As we know if a module exports module-side data types,
unload it is not allowed. This rule is the same with
blocked clients in module, because we use background
threads to implement module blocked clients, and it's
not safe to unload a module if there are background
threads running. So it's necessary to check if any
blocked clients running in this module when unload it.
Moreover, after that we can ensure that if no modules,
then no module blocked clients even module unloaded.
So, we can call moduleHandleBlockedClients only when
we have installed modules.
Calling a module hook callback may result in callback operations in turn
triggering other events the module is subscribed too. We don't want to
trigger those, it's unsafe and quite confusing, and to do it correcly we
would need to maintain an event list: quite a more complex
implementation.
This is what happened:
1. Instance starts, is a slave in the cluster configuration, but
actually server.masterhost is not set, so technically the instance
is acting like a master.
2. loadDataFromDisk() calls replicationCacheMasterUsingMyself() even if
the instance is a master, in the case it is logically a slave and the
cluster is enabled. So now we have a cached master even if the instance
is practically configured as a master (from the POV of
server.masterhost value and so forth).
3. clusterCron() sees that the instance requires to replicate from its
master, because logically it is a slave, so it calls
replicationSetMaster() that will in turn call
replicationCacheMasterUsingMyself(): before this commit, this call would
overwrite the old cached master, creating a memory leak.
This adds support for explicit configuration of a CA certs directory (in
addition to the previously supported bundle file). For redis-cli, if no
explicit CA configuration is supplied the system-wide default
configuration will be adopted.
