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//! Ed25519 signatures. //! //! Edwards Digital Signature Algorithm (EdDSA) over Curve25519 as specified in //! RFC 8032: <https://tools.ietf.org/html/rfc8032> //! //! This crate doesn't contain an implementation of Ed25519, but instead //! contains an [`ed25519::Signature`][`Signature`] type which other crates can //! use in conjunction with the [`signature::Signer`] and //! [`signature::Verifier`] traits defined in the [`signature`] crate. //! //! These traits allow crates which produce and consume Ed25519 signatures //! to be written abstractly in such a way that different signing_key/verifier //! providers can be plugged in, enabling support for using different //! Ed25519 implementations, including HSMs or Cloud KMS services. //! //! ## Minimum Supported Rust Version //! //! Rust **1.47** or higher. //! //! Minimum supported Rust version may be changed in the future, but such //! changes will be accompanied with a minor version bump. //! //! # Using Ed25519 generically over algorithm implementations/providers //! //! By using the `ed25519` crate, you can write code which signs and verifies //! messages using the Ed25519 signature algorithm generically over any //! supported Ed25519 implementation (see the next section for available //! providers). //! //! This allows consumers of your code to plug in whatever implementation they //! want to use without having to add all potential Ed25519 libraries you'd //! like to support as optional dependencies. //! //! ## Example //! //! ``` //! use ed25519::signature::{Signer, Verifier}; //! //! pub struct HelloSigner<S> //! where //! S: Signer<ed25519::Signature> //! { //! pub signing_key: S //! } //! //! impl<S> HelloSigner<S> //! where //! S: Signer<ed25519::Signature> //! { //! pub fn sign(&self, person: &str) -> ed25519::Signature { //! // NOTE: use `try_sign` if you'd like to be able to handle //! // errors from external signing services/devices (e.g. HSM/KMS) //! // <https://docs.rs/signature/latest/signature/trait.Signer.html#tymethod.try_sign> //! self.signing_key.sign(format_message(person).as_bytes()) //! } //! } //! //! pub struct HelloVerifier<V> { //! pub verify_key: V //! } //! //! impl<V> HelloVerifier<V> //! where //! V: Verifier<ed25519::Signature> //! { //! pub fn verify( //! &self, //! person: &str, //! signature: &ed25519::Signature //! ) -> Result<(), ed25519::Error> { //! self.verify_key.verify(format_message(person).as_bytes(), signature) //! } //! } //! //! fn format_message(person: &str) -> String { //! format!("Hello, {}!", person) //! } //! ``` //! //! ## Using above example with `ed25519-dalek` //! //! The [`ed25519-dalek`] crate natively supports the [`ed25519::Signature`][`Signature`] //! type defined in this crate along with the [`signature::Signer`] and //! [`signature::Verifier`] traits. //! //! Below is an example of how a hypothetical consumer of the code above can //! instantiate and use the previously defined `HelloSigner` and `HelloVerifier` //! types with [`ed25519-dalek`] as the signing/verification provider: //! //! ``` //! use ed25519_dalek::{Signer, Verifier, Signature}; //! # //! # pub struct HelloSigner<S> //! # where //! # S: Signer<Signature> //! # { //! # pub signing_key: S //! # } //! # //! # impl<S> HelloSigner<S> //! # where //! # S: Signer<Signature> //! # { //! # pub fn sign(&self, person: &str) -> Signature { //! # // NOTE: use `try_sign` if you'd like to be able to handle //! # // errors from external signing services/devices (e.g. HSM/KMS) //! # // <https://docs.rs/signature/latest/signature/trait.Signer.html#tymethod.try_sign> //! # self.signing_key.sign(format_message(person).as_bytes()) //! # } //! # } //! # //! # pub struct HelloVerifier<V> { //! # pub verify_key: V //! # } //! # //! # impl<V> HelloVerifier<V> //! # where //! # V: Verifier<Signature> //! # { //! # pub fn verify( //! # &self, //! # person: &str, //! # signature: &Signature //! # ) -> Result<(), ed25519::Error> { //! # self.verify_key.verify(format_message(person).as_bytes(), signature) //! # } //! # } //! # //! # fn format_message(person: &str) -> String { //! # format!