use crate::nixbase32; use data_encoding::{DecodeError, BASE64}; use std::{ fmt, path::PathBuf, str::{self, FromStr}, }; use thiserror; #[cfg(target_family = "unix")] use std::os::unix::ffi::OsStringExt; mod utils; pub use utils::*; pub const DIGEST_SIZE: usize = 20; pub const ENCODED_DIGEST_SIZE: usize = nixbase32::encode_len(DIGEST_SIZE); // The store dir prefix, without trailing slash. // That's usually where the Nix store is mounted at. pub const STORE_DIR: &str = "/nix/store"; pub const STORE_DIR_WITH_SLASH: &str = "/nix/store/"; /// Errors that can occur when parsing a literal store path #[derive(Debug, PartialEq, Eq, thiserror::Error)] pub enum Error { #[error("Dash is missing between hash and name")] MissingDash, #[error("Hash encoding is invalid: {0}")] InvalidHashEncoding(DecodeError), #[error("Invalid length")] InvalidLength, #[error( "Invalid name: \"{}\", character at position {} is invalid", std::str::from_utf8(.0).unwrap_or(&BASE64.encode(.0)), .1, )] InvalidName(Vec, u8), #[error("Tried to parse an absolute path which was missing the store dir prefix.")] MissingStoreDir, } /// Represents a path in the Nix store (a direct child of [STORE_DIR]). /// /// It consists of a digest (20 bytes), and a name, which is a string. /// The name may only contain ASCII alphanumeric, or one of the following /// characters: `-`, `_`, `.`, `+`, `?`, `=`. /// The name is usually used to describe the pname and version of a package. /// Derivation paths can also be represented as store paths, their names just /// end with the `.drv` prefix. /// /// A [StorePath] does not encode any additional subpath "inside" the store /// path. #[derive(Clone, Debug, PartialEq, Eq, Hash)] pub struct StorePath { digest: [u8; DIGEST_SIZE], name: String, } impl StorePath { pub fn digest(&self) -> &[u8; DIGEST_SIZE] { &self.digest } pub fn name(&self) -> &str { self.name.as_ref() } } impl PartialOrd for StorePath { fn partial_cmp(&self, other: &Self) -> Option { Some(self.cmp(other)) } } impl Ord for StorePath { fn cmp(&self, other: &Self) -> std::cmp::Ordering { self.digest.cmp(&other.digest) } } impl FromStr for StorePath { type Err = Error; /// Construct a [StorePath] by passing the `$digest-$name` string /// that comes after [STORE_DIR_WITH_SLASH]. fn from_str(s: &str) -> Result { Self::from_bytes(s.as_bytes()) } } impl StorePath { /// Construct a [StorePath] by passing the `$digest-$name` string /// that comes after [STORE_DIR_WITH_SLASH]. pub fn from_bytes(s: &[u8]) -> Result { Ok(StorePathRef::from_bytes(s)?.to_owned()) } /// Decompose a string into a [StorePath] and a [PathBuf] containing the /// rest of the path, or an error. #[cfg(target_family = "unix")] pub fn from_absolute_path_full(s: &str) -> Result<(StorePath, PathBuf), Error> { // strip [STORE_DIR_WITH_SLASH] from s match s.strip_prefix(STORE_DIR_WITH_SLASH) { None => Err(Error::MissingStoreDir), Some(rest) => { // put rest in a PathBuf let mut p = PathBuf::new(); p.push(rest); let mut it = p.components(); // The first component of the rest must be parse-able as a [StorePath] if let Some(first_component) = it.next() { // convert first component to StorePath let first_component_bytes = first_component.as_os_str().to_owned().into_vec(); let store_path = StorePath::from_bytes(&first_component_bytes)?; // collect rest let rest_buf: PathBuf = it.collect(); Ok((store_path, rest_buf)) } else { Err(Error::InvalidLength) // Well, or missing "/"? } } } } /// Converts the [StorePath] to an absolute store path string. /// That is just the string representation, prefixed with the store prefix /// ([STORE_DIR_WITH_SLASH]), pub fn to_absolute_path(&self) -> String { format!