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#![allow(clippy::derive_partial_eq_without_eq, non_snake_case)]
use bytes::Bytes;
use data_encoding::BASE64;
// https://github.com/hyperium/tonic/issues/1056
use nix_compat::{
nixhash::{CAHash, NixHash},
store_path,
};
use thiserror::Error;
use tvix_castore::proto::{self as castorepb, NamedNode, ValidateNodeError};
mod grpc_pathinfoservice_wrapper;
pub use grpc_pathinfoservice_wrapper::GRPCPathInfoServiceWrapper;
tonic::include_proto!("tvix.store.v1");
#[cfg(feature = "tonic-reflection")]
/// Compiled file descriptors for implementing [gRPC
/// reflection](https://github.com/grpc/grpc/blob/master/doc/server-reflection.md) with e.g.
/// [`tonic_reflection`](https://docs.rs/tonic-reflection).
pub const FILE_DESCRIPTOR_SET: &[u8] = tonic::include_file_descriptor_set!("tvix.store.v1");
#[cfg(test)]
mod tests;
/// Errors that can occur during the validation of PathInfo messages.
#[derive(Debug, Error, PartialEq)]
pub enum ValidatePathInfoError {
/// Invalid length of a reference
#[error("Invalid length of digest at position {}, expected {}, got {}", .0, store_path::DIGEST_SIZE, .1)]
InvalidReferenceDigestLen(usize, usize),
/// No node present
#[error("No node present")]
NoNodePresent,
/// Node fails validation
#[error("Invalid root node: {:?}", .0.to_string())]
InvalidRootNode(ValidateNodeError),
/// Invalid node name encountered. Root nodes in PathInfos have more strict name requirements
#[error("Failed to parse {0:?} as StorePath: {1}")]
InvalidNodeName(Vec<u8>, store_path::Error),
/// The digest in narinfo.nar_sha256 has an invalid len.
#[error("Invalid narinfo.nar_sha256 length: expected {}, got {}", 32, .0)]
InvalidNarSha256DigestLen(usize),
/// The number of references in the narinfo.reference_names field does not match
/// the number of references in the .references field.
#[error("Inconsistent Number of References: {0} (references) vs {1} (narinfo)")]
InconsistentNumberOfReferences(usize, usize),
/// A string in narinfo.reference_names does not parse to a [store_path::StorePath].
#[error("Invalid reference_name at position {0}: {1}")]
InvalidNarinfoReferenceName(usize, String),
/// The digest in the parsed `.narinfo.reference_names[i]` does not match
/// the one in `.references[i]`.`
#[error("digest in reference_name at position {} does not match digest in PathInfo, expected {}, got {}", .0, BASE64.encode(.1), BASE64.encode(.2))]
InconsistentNarinfoReferenceNameDigest(
usize,
[u8; store_path::DIGEST_SIZE],
[u8; store_path::DIGEST_SIZE],
),
/// The deriver field is invalid.
#[error("deriver field is invalid: {0}")]
InvalidDeriverField(store_path::Error),
}
/// Parses a root node name.
///
/// On success, this returns the parsed [store_path::StorePath].
/// On error, it returns an error generated from the supplied constructor.
fn parse_node_name_root<E>(
name: &[u8],
err: fn(Vec<u8>, store_path::Error) -> E,
) -> Result<store_path::StorePath, E> {
match store_path::StorePath::from_bytes(name) {
Ok(np) => Ok(np),
Err(e) => Err(err(name.to_vec(), e)),
}
}
impl PathInfo {
/// validate performs some checks on the PathInfo struct,
/// Returning either a [store_path::StorePath] of the root node, or a
/// [ValidatePathInfoError].
pub fn validate(&self) -> Result<store_path::StorePath, ValidatePathInfoError> {
// ensure the references have the right number of bytes.
for (i, reference) in self.references.iter().enumerate() {
if reference.len() != store_path::DIGEST_SIZE {
return Err(ValidatePathInfoError::InvalidReferenceDigestLen(
i,
reference.len(),
));
}
}
// If there is a narinfo field populated…
if let Some(narinfo) = &self.narinfo {
// ensure the nar_sha256 digest has the correct length.
