89 shaares
Then you can use it in your container as an environment variable:
~~~
$ podman run --secret=my-password,type=env,target=MY_PASSWORD \
registry.access.redhat.com/ubi9:latest \
printenv MY_PASSWORD
Gr8P@ssword!
~~~
~~~
$ podman run --secret=my-password,type=env,target=MY_PASSWORD \
registry.access.redhat.com/ubi9:latest \
printenv MY_PASSWORD
Gr8P@ssword!
~~~
Free Software, Free Society
Selected Essays of Richard M. Stallman
Second Edition
Selected Essays of Richard M. Stallman
Second Edition
Great tool to draw diagrams of computer networks and architectures
On Fedora CSB my issue was solved following method 2.
As IPv4 addresses become increasingly scarce it won’t be possible to hand out publicly routeable addresses to every user. The alternatives are things like CGNAT but that has a bunch of problems.
On the other hand the default suggested IPv6 allocation per user is a /48 subnet (which is 65,5536 /64 subnets each containing 18,446,744,073,709,551,616 addresses) which should be more than enough for anybody. More and more services slowly are making them selves available via IPv6.
So rather than run a dual stack IPv4/IPv6 network with a double NAT’d (at the home router and again at the ISP’s CGNAT link to the rest of the internet ) IPv4 address, we can run a pure IPv6 ISP and offer access to IPv4 via a NAT64 gateways to allow access to those services that are still IPv4 only.
On the other hand the default suggested IPv6 allocation per user is a /48 subnet (which is 65,5536 /64 subnets each containing 18,446,744,073,709,551,616 addresses) which should be more than enough for anybody. More and more services slowly are making them selves available via IPv6.
So rather than run a dual stack IPv4/IPv6 network with a double NAT’d (at the home router and again at the ISP’s CGNAT link to the rest of the internet ) IPv4 address, we can run a pure IPv6 ISP and offer access to IPv4 via a NAT64 gateways to allow access to those services that are still IPv4 only.