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// -*- mode: rust; -*- // // This file is part of curve25519-dalek. // Copyright (c) 2016-2019 Isis Lovecruft, Henry de Valence // See LICENSE for licensing information. // // Authors: // - Isis Agora Lovecruft <isis@patternsinthevoid.net> // - Henry de Valence <hdevalence@hdevalence.ca> #![no_std] #![cfg_attr(feature = "nightly", feature(test))] #![cfg_attr(feature = "nightly", feature(doc_cfg))] #![cfg_attr(feature = "simd_backend", feature(stdsimd))] // Refuse to compile if documentation is missing. #![deny(missing_docs)] #![doc(html_logo_url = "https://doc.dalek.rs/assets/dalek-logo-clear.png")] #![doc(html_root_url = "https://docs.rs/curve25519-dalek/2.1.3")] //! # curve25519-dalek [![](https://img.shields.io/crates/v/curve25519-dalek.svg)](https://crates.io/crates/curve25519-dalek) [![](https://img.shields.io/badge/dynamic/json.svg?label=docs&uri=https%3A%2F%2Fcrates.io%2Fapi%2Fv1%2Fcrates%2Fcurve25519-dalek%2Fversions&query=%24.versions%5B0%5D.num&colorB=4F74A6)](https://doc.dalek.rs) [![](https://travis-ci.org/dalek-cryptography/curve25519-dalek.svg?branch=master)](https://travis-ci.org/dalek-cryptography/curve25519-dalek) //! //! <img //! width="33%" //! align="right" //! src="https://doc.dalek.rs/assets/dalek-logo-clear.png"/> //! //! **A pure-Rust implementation of group operations on Ristretto and Curve25519.** //! //! `curve25519-dalek` is a library providing group operations on the Edwards and //! Montgomery forms of Curve25519, and on the prime-order Ristretto group. //! //! `curve25519-dalek` is not intended to provide implementations of any particular //! crypto protocol. Rather, implementations of those protocols (such as //! [`x25519-dalek`][x25519-dalek] and [`ed25519-dalek`][ed25519-dalek]) should use //! `curve25519-dalek` as a library. //! //! `curve25519-dalek` is intended to provide a clean and safe _mid-level_ API for use //! implementing a wide range of ECC-based crypto protocols, such as key agreement, //! signatures, anonymous credentials, rangeproofs, and zero-knowledge proof //! systems. //! //! In particular, `curve25519-dalek` implements Ristretto, which constructs a //! prime-order group from a non-prime-order Edwards curve. This provides the //! speed and safety benefits of Edwards curve arithmetic, without the pitfalls of //! cofactor-related abstraction mismatches. //! //! # Documentation //! //! The semver-stable, public-facing `curve25519-dalek` API is documented //! [here][docs-external]. In addition, the unstable internal implementation //! details are documented [here][docs-internal]. //! //! The `curve25519-dalek` documentation requires a custom HTML header to include //! KaTeX for math support. Unfortunately `cargo doc` does not currently support //! this, but docs can be built using //! ```sh //! make doc //! make doc-internal //! ``` //! //! # Use //! //! To import `curve25519-dalek`, add the following to the dependencies section of //! your project's `Cargo.toml`: //! ```toml //! curve25519-dalek = "3" //! ``` //! //! The sole breaking change in the `3.x` series was an update to the `digest` //! version, and in terms of non-breaking changes it includes: //! //! * support for using `alloc` instead of `std` on stable Rust, //! * the Elligator2 encoding for Edwards points, //! * a fix to use `packed_simd2`, //! * various documentation fixes and improvements, //! * support for configurably-sized, precomputed lookup tables for basepoint scalar //! multiplication, //! * two new formally-verified field arithmetic backends which use the Fiat Crypto //! Rust code, which is generated from proofs of functional correctness checked by //! the Coq theorem proving system, and //! * support for explicitly calling the `zeroize` traits for all point types. //! //! The `2.x` series has API almost entirely unchanged from the `1.x` series, //! except that: //! //! * an error in the data modeling for the (optional) `serde` feature was //! corrected, so that when the `2.x`-series `serde` implementation is used //! with `serde-bincode`, the derived serialization matches the usual X/Ed25519 //! formats; //! * the `rand` version was updated. //! //! See `CHANGELOG.md` for more details. //! //! # Backends and Features //! //! The `nightly` feature enables features available only when using a Rust nightly //! compiler. In particular, it is required for rendering documentation and for //! the SIMD backends. //! //! Curve arithmetic is implemented using one of the following backends: //! //! * a `u32` backend using serial formulas and `u64` products; //! * a `u64` backend using