("{}{}", STORE_DIR_WITH_SLASH, self) } } /// Like [StorePath], but without a heap allocation for the name. /// Used by [StorePath] for parsing. /// /// TODO(edef): migrate most methods here #[derive(Debug)] pub struct StorePathRef<'a> { digest: [u8; DIGEST_SIZE], name: &'a str, } impl<'a> From<&'a StorePath> for StorePathRef<'a> { fn from(&StorePath { digest, ref name }: &'a StorePath) -> Self { StorePathRef { digest, name: name.as_ref(), } } } impl<'a> StorePathRef<'a> { pub fn digest(&self) -> &[u8; DIGEST_SIZE] { &self.digest } pub fn name(&self) -> &'a str { self.name } pub fn to_owned(&self) -> StorePath { StorePath { digest: self.digest, name: self.name.to_owned(), } } /// Construct a [StorePathRef] from a name and digest. pub fn from_name_and_digest(name: &'a str, digest: &[u8]) -> Result { Ok(Self { name: validate_name(name.as_bytes())?, digest: digest.try_into().map_err(|_| Error::InvalidLength)?, }) } /// Construct a [StorePathRef] from an absolute store path string. /// This is equivalent to calling [StorePathRef::from_bytes], but stripping /// the [STORE_DIR_WITH_SLASH] prefix before. pub fn from_absolute_path(s: &'a [u8]) -> Result { match s.strip_prefix(STORE_DIR_WITH_SLASH.as_bytes()) { Some(s_stripped) => Self::from_bytes(s_stripped), None => Err(Error::MissingStoreDir), } } /// Construct a [StorePathRef] by passing the `$digest-$name` string /// that comes after [STORE_DIR_WITH_SLASH]. pub fn from_bytes(s: &'a [u8]) -> Result { // the whole string needs to be at least: // // - 32 characters (encoded hash) // - 1 dash // - 1 character for the name if s.len() < ENCODED_DIGEST_SIZE + 2 { Err(Error::InvalidLength)? } let digest = nixbase32::decode_fixed(&s[..ENCODED_DIGEST_SIZE]) .map_err(Error::InvalidHashEncoding)?; if s[ENCODED_DIGEST_SIZE] != b'-' { return Err(Error::MissingDash); } Ok(StorePathRef { digest, name: validate_name(&s[ENCODED_DIGEST_SIZE + 1..])?, }) } } /// NAME_CHARS contains `true` for bytes that are valid in store path names, /// not accounting for '.' being permitted only past the first character. static NAME_CHARS: [bool; 256] = { let mut tbl = [false; 256]; let mut c = 0; loop { tbl[c as usize] = matches!(c, b'a'..=b'z' | b'A'..=b'Z' | b'0'..=b'9' | b'+' | b'-' | b'_' | b'?' | b'=' | b'.'); if c == u8::MAX { break; } c += 1; } tbl }; /// Checks a given &[u8] to match the restrictions for [StorePath::name], and /// returns the name as string if successful. pub(crate) fn validate_name(s: &(impl AsRef<[u8]> + ?Sized)) -> Result<&str, Error> { let s = s.as_ref(); // Empty or excessively long names are not allowed. if s.is_empty() || s.len() > 211 { return Err(Error::InvalidLength); } if s[0] == b'.' { return Err(Error::InvalidName(s.to_vec(), 0)); } let mut valid = true; for &c in s { valid = valid && NAME_CHARS[c as usize]; } if !valid { for (i, &c) in s.iter().enumerate() { if !NAME_CHARS[c as usize] { return Err(Error::InvalidName(s.to_vec(), i as u8)); } } unreachable!(); } // SAFETY: We permit a subset of ASCII, which guarantees valid UTF-8. Ok(unsafe { str::from_utf8_unchecked(s) }) } impl fmt::Display for StorePath { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { StorePathRef::from(self).fmt(f) } } impl fmt::Display for StorePathRef<'_> { /// The string representation of a store path starts with a digest (20 /// bytes), [crate::nixbase32]-encoded, followed by a `-`, /// and ends with the name. fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { write!(f, "{}-{}", nixbase32::encode(&self.digest), self.name) } } #[cfg(test)] mod tests { use std::path::PathBuf; use crate::store_path::{StorePathRef, DIGEST_SIZE}; use hex_literal::hex; use test_case::test_case; use super::{Error, StorePath}; #[test] fn happy_path() { let example_nix_path_str = "00bgd045z0d4icpbc2yyz4gx48ak44la-net-tools-1.60_p20170221182432"; let nixpath = StorePath::from_bytes(example_nix_path_str.as_bytes()) .expect("Error parsing example string"); let expected_digest: [u8; DIGEST_SIZE] = hex!