Our web and mobile application suite is used by some government agencies requiring strong security. We're providing XMPP-based chat. We used Openfire as XMPP server, but it turned out Openfire clustering (provided by Hazelcast plugin) does not allow Openfire nodes to communicate over SSL. We're not allowed to use node-to-node communications without SSL.
So, we're currently looking at Ejabberd XMPP server as a (more scalable) alternative to Openfire. But it looks like Ejabberd cluster nodes also communicate without SSL. Is it possible to set up Ejabberd cluster with nodes using SSL to talk to each other?
There is two ways to enable clustering over TLS with ejabberd:
You can set Erlang distribution over TLS: http://erlang.org/doc/apps/ssl/ssl_distribution.html
You can use VPN to protect your cluster.
Typically, the second solution is best for performance, as you offload the SSL processing from your cluster to a lower level layer. Clustering in ejabberd is not intended to be set over the internet, as you need low latency between your node for optimal operation.
I want to secure the communication between the Client and server node of Ignite instances.
How can i achieve, as there is no out of box implementation for it.
Please guide!!
I would actually recommend turning SSL on, issuing trusted certificates for client and server nodes. This way, nobody can eavesdrop on your nodes' communication if they don't have private key.
This is supported out of box by Apache Ignite without any plugins.
I want to use rabbitmq in a project, some clients have to comunicate with the rabbitmq server over internet
What is the best way to expose rabbitmq on the Internet ?
should i use a http gateway or directly expose the rabbitmq port ?
Guillaume.
Yes, you can, it is what https://www.cloudamqp.com/ does.
You need to implement the same security policies you'd use for a web site.
For example, put a load-balancer in front of your rabbitmq cluster, use the SSL connections, you could also configure your firewall to accept the connections only from specific ip addresses etc etc..
Is kafka suitable for Internet-use?
More precisely, what I want is to expose kafka topics as "public interface", then external consumers (or producers) can connect to it. Is it possible?
I hear there are problems if I want to use the cluster in both internal and external networks, because it is then hard to configure advertised.host.name. Is that true?
And do I have to expose zookeeper as well? I think the new consumer/producer api no longer need that.
Kafka's wire protocol is TCP-based and works fine over the public internet. In the latest versions of Kafka you can configure multiple interfaces for both internal and external traffic. Examples of Kafka over the internet in production include several Kafka-as-a-Service offerings from Heroku, IBM MessageHub, and Confluent Cloud.
You do not need to expose zookeeper if the Kafka clients use the new consumer API.
You may also choose to expose a REST Proxy such as the open source Confluent REST Proxy as a more client firewall friendly interface since it runs over HTTP(S) and will not be blocked by most corporate or personal firewalls.
I would personally not expose the Kafka server directly to clients via TCP for these reasons, only to name a few:
If a bad client opens too many connections this may affect the stability of the Kafka platform and may affects other clients too
Too many open files on the Kafka server, HW/SW settings and OS tuning is needed to limit uncontrolled clients
If you need to add a Kafka server to increase scalability, you may need to go through a lot of low level configuration (firewall, IPs visibility, certificates, etc.) on both client and server side. Other product address these problems using gateways or proxies: Coherence uses extend proxy clients, tibco EMS uses routed destinations, other SW (many JMS servers) use Store&Forward mechanisms, etc.
Maintenance of the Kafka nodes, in case of clients attached to the Kafka servers, will have to consider also the needs of clients and the SLA (service level aggreement) that have been defined with the client (ex. 24*7*365)
If you use Kafka also as a back end service, a multi layered architecture should be taken into consideration: FE gateways and BE services, etc.
Other considerations require to understand what exacly you consider to be an external (over the internet) consumer/producer in your system. Is it a component of your system that needs to access the Kafka servers? Are they internal or external to your organization, etc.
...
Naturally all these considerations can be correctly addressed also using a TCP direct connection to the Kafka servers, but I would personally use a different solution.
HTTP proxies
Or at least I would use a dedicated FE Kafka server (or couple of servers for HA) dedicated for each client that forward the messages to the main Kafka group of servers
It is possible to expose Kafka over the internet (in fact, that's how managed Kafka providers such as Aiven and Instaclustr make their money) but you have to ensure that it is adequately secured. At minimum:
ZooKeeper nodes should reside in a private subnet and not be routable from outside. ZK's security is inadequate and, at any rate, it is no longer required to bootstrap Kafka clients with ZK address(es).
Limit access to the brokers at the network level. If all your clients connect from a trusted network, then set appropriate firewall rules. If in AWS, use VPC peering or Direct Connect if you are connecting cloud-to-cloud or cloud-to-ground. If most of your clients are on a trusted network but a relative minority are not, force the latter to go via a VPN tunnel. Finally, if you want to allow connectivity from arbitrary locations, you'll just have to allow * on port 9092 (or whichever port you configure the brokers to listen on); just make sure that the other ports are closed.
Enable TLS (SSL) for client-broker connections. This is easily configured with a self-signed CA. Depending on how you expose your listeners, you may need to disable SSL hostname verification on the client. (The certificate chain of trust breaks if the advertised host names don't match the certificate's common name.) The clients will need the CA certificate installed. (Same CA that signed the brokers' certs.)
Optionally, you may enable mutual TLS authentication; however, this is logistically more taxing, as it requires each client to have its own private key that is signed by a CA trusted by the broker.
Use SASL to authenticate the client to the broker and create individual users for each application and each person that is expected to access the cluster.
Issue minimally-sufficient cluster- and topic-level access privileges in the ACLs for each user, following the Principle of Least Privilege (PoLP).
One other thing to bear in mind: Not all tooling supports SASL/SSL connectivity and some tools actually require a connection to ZooKeeper nodes (which will not be reachable in the above setup). Make sure any tooling you rely on uses the 'new' style of connectivity directly to the Kafka brokers and does not require a Zookeeper connection.
Beyond configuring client TLS, brokers have to have public IPs which we try to avoid. Normally for other services we hide everything behind load balancers. Would this be possible with kafka?
I'm not sure the Confluent REST proxy hosted on a public server is a real option when you need the high performance batching of the java producer client.
In a scenario where there are thousands of webservices are there reasons to use also a signed cert for each microservice or it's just going to add overhead? Services communicate via VPC sitting behind a firewall while Public endpoints are behind a nginx public facing a valid CA cert.
Services are on multiple servers on aws.
From my limited experience, I believe that it is overkill. If an attacker has access to listen in or interact with your internal network then there are most likely other issues which you should be contending with.
This article on auth0.com explains the use of SSL only on connections to the external client. I also share this view and believe implementing SSL at an individual service level would get extremely difficult unless you where running some form of proxy such as HAProxy or Nginx on each individual host which is sub-optimal, especially if you're using a form of managed cluster like Kubernetes or Docker Swarm.
My current thoughts are its fine to run SSL just for your edge services, ensure you lock down your AWS network using something like Scout2 and run unencrypted for inter-service communication on your lan.
unless all intranet in the cloud are fully VLAN-configured and isolated, is it possible for other hosts that you don't own that are on the same LAN to steal your password by running a simple tcpdump? if that's the case, we need ssl or other encryption internally on the cloud too.