use crate::nixbase32;
use bstr::ByteSlice;
use data_encoding::{BASE64, BASE64_NOPAD, HEXLOWER};
use std::cmp::Ordering;
use std::fmt::Display;
use thiserror;
mod algos;
mod ca_hash;
pub use algos::HashAlgo;
pub use ca_hash::CAHash;
pub use ca_hash::HashMode as CAHashMode;
/// NixHash represents hashes known by Nix.
#[derive(Clone, Debug, Eq, PartialEq)]
pub enum NixHash {
Md5([u8; 16]),
Sha1([u8; 20]),
Sha256([u8; 32]),
Sha512(Box<[u8; 64]>),
}
/// Same order as sorting the corresponding nixbase32 strings.
///
/// This order is used in the ATerm serialization of a derivation
/// and thus affects the calculated output hash.
impl Ord for NixHash {
fn cmp(&self, other: &NixHash) -> Ordering {
self.digest_as_bytes().cmp(other.digest_as_bytes())
}
}
// See Ord for reason to implement this manually.
impl PartialOrd for NixHash {
fn partial_cmp(&self, other: &NixHash) -> Option<Ordering> {
Some(self.cmp(other))
}
}
impl Display for NixHash {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::result::Result<(), std::fmt::Error> {
write!(
f,
"{}-{}",
self.algo(),
nixbase32::encode(self.digest_as_bytes())
)
}
}
/// convenience Result type for all nixhash parsing Results.
pub type Result<V> = std::result::Result<V, Error>;
impl NixHash {
/// returns the algo as [HashAlgo].
pub fn algo(&self) -> HashAlgo {
match self {
NixHash::Md5(_) => HashAlgo::Md5,
NixHash::Sha1(_) => HashAlgo::Sha1,
NixHash::Sha256(_) => HashAlgo::Sha256,
NixHash::Sha512(_) => HashAlgo::Sha512,
}
}
/// returns the digest as variable-length byte slice.
pub fn digest_as_bytes(&self) -> &[u8] {
match self {
NixHash::Md5(digest) => digest,
NixHash::Sha1(digest) => digest,
NixHash::Sha256(digest) => digest,
NixHash::Sha512(digest) => digest.as_ref(),
}
}
/// Constructs a [NixHash] from the Nix default hash format,
/// the inverse of [Self::to_nix_hex_string].
pub fn from_nix_hex_str(s: &str) -> Option<Self> {
let (tag, digest) = s.split_once(':')?;
(match tag {
"md5" => nixbase32::decode_fixed(digest).map(NixHash::Md5),
"sha1" => nixbase32::decode_fixed(digest).map(NixHash::Sha1),
"sha256" => nixbase32::decode_fixed(digest).map(NixHash::Sha256),
"sha512" => nixbase32::decode_fixed(digest)
.map(Box::new)
.map(NixHash::Sha512),
_ => return None,
})
.ok()
}
/// Formats a [NixHash] in the Nix default hash format,
/// which is the algo, followed by a colon, then the lower hex encoded digest.
pub fn to_nix_hex_string(&self) -> String {
format!("{}:{}", self.algo(), self.to_plain_hex_string())
}
/// Formats a [NixHash] in the format that's used inside CAHash,
/// which is the algo, followed by a colon, then the nixbase32-encoded digest.
pub(crate) fn to_nix_nixbase32_string(&self) -> String {
format!(
"{}:{}",
self.algo(),
nixbase32::encode(self.digest_as_bytes())
)
}
/// Returns the digest as a hex string -- without any algorithm prefix.
pub fn to_plain_hex_string(&self) -> String {
HEXLOWER.encode(self.digest_as_bytes())
}
}
impl TryFrom<(HashAlgo, &[u8])> for NixHash {
type Error = Error;
/// Constructs a new [NixHash] by specifying [HashAlgo] and digest.
/// It can fail if the passed digest length doesn't match what's expected for
/// the passed algo.
fn try_from(value: (HashAlgo, &[u8])) -> Result<Self> {
let (algo, digest) = value;
from_algo_and_digest(algo, digest)
}
}
/// Constructs a new [NixHash] by specifying [HashAlgo] and digest.
/// It can fail if the passed digest length doesn't match what's expected for
/// the passed algo.
pub fn from_algo_and_digest(algo: HashAlgo, digest: &[u8]) -> Result<NixHash> {
if digest.len() != algo.digest_length() {
return Err(Error::InvalidEncodedDigestLength(digest.len(), algo));
}
Ok(match algo {
HashAlgo::Md5 => NixHash::Md5(digest.try_into().unwrap()),
HashAlgo::Sha1 => NixHash::Sha1(digest.try_into().unwrap()),
HashAlgo::Sha256 => NixHash::Sha256(digest.try_into().unwrap()),
HashAlgo::Sha512 => NixHash::Sha512(Box::new(digest.try_into().unwrap())),
})
}
/// Errors related to NixHash construction.