("Hello, {}!", person) //! # } //! use rand_core::OsRng; // Requires the `std` feature of `rand_core` //! //! /// `HelloSigner` defined above instantiated with `ed25519-dalek` as //! /// the signing provider. //! pub type DalekHelloSigner = HelloSigner<ed25519_dalek::Keypair>; //! //! let signing_key = ed25519_dalek::Keypair::generate(&mut OsRng); //! let signer = DalekHelloSigner { signing_key }; //! let person = "Joe"; // Message to sign //! let signature = signer.sign(person); //! //! /// `HelloVerifier` defined above instantiated with `ed25519-dalek` //! /// as the signature verification provider. //! pub type DalekHelloVerifier = HelloVerifier<ed25519_dalek::PublicKey>; //! //! let verify_key: ed25519_dalek::PublicKey = signer.signing_key.public; //! let verifier = DalekHelloVerifier { verify_key }; //! assert!(verifier.verify(person, &signature).is_ok()); //! ``` //! //! ## Using above example with `ring-compat` //! //! The [`ring-compat`] crate provides wrappers for [*ring*] which implement //! the [`signature::Signer`] and [`signature::Verifier`] traits for //! [`ed25519::Signature`][`Signature`]. //! //! Below is an example of how a hypothetical consumer of the code above can //! instantiate and use the previously defined `HelloSigner` and `HelloVerifier` //! types with [`ring-compat`] as the signing/verification provider: //! //! ``` //! use ring_compat::signature::{ //! ed25519::{Signature, SigningKey, VerifyingKey}, //! Signer, Verifier //! }; //! # //! # pub struct HelloSigner<S> //! # where //! # S: Signer<Signature> //! # { //! # pub signing_key: S //! # } //! # //! # impl<S> HelloSigner<S> //! # where //! # S: Signer<Signature> //! # { //! # pub fn sign(&self, person: &str) -> Signature { //! # // NOTE: use `try_sign` if you'd like to be able to handle //! # // errors from external signing services/devices (e.g. HSM/KMS) //! # // <https://docs.rs/signature/latest/signature/trait.Signer.html#tymethod.try_sign> //! # self.signing_key.sign(format_message(person).as_bytes()) //! # } //! # } //! # //! # pub struct HelloVerifier<V> { //! # pub verify_key: V //! # } //! # //! # impl<V> HelloVerifier<V> //! # where //! # V: Verifier<Signature> //! # { //! # pub fn verify( //! # &self, //! # person: &str, //! # signature: &Signature //! # ) -> Result<(), ed25519::Error> { //! # self.verify_key.verify(format_message(person).as_bytes(), signature) //! # } //! # } //! # //! # fn format_message(person: &str) -> String { //! # format!("Hello, {}!", person) //! # } //! use rand_core::{OsRng, RngCore}; // Requires the `std` feature of `rand_core` //! //! /// `HelloSigner` defined above instantiated with *ring* as //! /// the signing provider. //! pub type RingHelloSigner = HelloSigner<SigningKey>; //! //! let mut ed25519_seed = [0u8; 32]; //! OsRng.fill_bytes(&mut ed25519_seed); //! //! let signing_key = SigningKey::from_seed(&ed25519_seed).unwrap(); //! let verify_key = signing_key.verify_key(); //! //! let signer = RingHelloSigner { signing_key }; //! let person = "Joe"; // Message to sign //! let signature = signer.sign(person); //! //! /// `HelloVerifier` defined above instantiated with *ring* //! /// as the signature verification provider. //! pub type RingHelloVerifier = HelloVerifier<VerifyingKey>; //! //! let verifier = RingHelloVerifier { verify_key }; //! assert!