Fix https://github.com/coreos/etcd/issues/7470.
This patch removes unnecessary term look-up in
'createMergedSnapshotMessage', which can trigger panic
if raft entry at etcdProgress.appliedi got compacted
by subsequent 'MsgSnap' messages--if a follower is
being (in this case, network latency spikes), it
could receive subsequent 'MsgSnap' requests from leader.
etcd server-side 'applyAll' routine and raft's Ready
processing routine becomes asynchronous after raft
entries are persisted. And given that raft Ready routine
takes less time to finish, it is possible that second
'MsgSnap' is being handled, while the slow 'applyAll'
is still processing the first(old) 'MsgSnap'. Then raft
Ready routine can compact the log entries at future
index to 'applyAll'. That is how 'createMergedSnapshotMessage'
tried to look up raft term with outdated etcdProgress.appliedi.
Signed-off-by: Gyu-Ho Lee <gyuhox@gmail.com>
All outstanding goroutines now go into the etcdserver waitgroup. goroutines are
shutdown with a "stopping" channel which is closed when the run() goroutine
shutsdown. The done channel will only close once the waitgroup is totally cleared.
Migrate command accepts a datadir and an optional user-provided
transformer function that transform v2 keys to v2 keys.
Migrate command then builds a v3 backend state based on the existing
v2 keys and the output of the transformer function.
We want the KV to support recovering from backend to avoid
additional pointer swap. Or we have to do coordination between
etcdserver and API layer, since API layer might have access to
kv pointer and use a closed kv.
Provides two implementations of Recorder-- one that is non-blocking
like the original version and one that provides a blocking channel
to avoid busy waiting or racing in tests when no other synchronization
is available.
In this case, we know we are waiting for an action happened on
storage. We can do a busy wait instead of calling waitSchedule.
The test previously failed on CI with no observed actions.
When a slow follower receives the snapshot sent from the leader, it
should rename the snapshot file to the default KV file path, and
restore KV snapshot.
Have tested it manually and it works pretty well.
When snapshot store requests raft snapshot from etcdserver apply loop,
it may block on the channel for some time, or wait some time for KV to
snapshot. This is unexpected because raft state machine should be unblocked.
Even worse, this block may lead to deadlock:
1. raft state machine waits on getting snapshot from raft memory storage
2. raft memory storage waits snapshot store to get snapshot
3. snapshot store requests raft snapshot from apply loop
4. apply loop is applying entries, and waits raftNode loop to finish
messages sending
5. raftNode loop waits peer loop in Transport to send out messages
6. peer loop in Transport waits for raft state machine to process message
Fix it by changing the logic of getSnap to be asynchronously creation.
Use snapshotSender to send v3 snapshot message. It puts raft snapshot
message and v3 snapshot into request body, then sends it to the target peer.
When it receives http.StatusNoContent, it knows the message has been
received and processed successfully.
As receiver, snapHandler saves v3 snapshot and then processes the raft snapshot
message, then respond with http.StatusNoContent.
rafthttp has different requirements for connections created by the
transport for different usage, and this is hard to achieve when giving
one http.RoundTripper. Pass into pkg the data needed to build transport
now, and let rafthttp build its own transports.