#[derive(Debug, Eq, PartialEq, thiserror::Error)]
pub enum Error {
#[error("invalid hash algo: {0}")]
InvalidAlgo(String),
#[error("invalid SRI string: {0}")]
InvalidSRI(String),
#[error("invalid encoded digest length '{0}' for algo {1}")]
InvalidEncodedDigestLength(usize, HashAlgo),
#[error("invalid base16 encoding: {0}")]
InvalidBase16Encoding(data_encoding::DecodeError),
#[error("invalid base32 encoding: {0}")]
InvalidBase32Encoding(data_encoding::DecodeError),
#[error("invalid base64 encoding: {0}")]
InvalidBase64Encoding(data_encoding::DecodeError),
#[error("conflicting hash algo: {0} (hash_algo) vs {1} (inline)")]
ConflictingHashAlgos(HashAlgo, HashAlgo),
#[error("missing inline hash algo, but no externally-specified algo: {0}")]
MissingInlineHashAlgo(String),
}
/// Nix allows specifying hashes in various encodings, and magically just
/// derives the encoding.
/// This function parses strings to a NixHash.
///
/// Hashes can be:
/// - Nix hash strings
/// - SRI hashes
/// - bare digests
///
/// Encoding for Nix hash strings or bare digests can be:
/// - base16 (lowerhex),
/// - nixbase32,
/// - base64 (StdEncoding)
/// - sri string
///
/// The encoding is derived from the length of the string and the hash type.
/// The hash is communicated out-of-band, but might also be in-band (in the
/// case of a nix hash string or SRI), in which it needs to be consistent with the
/// one communicated out-of-band.
pub fn from_str(s: &str, algo_str: Option<&str>) -> Result<NixHash> {
// if algo_str is some, parse or bail out
let algo: Option<HashAlgo> = if let Some(algo_str) = algo_str {
Some(algo_str.try_into()?)
} else {
None
};
// Peek at the beginning of the string to detect SRI hashes.
if s.starts_with("sha1-")
|| s.starts_with("sha256-")
|| s.starts_with("sha512-")
|| s.starts_with("md5-")
{
let parsed_nixhash = from_sri_str(s)?;
// ensure the algo matches with what has been passed externally, if so.
if let Some(algo) = algo {
if algo != parsed_nixhash.algo() {
return Err(Error::ConflictingHashAlgos(algo, parsed_nixhash.algo()));
}
}
return Ok(parsed_nixhash);
}
// Peek at the beginning again to see if it's a Nix Hash
if s.starts_with("sha1:")
|| s.starts_with("sha256:")
|| s.starts_with("sha512:")
|| s.starts_with("md5:")
{
let parsed_nixhash = from_nix_str(s)?;
// ensure the algo matches with what has been passed externally, if so.
if let Some(algo) = algo {
if algo != parsed_nixhash.algo() {
return Err(Error::ConflictingHashAlgos(algo, parsed_nixhash.algo()));
}
}
return Ok(parsed_nixhash);
}
// Neither of these, assume a bare digest, so there MUST be an externally-passed algo.
match algo {
// Fail if there isn't.
None => Err(Error::MissingInlineHashAlgo(s.to_string())),
Some(algo) => decode_digest(s.as_bytes(), algo),
}
}
/// Parses a Nix hash string ($algo:$digest) to a NixHash.
pub fn from_nix_str(s: &str) -> Result<NixHash> {
if let Some(rest) = s.strip_prefix("sha1:") {
decode_digest(rest.as_bytes(), HashAlgo::Sha1)
} else if let Some(rest) = s.strip_prefix("sha256:") {
decode_digest(rest.as_bytes(), HashAlgo::Sha256)
} else if let Some(rest) = s.strip_prefix("sha512:") {
decode_digest(rest.as_bytes(), HashAlgo::Sha512)
} else if let Some(rest) = s.strip_prefix("md5:") {
decode_digest(rest.as_bytes(), HashAlgo::Md5)
} else {
Err(Error::InvalidAlgo(s.to_string()))
}
}
/// Parses a Nix SRI string to a NixHash.
/// Contrary to the SRI spec, Nix doesn't have an understanding of passing
/// multiple hashes (with different algos) in SRI hashes.
