Pipe http server log to hclog, so that it uses the same logging format
as rest of nomad logs. Also, supports emitting them as json logs, when
json formatting is set.
The http server logs are emitted as Trace level, as they are typically
repsent HTTP client errors (e.g. failed tls handshakes, invalid headers,
etc).
Though, Panic logs represent server errors and are relayed as Error
level.
Shutdown http server last, after nomad client/server components
terminate.
Before this change, if the agent is taking an unexpectedly long time to
shutdown, the operator cannot query the http server directly: they
cannot access agent specific http endpoints and need to query another
agent about the troublesome agent.
Unexpectedly long shutdown can happen in normal cases, e.g. a client
might hung is if one of the allocs it is running has a long
shutdown_delay.
Here, we switch to ensuring that the http server is shutdown last.
I believe this doesn't require extra care in agent shutting down logic
while operators may be able to submit write http requests. We already
need to cope with operators submiting these http requests to another
agent or by servers updating the client allocations.
Some tests assert on numbers on numbers of servers, e.g.
TestHTTP_AgentSetServers and TestHTTP_AgentListServers_ACL . Though, in dev and
test modes, the agent starts with servers having duplicate entries for
advertised and normalized RPC values, then settles with one unique value after
Raft/Serf re-sets servers with one single unique value.
This leads to flakiness, as the test will fail if assertion runs before Serf
update takes effect.
Here, we update the inital dev handling so it only adds a unique value if the
advertised and normalized values are the same.
Sample log lines illustrating the problem:
```
=== CONT TestHTTP_AgentSetServers
TestHTTP_AgentSetServers: testlog.go:34: 2020-04-06T21:47:51.016Z [INFO] nomad.raft: initial configuration: index=1 servers="[{Suffrage:Voter ID:127.0.0.1:9008 Address:127.0.0.1:9008}]"
TestHTTP_AgentSetServers: testlog.go:34: 2020-04-06T21:47:51.016Z [INFO] nomad: serf: EventMemberJoin: TestHTTP_AgentSetServers.global 127.0.0.1
TestHTTP_AgentSetServers: testlog.go:34: 2020-04-06T21:47:51.035Z [DEBUG] client.server_mgr: new server list: new_servers=[127.0.0.1:9008, 127.0.0.1:9008] old_servers=[]
...
TestHTTP_AgentSetServers: agent_endpoint_test.go:759:
Error Trace: agent_endpoint_test.go:759
http_test.go:1089
agent_endpoint_test.go:705
Error: "[127.0.0.1:9008 127.0.0.1:9008]" should have 1 item(s), but has 2
Test: TestHTTP_AgentSetServers
```
The javascript Websocket API doesn't support setting custom headers
(e.g. `X-Nomad-Token`). This change adds support for having an
authentication handshake message: clients can set `ws_handshake` URL
query parameter to true and send a single handshake message with auth
token first before any other mssage.
This is a backward compatible change: it does not affect nomad CLI path, as it
doesn't set `ws_handshake` parameter.
In some refactoring, a bug was introduced where if the connect.proxy
stanza in a submitted job was nil, the default proxy configuration
would not be initialized with default values, effectively breaking
Connect.
connect {
sidecar_service {} # should work
}
In contrast, by setting an empty proxy stanza, the config values would
be inserted correctly.
connect {
sidecar_service {
proxy {} # workaround
}
}
This commit restores the original behavior, where having a proxy
stanza present is not required.
The unit test for this case has also been corrected.
Part of #6120
Building on the support for enabling connect proxy paths in #7323, this change
adds the ability to configure the 'service.check.expose' flag on group-level
service check definitions for services that are connect-enabled. This is a slight
deviation from the "magic" that Consul provides. With Consul, the 'expose' flag
exists on the connect.proxy stanza, which will then auto-generate expose paths
for every HTTP and gRPC service check associated with that connect-enabled
service.
A first attempt at providing similar magic for Nomad's Consul Connect integration
followed that pattern exactly, as seen in #7396. However, on reviewing the PR
we realized having the `expose` flag on the proxy stanza inseperably ties together
the automatic path generation with every HTTP/gRPC defined on the service. This
makes sense in Consul's context, because a service definition is reasonably
associated with a single "task". With Nomad's group level service definitions
however, there is a reasonable expectation that a service definition is more
abstractly representative of multiple services within the task group. In this
case, one would want to define checks of that service which concretely make HTTP
or gRPC requests to different underlying tasks. Such a model is not possible
with the course `proxy.expose` flag.
Instead, we now have the flag made available within the check definitions themselves.
By making the expose feature resolute to each check, it is possible to have
some HTTP/gRPC checks which make use of the envoy exposed paths, as well as
some HTTP/gRPC checks which make use of some orthongonal port-mapping to do
checks on some other task (or even some other bound port of the same task)
within the task group.
Given this example,
group "server-group" {
network {
mode = "bridge"
port "forchecks" {
to = -1
}
}
service {
name = "myserver"
port = 2000
connect {
sidecar_service {
}
}
check {
name = "mycheck-myserver"
type = "http"
port = "forchecks"
interval = "3s"
timeout = "2s"
method = "GET"
path = "/classic/responder/health"
expose = true
}
}
}
Nomad will automatically inject (via job endpoint mutator) the
extrapolated expose path configuration, i.e.
expose {
path {
path = "/classic/responder/health"
protocol = "http"
local_path_port = 2000
listener_port = "forchecks"
}
}
Documentation is coming in #7440 (needs updating, doing next)
Modifications to the `countdash` examples in https://github.com/hashicorp/demo-consul-101/pull/6
which will make the examples in the documentation actually runnable.
Will add some e2e tests based on the above when it becomes available.
Enable configuration of HTTP and gRPC endpoints which should be exposed by
the Connect sidecar proxy. This changeset is the first "non-magical" pass
that lays the groundwork for enabling Consul service checks for tasks
running in a network namespace because they are Connect-enabled. The changes
here provide for full configuration of the
connect {
sidecar_service {
proxy {
expose {
paths = [{
path = <exposed endpoint>
protocol = <http or grpc>
local_path_port = <local endpoint port>
listener_port = <inbound mesh port>
}, ... ]
}
}
}
stanza. Everything from `expose` and below is new, and partially implements
the precedent set by Consul:
https://www.consul.io/docs/connect/registration/service-registration.html#expose-paths-configuration-reference
Combined with a task-group level network port-mapping in the form:
port "exposeExample" { to = -1 }
it is now possible to "punch a hole" through the network namespace
to a specific HTTP or gRPC path, with the anticipated use case of creating
Consul checks on Connect enabled services.
A future PR may introduce more automagic behavior, where we can do things like
1) auto-fill the 'expose.path.local_path_port' with the default value of the
'service.port' value for task-group level connect-enabled services.
2) automatically generate a port-mapping
3) enable an 'expose.checks' flag which automatically creates exposed endpoints
for every compatible consul service check (http/grpc checks on connect
enabled services).
- tg.Count defaults to tg.Scaling.Min if present (falls back on previous default of 1 if Scaling is absent)
- Validate() enforces tg.Scaling.Min <= tg.Count <= tg.Scaling.Max
modification in ApiScalingPolicyToStructs, api.TaskGroup.Validate so that defaults are handled for TaskGroup.Count and