// SPDX-License-Identifier: CC0-1.0 //! SHA256t implementation (tagged SHA256). //! use core::marker::PhantomData; use core::ops::Index; use core::slice::SliceIndex; use core::{cmp, str}; use crate::{sha256, FromSliceError}; type HashEngine = sha256::HashEngine; /// Trait representing a tag that can be used as a context for SHA256t hashes. pub trait Tag { /// Returns a hash engine that is pre-tagged and is ready to be used for the data. fn engine() -> sha256::HashEngine; } /// Output of the SHA256t hash function. #[repr(transparent)] pub struct Hash([u8; 32], PhantomData); #[cfg(feature = "schemars")] impl schemars::JsonSchema for Hash { fn schema_name() -> String { "Hash".to_owned() } fn json_schema(gen: &mut schemars::gen::SchemaGenerator) -> schemars::schema::Schema { crate::util::json_hex_string::len_32(gen) } } impl Hash { fn internal_new(arr: [u8; 32]) -> Self { Hash(arr, Default::default()) } fn internal_engine() -> HashEngine { T::engine() } } impl Copy for Hash {} impl Clone for Hash { fn clone(&self) -> Self { *self } } impl PartialEq for Hash { fn eq(&self, other: &Hash) -> bool { self.0 == other.0 } } impl Eq for Hash {} impl Default for Hash { fn default() -> Self { Hash([0; 32], PhantomData) } } impl PartialOrd for Hash { fn partial_cmp(&self, other: &Hash) -> Option { Some(cmp::Ord::cmp(self, other)) } } impl Ord for Hash { fn cmp(&self, other: &Hash) -> cmp::Ordering { cmp::Ord::cmp(&self.0, &other.0) } } impl core::hash::Hash for Hash { fn hash(&self, h: &mut H) { self.0.hash(h) } } crate::internal_macros::hash_trait_impls!(256, true, T: Tag); fn from_engine(e: sha256::HashEngine) -> Hash { use crate::Hash as _; Hash::from_byte_array(sha256::Hash::from_engine(e).to_byte_array()) } /// Macro used to define a newtype tagged hash. /// /// This macro creates two types: /// /// * a tag struct /// * a hash wrapper /// /// The syntax is: /// /// ``` /// # use bitcoin_hashes::sha256t_hash_newtype; /// sha256t_hash_newtype! { /// /// Optional documentation details here. /// /// Summary is always generated. /// pub struct FooTag = hash_str("foo"); /// /// /// A foo hash. /// // Direction works just like in case of hash_newtype! macro. /// #[hash_newtype(forward)] /// pub struct FooHash(_); /// } /// ``` /// /// The structs must be defined in this order - tag first, then hash type. `hash_str` marker /// says the midstate should be generated by hashing the supplied string in a way described in /// BIP-341. Alternatively, you can supply `hash_bytes` to hash raw bytes. If you have the midstate /// already pre-computed and prefer **compiler** performance to readability you may use /// `raw(MIDSTATE_BYTES, HASHED_BYTES_LENGHT)` instead. /// /// Both visibility modifiers and attributes are optional and passed to inner structs (excluding /// `#[hash_newtype(...)]`). The attributes suffer same compiler performance limitations as in /// [`hash_newtype`] macro. /// /// The macro accepts multiple inputs so you can define multiple hash newtypes in one macro call. /// Just make sure to enter the structs in order `Tag0`, `Hash0`, `Tag1`, `Hash1`... /// /// [`hash_newtype`]: crate::hash_newtype #[macro_export] macro_rules! sha256t_hash_newtype { ($($(#[$($tag_attr:tt)*])* $tag_vis:vis struct $tag:ident = $constructor:tt($($tag_value:tt)+); $(#[$($hash_attr:tt)*])* $hash_vis:vis struct $hash_name:ident($(#[$($field_attr:tt)*])* _);)+) => { $( $crate::sha256t_hash_newtype_tag!($tag_vis, $tag, stringify!($hash_name), $(#[$($tag_attr)*])*); impl $crate::sha256t::Tag for $tag { #[inline] fn engine() -> $crate::sha256::HashEngine { const MIDSTATE: ($crate::sha256::Midstate, usize) = $crate::sha256t_hash_newtype_tag_constructor!($constructor, $($tag_value)+); #[allow(unused)] const _LENGTH_CHECK: () = [(); 1][MIDSTATE.1 % 64]; $crate::sha256::HashEngine::from_midstate(MIDSTATE.0, MIDSTATE.1) } } $crate::hash_newtype! { $(#[$($hash_attr)*])* $hash_vis struct $hash_name($(#[$($field_attr)*])* $crate::sha256t::Hash<$tag>); } )+ } } // Workaround macros being unavailable in attributes. #[doc(hidden)] #[macro_export] macro_rules! sha256t_hash_newtype_tag { ($vis:vis, $tag:ident, $name:expr, $(#[$($attr:meta)*])*) => { #[doc = "The tag used for [`"] #[doc = $name] #[doc = "`]\n\n"] $(#[$($attr)*])* #[derive(Copy, Clone, PartialEq, Eq, Default, PartialOrd, Ord, Hash)] $vis struct $tag; }; } #[doc(hidden)] #[macro_export] macro_rules! sha256t_hash_newtype_tag_constructor { (hash_str, $value:expr) => { ($crate::sha256::Midstate::hash_tag($value.as_bytes()), 64) }; (hash_bytes, $value:expr) => { ($crate::sha256::Midstate::hash_tag($value), 64) }; (raw, $bytes:expr, $len:expr) => { ($crate::sha256::Midstate::from_byte_array($bytes), $len) }; } #[cfg(test)] mod tests { #[cfg(feature = "alloc")] use crate::Hash; use crate::{sha256, sha256t}; const TEST_MIDSTATE: [u8; 32] = [ 156, 224, 228, 230, 124, 17, 108, 57, 56, 179, 202, 242, 195, 15, 80, 137, 211, 243, 147, 108, 71, 99, 110, 96, 125, 179, 62, 234, 221, 198, 240, 201, ]; #[derive(Copy, Clone, PartialEq, Eq, PartialOrd, Ord, Default, Hash)] #[cfg_attr(feature = "schemars", derive(schemars::JsonSchema))] pub struct TestHashTag; impl sha256t::Tag for TestHashTag { fn engine() -> sha256::HashEngine { // The TapRoot TapLeaf midstate. let midstate = sha256::Midstate::from_byte_array(TEST_MIDSTATE); sha256::HashEngine::from_midstate(midstate, 64) } } /// A hash tagged with `$name`. #[cfg(feature = "alloc")] pub type TestHash = sha256t::Hash; sha256t_hash_newtype! { /// Test detailed explanation. struct NewTypeTag = raw(TEST_MIDSTATE, 64); /// A test hash. #[hash_newtype(backward)] struct NewTypeHash(_); } #[test] #[cfg(feature = "alloc")] fn test_sha256t() { assert_eq!( TestHash::hash(&[0]).to_string(), "29589d5122ec666ab5b4695070b6debc63881a4f85d88d93ddc90078038213ed" ); assert_eq!( NewTypeHash::hash(&[0]).to_string(), "29589d5122ec666ab5b4695070b6debc63881a4f85d88d93ddc90078038213ed" ); } }