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intersite connectivity - dual fiber, dual cores, dual vendor cores - suggestions?
intersite connectivity - dual fiber, dual cores, dual vendor cores - suggestions?
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ā12-08-2015 02:59 PM
Here is what I have today:
1. Two sites with interconnected dual core (chassis) switches. Site 1 is Extreme BD8810s. Site 2 is Brocade chassis switches.
2. Both sites running vrrp (for local vlans) and ospf.
3. Each site has it's own default gateway (local firewall) as well as partner routers (to same partner) at each site redistributing bgp routes into the ospf core. Redundancy for each site works beautifully for the partner sites - each site uses it's local partner router unless it stops putting out routes (goes to other site if it does).
4. Core 1 to Core 1 connection is a 1Gbps LX fiber on a Core 1 to Core 1 only ospf vlan. Core 2 to Core 2 connection is a 100Mbps LX fiber on a Core 2 to Core 2 only ospf vlan. Routes for other site always go through Core 1 to Core 1 link unless the link stops passing traffic in which case it fail over beautifully to the 100Mbps link on Core 2 to Core 2.
5. All attached devices at each site are split between the cores in an active (core 1)/standby (core 2) configuration.
Here is the change:
New Core 2 to Core 2 connection that is 1Gbps LX fiber.
Where I want to go:
I want to actively use both links for 2Gbps between sites.
Questions
1. Will the link speed change and OSPF simply accomplish this in the current configuration? (I do have ospf equal cost sharing enabled)
2. Should I make a single ospf vlan across all 4 switches for this (as opposed to a core1 to core1 vlan and a core2 to core2 vlan)?
3. Extreme side is not running stp but Brocade side is running stp. Will this mess with things?
4. Is there a better way to do this considering I do not want to move away from the current config with local vrrp vlans and ospf?
Redundancy is very important to us as it is a call center environment; I do not want to introduce any single points of failure. I have looked at a couple "smarter" solutions that would let us granularly control traffic between sites but seeing that the connections are fiber (and always up to the demarc even if it is down somewhere in between) a routing or health check type solution is preferred.
Thanks for your advice. I can upload a quickie visio if needed but I think it should be clear from the above.
1. Two sites with interconnected dual core (chassis) switches. Site 1 is Extreme BD8810s. Site 2 is Brocade chassis switches.
2. Both sites running vrrp (for local vlans) and ospf.
3. Each site has it's own default gateway (local firewall) as well as partner routers (to same partner) at each site redistributing bgp routes into the ospf core. Redundancy for each site works beautifully for the partner sites - each site uses it's local partner router unless it stops putting out routes (goes to other site if it does).
4. Core 1 to Core 1 connection is a 1Gbps LX fiber on a Core 1 to Core 1 only ospf vlan. Core 2 to Core 2 connection is a 100Mbps LX fiber on a Core 2 to Core 2 only ospf vlan. Routes for other site always go through Core 1 to Core 1 link unless the link stops passing traffic in which case it fail over beautifully to the 100Mbps link on Core 2 to Core 2.
5. All attached devices at each site are split between the cores in an active (core 1)/standby (core 2) configuration.
Here is the change:
New Core 2 to Core 2 connection that is 1Gbps LX fiber.
Where I want to go:
I want to actively use both links for 2Gbps between sites.
Questions
1. Will the link speed change and OSPF simply accomplish this in the current configuration? (I do have ospf equal cost sharing enabled)
2. Should I make a single ospf vlan across all 4 switches for this (as opposed to a core1 to core1 vlan and a core2 to core2 vlan)?
3. Extreme side is not running stp but Brocade side is running stp. Will this mess with things?
4. Is there a better way to do this considering I do not want to move away from the current config with local vrrp vlans and ospf?
Redundancy is very important to us as it is a call center environment; I do not want to introduce any single points of failure. I have looked at a couple "smarter" solutions that would let us granularly control traffic between sites but seeing that the connections are fiber (and always up to the demarc even if it is down somewhere in between) a routing or health check type solution is preferred.
Thanks for your advice. I can upload a quickie visio if needed but I think it should be clear from the above.
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ā12-11-2015 12:10 AM
So you removed all EXOS summit X440 from the sites facing each other. And now you have to interoperate BD with Brocade chassis switches. With Site A Core1-2 running EXOS, you can run MLAG. But again, I do not know how the Site 2 Core1-2 running Brocade supports cross chassis LACP (aka MLAG or Cisco term McLAG).
