* Initial draft of Sidecar Service and Managed Proxy deprecation docs * Service definition deprecation notices and sidecar service * gRPC and sidecar service config options; Deprecate managed proxy options * Envoy Docs: Basic envoy command; envoy getting started/intro * Remove change that snuck in * Envoy custom config example * Add agent/service API docs; deprecate proxy config endpoint * Misc grep cleanup for managed proxies; capitalize Envoy * Updates to getting started guide * Add missing link * Refactor Envoy guide into a separate guide and add bootstrap reference notes. * Add limitations to Envoy docs; Highlight no fixes for known managed proxy issues on deprecation page; clarify snake cae stuff; Sidecar Service lifecycle
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layout | page_title | sidebar_current | description |
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docs | Using Envoy with Connect | docs-guides-connect-envoy | This guide walks though getting started running Envoy as a Connect Proxy. |
Using Connect with Envoy Proxy
Consul Connect has first class support for using Envoy as a proxy. This guide will walk through a working example on a local development machine that shows the moving parts.
For reference documentation on how the integration works and is configured, please see Envoy.
Setup Overview
This guide will describe how to setup a development-mode Consul server and two Envoy proxies on a single machine using Docker. The aim is to demonstrate a minimal working setup and the moving parts involved.
We choose to run in Docker since Envoy is only distributed as a Docker image so it's the quickest way to get a demo running. The same commands used here will work in just the same way outside of Docker if you build an Envoy binary yourself.
We'll start all containers using Docker's host
network mode which is not a
realistic simulation of a production setup, but makes the following steps much
simpler.
We should end up with five containers running:
- The Consul agent
- An example TCP
echo
service as a destination - An Envoy sidecar proxy for the
echo
service - An Envoy sidecar proxy for the
client
service - An example
client
service (netcat)
Building an Envoy Image
Starting Envoy requires a bootstrap configuration file that points Envoy to the
local agent for discovering the rest of it's configuration. The Consul binary
includes the consul connect envoy
command
which can generate the bootstrap configuration for Envoy and optionally run it
directly.
Envoy's official Docker image can be used with Connect directly however it requires some additional steps to generate bootstrap configuration and inject it into the container.
Instead, we'll use Docker multi-stage builds (added in version 17.05) to make a
local image that has both envoy
and consul
binaries.
We'll create a local Docker image to use that contains both binaries. First
create a Dockerfile
containing the following:
FROM consul:latest
FROM envoyproxy/envoy:v1.8.0
COPY --from=0 /bin/consul /bin/consul
ENTRYPOINT ["dumb-init", "consul", "connect", "envoy"]
This takes the Consul binary from the latest release image and copies it into a new image based on the official Envoy image.
This can be built locally with:
docker build -t consul-envoy .
We will use the consul-envoy
image we just made to configure and run Envoy
processes later.
Consul Agent Setup
Next we need a Consul agent. We'll work with a single Consul agent in -dev
mode for simplicity.
-> Note: -dev
mode enables the gRPC server on port 8502 by default. For a
production agent you'll need to explicitly configure the gRPC
port.
In order to start a proxy instance, a proxy service definition must exist on the local agent. We'll create one using the sidecar service registration syntax.
Create a config file called envoy_demo.hcl
containing the following service
definitions.
services {
name = "client"
port = 8080
connect {
sidecar_service {
proxy {
upstreams {
destination_name = "echo"
local_bind_port = 9191
}
}
}
}
}
services {
name = "echo"
port = 9090
connect {
sidecar_service {}
}
}
The Consul agent container can now be started with that configuration.
$ docker run --rm -d -v$(pwd)/envoy_demo.hcl:/etc/consul/envoy_demo.hcl \
--network host --name consul-agent consul:latest \
agent -dev -config-file /etc/consul/envoy_demo.hcl
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Running with -d
like this puts the container into the background so we can
continue in the same terminal. Log output can be seen using the name we gave.
docker logs -f consul-agent
Note that the Consul agent has registered two services client
and echo
, but
also registered two proxies client-sidecar-proxy
and echo-sidecar-proxy
.
Next we'll need to run those services and proxies.
Running the Echo Service
Next we'll run the echo
service. We can use an existing tcp echo utility image
for this.
Start the echo service on port 9090 as registered before.
$ docker run -d --network host abrarov/tcp-echo --port 9090
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Running the Proxies
We can now run "sidecar" proxy instances.
$ docker run --rm -d --network host --name echo-proxy \
consul-envoy -sidecar-for echo
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$ docker run --rm -d --network host --name client-proxy \
consul-envoy -sidecar-for client -admin-bind localhost:19001
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The -admin-bind
flag on the second proxy command is needed because both
proxies are running on the host network and so can't bind to the same port for
their admin API (which cannot be disabled).
Again we can see the output using docker logs. To see more verbose information
from Envoy you can add -- -l debug
to the end of the commands above. This
passes the -l
(log level) option directly through to Envoy. With debug level
logs you should see the config being delivered to the proxy in the output.
The consul connect envoy
command here is
connecting to the local agent, getting the proxy configuration from the proxy
service registration and generating the required Envoy bootstrap configuration
before exec
ing the envoy binary directly to run it with the generated
configuration.
Envoy uses the bootstrap configuration to connect to the local agent directly via gRPC and use it's xDS protocol to retrieve the actual configuration for listeners, TLS certificates, upstream service instances and so on. The xDS API allows the Envoy instance to watch for any changes so certificate rotations or changes to the upstream service instances are immediately sent to the proxy.
Running the Client
Finally, we can see the connectivity by running a dummy "client" service. Rather
than run a full service that itself can listen, we'll simulate the service with
a simple netcat process that will only talk to the client-sidecar-proxy
Envoy
instance.
Recall that we configured the client
sidecar with one declared "upstream"
dependency (the echo
service). In that declaration we also requested that the
echo
service should be exposed to the client on local port 9191.
This configuration causes the client-sidecar-proxy
to start a TCP proxy
listening on localhost:9191
and proxying to the echo
service. Importantly,
the listener will use the correct client
service mTLS certificate to authorize
the connection. It discovers the IP addresses of instances of the echo service
via Consul service discovery.
We can now see this working if we run netcat.
$ docker run -ti --rm --network host gophernet/netcat localhost 9191
Hello World!
Hello World!
^C
Testing Authorization
To demonstrate that Connect is controlling authorization for the echo service, we can add an explicit deny rule.
$ docker run -ti --rm --network host consul:latest intention create -deny client echo
Created: client => echo (deny)
Now, new connections will be denied. Depending on a few factors, netcat may not see the connection being closed but will not get a response from the service.
$ docker run -ti --rm --network host gophernet/netcat localhost 9191
Hello?
Anyone there?
^C
-> Note: Envoy will not currently re-authenticate already established TCP connections so if you still have the netcat terminal open from before, that will still be able to communicate with "echo". New connections should be denied though.
Removing the intention restores connectivity.
$ docker run -ti --rm --network host consul:latest intention delete client echo
Intention deleted.
$ docker run -ti --rm --network host gophernet/netcat localhost 9191
Hello?
Hello?
^C
Summary
In this guide we walked through getting a minimal working example of two plain TCP processes communicating over mTLS using Envoy sidecars configured by Connect.
For more details on how the Envoy integration works, please see the Envoy reference documentation.
To see how to get Consul Connect working in different environments like Kubernetes see the Connect Getting Started overview.