-forwarding=yes datapath.vlan-id=20 datapath.vlan-mode=use-tag name=Config_GUEST security.authentication-types=\ wpa-psk,wpa2-psk security.passphrase=secret_guest_password ssid=WiFi_GUEST
- We are going to create a single CAPsMAN provisioning rule to create the WiFi_WORK and the WiFi_GUEST SSIDs on a single device, each connect CAP is going to create these SSIDs automatically
/caps-man provisioning add action=create-dynamic-enabled master-configuration=Config_WORK slave-configurations=Config_GUEST
Note: You can create even more Virtual APs by adding multiple slave-confiugrations. That requires multiple CAPsMAN configurations that were created earlier.
- For security reasons, limit the CAPsMAN to a single interface
/caps-man manager interface set [ find default=yes ] forbid=yes add disabled=no interface=ether1
- Enable the CAPsMAN manager
/caps-man manager set enabled=yes
- Setup DHCP Server for each VLAN
/interface vlan add interface=ether1 name=VLAN10 vlan-id=10 add interface=ether1 name=VLAN20 vlan-id=20 /ip address add address=192.168.10.1/24 interface=VLAN10 add address=192.168.20.1/24 interface=VLAN20 /ip pool add name=dhcp_pool10 ranges=192.168.10.2-192.168.10.254 add name=dhcp_pool20 ranges=192.168.20.2-192.168.20.254 /ip dhcp-server add address-pool=dhcp_pool10 disabled=no interface=VLAN10 name=dhcp10 add address-pool=dhcp_pool20 disabled=no interface=VLAN20 name=dhcp20 /ip dhcp-server network add address=192.168.10.0/24 dns-server=8.8.8.8 gateway=192.168.10.1 add address=192.168.20.0/24 dns-server=8.8.8.8 gateway=192.168.20.1
Switch
In this example we are going to be using Bridge VLAN Filering to filter unknown VLANs and to assign other devices to the same networks. Some devices are capable of offloading this to the built-in switch chip, check Basic VLAN switching guide to see how to configure it on different types of devices.
- Setup Bridge VLAN Filtering
/interface bridge add name=bridge1 vlan-filtering=yes /interface bridge port add bridge=bridge1 interface=ether1 add bridge=bridge1 interface=ether2 add bridge=bridge1 interface=ether3 add bridge=bridge1 interface=ether4 pvid=10 add bridge=bridge1 interface=ether5 pvid=20 /interface bridge vlan add bridge=bridge1 tagged=ether1,ether2,ether3 untagged=ether4 vlan-ids=10 add bridge=bridge1 tagged=ether1,ether2,ether3 untagged=ether5 vlan-ids=20
Note: In this example untagged traffic is going to be used to communicate between CAPs and CAPsMAN Router. By default, if PVID is not changed, untagged traffic is going to be forwarded between ports that have the same PVID value set (including the default PVID).
CAPs
- Create a bridge and assign a port to it, that is connect to the CAPsMAN Router
/interface bridge add name=bridge1 /interface bridge port add bridge=bridge1 interface=ether1
- Enable CAP mode on the AP, make sure you specify to use the newly created bridge
/interface wireless cap set bridge=bridge1 discovery-interfaces=bridge1 enabled=yes interfaces=wlan1
- After CAPs are successfully connected to the CAPsMAN Router, the wlan1 (SSID WiFi_WORK) and a newly created virtual wlan5 (SSID WiFi_GUEST) interfaces get dynamically added as bridge ports. The VLAN is assigned for a wireless interface and as a result all data coming from wireless gets tagged and only data with this tag will be sent out over wireless. A bridge vlan-filtering can be disabled if additional VLAN managing and controlling is not needed. The associated VLAN can be seen with a port VLAN ID (PVID) property.
[admin@CAP_1] /interface bridge port pr Flags: X - disabled, I - inactive, D - dynamic, H - hw-offload # INTERFACE BRIDGE HW PVID PRIORITY PATH-COST INTERNAL-PATH-COST HORIZON 0 H ether1 bridge1 yes 1 0x80 10 10 none 1 D wlan1 bridge1 10 0x80 10 10 none 2 D wlan5 bridge1 20 0x80 10 10 none
That is it! Connect Wireless clients to your APs and check connectivity.
Using CAPsMAN Forwarding Mode
In CAPsMAN Forwarding Mode all traffic that is coming from a CAP is encapsulated with a special CAPsMAN header, which can only be removed by a CAPsMAN router, this means that a switch will not be able to distinguish the VLAN ID set by the CAP since the VLAN tag is also going to be encapsulated. This mode limits the possibility to divert traffic in Layer2 networks, but gives you the possibility to forward traffic from each CAP over Layer3 networks for a distant CAPsMAN router to process the traffic, this mode is useful when you want to control multiple CAPs in remote locations, but want to use a central gateway.
