At 12:47 AM PDT on April 21st, a network change was performed as part of our normal AWS scaling activities in a single Availability Zone in the US East Region. The configuration change was to upgrade the capacity of the primary network. During the change, one of the standard steps is to shift traffic off of one of the redundant routers in the primary EBS network to allow the upgrade to happen. The traffic shift was executed incorrectly and rather than routing the traffic to the other router on the primary network, the traffic was routed onto the lower capacity redundant EBS network. For a portion of the EBS cluster in the affected Availability Zone, this meant that they did not have a functioning primary or secondary network because traffic was purposely shifted away from the primary network and the secondary network couldn’t handle the traffic level it was receiving. As a result, many EBS nodes in the affected Availability Zone were completely isolated from other EBS nodes in its cluster. Unlike a normal network interruption, this change disconnected both the primary and secondary network simultaneously, leaving the affected nodes completely isolated from one another.
When this network connectivity issue occurred, a large number of EBS nodes in a single EBS cluster lost connection to their replicas. When the incorrect traffic shift was rolled back and network connectivity was restored, these nodes rapidly began searching the EBS cluster for available server space where they could re-mirror data. Once again, in a normally functioning cluster, this occurs in milliseconds. In this case, because the issue affected such a large number of volumes concurrently, the free capacity of the EBS cluster was quickly exhausted, leaving many of the nodes “stuck” in a loop, continuously searching the cluster for free space. This quickly led to a “re-mirroring storm,” where a large number of volumes were effectively “stuck” while the nodes searched the cluster for the storage space it needed for its new replica. At this point, about 13% of the volumes in the affected Availability Zone were in this “stuck” state.
Monday, May 2, 2011
The traffic shift was executed incorrectly... and then came down everything in the cloud.
Posted by Mark J at 11:43 PM