if narinfo.nar_sha256.len() != 32 {
return Err(ValidatePathInfoError::InvalidNarSha256DigestLen(
narinfo.nar_sha256.len(),
));
}
// ensure the number of references there matches PathInfo.references count.
if narinfo.reference_names.len() != self.references.len() {
return Err(ValidatePathInfoError::InconsistentNumberOfReferences(
self.references.len(),
narinfo.reference_names.len(),
));
}
// parse references in reference_names.
for (i, reference_name_str) in narinfo.reference_names.iter().enumerate() {
// ensure thy parse as (non-absolute) store path
let reference_names_store_path = store_path::StorePath::from_bytes(
reference_name_str.as_bytes(),
)
.map_err(|_| {
ValidatePathInfoError::InvalidNarinfoReferenceName(
i,
reference_name_str.to_owned(),
)
})?;
// ensure their digest matches the one at self.references[i].
{
// This is safe, because we ensured the proper length earlier already.
let reference_digest = self.references[i].to_vec().try_into().unwrap();
if reference_names_store_path.digest() != &reference_digest {
return Err(
ValidatePathInfoError::InconsistentNarinfoReferenceNameDigest(
i,
reference_digest,
*reference_names_store_path.digest(),
),
);
}
}
// If the Deriver field is populated, ensure it parses to a
// [store_path::StorePath].
// We can't check for it to *not* end with .drv, as the .drv files produced by
// recursive Nix end with multiple .drv suffixes, and only one is popped when
// converting to this field.
if let Some(deriver) = &narinfo.deriver {
store_path::StorePathRef::from_name_and_digest(&deriver.name, &deriver.digest)
.map_err(ValidatePathInfoError::InvalidDeriverField)?
.to_owned();
}
}
}
// Ensure there is a (root) node present, and it properly parses to a [store_path::StorePath].
let root_nix_path = match &self.node {
None | Some(castorepb::Node { node: None }) => {
Err(ValidatePathInfoError::NoNodePresent)?
}
Some(castorepb::Node { node: Some(node) }) => {
node.validate()
.map_err(ValidatePathInfoError::InvalidRootNode)?;
// parse the name of the node itself and return
parse_node_name_root(node.get_name(), ValidatePathInfoError::InvalidNodeName)?
}
};
// return the root nix path
Ok(root_nix_path)
}
}
/// Errors that can occur when converting from a [&nar_info::Ca] to a (stricter)
/// [nix_compat::nixhash::CAHash].
#[derive(Debug, Error, PartialEq)]
pub enum ConvertCAError {
/// Invalid length of a reference
#[error("Invalid digest length '{0}' for type {1}")]
InvalidReferenceDigestLen(usize, &'static str),
/// Unknown Hash type
#[error("Unknown hash type: {0}")]
UnknownHashType(i32),
}
impl TryFrom<&nar_info::Ca> for nix_compat::nixhash::CAHash {
type Error = ConvertCAError;
fn try_from(value: &nar_info::Ca) -> Result<Self, Self::Error> {
Ok(match value.r#type {
typ if typ == nar_info::ca::Hash::FlatMd5 as i32 => {
Self::Flat(NixHash::Md5(value.digest[..].try_into().map_err(|_| {
ConvertCAError::InvalidReferenceDigestLen(value.digest.len(), "FlatMd5")
})?))
}
typ if typ == nar_info::ca::Hash::FlatSha1 as i32 => {
Self::Flat(NixHash::Sha1(value.digest[..].try_into().map_err(
|_| ConvertCAError::InvalidReferenceDigestLen(value.digest.len(), "FlatSha1"),
)?))
}
typ if typ == nar_info::ca::Hash::FlatSha256 as i32 => {
Self::Flat(NixHash::Sha256(value.digest[..].try_into().map_err(
|_| ConvertCAError::InvalidReferenceDigestLen(value.digest.len(), "FlatSha256"),
)?))
