I have an Amazon ELB in front of Postgres. This is for Kubernetes-related reasons, see this question. I'm trying to work around the maximum AWS ELB Idle Timeout limit of 1 hour so I can have clients that can execute long-running transactions without being disconnected by the ELB. I have no control over the client configuration in my case, so any workaround needs to happen on the server side.
I've come across the
tcp_keepalives_idle setting in Postgres, which in theory should get around this by sending periodic keepalive packets to the client, thus creating activity so the ELB doesn't think the client is idle.
I tried testing this by setting the
idle timeout on the ELB to
2 minutes. I set
tcp_keepalives_idle to 30 seconds, which should force the server to send the client a keepalive every 30 seconds. I then execute the following query through the load balancer:
psql -h elb_dns_name.com -U my_user -c "select pg_sleep(140)". After 2 minutes, the ELB disconnects the client. Why are the keepalives not coming through to the client? Is there something with
pg_sleep that might be blocking them? If so, is there a better way to simulate a long running query/transaction?
I fear this might be a deep dive and I may need to bring out
tcpdump or similar tools. Unfortunately things do get a bit more complicated to parse with all of the k8s chatter going on as well. So before going down this route I thought it would be good to see if I was missing something obvious. If not, any tips on how to best determine whether a keepalive is actually being sent to the server, through the ELB, and ending up at the client would be much appreciated.
Update: I reached out to Amazon regarding this. Apparently
idle is defined as not transferring
data over the wire.
Data is defined as any network packet that has a payload. Since TCP keep-alives do not have payloads, the client and server keep-alives are considered idle. So unless there's a way to get the server to send data inside of their keep alive payloads, or send data in some other form, this may be impossible.