Difference between revisions of "Imperative Recovery"
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=High Level Design=
=High Level Design=
The High Level Design is described in [[Imperative Recovery
The High Level Design is described in [[Imperative Recovery ]].
Scalability is very important for
Scalability is very important for because we need the capability to support at least 100K clients. Based on this situation, instead of regular unit and regression test, we also have a scalability test document to verify it works. Please check out the [[Imperative Recovery Test Plan]].
Latest revision as of 02:08, 28 February 2020
If a Lustre server fails, the recovery mechanism on the client will first detect this when an RPC is not replied within the expected processing time. At this point, the client will first try to resend the RPC to the server, but if that fails it will enter recovery, and try reconnecting to all of the servers that are configured for that target (OST or MDT). To avoid flooding the network with reconnect requests, the client reconnection RPCs will only be sent periodically.
Imperative recovery reduces the time for clients to detect that targets have restarted after failure, so that they can do reconnection as soon as possible. The MGS is used as a reflector and it will notify clients when a target is newly registered.
This picture demonstrates the rough idea of the communication process for Imperative Recovery:
High Level Design
The High Level Design is described in the Imperative Recovery Design.
Scalability is very important for Imperative Recovery because we need the capability to support at least 100K clients. Based on this situation, instead of regular unit and regression test, we also have a scalability test document to verify it works. Please check out the Imperative Recovery Test Plan.
In our simulation test on Hyperion, a large test cluster at LLNL with 125 client nodes and 600 mountpoints on each client, we killed an OSS and investigated OST recovery time. It could finish recovery in around 60 seconds. As a comparison, it took about 300 seconds without imperative recovery.