("8a12321522fd91efbd60ebb2481af88580f61600"); assert_eq!("net-tools-1.60_p20170221182432", nixpath.name); assert_eq!(nixpath.digest, expected_digest); assert_eq!(example_nix_path_str, nixpath.to_string()) } /// This is the store path rejected when `nix-store --add`'ing an /// empty `.gitignore` file. /// /// Nix 2.4 accidentally dropped this behaviour, but this is considered a bug. /// See https://github.com/NixOS/nix/pull/9095. #[test] fn starts_with_dot() { StorePath::from_bytes(b"fli4bwscgna7lpm7v5xgnjxrxh0yc7ra-.gitignore") .expect_err("must fail"); } #[test] fn empty_name() { StorePath::from_bytes(b"00bgd045z0d4icpbc2yy-").expect_err("must fail"); } #[test] fn excessive_length() { StorePath::from_bytes(b"00bgd045z0d4icpbc2yy-aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa") .expect_err("must fail"); } #[test] fn invalid_hash_length() { StorePath::from_bytes(b"00bgd045z0d4icpbc2yy-net-tools-1.60_p20170221182432") .expect_err("must fail"); } #[test] fn invalid_encoding_hash() { StorePath::from_bytes(b"00bgd045z0d4icpbc2yyz4gx48aku4la-net-tools-1.60_p20170221182432") .expect_err("must fail"); } #[test] fn more_than_just_the_bare_nix_store_path() { StorePath::from_bytes( b"00bgd045z0d4icpbc2yyz4gx48aku4la-net-tools-1.60_p20170221182432/bin/arp", ) .expect_err("must fail"); } #[test] fn no_dash_between_hash_and_name() { StorePath::from_bytes(b"00bgd045z0d4icpbc2yyz4gx48ak44lanet-tools-1.60_p20170221182432") .expect_err("must fail"); } #[test] fn absolute_path() { let example_nix_path_str = "00bgd045z0d4icpbc2yyz4gx48ak44la-net-tools-1.60_p20170221182432"; let nixpath_expected = StorePath::from_bytes(example_nix_path_str.as_bytes()).expect("must parse"); let nixpath_actual = StorePathRef::from_absolute_path( "/nix/store/00bgd045z0d4icpbc2yyz4gx48ak44la-net-tools-1.60_p20170221182432".as_bytes(), ) .expect("must parse") .to_owned(); assert_eq!(nixpath_expected, nixpath_actual); assert_eq!( "/nix/store/00bgd045z0d4icpbc2yyz4gx48ak44la-net-tools-1.60_p20170221182432", nixpath_actual.to_absolute_path(), ); } #[test] fn absolute_path_missing_prefix() { assert_eq!( Error::MissingStoreDir, StorePathRef::from_absolute_path(b"foobar-123").expect_err("must fail") ); } #[test_case( "/nix/store/00bgd045z0d4icpbc2yyz4gx48ak44la-net-tools-1.60_p20170221182432", (StorePath::from_bytes(b"00bgd045z0d4icpbc2yyz4gx48ak44la-net-tools-1.60_p20170221182432").unwrap(), PathBuf::new()) ; "without prefix")] #[test_case( "/nix/store/00bgd045z0d4icpbc2yyz4gx48ak44la-net-tools-1.60_p20170221182432/", (StorePath::from_bytes(b"00bgd045z0d4icpbc2yyz4gx48ak44la-net-tools-1.60_p20170221182432").unwrap(), PathBuf::new()) ; "without prefix, but trailing slash")] #[test_case( "/nix/store/00bgd045z0d4icpbc2yyz4gx48ak44la-net-tools-1.60_p20170221182432/bin/arp", (StorePath::from_bytes(b"00bgd045z0d4icpbc2yyz4gx48ak44la-net-tools-1.60_p20170221182432").unwrap(), PathBuf::from("bin/arp")) ; "with prefix")] #[test_case( "/nix/store/00bgd045z0d4icpbc2yyz4gx48ak44la-net-tools-1.60_p20170221182432/bin/arp/", (StorePath::from_bytes(b"00bgd045z0d4icpbc2yyz4gx48ak44la-net-tools-1.60_p20170221182432").unwrap(), PathBuf::from("bin/arp/")) ; "with prefix and trailing slash")] fn from_absolute_path_full(s: &str, expected: (StorePath, PathBuf)) { let actual = StorePath::from_absolute_path_full(s).expect("must succeed"); assert_eq!(expected, actual); } #[test] fn from_absolute_path_errors() { assert_eq!( Error::InvalidLength, StorePath::from_absolute_path_full("/nix/store/").expect_err("must fail") ); assert_eq!( Error::InvalidLength, StorePath::from_absolute_path_full("/nix/store/foo").expect_err("must fail") ); assert_eq!( Error::MissingStoreDir, StorePath::from_absolute_path_full( "00bgd045z0d4icpbc2yyz4gx48ak44la-net-tools-1.60_p20170221182432" ) .expect_err("must fail") ); } }