# Securing TCP based services
The following guide demonstrates how to use Pomerium's TCP Proxying support with various TCP services such as databases and other non-HTTP protocols. It also covers integration points with them when possible.
The source files from this guide can be found on GitHub (opens new window).
# Background
When replacing a traditional VPN, there are often non-HTTP based applications which must still be reachable. Pomerium is able to provide the same type of protection to these services by using a client side application to proxy TCP connections. Authentication and authorization configuration is shared with standard HTTP routes, and the underlying transport is still encrypted between the end-user and Pomerium.
Important notes:
- Pomerium authorizes HTTP on a request-by-request basis, but TCP is authorized on a per-connection basis.
- Pomerium is only authorizing the TCP connection. It does not interact with application level authorization systems at this time.
# How it works
- Create a standard Pomerium configuration for your identity provider (IdP)
pomerium-cli
runs on your workstation, listening on loopback for TCP connections- When an inbound connection is made,
pomerium-cli
proxies the connection throughpomerium
, authenticating the user if needed - Pomerium authorizes the connection and forwards it to the upstream service
- The connecting application functions as normal
# Pre-requisites
This recipe is designed to run on a local docker-compose instance. The included configuration can be adopted for any TCP service, however.
- docker
- docker-compose
- A copy of the example repo (opens new window) checked out
- Valid credentials for your OIDC provider
- The Pomerium Client installed
- (Optional)
mkcert
to generate locally trusted certificates
# Certificates (optional)
This demo comes with its own certificates, but pomerium-cli
and your browser will not trust them by default. You may instead provide your own or use mkcert (opens new window) to generate locally trusted certificates.
After installing mkcert
, run the following inside the example repo:
mkcert -install
mkcert '*.localhost.pomerium.io'
This will install a trusted CA and generate a new wildcard certificate:
_wildcard.localhost.pomerium.io.pem
_wildcard.localhost.pomerium.io-key.pem
To provide your own certificates through another mechanism, please overwrite these files or update docker-compose.yaml
accordingly.
# Configure
# Pomerium
Update config.yaml
with your IdP settings and desired policy if adopting for your environment
authenticate_service_url: https://authenticate.localhost.pomerium.io
certificates:
- cert: /pomerium/cert.pem
key: /pomerium/key.pem
shared_secret: CHANGEME
cookie_secret: CHANGEME
idp_client_id: CHANGEME
idp_client_secret: CHANGEME
idp_provider: google
policy:
- from: tcp+https://redis.localhost.pomerium.io:6379
to: tcp://redis:6379
allowed_domains:
- gmail.com
- from: tcp+https://ssh.localhost.pomerium.io:22
to: tcp://ssh:2222
allowed_domains:
- gmail.com
- from: tcp+https://pgsql.localhost.pomerium.io:5432
to: tcp://pgsql:5432
allowed_domains:
- gmail.com
databroker_storage_type: redis
databroker_storage_connection_string: redis://redis:6379
# Docker Compose
Create a docker-compose.yaml
file to run Pomerium and, optionally, the services being demonstrated.
Included in our compose file:
- SSH
- Postgres
- Redis
version: "3"
services:
pomerium:
image: pomerium/pomerium:master
volumes:
- ./_wildcard.localhost.pomerium.io.pem:/pomerium/cert.pem:ro
- ./_wildcard.localhost.pomerium.io-key.pem:/pomerium/key.pem:ro
- ./config.yaml:/pomerium/config.yaml:ro
ports:
- 443:443
redis:
image: redis:latest
expose:
- 6379
ssh:
image: linuxserver/openssh-server:latest
expose:
- 2222
environment:
PASSWORD_ACCESS: "true"
USER_PASSWORD: supersecret
USER_NAME: myuser
pgsql:
image: postgres
restart: always
environment:
POSTGRES_PASSWORD: supersecret
expose:
- 5432
# Connect
To connect to your service, ensure pomerium-cli
is in your $PATH
and run the tcp
command, specifying the service you wish to reach.
pomerium-cli tcp [hostname]:[port]
pomerium-cli
will select a random port on localhost
by default, but you can specify a port manually if desired. Keep reading for some specific application examples using the sample docker-compose.yaml
.
# Redis
# Start a proxy to redis in the background
% pomerium-cli tcp redis.localhost.pomerium.io:6379 --listen localhost:6379 &
3:01PM INF tcptunnel: listening on 127.0.0.1:6379
# Start the redis client
% redis-cli
3:01PM INF tcptunnel: opening connection dst=redis.localhost.pomerium.io:6379 proxy=redis.localhost.pomerium.io:443 secure=true
3:01PM INF tcptunnel: opening connection dst=redis.localhost.pomerium.io:6379 proxy=redis.localhost.pomerium.io:443 secure=true
3:01PM INF tcptunnel: connection established
127.0.0.1:6379> keys *
1) "type.googleapis.com/session.Session_last_version"
2) "type.googleapis.com/user.User"
3) "type.googleapis.com/session.Session"
4) "type.googleapis.com/user.User_version_set"
5) "type.googleapis.com/user.User_last_version"
6) "server_version_last_version"
7) "type.googleapis.com/session.Session_version_set"
8) "server_version_version_set"
9) "server_version"
10) "type.googleapis.com/directory.User_last_version"```
# Postgres
In our example docker-compose, we have configured supersecret
as the password for the postgres
user.
# Start a proxy to postgres in the background
% pomerium-cli tcp pgsql.localhost.pomerium.io:5432 --listen localhost:5432 &
3:07PM INF tcptunnel: listening on 127.0.0.1:5432
# Connect and list the schemas after password authentication
% psql -h localhost -W -U postgres -c '\dn'
Password:
3:06PM INF tcptunnel: opening connection dst=pgsql.localhost.pomerium.io:5432 proxy=pgsql.localhost.pomerium.io:443 secure=true
3:06PM INF tcptunnel: connection established
List of schemas
Name | Owner
--------+----------
public | postgres
(1 row)
# SSH
SSH clients can make use of external programs to establish a connection to a host. Most frequently, this is for using an SSH jump host to reach a target system. However, any transport application can be used. pomerium-cli
's tcp
command can be used in conjunction with this configuration. Read on to see how.
More Info:
- https://man.openbsd.org/ssh_config.5#ProxyCommand (opens new window)
- https://www.redhat.com/sysadmin/ssh-proxy-bastion-proxyjump (opens new window)
# Setup
To configure your SSH client to use Pomerium's TCP support for SSH routes, create an entry as follows in your ssh_config
or ~/.ssh/config
:
Host *.localhost.pomerium.io
ProxyCommand pomerium-cli tcp --listen - %h:%p
- Be sure to substitute your domain for
localhost.pomerium.io
- Be sure
pomerium-cli
is in your$PATH
# Connecting
That's it! A Pomerium proxy will be started automatically whenever you ssh to a host under localhost.pomerium.io
.
In our example docker-compose, we have an SSH server configured with supersecret
as the password for myuser
.
% ssh myuser@ssh.localhost.pomerium.io
3:19PM INF tcptunnel: opening connection dst=ssh.localhost.pomerium.io:22 proxy=ssh.localhost.pomerium.io:443 secure=true
3:19PM INF tcptunnel: connection established
myuser@ssh.localhost.pomerium.io's password:
Welcome to OpenSSH Server
5c9f4fa5f5f7:~$
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