4.9 KiB
(cyrptography_chapter)=
Cryptographic concepts and terms
:class: warning
- Introduce visualizations for cryptographic primitives
- Show example visualizations for operations? (encrypt/decrypt and signing/verification - only if we're going to reuse the visual primitives later)
(Cryptographic) hash functions
(Cryptographic) hash functions map binary data of arbitrary length to a fixed size "hash" (hashes are also sometimes called "digests").
Symmetric-key cryptography
Symmetric-key cryptography uses the same cryptographic key for both encryption and decryption. Symmetric-key cryptographic systems support encryption/decryption operations.
Participants in symmetric-key operations need to exchange the shared secret over a secure channel.
:class: warning
- visualization? (maybe a black key icon, following wikipedia's example?)
Benefits and downsides
Symmetric-key cryptography has major benefits: it is much faster than public-key cryptography (see below). Also, most current symmetric cryptographic algorithms are considered quantum-resistant.
However, exchanging the required shared secret is a problem that needs to be solved separately.
Hybrid cryptosystems (see below) are one common approach to leverage the benefits of symmetric-key cryptography, while handling the shared secret with a separate mechanism (using public-key cryptography).
Symmetric-key cryptography in OpenPGP
Symmetric cryptography is used in OpenPGP as part of a hybrid cryptosystem.
Where symmetric keys are used in OpenPGP, they are referred to as "session keys."
Authenticated encryption with associated data (AEAD)
Authenticated encryption is a class of cryptographic schemes that gives additional guarantees besides confidentiality.
In OpenPGP version 6, AEAD is used to solve the problem of "malleability": In past versions of the OpenPGP protocol, some malicious changes to ciphertext were undetectable. With AEAD, undetected changes of ciphertext are not possible.
Public-key, or asymmetric cryptography
Public-key cryptography systems use asymmetric pairs of related keys. Public-key cryptographic systems support encryption/decryption and digital signature operations.
Public-key cryptography doesn't require participants to pre-arrange a shared secret.
(asymmetric_key_pair)=
Asymmetric cryptographic key pairs
In many places, we'll deal with asymmetric cryptographic key pairs:
---
---
An asymmetric cryptographic key pair
:class: warning
- Wiktor notes: red-green color-blindness affects 8,5% of the population.
- Heiko: maybe use colors + distinct shapes for the two key halves?
An asymmetric cryptographic key pair consists of a public and a private part. In this document, we'll show the public part of a key pair in green, and the private part in red.
Note that in many contexts, only the public part is present (more on that later):
---
---
Only the public part of an asymmetric key pair
Public-key cryptography in OpenPGP
OpenPGP makes heavy use of public-key cryptography, both for encryption and signing operations.
Note that, for historical reasons, the OpenPGP RFC and other documentation often use the non-standard term "secret key" instead of the more common "private key."
So in OpenPGP, the pair of terms "public/secret key" is sometimes used instead of the more common "public/private key."
Cryptographic digital signatures
Digital signatures are a mechanism that is based on asymmetric cryptography. With this mechanism, one actor can make a signature over a digital message, and another actor can check the validity of that signature.
The signer uses digital signatures to make statements about the message. Third parties can then inspect these statements.
:class: warning
- add visualization showing: message + private key + sign = signature -> message + signature + public key + verify = ok?
In OpenPGP, digital signatures are used in two different contexts:
(hybrid_cryptosystems)=
Hybrid cryptosystems
Hybrid cryptosystems combine two cryptosystems and make use of their respective advantages:
- A public-key cryptosystem is used to safely handle shared secrets over insecure channels (in OpenPGP: so-called "session keys")
- A symmetric-key cryptosystem is used to efficiently encrypt and decrypt long messages (using an OpenPGP "session key" as the shared secret)