/// It instead simply cuts everything off after the expected length for the
/// specified algo, and tries to parse the rest in permissive base64 (allowing
/// missing padding).
pub fn from_sri_str(s: &str) -> Result<NixHash> {
// split at the first occurence of "-"
let (algo_str, digest_str) = s
.split_once('-')
.ok_or_else(|| Error::InvalidSRI(s.to_string()))?;
// try to map the part before that `-` to a supported hash algo:
let algo: HashAlgo = algo_str.try_into()?;
// For the digest string, Nix ignores everything after the expected BASE64
// (with padding) length, to account for the fact SRI allows specifying more
// than one checksum, so shorten it.
let digest_str = {
let encoded_max_len = BASE64.encode_len(algo.digest_length());
if digest_str.len() > encoded_max_len {
digest_str[..encoded_max_len].as_bytes()
} else {
digest_str.as_bytes()
}
};
// if the digest string is too small to fit even the BASE64_NOPAD version, bail out.
if digest_str.len() < BASE64_NOPAD.encode_len(algo.digest_length()) {
return Err(Error::InvalidEncodedDigestLength(digest_str.len(), algo));
}
// trim potential padding, and use a version that does not do trailing bit
// checking.
let mut spec = BASE64_NOPAD.specification();
spec.check_trailing_bits = false;
let encoding = spec
.encoding()
.expect("Tvix bug: failed to get the special base64 encoder for Nix SRI hashes");
let digest = encoding
.decode(digest_str.trim_end_with(|c| c == '='))
.map_err(Error::InvalidBase64Encoding)?;
from_algo_and_digest(algo, &digest)
}
/// Decode a plain digest depending on the hash algo specified externally.
/// hexlower, nixbase32 and base64 encodings are supported - the encoding is
/// inferred from the input length.
fn decode_digest(s: &[u8], algo: HashAlgo) -> Result<NixHash> {
// for the chosen hash algo, calculate the expected (decoded) digest length
// (as bytes)
let digest = if s.len() == HEXLOWER.encode_len(algo.digest_length()) {
HEXLOWER
.decode(s.as_ref())
.map_err(Error::InvalidBase16Encoding)?
} else if s.len() == nixbase32::encode_len(algo.digest_length()) {
nixbase32::decode(s).map_err(Error::InvalidBase32Encoding)?
} else if s.len() == BASE64.encode_len(algo.digest_length()) {
BASE64
.decode(s.as_ref())
.map_err(Error::InvalidBase64Encoding)?
} else {
Err(Error::InvalidEncodedDigestLength(s.len(), algo))?
};
Ok(from_algo_and_digest(algo, &digest).unwrap())
}
#[cfg(test)]
mod tests {
use crate::{
nixbase32,
nixhash::{self, HashAlgo, NixHash},
};
use data_encoding::{BASE64, BASE64_NOPAD, HEXLOWER};
use hex_literal::hex;
use test_case::test_case;
const DIGEST_SHA1: [u8; 20] = hex!("6016777997c30ab02413cf5095622cd7924283ac");
const DIGEST_SHA256: [u8; 32] =
hex!("a5ce9c155ed09397614646c9717fc7cd94b1023d7b76b618d409e4fefd6e9d39");
const DIGEST_SHA512: [u8; 64] = hex!("ab40d0be3541f0774bba7815d13d10b03252e96e95f7dbb4ee99a3b431c21662fd6971a020160e39848aa5f305b9be0f78727b2b0789e39f124d21e92b8f39ef");
const DIGEST_MD5: [u8; 16] = hex!("c4874a8897440b393d862d8fd459073f");
fn to_base16(digest: &[u8]) -> String {
HEXLOWER.encode(digest)
}
fn to_nixbase32(digest: &[u8]) -> String {
nixbase32::encode(digest)
}
fn to_base64(digest: &[u8]) -> String {
BASE64.encode(digest)
}
fn to_base64_nopad(digest: &[u8]) -> String {
BASE64_NOPAD.encode(digest)
}
// TODO
fn make_nixhash(algo: &HashAlgo, digest_encoded: String) -> String {
format!("{}:{}", algo, digest_encoded)
}
fn make_sri_string(algo: &HashAlgo, digest_encoded: String) -> String {
format!("{}-{}", algo, digest_encoded)
}
/// Test parsing a hash string in various formats, and also when/how the out-of-band algo is needed.