serial formulas and `u128` products; //! * an `avx2` backend using [parallel formulas][parallel_doc] and `avx2` instructions (sets speed records); //! * an `ifma` backend using [parallel formulas][parallel_doc] and `ifma` instructions (sets speed records); //! //! By default the `u64` backend is selected. To select a specific backend, use: //! ```sh //! cargo build --no-default-features --features "std u32_backend" //! cargo build --no-default-features --features "std u64_backend" //! # Requires nightly, RUSTFLAGS="-C target_feature=+avx2" to use avx2 //! cargo build --no-default-features --features "std simd_backend" //! # Requires nightly, RUSTFLAGS="-C target_feature=+avx512ifma" to use ifma //! cargo build --no-default-features --features "std simd_backend" //! ``` //! Crates using `curve25519-dalek` can either select a backend on behalf of their //! users, or expose feature flags that control the `curve25519-dalek` backend. //! //! The `std` feature is enabled by default, but it can be disabled for no-`std` //! builds using `--no-default-features`. Note that this requires explicitly //! selecting an arithmetic backend using one of the `_backend` features. //! If no backend is selected, compilation will fail. //! //! # Safety //! //! The `curve25519-dalek` types are designed to make illegal states //! unrepresentable. For example, any instance of an `EdwardsPoint` is //! guaranteed to hold a point on the Edwards curve, and any instance of a //! `RistrettoPoint` is guaranteed to hold a valid point in the Ristretto //! group. //! //! All operations are implemented using constant-time logic (no //! secret-dependent branches, no secret-dependent memory accesses), //! unless specifically marked as being variable-time code. //! We believe that our constant-time logic is lowered to constant-time //! assembly, at least on `x86_64` targets. //! //! As an additional guard against possible future compiler optimizations, //! the `subtle` crate places an optimization barrier before every //! conditional move or assignment. More details can be found in [the //! documentation for the `subtle` crate][subtle_doc]. //! //! Some functionality (e.g., multiscalar multiplication or batch //! inversion) requires heap allocation for temporary buffers. All //! heap-allocated buffers of potentially secret data are explicitly //! zeroed before release. //! //! However, we do not attempt to zero stack data, for two reasons. //! First, it's not possible to do so correctly: we don't have control //! over stack allocations, so there's no way to know how much data to //! wipe. Second, because `curve25519-dalek` provides a mid-level API, //! the correct place to start zeroing stack data is likely not at the //! entrypoints of `curve25519-dalek` functions, but at the entrypoints of //! functions in other crates. //! //! The implementation is memory-safe, and contains no significant //! `unsafe` code. The SIMD backend uses `unsafe` internally to call SIMD //! intrinsics. These are marked `unsafe` only because invoking them on an //! inappropriate CPU would cause `SIGILL`, but the entire backend is only //! compiled with appropriate `target_feature`s, so this cannot occur. //! //! # Performance //! //! Benchmarks are run using [`criterion.rs`][criterion]: //! //! ```sh //! cargo bench --no-default-features --features "std u32_backend" //! cargo bench --no-default-features --features "std u64_backend" //! # Uses avx2 or ifma only if compiled for an appropriate target. //! export RUSTFLAGS="-C target_cpu=native" //! cargo bench --no-default-features --features "std simd_backend" //! ``` //! //! Performance is a secondary goal behind correctness, safety, and //! clarity, but we aim to be competitive with other implementations. //! //! # FFI //! //! Unfortunately, we have no plans to add FFI to `curve25519-dalek` directly. The //! reason is that we use Rust features to provide an API that maintains safety //! invariants, which are not possible to maintain across an FFI boundary. For //! instance, as described in the _Safety_ section above, invalid points are //! impossible to construct, and this would not be the case if we exposed point //! operations over FFI. //! //! However, `curve25519-dalek` is designed as a *mid-level* API, aimed at //! implementing other, higher-level primitives. Instead of providing FFI at the //! mid-level, our suggestion is to implement the higher-level primitive (a //! signature, PAKE, ZKP, etc) in Rust, using `curve25519-dalek` as a dependency, //! and have that crate provide a minimal, byte-buffer-oriented FFI specific to //! that