# Cryptographic Processes

The primary purpose of cryptography is to make it difficult for an unauthorized third party to access and understand private communication between two parties. It is not always possible to restrict all unauthorized access to data, but private data can be made unintelligible to unauthorized parties through the process of encryption. Encryption uses complex algorithms to convert the original message (cleartext) to an encoded message (ciphertext). The algorithms used to encrypt and decrypt data that is transferred over a network typically come in two categories: secret-key cryptography and public-key cryptography.

Both secret-key cryptography and public-key cryptography depend on the use of an agreed-upon cryptographic key or pair of keys. A key is a string of bits that is used by the cryptographic algorithm or algorithms during the process of encrypting and decrypting the data. A cryptographic key is like a key for a lock; only with the correct key can you open the lock.

Safely transmitting a key between two communicating parties is not a trivial matter. A public key certificate enables a party to safely transmit its public key, while providing assurance to the receiver of the authenticity of the public key. See Public Key Certificates.

The descriptions of the cryptographic processes in secret-key cryptography and public-key cryptography follow conventions widely used by the security community: the two communicating parties are labeled with the names Alice and Bob. The unauthorized third party, also known as the attacker, is named Charlie.