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With this command it is possible to generate an RSA public-private key pair:

ssh-keygen -f key

Now I would like to load these keys in Python using module cryptography. Example:

from cryptography.hazmat.backends import default_backend
from cryptography.hazmat.primitives import serialization

with open("key.pub", "rb") as f:
    datapub = f.read()

public_key = serialization.load_ssh_public_key(datapub, backend=default_backend())

But now: How do you generate a fingerprint from this public key? With OpenSSH this can be done using ssh-keygen -lf key.pub. But how do you the same in Python?

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    AFAIK no fingerprint is associated with an RSAPublicKey instance like public_key. A fingerprint is defined in the context of a format, e.g. OpenSSH. Here the fingerprint is the SHA256 hash of the Base64 decoded public key. One way of its determination would be to serialize the RSAPublicKey instance into the OpenSSH format, e.g. with public_key.public_bytes(...) (which of course results in datapub for the posted example) and determine the corresponding hash, e.g. with (but using SHA256). – Topaco Nov 8 '20 at 10:46
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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(
    encoding=serialization.Encoding.OpenSSH,
    format=serialization.PublicFormat.OpenSSH,
)

# 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.

Some remarks:

  • regex
    • 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
    • base64 might add padding to the data.
    • base64 is safe to use as padding is deterministic.
  • md5
    • Here the MD5 output is used.
    • You can safely replace MD5 by any other hash algorithm if you want - e.g. SHA256.
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