Remember for VoIP sensitive calls (PBX or call center), its always recommended to use L2. For L3 although it is more reliable and offer more granularity QoS (L3 ToS vs L2 CoS) but you will have more latency introduce during heavy traffic.
I assume Site A and Site B and connected by dark fibers. If the sites are link by ISPs or MPLS, then you have no choice but to go L3 for load-sharing.
Please lookup google to know the difference between loadsharing and load-balancing. There is no perfect ratio exists. And the worse case is you have asymmetric routing traffic and this causes chaos and nightmare troubleshooting.
Do no over complicate things.
With your past design X440T, you have wasted a good opportunity. You should have gone with SummitStack-V over the 4 switches using 10G SFP+ or DAC. And this will remove the LACP static/dynamic headache that you have suffered. Assuming your site to site link is dark fiber as SummitStack-V only support point to point connection and uses non-Ethernet protocol.
Remember for VoIP sensitive calls (PBX or call center), its always recommended to use L2. For L3 although it is more reliable and offer more granularity QoS (L3 ToS vs L2 CoS) but you will have more latency introduce during heavy traffic.
I assume Site A and Site B and connected by dark fibers. If the sites are link by ISPs or MPLS, then you have no choice but to go L3 for load-sharing.
Please lookup google to know the difference between loadsharing and load-balancing. There is no perfect ratio exists. And the worse case is you have asymmetric routing traffic and this causes chaos and nightmare troubleshooting.
Do no over complicate things.
With your past design X440T, you have wasted a good opportunity. You should have gone with SummitStack-V over the 4 switches using 10G SFP+ or DAC. And this will remove the LACP static/dynamic headache that you have suffered. Assuming your site to site link is dark fiber as SummitStack-V only support point to point connection and uses non-Ethernet protocol.
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ā12-10-2015 06:51 PM
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ā12-10-2015 06:51 PM
old config using x440 stacks at each site to create a sharing for the old (2) 100Mbps fiber links
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ā12-10-2015 06:11 PM
Thanks! Do you know of any appliance that will allow me to trunk the (2) 1Gbps links and not introduce a single point of failure? Kind of tough with the fiber connections.
In the past we had a pair of x440-8t switches stacked at each site with 100Mbps on stack member 1 and the other 100Mbps on stack member 2. I had the stacks with a port on member 1 connected to core 1 and a sw redundant port for that link on stack member 2 to core 2. Unfortunately LACP sharing did not work very well over the stacking cables. We switched to a static sharing and that worked fine but since the ports are always up to the demarc even when the wide-area portion of the fiber links are down it was scary. We soon replaced one of the fibers with a 1Gbps which is where we are at today. I'll throw up a diagram of the old stack config. I wonder if Extreme ever fixed the issues with LACP across stacking cables? It was HOURS of working with Extreme Support and it was not resolved with us. Since we got the 1Gbps link we never went back to that.
In the past we had a pair of x440-8t switches stacked at each site with 100Mbps on stack member 1 and the other 100Mbps on stack member 2. I had the stacks with a port on member 1 connected to core 1 and a sw redundant port for that link on stack member 2 to core 2. Unfortunately LACP sharing did not work very well over the stacking cables. We switched to a static sharing and that worked fine but since the ports are always up to the demarc even when the wide-area portion of the fiber links are down it was scary. We soon replaced one of the fibers with a 1Gbps which is where we are at today. I'll throw up a diagram of the old stack config. I wonder if Extreme ever fixed the issues with LACP across stacking cables? It was HOURS of working with Extreme Support and it was not resolved with us. Since we got the 1Gbps link we never went back to that.
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ā12-10-2015 05:57 PM
Hi Kevin,
1. I don't think your ECMP will work because VRRP will always use main Primary VRRP Router of it is available and the cost to reach other site via backup link is not same with the cost via main link (it must traverse via 10GbE link first).
2. Be careful with L2 loop if you make single VLAN of 4 core switches.
3. I'm not so sure the purpose of STP and for which links STP are implemented.
4. You can try swapping the Primary VRRP Router of some LAN side VLANs so the traffic will go via both links due to different Primary VRRP Router.
Best regards,
1. I don't think your ECMP will work because VRRP will always use main Primary VRRP Router of it is available and the cost to reach other site via backup link is not same with the cost via main link (it must traverse via 10GbE link first).
2. Be careful with L2 loop if you make single VLAN of 4 core switches.
3. I'm not so sure the purpose of STP and for which links STP are implemented.
4. You can try swapping the Primary VRRP Router of some LAN side VLANs so the traffic will go via both links due to different Primary VRRP Router.
Best regards,