CAPsMAN Router
- Setup Bridge VLAN filtering to limit interfaces to appropriate VLANs
/interface bridge add name=bridge1 vlan-filtering=yes /interface bridge port add bridge=bridge1 interface=ether1 pvid=10 add bridge=bridge1 interface=ether2 pvid=20 /interface bridge vlan add bridge=bridge1 tagged=bridge1 untagged=ether1 vlan-ids=10 add bridge=bridge1 tagged=bridge1 untagged=ether2 vlan-ids=20
Note: CAPsMAN will attach CAP interfaces to the bridge and automatically will add appropriate entries to the bridge VLAN table. This feature is available starting with RouterOS v6.43
- Create appropriate CAP configurations for each VLAN
/caps-man configuration add country=latvia datapath.bridge=bridge1 datapath.vlan-id=10 datapath.vlan-mode=use-tag name=Config_WORK security.authentication-types=wpa-psk,wpa2-psk \ security.passphrase=secret_work_password ssid=WiFi_WORK add country=latvia datapath.bridge=bridge1 datapath.vlan-id=20 datapath.vlan-mode=use-tag name=Config_GUEST security.authentication-types=wpa-psk,wpa2-psk \ security.passphrase=secret_guest_password ssid=WiFi_GUEST
- We are going to create a single CAPsMAN provisioning rule to create the WiFi_WORK and the WiFi_GUEST SSIDs on a single device, each connect CAP is going to create these SSIDs automatically
/caps-man provisioning add action=create-dynamic-enabled master-configuration=Config_WORK slave-configurations=Config_GUEST
Note: You can create even more Virtual APs by adding multiple slave-confiugrations. That requires multiple CAPsMAN configurations that were created earlier.
- For security reasons, limit the CAPsMAN to interfaces. to which CAPs are going to be connected
/caps-man manager interface set [ find default=yes ] forbid=yes add disabled=no interface=ether3 add disabled=no interface=ether4
- Enable the CAPsMAN manager
/caps-man manager set enabled=yes
- Setup DHCP Server for each VLAN
/interface vlan add interface=bridge1 name=VLAN10 vlan-id=10 add interface=bridge1 name=VLAN20 vlan-id=20 /ip address add address=192.168.10.1/24 interface=VLAN10 add address=192.168.20.1/24 interface=VLAN20 /ip pool add name=dhcp_pool10 ranges=192.168.10.2-192.168.10.254 add name=dhcp_pool20 ranges=192.168.20.2-192.168.20.254 /ip dhcp-server add address-pool=dhcp_pool10 disabled=no interface=VLAN10 name=dhcp10 add address-pool=dhcp_pool20 disabled=no interface=VLAN20 name=dhcp20 /ip dhcp-server network add address=192.168.10.0/24 dns-server=8.8.8.8 gateway=192.168.10.1 add address=192.168.20.0/24 dns-server=8.8.8.8 gateway=192.168.20.1
CAPs
- Enable CAP mode on each AP, specify which interface is connected to the CAPsMAN router
/interface wireless cap set discovery-interfaces=ether1 enabled=yes interfaces=wlan1
- After CAPs are successfully connected to the CAPsMAN Router, two CAP interfaces will be dynamically created on the CAPsMAN Router. Both of these interfaces will get dynamically added as bridge ports on the same CAPsMAN Router due to explicitly selecting the bridge interface with datapath.bridge=bridge1 and using the default CAPsMAN Forwarding Mode datapath.local-forwarding=no. Because of using a bridge with enabled vlan-filtering, both CAP interfaces will also show up in a bridge VLAN table.
[admin@CAPsMAN_Router] /interface bridge port print Flags: X - disabled, I - inactive, D - dynamic, H - hw-offload # INTERFACE BRIDGE HW PVID PRIORITY PATH-COST INTERNAL-PATH-COST HORIZON 0 ether1 bridge1 yes 10 0x80 10 10 none 1 ether2 bridge1 yes 20 0x80 10 10 none 2 D cap16 bridge1 10 0x80 10 10 none 3 D cap17 bridge1 20 0x80 10 10 none [admin@CAPsMAN_Router] /interface bridge vlan print Flags: X - disabled, D - dynamic # BRIDGE VLAN-IDS CURRENT-TAGGED CURRENT-UNTAGGED 0 D bridge1 1 bridge1 1 bridge1 10 cap16 ether1 2 bridge1 20 cap17 ether2
That is it! Connect Wireless clients to your APs and check connectivity.
Case studies
Without Virtual APs
Not everyone wants to create Virtual APs since that does decrease the total throughput. If you want to use multiple devices to create multiple SSIDs, then it is possible to assign a certain configuration on a CAP based on its identity. To achieve this you should use CAPsMAN provisioning rules along with RegEx expressions. In this example we are going to assign the Config_WORK configuration to CAPs that have identity set to "'AP_WORK_*" and we are going to assign the Config_GUEST configuration to CAPs that have identity set to "AP_GUEST_*". To do this, you simply need to change the CAPsMAN provisioning rules.
- Remove any existing provisioning rules
/caps-man provisioning remove [f]
- Create new provisioning rules that will assign appropriate configuration on a CAP based on its identity
/caps-man provisioning add action=create-dynamic-enabled identity-regexp=^AP_GUEST_ master-configuration=Config_GUEST add action=create-dynamic-enabled identity-regexp=^AP_WORK_ master-configuration=Config_WORK
Note: Don't forget to set a proper identity on the CAPs since CAPsMAN is going to assign appropriate configuration on the APs based on it's identity.