#[test_case(&NixHash::Sha1(DIGEST_SHA1); "sha1")]
#[test_case(&NixHash::Sha256(DIGEST_SHA256); "sha256")]
#[test_case(&NixHash::Sha512(Box::new(DIGEST_SHA512)); "sha512")]
#[test_case(&NixHash::Md5(DIGEST_MD5); "md5")]
fn from_str(expected_hash: &NixHash) {
let algo = &expected_hash.algo();
let digest = expected_hash.digest_as_bytes();
// parse SRI
{
// base64 without out-of-band algo
let s = make_sri_string(algo, to_base64(digest));
let h = nixhash::from_str(&s, None).expect("must succeed");
assert_eq!(expected_hash, &h);
// base64 with out-of-band-algo
let s = make_sri_string(algo, to_base64(digest));
let h = nixhash::from_str(&s, Some(&expected_hash.algo().to_string()))
.expect("must succeed");
assert_eq!(expected_hash, &h);
// base64_nopad without out-of-band algo
let s = make_sri_string(algo, to_base64_nopad(digest));
let h = nixhash::from_str(&s, None).expect("must succeed");
assert_eq!(expected_hash, &h);
// base64_nopad with out-of-band-algo
let s = make_sri_string(algo, to_base64_nopad(digest));
let h = nixhash::from_str(&s, Some(&algo.to_string())).expect("must succeed");
assert_eq!(expected_hash, &h);
}
// parse plain base16. should succeed with algo out-of-band, but fail without.
{
let s = to_base16(digest);
nixhash::from_str(&s, None).expect_err("must fail");
let h = nixhash::from_str(&s, Some(&algo.to_string())).expect("must succeed");
assert_eq!(expected_hash, &h);
}
// parse plain nixbase32. should succeed with algo out-of-band, but fail without.
{
let s = to_nixbase32(digest);
nixhash::from_str(&s, None).expect_err("must fail");
let h = nixhash::from_str(&s, Some(&algo.to_string())).expect("must succeed");
assert_eq!(expected_hash, &h);
}
// parse plain base64. should succeed with algo out-of-band, but fail without.
{
let s = to_base64(digest);
nixhash::from_str(&s, None).expect_err("must fail");
let h = nixhash::from_str(&s, Some(&algo.to_string())).expect("must succeed");
assert_eq!(expected_hash, &h);
}
// parse Nix hash strings
{
// base16. should succeed with both algo out-of-band and in-band.
{
let s = make_nixhash(algo, to_base16(digest));
assert_eq!(
expected_hash,
&nixhash::from_str(&s, None).expect("must succeed")
);
assert_eq!(
expected_hash,
&nixhash::from_str(&s, Some(&algo.to_string())).expect("must succeed")
);
}
// nixbase32. should succeed with both algo out-of-band and in-band.
{
let s = make_nixhash(algo, to_nixbase32(digest));
assert_eq!(
expected_hash,
&nixhash::from_str(&s, None).expect("must succeed")
);
assert_eq!(
expected_hash,
&nixhash::from_str(&s, Some(&algo.to_string())).expect("must succeed")
);
}
// base64. should succeed with both algo out-of-band and in-band.
{
let s = make_nixhash(algo, to_base64(digest));
assert_eq!(
expected_hash,
&nixhash::from_str(&s, None).expect("must succeed")
);
assert_eq!(
expected_hash,
&nixhash::from_str(&s, Some(&algo.to_string())).expect("must succeed")
);
}
}
}
/// Test parsing an SRI hash via the [nixhash::from_sri_str] method.
#[test]
fn from_sri_str() {
let nix_hash = nixhash::from_sri_str("sha256-pc6cFV7Qk5dhRkbJcX/HzZSxAj17drYY1Ank/v1unTk=")
.expect("must succeed");
assert_eq!(HashAlgo::Sha256, nix_hash.algo());
assert_eq!(
&hex!("a5ce9c155ed09397614646c9717fc7cd94b1023d7b76b618d409e4fefd6e9d39"),
nix_hash.digest_as_bytes()
)
}
/// Test parsing sha512 SRI hash with various paddings, Nix accepts all of them.