}
typ if typ == nar_info::ca::Hash::FlatSha512 as i32 => Self::Flat(NixHash::Sha512(
Box::new(value.digest[..].try_into().map_err(|_| {
ConvertCAError::InvalidReferenceDigestLen(value.digest.len(), "FlatSha512")
})?),
)),
typ if typ == nar_info::ca::Hash::NarMd5 as i32 => {
Self::Nar(NixHash::Md5(value.digest[..].try_into().map_err(|_| {
ConvertCAError::InvalidReferenceDigestLen(value.digest.len(), "NarMd5")
})?))
}
typ if typ == nar_info::ca::Hash::NarSha1 as i32 => {
Self::Nar(NixHash::Sha1(value.digest[..].try_into().map_err(
|_| ConvertCAError::InvalidReferenceDigestLen(value.digest.len(), "NarSha1"),
)?))
}
typ if typ == nar_info::ca::Hash::NarSha256 as i32 => {
Self::Nar(NixHash::Sha256(value.digest[..].try_into().map_err(
|_| ConvertCAError::InvalidReferenceDigestLen(value.digest.len(), "NarSha256"),
)?))
}
typ if typ == nar_info::ca::Hash::NarSha512 as i32 => Self::Nar(NixHash::Sha512(
Box::new(value.digest[..].try_into().map_err(|_| {
ConvertCAError::InvalidReferenceDigestLen(value.digest.len(), "NarSha512")
})?),
)),
typ => return Err(ConvertCAError::UnknownHashType(typ)),
})
}
}
impl From<&nix_compat::nixhash::CAHash> for nar_info::Ca {
fn from(value: &nix_compat::nixhash::CAHash) -> Self {
nar_info::Ca {
r#type: match value {
CAHash::Flat(NixHash::Md5(_)) => nar_info::ca::Hash::FlatMd5.into(),
CAHash::Flat(NixHash::Sha1(_)) => nar_info::ca::Hash::FlatSha1.into(),
CAHash::Flat(NixHash::Sha256(_)) => nar_info::ca::Hash::FlatSha256.into(),
CAHash::Flat(NixHash::Sha512(_)) => nar_info::ca::Hash::FlatSha512.into(),
CAHash::Nar(NixHash::Md5(_)) => nar_info::ca::Hash::NarMd5.into(),
CAHash::Nar(NixHash::Sha1(_)) => nar_info::ca::Hash::NarSha1.into(),
CAHash::Nar(NixHash::Sha256(_)) => nar_info::ca::Hash::NarSha256.into(),
CAHash::Nar(NixHash::Sha512(_)) => nar_info::ca::Hash::NarSha512.into(),
CAHash::Text(_) => nar_info::ca::Hash::TextSha256.into(),
},
digest: match value {
CAHash::Flat(ref nixhash) | CAHash::Nar(ref nixhash) => {
nixhash.digest_as_bytes().to_vec().into()
}
CAHash::Text(digest) => digest.to_vec().into(),
},
}
}
}
impl From<&nix_compat::narinfo::NarInfo<'_>> for NarInfo {
/// Converts from a NarInfo (returned from the NARInfo parser) to the proto-
/// level NarInfo struct.
fn from(value: &nix_compat::narinfo::NarInfo<'_>) -> Self {
let signatures = value
.signatures
.iter()
.map(|sig| nar_info::Signature {
name: sig.name().to_string(),
data: Bytes::copy_from_slice(sig.bytes()),
})
.collect();
NarInfo {
nar_size: value.nar_size,
nar_sha256: Bytes::copy_from_slice(&value.nar_hash),
signatures,
reference_names: value.references.iter().map(|r| r.to_string()).collect(),
deriver: value.deriver.as_ref().map(|sp| StorePath {
name: sp.name().to_owned(),
digest: Bytes::copy_from_slice(sp.digest()),
}),
ca: value.ca.as_ref().map(|ca| ca.into()),
}
}
}
impl From<&nix_compat::narinfo::NarInfo<'_>> for PathInfo {
/// Converts from a NarInfo (returned from the NARInfo parser) to a PathInfo
/// struct with the node set to None.
fn from(value: &nix_compat::narinfo::NarInfo<'_>) -> Self {
Self {
node: None,
references: value
.references
.iter()
.map(|x| Bytes::copy_from_slice(x.digest()))
.collect(),
narinfo: Some(value.into()),
}
}
}
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