(verifier.verify(person, &signature).is_ok()); //! ``` //! //! # Available Ed25519 providers //! //! The following libraries support the types/traits from the `ed25519` crate: //! //! - [`ed25519-dalek`] - mature pure Rust implementation of Ed25519 //! - [`ring-compat`] - compatibility wrapper for [*ring*] //! - [`signatory-sodiumoxide`] - compatibility wrapper for [`sodiumoxide`] //! - [`yubihsm`] - host-side client library for YubiHSM2 devices from Yubico //! //! [`ed25519-dalek`]: https://docs.rs/ed25519-dalek //! [`ring-compat`]: https://docs.rs/ring-compat //! [*ring*]: https://github.com/briansmith/ring //! [`signatory-ring`]: https://docs.rs/signatory-ring/ //! [`signatory-sodiumoxide`]: https://docs.rs/signatory-sodiumoxide/ //! [`sodiumoxide`]: https://github.com/sodiumoxide/sodiumoxide //! [`yubihsm`]: https://github.com/iqlusioninc/yubihsm.rs/blob/develop/README.md //! //! # Features //! //! The following features are presently supported: //! //! - `std` *(default)*: Enable `std` support in [`signature`], which currently only affects whether //! [`signature::Error`] implements `std::error::Error`. //! - `serde`: Implement `serde::Deserialize` and `serde::Serialize` for [`Signature`]. Signatures //! are serialized as their bytes. //! - `serde_bytes`: Implement `serde_bytes::Deserialize` and `serde_bytes::Serialize` for //! [`Signature`]. This enables more compact representations for formats with an efficient byte //! array representation. As per the `serde_bytes` documentation, this can most easily be realised //! using the `#[serde(with = "serde_bytes")]` annotation, e.g.: //! //! ```ignore //! # use ed25519::Signature; //! # use serde::{Deserialize, Serialize}; //! #[derive(Deserialize, Serialize)] //! #[serde(transparent)] //! struct SignatureAsBytes(#[serde(with = "serde_bytes")] Signature); //! ``` #![no_std] #![doc( html_logo_url = "https://raw.githubusercontent.com/RustCrypto/meta/master/logo_small.png", html_root_url = "https://docs.rs/ed25519/1.2.0" )] #![forbid(unsafe_code)] #![warn(missing_docs, rust_2018_idioms, unused_qualifications)] #[cfg(feature = "serde")] use serde::{de, ser, Deserialize, Serialize}; #[cfg(feature = "serde_bytes")] use serde_bytes_crate as serde_bytes; #[cfg(all(feature = "std", any(test, feature = "serde_bytes")))] extern crate std; pub use signature::{self, Error}; use core::{ convert::{TryFrom, TryInto}, fmt::{self, Debug}, }; /// Length of an Ed25519 signature pub const SIGNATURE_LENGTH: usize = 64; /// Ed25519 signature. #[derive(Copy, Clone)] pub struct Signature([u8; SIGNATURE_LENGTH]); impl Signature { /// Create a new signature from a byte array pub fn new(bytes: [u8; SIGNATURE_LENGTH]) -> Self { Self::from(bytes) } /// Return the inner byte array #[allow(clippy::wrong_self_convention)] // TODO: fix in next breaking release pub fn to_bytes(&self) -> [u8; SIGNATURE_LENGTH] { self.0 } } impl signature::Signature for Signature { fn from_bytes(bytes: &[u8]) -> Result<Self, Error> { bytes.try_into() } } impl AsRef<[u8]> for Signature { fn as_ref(&self) -> &[u8] { self.0.as_ref() } } // can't derive `Debug`, `PartialEq`, or `Eq` below because core array types // only have trait implementations for lengths 0..=32 impl Debug for Signature { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { write!(f, "ed25519::Signature({:?})", &self.0[..]) } } // TODO(tarcieri): derive `Eq` after const generics are available impl Eq for Signature {} // TODO(tarcieri): derive `PartialEq` after const generics are available impl PartialEq for Signature { fn eq(&self, other: &Self) -> bool { self.as_ref().eq(other.as_ref()) } } impl From<[u8; SIGNATURE_LENGTH]> for Signature { fn from(bytes: [u8; SIGNATURE_LENGTH]) -> Signature { Signature(bytes) } } impl<'a> TryFrom<&'a [u8]> for Signature { type Error = Error; fn try_from(bytes: &'a [u8]) -> Result<Self, Error> { // TODO(tarcieri): use TryInto when const generics are available if bytes.len() != SIGNATURE_LENGTH { return Err(Error::new()); } // Perform a partial reduction check on the signature's `s` scalar. // When properly reduced, at least the three highest bits of the scalar // will be unset so as to fit within the order of ~2^(252.5). // // This doesn't ensure that `s` is fully reduced (which would require a // full reduction check in the event that the 4th most significant bit // is set), however it will catch a number of invalid signatures // relatively inexpensively. if bytes[SIGNATURE_LENGTH - 1] & 0b1110_0000 != 0 { return Err(Error::new()); } let mut arr = [0u8; SIGNATURE_LENGTH]; arr.copy_from_slice(bytes); Ok(Signature(arr)) } } #[cfg(feature = "serde")] impl Serialize