This answer is based on openssl v1.1.1, which supports a stronger key derivation process for AES encryption, than that of previous versions of openssl.
This answer is based on the following command:
echo -n 'Hello World!' | openssl aes-256-cbc -e -a -salt -pbkdf2 -iter 10000
This command encrypts the plaintext 'Hello World!' using aes-256-cbc. The key is derived using pbkdf2 from the password and a random salt, with 10,000 iterations of sha256 hashing. When prompted for the password, I entered the password, 'p4$$w0rd'. The ciphertext output produced by the command was:
The process for decrypting of the ciphertext above produced by openssl is as follows:
- base64-decode the output from openssl, and utf-8 decode the
password, so that we have the underlying bytes for both of these.
- The salt is bytes 8-15 of the base64-decoded openssl output.
- Derive a 48-byte key using pbkdf2 given the password bytes and salt with
10,000 iterations of sha256 hashing.
- The key is bytes 0-31 of the derived key, the iv is bytes 32-47 of the derived key.
- The ciphertext is bytes 16 through the end of the base64-decoded openssl
- Decrypt the ciphertext using aes-256-cbc, given the key, iv, and
- Remove PKCS#7 padding from plaintext. The last byte of
plaintext indicates the number of padding bytes appended to the end
of the plaintext. This is the number of bytes to be removed.
Below is a python3 implementation of the above process:
from Crypto.Cipher import AES #requires pycrypto
#convert inputs to bytes
#salt is bytes 8 through 15 of openssloutputbytes
#derive a 48-byte key using pbkdf2 given the password and salt with 10,000 iterations of sha256 hashing
derivedkey=hashlib.pbkdf2_hmac('sha256', passwordbytes, salt, pbkdf2iterations, 48)
#key is bytes 0-31 of derivedkey, iv is bytes 32-47 of derivedkey
#ciphertext is bytes 16-end of openssloutputbytes
#decrypt ciphertext using aes-cbc, given key, iv, and ciphertext
decryptor=AES.new(key, AES.MODE_CBC, iv)
#remove PKCS#7 padding.
#Last byte of plaintext indicates the number of padding bytes appended to end of plaintext. This is the number of bytes to be removed.
plaintext = plaintext[:-plaintext[-1]]
print('key: ', key.hex())
print('iv: ', iv.hex())
print('ciphertext: ', ciphertext.hex())
print('plaintext: ', plaintext.decode('utf-8'))
As expected, the above python3 script produces the following:
plaintext: Hello World!