* Refactor: func has already access to probeID
* Allow controls for more k8s topologies
Controls for nodes generally need to know about the probe that is in
control of them.
This PR appends the probe ID info to k8s topologies CronJob, DaemonSet,
Service, and StatefulSet. Therefore allowing plugins to append controls.
* Remove superfluous error check
* Add some tests to verify controls allowance
It is not a singleton anymore. Instead it is an object with a registry
backend. The default registry backend is provided, which is equivalent
to what used to be before. Custom backend can be provided for testing
purposes.
The registry also supports batch operations to remove and add handlers
as an atomic step.
* Helps reduce garbage (MakeMetric() now takes a slice and there's a shorter version MakeSingletonMetric())
* Fixes bug computing Max (Min) in samples since using MakeMetric()
was causing a default Max/Min of zero.
* Simplifies code a bit
Also:
* Remove Gob encoder/decoder
* Stop using custom encoders/decoders for Timestamps (both ugorji and the Golang JSON codecs use nanosecond precision).
* Use idiomatic way to check for existence in metric.LastSample()
- Run the Weave integrations regardless of if weave is detected.
- Make everything backoff and not spam the logs.
- Add miekg dns to vendor.
- Have the app periodically register with weaveDNS, and the probe do lookups there.
- Decide what the local networks are at runtime, not once at startup.
- Correctly resolve app ids, fixes#825
Another implicit invariant in the data model is that edges are always of the
form (local -> remote). That is, the source of an edge must always be a node
that originates from within Scope's domain of visibility. This was evident by
the presence of ingress and egress fields in edge/aggregate metadata.
When building the sniffer, I accidentally and incorrectly violated this
invariant, by constructing distinct edges for (local -> remote) and (remote ->
local), and collapsing ingress and egress byte counts to a single scalar. I
experienced a variety of subtle undefined behavior as a result. See #339.
This change reverts to the old, correct methodology. Consequently the sniffer
needs to be able to find out which side of the sniffed packet is local v.
remote, and to do that it needs access to local networks. I moved the
discovery from the probe/host package into probe/main.go.
As part of that work I discovered that package report also maintains its own,
independent "cache" of local networks. Except it contains only the (optional)
Docker bridge network, if it's been populated by the probe, and it's only used
by the report.Make{Endpoint,Address}NodeID constructors to scope local
addresses. Normally, scoping happens during rendering, and only for pseudo
nodes -- see current LeafMap Render localNetworks. This is pretty convoluted
and should be either be made consistent or heavily commented.
NewNodeMetadata -> MakeNodeMetadata. It doesn't return a pointer, so
Make is more idiomatic.
Invoke MakeNodeMetadata when necessary. The zero value for a
NodeMetadata is no longer valid.
Split MakeNodeMetadata to two constructors. MakeNodeMetadata when you
don't have anything to prepopulate; MakeNodeMetadataWith when you do.
Also, a fix to the tests in app. We unmarshal a RenderableNode struct,
which has a JSON-ignored NodeMetadata field. The zero value is invalid,
so we need to fix that before performing comparisons.