.. _install_sandboxes_front_proxy:
Front Proxy
===========
To get a flavor of what Envoy has to offer as a front proxy, we are releasing a
`docker compose `_ sandbox that deploys a front
envoy and a couple of services (simple flask apps) colocated with a running
service Envoy. The three containers will be deployed inside a virtual network
called ``envoymesh``.
Below you can see a graphic showing the docker compose deployment:
.. image:: /_static/docker_compose_v0.1.svg
:width: 100%
All incoming requests are routed via the front Envoy, which is acting as a reverse proxy sitting on
the edge of the ``envoymesh`` network. Port ``8000`` is exposed by docker compose
(see :repo:`/examples/front-proxy/docker-compose.yaml`). Moreover, notice
that all traffic routed by the front Envoy to the service containers is actually routed to the
service Envoys (routes setup in :repo:`/examples/front-proxy/front-envoy.yaml`). In turn the service
envoys route the request to the flask app via the loopback address (routes setup in
:repo:`/examples/front-proxy/service-envoy.yaml`). This setup
illustrates the advantage of running service Envoys collocated with your services: all requests are
handled by the service Envoy, and efficiently routed to your services.
Running the Sandbox
~~~~~~~~~~~~~~~~~~~
The following documentation runs through the setup of an Envoy cluster organized
as is described in the image above.
**Step 1: Install Docker**
Ensure that you have a recent versions of ``docker`` and ``docker-compose`` installed.
A simple way to achieve this is via the `Docker Desktop `_.
**Step 2: Clone the Envoy repo, and start all of our containers**
If you have not cloned the Envoy repo, clone it with ``git clone git@github.com:envoyproxy/envoy``
or ``git clone https://github.com/envoyproxy/envoy.git``::
$ pwd
envoy/examples/front-proxy
$ docker-compose pull
$ docker-compose up --build -d
$ docker-compose ps
Name Command State Ports
--------------------------------------------------------------------------------------------------------------------------
front-proxy_front-envoy_1 /docker-entrypoint.sh /bin ... Up 10000/tcp, 0.0.0.0:8000->8000/tcp, 0.0.0.0:8001->8001/tcp
front-proxy_service1_1 /bin/sh -c /usr/local/bin/ ... Up 10000/tcp, 8000/tcp
front-proxy_service2_1 /bin/sh -c /usr/local/bin/ ... Up 10000/tcp, 8000/tcp
**Step 3: Test Envoy's routing capabilities**
You can now send a request to both services via the front-envoy.
For service1::
$ curl -v localhost:8000/service/1
* Trying 192.168.99.100...
* Connected to 192.168.99.100 (192.168.99.100) port 8000 (#0)
> GET /service/1 HTTP/1.1
> Host: 192.168.99.100:8000
> User-Agent: curl/7.54.0
> Accept: */*
>
< HTTP/1.1 200 OK
< content-type: text/html; charset=utf-8
< content-length: 89
< x-envoy-upstream-service-time: 1
< server: envoy
< date: Fri, 26 Aug 2018 19:39:19 GMT
<
Hello from behind Envoy (service 1)! hostname: f26027f1ce28 resolvedhostname: 172.19.0.6
* Connection #0 to host 192.168.99.100 left intact
For service2::
$ curl -v localhost:8000/service/2
* Trying 192.168.99.100...
* Connected to 192.168.99.100 (192.168.99.100) port 8000 (#0)
> GET /service/2 HTTP/1.1
> Host: 192.168.99.100:8000
> User-Agent: curl/7.54.0
> Accept: */*
>
< HTTP/1.1 200 OK
< content-type: text/html; charset=utf-8
< content-length: 89
< x-envoy-upstream-service-time: 2
< server: envoy
< date: Fri, 26 Aug 2018 19:39:23 GMT
<
Hello from behind Envoy (service 2)! hostname: 92f4a3737bbc resolvedhostname: 172.19.0.2
* Connection #0 to host 192.168.99.100 left intact
Notice that each request, while sent to the front Envoy, was correctly routed
to the respective application.
**Step 4: Test Envoy's load balancing capabilities**
Now let's scale up our service1 nodes to demonstrate the load balancing abilities
of Envoy.::
$ docker-compose scale service1=3
Creating and starting example_service1_2 ... done
Creating and starting example_service1_3 ... done
Now if we send a request to service1 multiple times, the front Envoy will load balance the
requests by doing a round robin of the three service1 machines::
$ curl -v localhost:8000/service/1
* Trying 192.168.99.100...
* Connected to 192.168.99.100 (192.168.99.100) port 8000 (#0)
> GET /service/1 HTTP/1.1
> Host: 192.168.99.100:8000
> User-Agent: curl/7.43.0
> Accept: */*
>
< HTTP/1.1 200 OK
< content-type: text/html; charset=utf-8
< content-length: 89
< x-envoy-upstream-service-time: 1
< server: envoy
< date: Fri, 26 Aug 2018 19:40:21 GMT
< x-envoy-protocol-version: HTTP/1.1
<
Hello from behind Envoy (service 1)! hostname: 85ac151715c6 resolvedhostname: 172.19.0.3
* Connection #0 to host 192.168.99.100 left intact
$ curl -v localhost:8000/service/1
* Trying 192.168.99.100...
