// Bitcoin Hashes Library // Written in 2018 by // Andrew Poelstra // // To the extent possible under law, the author(s) have dedicated all // copyright and related and neighboring rights to this software to // the public domain worldwide. This software is distributed without // any warranty. // // You should have received a copy of the CC0 Public Domain Dedication // along with this software. // If not, see . // #[macro_export] /// Adds hexadecimal formatting implementation of a trait `$imp` to a given type `$ty`. macro_rules! hex_fmt_impl( ($ty:ident) => ( $crate::hex_fmt_impl!($ty, ); ); ($ty:ident, $($gen:ident: $gent:ident),*) => ( impl<$($gen: $gent),*> $crate::_export::_core::fmt::LowerHex for $ty<$($gen),*> { fn fmt(&self, f: &mut $crate::_export::_core::fmt::Formatter) -> $crate::_export::_core::fmt::Result { #[allow(unused_imports)] use $crate::{Hash as _, HashEngine as _, hex}; if f.alternate() { write!(f, "0x")?; } if $ty::<$($gen),*>::DISPLAY_BACKWARD { hex::format_hex_reverse(&self.0, f) } else { hex::format_hex(&self.0, f) } } } impl<$($gen: $gent),*> $crate::_export::_core::fmt::Display for $ty<$($gen),*> { fn fmt(&self, f: &mut $crate::_export::_core::fmt::Formatter) -> $crate::_export::_core::fmt::Result { $crate::_export::_core::fmt::LowerHex::fmt(self, f) } } impl<$($gen: $gent),*> $crate::_export::_core::fmt::Debug for $ty<$($gen),*> { fn fmt(&self, f: &mut $crate::_export::_core::fmt::Formatter) -> $crate::_export::_core::fmt::Result { write!(f, "{:#}", self) } } ); ); /// Adds slicing traits implementations to a given type `$ty` #[macro_export] macro_rules! borrow_slice_impl( ($ty:ident) => ( $crate::borrow_slice_impl!($ty, ); ); ($ty:ident, $($gen:ident: $gent:ident),*) => ( impl<$($gen: $gent),*> $crate::_export::_core::borrow::Borrow<[u8]> for $ty<$($gen),*> { fn borrow(&self) -> &[u8] { &self[..] } } impl<$($gen: $gent),*> $crate::_export::_core::convert::AsRef<[u8]> for $ty<$($gen),*> { fn as_ref(&self) -> &[u8] { &self[..] } } impl<$($gen: $gent),*> $crate::_export::_core::ops::Deref for $ty<$($gen),*> { type Target = [u8]; fn deref(&self) -> &Self::Target { &self.0 } } ) ); macro_rules! engine_input_impl( () => ( #[cfg(not(fuzzing))] fn input(&mut self, mut inp: &[u8]) { while !inp.is_empty() { let buf_idx = self.length % ::BLOCK_SIZE; let rem_len = ::BLOCK_SIZE - buf_idx; let write_len = cmp::min(rem_len, inp.len()); self.buffer[buf_idx..buf_idx + write_len] .copy_from_slice(&inp[..write_len]); self.length += write_len; if self.length % ::BLOCK_SIZE == 0 { self.process_block(); } inp = &inp[write_len..]; } } #[cfg(fuzzing)] fn input(&mut self, inp: &[u8]) { for c in inp { self.buffer[0] ^= *c; } self.length += inp.len(); } ) ); /// Creates a new newtype around a [`Hash`] type. #[macro_export] macro_rules! hash_newtype { ($newtype:ident, $hash:ty, $len:expr, $docs:meta) => { $crate::hash_newtype!($newtype, $hash, $len, $docs, <$hash as $crate::Hash>::DISPLAY_BACKWARD); }; ($newtype:ident, $hash:ty, $len:expr, $docs:meta, $reverse:expr) => { #[$docs] #[derive(Copy, Clone, PartialEq, Eq, PartialOrd, Ord, Hash)] #[repr(transparent)] pub struct $newtype($hash); $crate::hex_fmt_impl!($newtype); $crate::serde_impl!($newtype, $len); $crate::borrow_slice_impl!