I am using Python `cryptography`

library and I need to encrypt something with RSA. It all works great, except one thing.

When I generate keys I need to get modulus n, public exponent and private exponent in hexadecimal form so that I can save them to a file in custom format. It's not for a real world usage, I am doing it for a class assignment.

I searched whole `cryptography`

documentation regarding RSA and cannot find any method like `get_modulus_or_exponents()`

or anything that would even hint on something like that.

The only way I can think of getting those numbers is to serialize keys, then `subprocess`

the `openssl`

command and read it in a form like this:

```
Modulus (2048 bit):
00:98:10:23:16:ff:b6:f4:26:a2:42:a6:19:23:0e:
0f:27:4a:b9:43:3d:a0:4b:b9:1b:1a:57:92:dd:a8:
bc:5d:b8:6e:e6:7f:0f:2e:89:a5:77:16:d1:cf:44:
[...]
f3:0d:5b:90:6b:de:59:58:c9:f4:26:4a:61:b4:52:
21:1d
Exponent: 65537 (0x10001)
```

parse it, and extract needed information.

Is there any better way (preferably using `cryptography`

's tools) than this workaround (have I missed something in docs?) or `cryptography`

really doesn't allow any other way to get needed information?

EDIT: This is code I use to generate keys and encrypt, basically same as docs example:

```
from cryptography.hazmat.backends import default_backend
from cryptography.hazmat.primitives.asymmetric import rsa
private_key = rsa.generate_private_key(public_exponent=65537,
key_size=self.key_size * 8,
backend=default_backend()
)
public_key = private_key.public_key()
ciphertext = public_key.encrypt(message, padding.OAEP(mgf=padding.MGF1(algorithm=hashes.SHA1()),algorithm=hashes.SHA1(),label=None))
```

`cryptography`

's source code and calling private methods from`backend`

to access those members, but that is bad, bad, bad practice. So, I am still looking for an answer, maybe I really missed something in docs.`print(hex(public_key._backend._bn_to_int(public_key._rsa_cdata.n)))`

This prints out modulus in hex format. Same applies for e and d.3more comments