salsa2020 -> ChaCha20

README.md

@@ -23,15 +23,14 @@ In the Alpha-Layer we take our plaintext and encrypt it using a key and an iv bo
 
 In the Psi-Layer we generate an HMAC of the Alpha-Ciphertext using two keys taken from our key scheduler.
 
-### The Omega Layer (salsa2020)
+### The Omega Layer (ChaCha20)
 
 In the Omega-Layer we encrypt the Psi-Ciphertext using salsa2020, which we apply in cbc, in order to prevent any
-patterns to remain in the final ciphertext. (We also encrypt the HMAC this way; just to be sure). The key for
-salsa2020 and the iv for cbc are given to use by our fancy key scheduler.
+patterns to remain in the final ciphertext. (We also encrypt the HMAC this way; just to be sure). The key and iv for
+ChaCha20 and the iv for cbc are given to use by our fancy key scheduler.  
   
 Optionally a GZIP based compression can be applied.
 
-##
 
-The dark secret:
+## The dark secret:
 Look into bethany.py

bethany.py

@@ -1,12 +1,12 @@
 # In order to break lazarus, you would have to
 # a) break AES
 # b) break ECC
-# c) break salsa2020
+# c) break ChaCha20
 # d) break prime-factorization
 # e) break cbc (ok, that's quite doable...)
 #
 # And still here we are:
-# This script is able to decrypt any ciphertext encrypted using lazarus
+# This script is able to decrypt any ciphertext encrypted using lazarus :D
 
 from fastecdsa.curve import P256
 from fastecdsa.point import Point