Hello all –
I’m trying to figure out what is causing the input queues on my 6509 core router vlans to fill up to the point where excessive input drops are occurring. Related to this is the question of why most of the traffic on those vlans is process-switched, instead of fast- or cef-switched. A ‘show ip cef adj punt’ and ‘show ip cef adj drop’ shows nothing dropped or punted.
To my knowledge, the only traffic that should be process-switched is that which is destined for the router (routing updates, management traffic, keepalives, etc.). We do have netflow switching enabled on many of the vlan SVIs. “Show process cpu” shows a lot of IP and ARP traffic. Average cpu uitilization is low, and output drops are 0. But the drops on the input queues (tail-dropped) are causing problems for TCP traffic.
Is it the netflow traffic that is causing the huge imbalance?
The routers are hybrid catOS/IOS -- Cat6k-MSFC2 (R7000) processor with 114688K/16384K bytes of memory. Any suggestions would be appreciated.
I’m trying to figure out what is causing the input queues on my 6509 core router vlans to fill up to the point where excessive input drops are occurring. Related to this is the question of why most of the traffic on those vlans is process-switched, instead of fast- or cef-switched. A ‘show ip cef adj punt’ and ‘show ip cef adj drop’ shows nothing dropped or punted.
To my knowledge, the only traffic that should be process-switched is that which is destined for the router (routing updates, management traffic, keepalives, etc.). We do have netflow switching enabled on many of the vlan SVIs. “Show process cpu” shows a lot of IP and ARP traffic. Average cpu uitilization is low, and output drops are 0. But the drops on the input queues (tail-dropped) are causing problems for TCP traffic.
Is it the netflow traffic that is causing the huge imbalance?
The routers are hybrid catOS/IOS -- Cat6k-MSFC2 (R7000) processor with 114688K/16384K bytes of memory. Any suggestions would be appreciated.