use std::{ borrow::Borrow, convert::TryInto, hash::{Hash, Hasher}, ops::Deref, }; use crate::{borrowed::oid, Kind, SIZE_OF_SHA1_DIGEST}; /// An owned hash identifying objects, most commonly `Sha1` #[derive(PartialEq, Eq, Ord, PartialOrd, Clone, Copy)] #[cfg_attr(feature = "serde", derive(serde::Serialize, serde::Deserialize))] pub enum ObjectId { /// A SHA 1 hash digest Sha1([u8; SIZE_OF_SHA1_DIGEST]), } // False positive: https://github.com/rust-lang/rust-clippy/issues/2627 // ignoring some fields while hashing is perfectly valid and just leads to // increased HashCollisions. One Sha1 being a prefix of another Sha256 is // extremely unlikely to begin with so it doesn't matter. // This implementation matches the `Hash` implementation for `oid` // and allows the usage of custom Hashers that only copy a truncated ShaHash #[allow(clippy::derived_hash_with_manual_eq)] impl Hash for ObjectId { fn hash(&self, state: &mut H) { state.write(self.as_slice()) } } #[allow(missing_docs)] pub mod decode { use std::str::FromStr; use crate::object_id::ObjectId; /// An error returned by [`ObjectId::from_hex()`][crate::ObjectId::from_hex()] #[derive(Debug, thiserror::Error)] #[allow(missing_docs)] pub enum Error { #[error("A hash sized {0} hexadecimal characters is invalid")] InvalidHexEncodingLength(usize), #[error("Invalid character encountered")] Invalid, } /// Hash decoding impl ObjectId { /// Create an instance from a `buffer` of 40 bytes encoded with hexadecimal notation. /// /// Such a buffer can be obtained using [`oid::write_hex_to(buffer)`][super::oid::write_hex_to()] pub fn from_hex(buffer: &[u8]) -> Result { match buffer.len() { 40 => Ok({ ObjectId::Sha1({ let mut buf = [0; 20]; faster_hex::hex_decode(buffer, &mut buf).map_err(|err| match err { faster_hex::Error::InvalidChar => Error::Invalid, faster_hex::Error::InvalidLength(_) => { unreachable!("BUG: This is already checked") } })?; buf }) }), len => Err(Error::InvalidHexEncodingLength(len)), } } } impl FromStr for ObjectId { type Err = Error; fn from_str(s: &str) -> Result { Self::from_hex(s.as_bytes()) } } } /// Access and conversion impl ObjectId { /// Returns the kind of hash used in this instance. #[inline] pub fn kind(&self) -> Kind { match self { ObjectId::Sha1(_) => Kind::Sha1, } } /// Return the raw byte slice representing this hash. #[inline] pub fn as_slice(&self) -> &[u8] { match self { Self::Sha1(b) => b.as_ref(), } } /// Return the raw mutable byte slice representing this hash. #[inline] pub fn as_mut_slice(&mut self) -> &mut [u8] { match self { Self::Sha1(b) => b.as_mut(), } } /// The hash of an empty blob. #[inline] pub const fn empty_blob(hash: Kind) -> ObjectId { match hash { Kind::Sha1 => { ObjectId::Sha1(*b"\xe6\x9d\xe2\x9b\xb2\xd1\xd6\x43\x4b\x8b\x29\xae\x77\x5a\xd8\xc2\xe4\x8c\x53\x91") } } } /// The hash of an empty tree. #[inline] pub const fn empty_tree(hash: Kind) -> ObjectId { match hash { Kind::Sha1 => { ObjectId::Sha1(*b"\x4b\x82\x5d\xc6\x42\xcb\x6e\xb9\xa0\x60\xe5\x4b\xf8\xd6\x92\x88\xfb\xee\x49\x04") } } } /// Returns an instances whose bytes are all zero. #[inline] pub const fn null(kind: Kind) -> ObjectId { match kind { Kind::Sha1 => Self::null_sha1(), } } /// Returns `true` if this hash consists of all null bytes. #[inline] pub fn is_null(&self) -> bool { match self { ObjectId::Sha1(digest) => &digest[..] == oid::null_sha1().as_bytes(), } } /// Returns `true` if this hash is equal to an empty blob. #[inline] pub fn is_empty_blob(&self) -> bool { self == &Self::empty_blob(self.kind()) } /// Returns `true` if this hash is equal to an empty tree. #[inline] pub fn is_empty_tree(&self) -> bool { self == &Self::empty_tree(self.kind()) } } /// Sha1 hash specific methods impl ObjectId { /// Instantiate an Digest from 20 bytes of a Sha1 digest. #[inline] fn new_sha1(id: [u8; SIZE_OF_SHA1_DIGEST]) -> Self { ObjectId::Sha1(id) } /// Instantiate an Digest from a slice 20 borrowed bytes of a Sha1 digest. /// /// Panics of the slice doesn't have a length of 20. #[inline] pub(crate) fn from_20_bytes(b: &[u8]) -> ObjectId { let mut id = [0; SIZE_OF_SHA1_DIGEST]; id.copy_from_slice(b); ObjectId::Sha1(id) } /// Returns an Digest representing a Sha1 with whose memory is zeroed. #[inline] pub(crate) const fn null_sha1() -> ObjectId { ObjectId::Sha1([0u8; 20]) } } impl std::fmt::Debug for ObjectId { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { match self { ObjectId::Sha1(_hash) => f.write_str("Sha1(")?, } for b in self.as_bytes() { write!(f, "{b:02x}")?; } f.write_str(")") } } impl From<[u8; SIZE_OF_SHA1_DIGEST]> for ObjectId { fn from(v: [u8; 20]) -> Self { Self::new_sha1(v) } } impl From<&[u8]> for ObjectId { fn from(v: &[u8]) -> Self { match v.len() { 20 => Self::Sha1(v.try_into().expect("prior length validation")), other => panic!("BUG: unsupported hash len: {other}"), } } } impl From<&oid> for ObjectId { fn from(v: &oid) -> Self { match v.kind() { Kind::Sha1 => ObjectId::from_20_bytes(v.as_bytes()), } } } impl Deref for ObjectId { type Target = oid; fn deref(&self) -> &Self::Target { self.as_ref() } } impl AsRef for ObjectId { fn as_ref(&self) -> &oid { oid::from_bytes_unchecked(self.as_slice()) } } impl Borrow for ObjectId { fn borrow(&self) -> &oid { self.as_ref() } } impl std::fmt::Display for ObjectId { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { write!(f, "{}", self.to_hex()) } } impl PartialEq<&oid> for ObjectId { fn eq(&self, other: &&oid) -> bool { self.as_ref() == *other } }