* Connected to 192.168.99.100 (192.168.99.100) port 8000 (#0)
> GET /service/1 HTTP/1.1
> Host: 192.168.99.100:8000
> User-Agent: curl/7.54.0
> Accept: */*
>
< HTTP/1.1 200 OK
< content-type: text/html; charset=utf-8
< content-length: 89
< x-envoy-upstream-service-time: 1
< server: envoy
< date: Fri, 26 Aug 2018 19:40:22 GMT
<
Hello from behind Envoy (service 1)! hostname: 20da22cfc955 resolvedhostname: 172.19.0.5
* Connection #0 to host 192.168.99.100 left intact
$ curl -v localhost:8000/service/1
* Trying 192.168.99.100...
* Connected to 192.168.99.100 (192.168.99.100) port 8000 (#0)
> GET /service/1 HTTP/1.1
> Host: 192.168.99.100:8000
> User-Agent: curl/7.43.0
> Accept: */*
>
< HTTP/1.1 200 OK
< content-type: text/html; charset=utf-8
< content-length: 89
< x-envoy-upstream-service-time: 1
< server: envoy
< date: Fri, 26 Aug 2018 19:40:24 GMT
< x-envoy-protocol-version: HTTP/1.1
<
Hello from behind Envoy (service 1)! hostname: f26027f1ce28 resolvedhostname: 172.19.0.6
* Connection #0 to host 192.168.99.100 left intact
**Step 5: enter containers and curl services**
In addition of using ``curl`` from your host machine, you can also enter the
containers themselves and ``curl`` from inside them. To enter a container you
can use ``docker-compose exec /bin/bash``. For example we can
enter the ``front-envoy`` container, and ``curl`` for services locally::
$ docker-compose exec front-envoy /bin/bash
root@81288499f9d7:/# curl localhost:8000/service/1
Hello from behind Envoy (service 1)! hostname: 85ac151715c6 resolvedhostname: 172.19.0.3
root@81288499f9d7:/# curl localhost:8000/service/1
Hello from behind Envoy (service 1)! hostname: 20da22cfc955 resolvedhostname: 172.19.0.5
root@81288499f9d7:/# curl localhost:8000/service/1
Hello from behind Envoy (service 1)! hostname: f26027f1ce28 resolvedhostname: 172.19.0.6
root@81288499f9d7:/# curl localhost:8000/service/2
Hello from behind Envoy (service 2)! hostname: 92f4a3737bbc resolvedhostname: 172.19.0.2
**Step 6: enter containers and curl admin**
When Envoy runs it also attaches an ``admin`` to your desired port. In the example
configs the admin is bound to port ``8001``. We can ``curl`` it to gain useful information.
For example you can ``curl`` ``/server_info`` to get information about the
envoy version you are running. Additionally you can ``curl`` ``/stats`` to get
statistics. For example inside ``frontenvoy`` we can get::
$ docker-compose exec front-envoy /bin/bash
root@e654c2c83277:/# curl localhost:8001/server_info
.. code-block:: json
{
"version": "3ba949a9cb5b0b1cccd61e76159969a49377fd7d/1.10.0-dev/Clean/RELEASE/BoringSSL",
"state": "LIVE",
"command_line_options": {
"base_id": "0",
"concurrency": 4,
"config_path": "/etc/front-envoy.yaml",
"config_yaml": "",
"allow_unknown_static_fields": false,
"admin_address_path": "",
"local_address_ip_version": "v4",
"log_level": "info",
"component_log_level": "",
"log_format": "[%Y-%m-%d %T.%e][%t][%l][%n] %v",
"log_path": "",
"hot_restart_version": false,
"service_cluster": "front-proxy",
"service_node": "",
"service_zone": "",
"mode": "Serve",
"disable_hot_restart": false,
"enable_mutex_tracing": false,
"restart_epoch": 0,
"cpuset_threads": false,
"file_flush_interval": "10s",
"drain_time": "600s",
"parent_shutdown_time": "900s"
},
"uptime_current_epoch": "401s",
"uptime_all_epochs": "401s"
}
.. code-block:: text
root@e654c2c83277:/# curl localhost:8001/stats
cluster.service1.external.upstream_rq_200: 7
...
cluster.service1.membership_change: 2
cluster.service1.membership_total: 3
...
cluster.service1.upstream_cx_http2_total: 3
...
cluster.service1.upstream_rq_total: 7
...
cluster.service2.external.upstream_rq_200: 2
...
cluster.service2.membership_change: 1
cluster.service2.membership_total: 1
...
cluster.service2.upstream_cx_http2_total: 1
...
cluster.service2.upstream_rq_total: 2
...
Notice that we can get the number of members of upstream clusters, number of requests
fulfilled by them, information about http ingress, and a plethora of other useful
stats.