I fail to see how implementing the ambassador pattern would help us simplify / modularize the design of our container architecture.
Let's say that I have a database container
db on host A and is used by a program
db-client which sits on host B, which are connected via ambassador containers
db-foreign-ambassador over a network:
[host A (db) --> (db-ambassador)] <- ... -> [host B (db-forgn-ambsdr) --> (db-client)]
Connections between containers in the same machine, e.g.
db-client are done via Docker's
--link parameter while
db-foreign-ambassador talks over the network.
--link is just a fancy way of inserting ip addresses, ports and other info from one container to another. When a container fails, the other container which is linked to it does not get notified, nor will it know the new IP address of the crashing container when it restarts. In short, if a container which is linked to another went dead, the link is also dead.
To consider my example, lets say that
db crashed and restarts, thus get assigned to a different IP.
db-ambassador would have to be restarted too, in order to update the link between them... Except you shouldn't. If
db-ambassador is restarted, the IP would have changed too, and
foreign-db-ambassador won't know where to reach it at the new IP address.
Quoting an article in the Docker's docs about the ambassador pattern,
When you need to rewire your consumer to talk to a different Redis server, you can just restart the redis-ambassador container that the consumer is connected to.
This pattern also allows you to transparently move the Redis server to a different docker host from the consumer.
it seems like this is exactly the problem it is trying to solve. Which, as far as my understanding goes, it totally didn't. Not if you consider
--link is only useful as long as the linked container doesn't crash. The option to start a crashing node on its previous IP would have been a good workaround if supported, at least for a small/medium sized architecture.
Am I missing something obvious?