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//! RustCrypto: `signature` crate. //! //! Traits which provide generic, object-safe APIs for generating and verifying //! digital signatures, i.e. message authentication using public-key cryptography. //! //! ## Minimum Supported Rust Version //! //! Rust **1.41** or higher. //! //! Minimum supported Rust version may be changed in the future, but such //! changes will be accompanied with a minor version bump. //! //! ## SemVer policy //! //! - MSRV is considered exempt from SemVer as noted above //! - All on-by-default features of this library are covered by SemVer //! - Off-by-default features ending in `*-preview` (e.g. `derive-preview`, //! `digest-preview`) are unstable "preview" features which are also //! considered exempt from SemVer (typically because they rely on pre-1.0 //! crates as dependencies). However, breaking changes to these features //! will, like MSRV, also be accompanied by a minor version bump. //! //! # Design //! //! This crate provides a common set of traits for signing and verifying //! digital signatures intended to be implemented by libraries which produce //! or contain implementations of digital signature algorithms, and used by //! libraries which want to produce or verify digital signatures while //! generically supporting any compatible backend. //! //! ## Goals //! //! The traits provided by this crate were designed with the following goals //! in mind: //! //! - Provide an easy-to-use, misuse resistant API optimized for consumers //! (as opposed to implementers) of its traits. //! - Support common type-safe wrappers around "bag-of-bytes" representations //! which can be directly parsed from or written to the "wire". //! - Expose a trait/object-safe API where signers/verifiers spanning multiple //! homogeneous provider implementations can be seamlessly leveraged together //! in the same logical "keyring" so long as they operate on the same //! underlying signature type. //! - Allow one provider type to potentially implement support (including //! being generic over) several signature types. //! - Keep signature algorithm customizations / "knobs" out-of-band from the //! signing/verification APIs, ideally pushing such concerns into the type //! system so that algorithm mismatches are caught as type errors. //! - Opaque error type which minimizes information leaked from cryptographic //! failures, as "rich" error types in these scenarios are often a source //! of sidechannel information for attackers (e.g. [BB'06]) //! //! [BB'06]: https://en.wikipedia.org/wiki/Daniel_Bleichenbacher //! //! ## Implementation //! //! To accomplish the above goals, the [`Signer`] and [`Verifier`] traits //! provided by this are generic over a [`Signature`] return value, and use //! generic parameters rather than associated types. Notably, they use such //! a parameter for the return value, allowing it to be inferred by the type //! checker based on the desired signature type. //! //! The [`Signature`] trait is bounded on `AsRef<[u8]>`, enforcing that //! signature types are thin wrappers around a "bag-of-bytes" //! serialization. Inspiration for this approach comes from the Ed25519 //! signature system, which was based on the observation that past //! systems were not prescriptive about how signatures should be represented //! on-the-wire, and that lead to a proliferation of different wire formats //! and confusion about which ones should be used. This crate aims to provide //! similar simplicity by minimizing the number of steps involved to obtain //! a serializable signature. //! //! ## Alternatives considered //! //! This crate is based on over two years of exploration of how to encapsulate //! digital signature systems in the most flexible, developer-friendly way. //! During that time many design alternatives were explored, tradeoffs //! compared, and ultimately the provided API was selected. //! //! The tradeoffs made in this API have all been to improve simplicity, //! ergonomics, type safety, and flexibility for *consumers* of the traits. //! At times, this has come at a cost to implementers. Below are some concerns //! we are cognizant of which were considered in the design of the API: //! //! - "Bag-of-bytes" serialization precludes signature providers from using //! their own internal representation of a signature, which can be helpful //! for many reasons (e.g. advanced signature system features like batch //! verification). Alternatively each provider could define its own signature //! type, using a marker trait to identify the particular signature