First of all: Thank you very much Topaco, you provided the essential hint to me how to generate such a fingerprint. I crosschecked this with other sources on the WWW and can no provide code for anybody to use.
Let's assume we've loaded the key and stored it in
public_key. Then a fingerprint can be generated as follows:
rawKeyData = public_key.public_bytes(
# prepare for hashing
m = re.match("ssh-rsa ([A-Za-z0-9+/=]+)", rawKeyData.decode("utf-8"))
assert m is not None
base64BinaryData = m.group(1).encode("utf-8")
rawBinaryData = base64.b64decode(base64BinaryData)
# now create the hash
hexDigest = hashlib.md5(rawBinaryData).hexdigest()
# formatting for output similar to "ssh-keygen -l -E md5 -f <pubkeyfile>"
chunks = [ hexDigest[i:i+2] for i in range(0, len(hexDigest), 2) ]
fingerprint = str(self.__public_key.key_size) + "MD5:" + ":".join(chunks) + " (RSA)"
This provides output like this:
2048 MD5:bd:5a:67:a3:4c:46:9d:2c:63:78:7e:68:bc:82:eb:23 (RSA)
The only difference to OpenSSH fingerprints: Here no email address is included in the output.
- I use a regular expression here to parse the output. This is done for safety as this way I ensure that the output matches the expectations of data processing here.
- base64 might add padding to the data.
- base64 is safe to use as padding is deterministic.
- Here the MD5 output is used.
- You can safely replace MD5 by any other hash algorithm if you want - e.g. SHA256.