In the past when using PyCrypto I was able to do the following to generate a fingerprint of a RSA public key:

```
rsa_cipher = PKCS1_v1_5.new(RSA.importKey(pub_rsa_key))
hashlib.sha1(rsa_cipher._key.exportKey("DER")).hexdigest()
```

How can I achieve the same without PyCrypto?

**EDIT**

What I provide in `pub_rsa_key`

is a content of a `.perm`

file, i.e.:

```
-----BEGIN PUBLIC KEY-----
MII...AB
-----END PUBLIC KEY-----
```

PyCrypto is deemed unsafe and is not maintained anymore so I switched to Python's Cryptography but it seems that it does not have an adequate feature.

- Is there similar functionality that I missed in the Pythons Cryptography API?
- Is PyCryptoDome possible is a worthy (stable and safe) replacement for PyCrypto to use to implement this functionality?
- If none of the above is it possible to export that key in a DER format by a self written function?

Any documentation or search terms to perform the export would be helpful.

**EDIT 2**

Maarten Bodewes' comments (thank you) took me to a place that seems to be the thing I was looking for. But the results of the DER export differ:

```
# Python 3.7 using Cryptography
from cryptography.hazmat.primitives import serialization
with open('pub_key.perm', 'rb') as key_file:
public_key = serialization.load_pem_public_key(key_file.read(), backend=default_backend())
pub_der = public_key.public_bytes(encoding=serialization.Encoding.DER, format=serialization.PublicFormat.PKCS1)
print(sha1(pub_der).hexdigest())
# gives "d291c142648b7........c2f4676f4213203c4bd"
```

where

```
# Python 2.7 using PyCrypto
from Crypto.Cipher import PKCS1_v1_5
from Crypto.PublicKey import RSA
with open('pub_key.perm', 'r') as key_file:
public_key = RSA.importKey(key_file.read())
pub_der = public_key.exportKey('DER') # this assumes PKCS1 by default per the __doc__
print(sha1(pub_der).hexdigest())
# gives "bb070664079f5........64c97fcadbad847cce9"
```

This is an effort to move from Py2 to Py3 - please notice that the two examples use different Python versions. Could encoding be an issue here?

`load_pem_public_key`

instead, of course :)insidethe SubjectPublicKeyInfo. PEM uses "BEGINRSAPUBLIC KEY" between the dashes for PKCS#1 format (as PKSC#1 doesn't specify the algorithm, while SubjectPublicKeyInfo does).2more comments