algorithm, //! have `From` impls for converting to/from `[u8; N]`, and a marker trait //! for identifying a specific signature algorithm. //! - Associated types, rather than generic parameters of traits, could allow //! more customization of the types used by a particular signature system, //! e.g. using custom error types. //! //! It may still make sense to continue to explore the above tradeoffs, but //! with a *new* set of traits which are intended to be implementor-friendly, //! rather than consumer friendly. The existing [`Signer`] and [`Verifier`] //! traits could have blanket impls for the "provider-friendly" traits. //! However, as noted above this is a design space easily explored after //! stabilizing the consumer-oriented traits, and thus we consider these //! more important. //! //! That said, below are some caveats of trying to design such traits, and //! why we haven't actively pursued them: //! //! - Generics in the return position are already used to select which trait //! impl to use, i.e. for a particular signature algorithm/system. Avoiding //! a unified, concrete signature type adds another dimension to complexity //! and compiler errors, and in our experience makes them unsuitable for this //! sort of API. We believe such an API is the natural one for signature //! systems, reflecting the natural way they are written absent a trait. //! - Associated types preclude multiple (or generic) implementations of the //! same trait. These parameters are common in signature systems, notably //! ones which support different digest algorithms. //! - Digital signatures are almost always larger than the present 32-entry //! trait impl limitation on array types, which complicates trait signatures //! for these types (particularly things like `From` or `Borrow` bounds). //! This may be more interesting to explore after const generics. //! //! ## Unstable features //! //! Despite being post-1.0, this crate includes a number of off-by-default //! unstable features named `*-preview`, each of which depends on a pre-1.0 //! crate. //! //! These features are considered exempt from SemVer. See the //! [SemVer policy](#semver-policy) above for more information. //! //! The following unstable features are presently supported: //! //! - `derive-preview`: for implementers of signature systems using //! [`DigestSigner`] and [`DigestVerifier`], the `derive-preview` feature //! can be used to derive [`Signer`] and [`Verifier`] traits which prehash //! the input message using the [`PrehashSignature::Digest`] algorithm for //! a given [`Signature`] type. When the `derive-preview` feature is enabled //! import the proc macros with `use signature::{Signer, Verifier}` and then //! add a `derive(Signer)` or `derive(Verifier)` attribute to the given //! digest signer/verifier type. Enabling this feature also enables `digest` //! support (see immediately below). //! - `digest-preview`: enables the [`DigestSigner`] and [`DigestVerifier`] //! traits which are based on the [`Digest`] trait from the [`digest`] crate. //! These traits are used for representing signature systems based on the //! [Fiat-Shamir heuristic] which compute a random challenge value to sign //! by computing a cryptographically secure digest of the input message. //! - `rand-preview`: enables the [`RandomizedSigner`] trait for signature //! systems which rely on a cryptographically secure random number generator //! for security. //! //! NOTE: the [`async-signature`] crate contains experimental `async` support //! for [`Signer`] and [`DigestSigner`]. //! //! [`async-signature`]: https://docs.rs/async-signature //! [`digest`]: https://docs.rs/digest/ //! [`Digest`]: https://docs.rs/digest/latest/digest/trait.Digest.html //! [Fiat-Shamir heuristic]: https://en.wikipedia.org/wiki/Fiat%E2%80%93Shamir_heuristic #![no_std] #![cfg_attr(docsrs, feature(doc_cfg))] #![doc( html_logo_url = "https://raw.githubusercontent.com/RustCrypto/media/8f1a9894/logo.svg", html_favicon_url = "https://raw.githubusercontent.com/RustCrypto/media/8f1a9894/logo.svg", html_root_url = "https://docs.rs/signature/1.3.1" )] #![forbid(unsafe_code)] #![warn(missing_docs, rust_2018_idioms, unused_qualifications)] #[cfg(feature = "std")] extern crate std; #[cfg(feature = "derive-preview")] #[cfg_attr(docsrs, doc(cfg(feature = "derive-preview")))] pub use signature_derive::{Signer, Verifier}; #[cfg(feature = "digest-preview")] pub use digest; #[cfg(feature = "rand-preview")] pub use rand_core; mod error; mod signature; mod signer; mod verifier; pub use crate::{error::*, signature::*, signer::*, verifier::*};