#[test_case("sha512-7g91TBvYoYQorRTqo+rYD/i5YnWvUBLnqDhPHxBJDaBW7smuPMeRp6E6JOFuVN9bzN0QnH1ToUU0u9c2CjALEQ"; "no padding")]
#[test_case("sha512-7g91TBvYoYQorRTqo+rYD/i5YnWvUBLnqDhPHxBJDaBW7smuPMeRp6E6JOFuVN9bzN0QnH1ToUU0u9c2CjALEQ="; "too little padding")]
#[test_case("sha512-7g91TBvYoYQorRTqo+rYD/i5YnWvUBLnqDhPHxBJDaBW7smuPMeRp6E6JOFuVN9bzN0QnH1ToUU0u9c2CjALEQ=="; "correct padding")]
#[test_case("sha512-7g91TBvYoYQorRTqo+rYD/i5YnWvUBLnqDhPHxBJDaBW7smuPMeRp6E6JOFuVN9bzN0QnH1ToUU0u9c2CjALEQ==="; "too much padding")]
#[test_case("sha512-7g91TBvYoYQorRTqo+rYD/i5YnWvUBLnqDhPHxBJDaBW7smuPMeRp6E6JOFuVN9bzN0QnH1ToUU0u9c2CjALEQ== cheesecake"; "additional suffix ignored")]
fn from_sri_str_sha512_paddings(sri_str: &str) {
let nix_hash = nixhash::from_sri_str(sri_str).expect("must succeed");
assert_eq!(HashAlgo::Sha512, nix_hash.algo());
assert_eq!(
&hex!("ee0f754c1bd8a18428ad14eaa3ead80ff8b96275af5012e7a8384f1f10490da056eec9ae3cc791a7a13a24e16e54df5bccdd109c7d53a14534bbd7360a300b11"),
nix_hash.digest_as_bytes()
)
}
/// Ensure we detect truncated base64 digests, where the digest size
/// doesn't match what's expected from that hash function.
#[test]
fn from_sri_str_truncated() {
nixhash::from_sri_str("sha256-pc6cFV7Qk5dhRkbJcX/HzZSxAj17drYY1Ank")
.expect_err("must fail");
}
/// Ensure we fail on SRI hashes that Nix doesn't support.
#[test]
fn from_sri_str_unsupported() {
nixhash::from_sri_str(
"sha384-o4UVSl89mIB0sFUK+3jQbG+C9Zc9dRlV/Xd3KAvXEbhqxu0J5OAdg6b6VHKHwQ7U",
)
.expect_err("must fail");
}
/// Ensure we reject invalid base64 encoding
#[test]
fn from_sri_str_invalid_base64() {
nixhash::from_sri_str("sha256-invalid=base64").expect_err("must fail");
}
/// Nix also accepts SRI strings with missing padding, but only in case the
/// string is expressed as SRI, so it still needs to have a `sha256-` prefix.
///
/// This both seems to work if it is passed with and without specifying the
/// hash algo out-of-band (hash = "sha256-…" or sha256 = "sha256-…")
///
/// Passing the same broken base64 string, but not as SRI, while passing
/// the hash algo out-of-band does not work.
#[test]
fn sha256_broken_padding() {
let broken_base64 = "fgIr3TyFGDAXP5+qoAaiMKDg/a1MlT6Fv/S/DaA24S8";
// if padded with a trailing '='
let expected_digest =
hex!("7e022bdd3c851830173f9faaa006a230a0e0fdad4c953e85bff4bf0da036e12f");
// passing hash algo out of band should succeed
let nix_hash = nixhash::from_str(&format!("sha256-{}", &broken_base64), Some("sha256"))
.expect("must succeed");
assert_eq!(&expected_digest, &nix_hash.digest_as_bytes());
// not passing hash algo out of band should succeed
let nix_hash =
nixhash::from_str(&format!("sha256-{}", &broken_base64), None).expect("must succeed");
assert_eq!(&expected_digest, &nix_hash.digest_as_bytes());
// not passing SRI, but hash algo out of band should fail
nixhash::from_str(broken_base64, Some("sha256")).expect_err("must fail");
}
/// As we decided to pass our hashes by trimming `=` completely,
/// we need to take into account hashes with padding requirements which
/// contains trailing bits which would be checked by `BASE64_NOPAD` and would
/// make the verification crash.
///
/// This base64 has a trailing non-zero bit at bit 42.
#[test]
fn sha256_weird_base64() {
let weird_base64 = "syceJMUEknBDCHK8eGs6rUU3IQn+HnQfURfCrDxYPa9=";
let expected_digest =
hex!("b3271e24c5049270430872bc786b3aad45372109fe1e741f5117c2ac3c583daf");
let nix_hash = nixhash::from_str(&format!("sha256-{}", &weird_base64), Some("sha256"))
.expect("must succeed");
assert_eq!(&expected_digest, &nix_hash.digest_as_bytes());
// not passing hash algo out of band should succeed
let nix_hash =
nixhash::from_str(&format!("sha256-{}", &weird_base64), None).expect("must succeed");
assert_eq!(&expected_digest, &nix_hash.digest_as_bytes());
// not passing SRI, but hash algo out of band should fail
nixhash::from_str(weird_base64, Some("sha256")).expect_err("must fail");
}
}