The best explanation I found is on Debian wiki at https://wiki.debian.org/ContinuousIntegration/TriagingTips/openssl-1.1.1 which says:
In Debian the defaults are set to more secure values by default. This
is done in the /etc/ssl/openssl.cnf config file. At the end of the
file there is:
MinProtocol = TLSv1.2
CipherString = DEFAULT@SECLEVEL=2
This can results in errors such as:
dh key too small
ee key too small
ca md too weak
This is caused by the SECLEVEL 2 setting the security level to 112
bit. This means that RSA and DHE keys need to be at least 2048 bit
long. SHA-1 is no longer supported for signatures in certificates and
you need at least SHA-256. Note that CAs have stopped issuing
certificates that didn't meet those requirements in January 2015, and
since January 2017 all valid CA certificates should meet those
requirements. However there are certificates generated by private CAs
or that are in a test suite that do not meet those requirements.
SECLEVEL 1 was the default in previous versions and is at the 80 bit
security level, requiring a 1024 bit RSA key.
The problem of "dh key too simple" is fully detailed at https://weakdh.org/
Diffie-Hellman key exchange is a popular cryptographic algorithm that
allows Internet protocols to agree on a shared key and negotiate a
secure connection. It is fundamental to many protocols including
HTTPS, SSH, IPsec, SMTPS, and protocols that rely on TLS.
We have uncovered several weaknesses in how Diffie-Hellman key
exchange has been deployed:
What Should I Do? If you run a server…
If you have a web or mail server, you should disable support for
export cipher suites and use a 2048-bit Diffie-Hellman group.
What to do?
Try not to change SECLEVEL. It is better to keep it systemwide as it is (SECLEVEL=2), but try instead to fix the specific connection problem you have.
First step is to contact the administrator of the service you are trying to connect to over TLS, and give it the details above so that he does the necessary change to not be anymore in the "weak dh" vulnerability.
If that proves impossible, or in the mean time before resolution, just set, for the connection, the "SSL" ciphers to the value of
DEFAULT@SECLEVEL=1. This unfortunately lowers the security but at least it impacts only this specific connection and not your whole system. You do not need to hardcode the list of ciphers the value above will make things work exactly as before.
I had that exact same problem and resolved it that way, because it couldn't convince the remote party to change its TLS server or provide certificates at least using RSA 2048 bits.