use crate::derivation::DerivationError; use crate::nixbase32; use crate::store_path::StorePath; use crate::texthash::text_hash_string; use sha2::{Digest, Sha256}; /// compress_hash takes an arbitrarily long sequence of bytes (usually /// a hash digest), and returns a sequence of bytes of length /// output_size. /// /// It's calculated by rotating through the bytes in the output buffer /// (zero- initialized), and XOR'ing with each byte of the passed /// input. It consumes 1 byte at a time, and XOR's it with the current /// value in the output buffer. /// /// This mimics equivalent functionality in C++ Nix. fn compress_hash(input: &[u8], output_size: usize) -> Vec { let mut output: Vec = vec![0; output_size]; for (ii, ch) in input.iter().enumerate() { output[ii % output_size] ^= ch; } output } /// This returns a store path, either of a derivation or a regular output. /// The string is hashed with sha256, its digest is compressed to 20 bytes, and /// nixbase32-encoded (32 characters) pub(super) fn build_store_path( is_derivation: bool, fingerprint: &str, name: &str, ) -> Result { let digest = { let mut hasher = Sha256::new(); hasher.update(fingerprint); hasher.finalize() }; let compressed = compress_hash(&digest, 20); if is_derivation { StorePath::from_string(format!("{}-{}.drv", nixbase32::encode(&compressed), name).as_str()) } else { StorePath::from_string(format!("{}-{}", nixbase32::encode(&compressed), name,).as_str()) } .map_err(|_e| DerivationError::InvalidOutputName(name.to_string())) // Constructing the StorePath can only fail if the passed output name was // invalid, so map errors to a [DerivationError::InvalidOutputName]. } /// Build a store path for a literal text file in the store that may /// contain references. pub fn path_with_references, I: IntoIterator, C: AsRef<[u8]>>( name: &str, content: C, references: I, ) -> Result { let text_hash_str = text_hash_string(name, content, references); build_store_path(false, &text_hash_str, name) }