($newtype); impl $newtype { /// Creates this type from the inner hash type. pub fn from_hash(inner: $hash) -> $newtype { $newtype(inner) } /// Converts this type into the inner hash type. pub fn as_hash(&self) -> $hash { // Hashes implement Copy so don't need into_hash. self.0 } } impl $crate::_export::_core::convert::From<$hash> for $newtype { fn from(inner: $hash) -> $newtype { // Due to rust 1.22 we have to use this instead of simple `Self(inner)` Self { 0: inner } } } impl $crate::_export::_core::convert::From<$newtype> for $hash { fn from(hashtype: $newtype) -> $hash { hashtype.0 } } impl $crate::Hash for $newtype { type Engine = <$hash as $crate::Hash>::Engine; type Inner = <$hash as $crate::Hash>::Inner; const LEN: usize = <$hash as $crate::Hash>::LEN; const DISPLAY_BACKWARD: bool = $reverse; fn engine() -> Self::Engine { <$hash as $crate::Hash>::engine() } fn from_engine(e: Self::Engine) -> Self { Self::from(<$hash as $crate::Hash>::from_engine(e)) } #[inline] fn from_slice(sl: &[u8]) -> Result<$newtype, $crate::Error> { Ok($newtype(<$hash as $crate::Hash>::from_slice(sl)?)) } #[inline] fn from_inner(inner: Self::Inner) -> Self { $newtype(<$hash as $crate::Hash>::from_inner(inner)) } #[inline] fn into_inner(self) -> Self::Inner { self.0.into_inner() } #[inline] fn as_inner(&self) -> &Self::Inner { self.0.as_inner() } #[inline] fn all_zeros() -> Self { let zeros = <$hash>::all_zeros(); $newtype(zeros) } } impl $crate::_export::_core::str::FromStr for $newtype { type Err = $crate::hex::Error; fn from_str(s: &str) -> $crate::_export::_core::result::Result<$newtype, Self::Err> { $crate::hex::FromHex::from_hex(s) } } impl> $crate::_export::_core::ops::Index for $newtype { type Output = I::Output; #[inline] fn index(&self, index: I) -> &Self::Output { &self.0[index] } } }; } #[cfg(feature = "schemars")] #[cfg_attr(docsrs, doc(cfg(feature = "schemars")))] pub mod json_hex_string { use schemars::schema::{Schema, SchemaObject}; use schemars::{gen::SchemaGenerator, JsonSchema}; macro_rules! define_custom_hex { ($name:ident, $len:expr) => { pub fn $name(gen: &mut SchemaGenerator) -> Schema { let mut schema: SchemaObject = ::json_schema(gen).into(); schema.string = Some(Box::new(schemars::schema::StringValidation { max_length: Some($len * 2), min_length: Some($len * 2), pattern: Some("[0-9a-fA-F]+".to_owned()), })); schema.into() } }; } define_custom_hex!(len_8, 8); define_custom_hex!(len_20, 20); define_custom_hex!(len_32, 32); define_custom_hex!(len_64, 64); } #[cfg(test)] mod test { use crate::{Hash, sha256}; #[test] fn borrow_slice_impl_to_vec() { // Test that the borrow_slice_impl macro gives to_vec. let hash = sha256::Hash::hash(&[3, 50]); assert_eq!(hash.to_vec().len(), sha256::Hash::LEN); } hash_newtype!(TestHash, crate::sha256d::Hash, 32, doc="Test hash."); #[test] fn display() { let want = "0000000000000000000000000000000000000000000000000000000000000000"; let got = format!("{}", TestHash::all_zeros()); assert_eq!(got, want) } #[test] fn display_alternate() { let want = "0x0000000000000000000000000000000000000000000000000000000000000000"; let got = format!("{:#}", TestHash::all_zeros()); assert_eq!(got, want) } #[test] fn lower_hex() { let want = "0000000000000000000000000000000000000000000000000000000000000000"; let got = format!("{:x}", TestHash::all_zeros()); assert_eq!(got, want) } #[test] fn lower_hex_alternate() { let want = "0x0000000000000000000000000000000000000000000000000000000000000000"; let got = format!("{:#x}", TestHash::all_zeros()); assert_eq!(got, want) } }