for Signature { fn serialize<S: ser::Serializer>(&self, serializer: S) -> Result<S::Ok, S::Error> { use ser::SerializeTuple; let mut seq = serializer.serialize_tuple(SIGNATURE_LENGTH)?; for byte in &self.0[..] { seq.serialize_element(byte)?; } seq.end() } } // serde lacks support for deserializing arrays larger than 32-bytes // see: <https://github.com/serde-rs/serde/issues/631> #[cfg(feature = "serde")] impl<'de> Deserialize<'de> for Signature { fn deserialize<D: de::Deserializer<'de>>(deserializer: D) -> Result<Self, D::Error> { struct ByteArrayVisitor; impl<'de> de::Visitor<'de> for ByteArrayVisitor { type Value = [u8; SIGNATURE_LENGTH]; fn expecting(&self, formatter: &mut fmt::Formatter<'_>) -> fmt::Result { formatter.write_str("bytestring of length 64") } fn visit_seq<A>(self, mut seq: A) -> Result<[u8; SIGNATURE_LENGTH], A::Error> where A: de::SeqAccess<'de>, { use de::Error; let mut arr = [0u8; SIGNATURE_LENGTH]; for (i, byte) in arr.iter_mut().enumerate() { *byte = seq .next_element()? .ok_or_else(|| Error::invalid_length(i, &self))?; } Ok(arr) } } deserializer .deserialize_tuple(SIGNATURE_LENGTH, ByteArrayVisitor) .map(|bytes| bytes.into()) } } #[cfg(feature = "serde_bytes")] impl serde_bytes::Serialize for Signature { fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error> where S: serde::Serializer, { serializer.serialize_bytes(&self.0) } } #[cfg(feature = "serde_bytes")] impl<'de> serde_bytes::Deserialize<'de> for Signature { fn deserialize<D>(deserializer: D) -> Result<Self, D::Error> where D: de::Deserializer<'de>, { struct ByteArrayVisitor; impl<'de> de::Visitor<'de> for ByteArrayVisitor { type Value = [u8; SIGNATURE_LENGTH]; fn expecting(&self, formatter: &mut fmt::Formatter<'_>) -> fmt::Result { formatter.write_str("bytestring of length 64") } fn visit_bytes<E>(self, bytes: &[u8]) -> Result<Self::Value, E> where E: de::Error, { use de::Error; bytes .try_into() .map_err(|_| Error::invalid_length(bytes.len(), &self)) } } deserializer .deserialize_bytes(ByteArrayVisitor) .map(Signature::from) } } #[cfg(all(test, feature = "serde", feature = "std"))] mod tests { use super::*; use signature::Signature as _; use std::{convert::TryFrom, vec::Vec}; const EXAMPLE_SIGNATURE: [u8; SIGNATURE_LENGTH] = [ 63, 62, 61, 60, 59, 58, 57, 56, 55, 54, 53, 52, 51, 50, 49, 48, 47, 46, 45, 44, 43, 42, 41, 40, 39, 38, 37, 36, 35, 34, 33, 32, 31, 30, 29, 28, 27, 26, 25, 24, 23, 22, 21, 20, 19, 18, 17, 16, 15, 14, 13, 12, 11, 10, 9, 8, 7, 6, 5, 4, 3, 2, 1, 0, ]; #[test] fn test_serialize() { let signature = Signature::try_from(&EXAMPLE_SIGNATURE[..]).unwrap(); let encoded_signature: Vec<u8> = bincode::serialize(&signature).unwrap(); assert_eq!(&EXAMPLE_SIGNATURE[..], &encoded_signature[..]); } #[test] fn test_deserialize() { let signature = bincode::deserialize::<Signature>(&EXAMPLE_SIGNATURE).unwrap(); assert_eq!(&EXAMPLE_SIGNATURE[..], signature.as_bytes()); } #[cfg(feature = "serde_bytes")] #[test] fn test_serialize_bytes() { use bincode::Options; let signature = Signature::try_from(&EXAMPLE_SIGNATURE[..]).unwrap(); let mut encoded_signature = Vec::new(); let options = bincode::DefaultOptions::new() .with_fixint_encoding() .allow_trailing_bytes(); let mut serializer = bincode::Serializer::new(&mut encoded_signature, options); serde_bytes::serialize(&signature, &mut serializer).unwrap(); let mut expected = Vec::from(SIGNATURE_LENGTH.to_le_bytes()); expected.extend(&EXAMPLE_SIGNATURE[..]); assert_eq!(&expected[..], &encoded_signature[..]); } #[cfg(feature = "serde_bytes")] #[test] fn test_deserialize_bytes() { use bincode::Options; let mut encoded_signature = Vec::from(SIGNATURE_LENGTH.to_le_bytes()); encoded_signature.extend(&EXAMPLE_SIGNATURE[..]); let options = bincode::DefaultOptions::new() .with_fixint_encoding() .allow_trailing_bytes(); let mut deserializer = bincode::de::Deserializer::from_slice(&encoded_signature[..], options); let signature: Signature = serde_bytes::deserialize(&mut deserializer).unwrap(); assert_eq!(&EXAMPLE_SIGNATURE[..], signature.as_bytes()); } }