primitive. //! //! # Contributing //! //! Please see [CONTRIBUTING.md][contributing]. //! //! Patches and pull requests should be make against the `develop` //! branch, **not** `master`. //! //! # About //! //! **SPOILER ALERT:** *The Twelfth Doctor's first encounter with the Daleks is in //! his second full episode, "Into the Dalek". A beleaguered ship of the "Combined //! Galactic Resistance" has discovered a broken Dalek that has turned "good", //! desiring to kill all other Daleks. The Doctor, Clara and a team of soldiers //! are miniaturized and enter the Dalek, which the Doctor names Rusty. They //! repair the damage, but accidentally restore it to its original nature, causing //! it to go on the rampage and alert the Dalek fleet to the whereabouts of the //! rebel ship. However, the Doctor manages to return Rusty to its previous state //! by linking his mind with the Dalek's: Rusty shares the Doctor's view of the //! universe's beauty, but also his deep hatred of the Daleks. Rusty destroys the //! other Daleks and departs the ship, determined to track down and bring an end //! to the Dalek race.* //! //! `curve25519-dalek` is authored by Isis Agora Lovecruft and Henry de Valence. //! //! Portions of this library were originally a port of [Adam Langley's //! Golang ed25519 library](https://!github.com/agl/ed25519), which was in //! turn a port of the reference `ref10` implementation. Most of this code, //! including the 32-bit field arithmetic, has since been rewritten. //! //! The fast `u32` and `u64` scalar arithmetic was implemented by Andrew Moon, and //! the addition chain for scalar inversion was provided by Brian Smith. The //! optimised batch inversion was contributed by Sean Bowe and Daira Hopwood. //! //! The `no_std` and `zeroize` support was contributed by Tony Arcieri. //! //! The formally verified backends, `fiat_u32_backend` and `fiat_u64_backend`, which //! integrate with the Rust generated by the //! [Fiat Crypto project](https://github.com/mit-plv/fiat-crypto) were contributed //! by François Garillot. //! //! Thanks also to Ashley Hauck, Lucas Salibian, Manish Goregaokar, Jack Grigg, //! Pratyush Mishra, Michael Rosenberg, and countless others for their //! contributions. //! //! [ed25519-dalek]: https://github.com/dalek-cryptography/ed25519-dalek //! [x25519-dalek]: https://github.com/dalek-cryptography/x25519-dalek //! [contributing]: https://github.com/dalek-cryptography/curve25519-dalek/blob/master/CONTRIBUTING.md //! [docs-external]: https://doc.dalek.rs/curve25519_dalek/ //! [docs-internal]: https://doc-internal.dalek.rs/curve25519_dalek/ //! [criterion]: https://github.com/japaric/criterion.rs //! [parallel_doc]: https://doc-internal.dalek.rs/curve25519_dalek/backend/vector/avx2/index.html //! [subtle_doc]: https://doc.dalek.rs/subtle/ //------------------------------------------------------------------------ // External dependencies: //------------------------------------------------------------------------ #[cfg(all(feature = "alloc", not(feature = "std")))] #[macro_use] extern crate alloc; #[cfg(feature = "std")] #[macro_use] extern crate std; #[cfg(all(feature = "nightly", feature = "packed_simd"))] extern crate packed_simd; extern crate byteorder; pub extern crate digest; extern crate rand_core; extern crate zeroize; // Used for traits related to constant-time code. extern crate subtle; #[cfg(all(test, feature = "serde"))] extern crate bincode; #[cfg(feature = "serde")] extern crate serde; // Internal macros. Must come first! #[macro_use] pub(crate) mod macros; //------------------------------------------------------------------------ // curve25519-dalek public modules //------------------------------------------------------------------------ // Scalar arithmetic mod l = 2^252 + ..., the order of the Ristretto group pub mod scalar; // Point operations on the Montgomery form of Curve25519 pub mod montgomery; // Point operations on the Edwards form of Curve25519 pub mod edwards; // Group operations on the Ristretto group pub mod ristretto; // Useful constants, like the Ed25519 basepoint pub mod constants; // External (and internal) traits. pub mod traits; //------------------------------------------------------------------------ // curve25519-dalek internal modules //------------------------------------------------------------------------ // Finite field arithmetic mod p = 2^255 - 19 pub(crate) mod field; // Arithmetic backends (using u32, u64, etc) live here pub(crate) mod backend; // Crate-local prelude (for alloc-dependent features like `Vec`) pub(crate) mod prelude; // Generic code for window lookups pub(crate) mod window;