//! Contains a borrowed Object bound to a buffer holding its decompressed data. use crate::{BlobRef, CommitRef, CommitRefIter, Data, Kind, ObjectRef, TagRef, TagRefIter, TreeRef, TreeRefIter}; impl<'a> Data<'a> { /// Constructs a new data object from `kind` and `data`. pub fn new(kind: Kind, data: &'a [u8]) -> Data<'a> { Data { kind, data } } /// Decodes the data in the backing slice into a [`ObjectRef`], allowing to access all of its data /// conveniently. The cost of parsing an object is negligible. /// /// **Note** that [mutable, decoded objects][crate::Object] can be created from [`Data`] /// using [`crate::ObjectRef::into_owned()`]. pub fn decode(&self) -> Result, crate::decode::Error> { Ok(match self.kind { Kind::Tree => ObjectRef::Tree(TreeRef::from_bytes(self.data)?), Kind::Blob => ObjectRef::Blob(BlobRef { data: self.data }), Kind::Commit => ObjectRef::Commit(CommitRef::from_bytes(self.data)?), Kind::Tag => ObjectRef::Tag(TagRef::from_bytes(self.data)?), }) } /// Returns this object as tree iterator to parse entries one at a time to avoid allocations, or /// `None` if this is not a tree object. pub fn try_into_tree_iter(self) -> Option> { match self.kind { Kind::Tree => Some(TreeRefIter::from_bytes(self.data)), _ => None, } } /// Returns this object as commit iterator to parse tokens one at a time to avoid allocations, or /// `None` if this is not a commit object. pub fn try_into_commit_iter(self) -> Option> { match self.kind { Kind::Commit => Some(CommitRefIter::from_bytes(self.data)), _ => None, } } /// Returns this object as tag iterator to parse tokens one at a time to avoid allocations, or /// `None` if this is not a tag object. pub fn try_into_tag_iter(self) -> Option> { match self.kind { Kind::Tag => Some(TagRefIter::from_bytes(self.data)), _ => None, } } } /// Types supporting object hash verification pub mod verify { /// Returned by [`crate::Data::verify_checksum()`] #[derive(Debug, thiserror::Error)] #[allow(missing_docs)] pub enum Error { #[error("Object expected to have id {desired}, but actual id was {actual}")] ChecksumMismatch { desired: gix_hash::ObjectId, actual: gix_hash::ObjectId, }, } impl crate::Data<'_> { /// Compute the checksum of `self` and compare it with the `desired` hash. /// If the hashes do not match, an [`Error`] is returned, containing the actual /// hash of `self`. pub fn verify_checksum(&self, desired: &gix_hash::oid) -> Result<(), Error> { let actual_id = crate::compute_hash(desired.kind(), self.kind, self.data); if desired != actual_id { return Err(Error::ChecksumMismatch { desired: desired.into(), actual: actual_id, }); } Ok(()) } } } #[cfg(test)] mod tests { use super::*; #[test] fn size_of_object() { #[cfg(target_pointer_width = "64")] assert_eq!(std::mem::size_of::>(), 24, "this shouldn't change unnoticed"); #[cfg(target_pointer_width = "32")] assert_eq!(std::mem::size_of::>(), 12, "this shouldn't change unnoticed"); } }