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|
use futures::TryStreamExt;
use md5::{digest::DynDigest, Md5};
use nix_compat::{
nixhash::{CAHash, HashAlgo, NixHash},
store_path::{build_ca_path, BuildStorePathError, StorePathRef},
};
use sha1::Sha1;
use sha2::{digest::Output, Digest, Sha256, Sha512};
use tokio::io::{AsyncBufRead, AsyncRead, AsyncWrite, AsyncWriteExt, BufReader};
use tokio_util::io::{InspectReader, InspectWriter};
use tracing::{instrument, warn, Span};
use tracing_indicatif::span_ext::IndicatifSpanExt;
use tvix_castore::{
blobservice::BlobService,
directoryservice::DirectoryService,
proto::{node::Node, FileNode},
};
use tvix_store::{nar::NarCalculationService, pathinfoservice::PathInfoService, proto::PathInfo};
use url::Url;
use crate::builtins::FetcherError;
mod decompression;
use decompression::DecompressedReader;
/// Representing options for doing a fetch.
#[derive(Clone, Eq, PartialEq)]
pub enum Fetch {
/// Fetch a literal file from the given URL,
/// with an optional expected hash.
URL {
/// The URL to fetch from.
url: Url,
/// The expected hash of the file.
exp_hash: Option<NixHash>,
},
/// Fetch a tarball from the given URL and unpack.
/// The file must be a tape archive (.tar), optionally compressed with gzip,
/// bzip2 or xz.
/// The top-level path component of the files in the tarball is removed,
/// so it is best if the tarball contains a single directory at top level.
/// Optionally, a sha256 digest can be provided to verify the unpacked
/// contents against.
Tarball {
/// The URL to fetch from.
url: Url,
/// The expected hash of the contents, as NAR.
exp_nar_sha256: Option<[u8; 32]>,
},
/// Fetch a NAR file from the given URL and unpack.
/// The file can optionally be compressed.
NAR {
/// The URL to fetch from.
url: Url,
/// The expected hash of the NAR representation.
/// This unfortunately supports more than sha256.
hash: NixHash,
},
/// Fetches a file at a URL, makes it the store path root node,
/// but executable.
/// Used by <nix/fetchurl.nix>, with `executable = true;`.
/// The expected hash is over the NAR representation, but can be not SHA256:
/// ```nix
/// (import <nix/fetchurl.nix> { url = "https://cache.nixos.org/nar/0r8nqa1klm5v17ifc6z96m9wywxkjvgbnqq9pmy0sgqj53wj3n12.nar.xz"; hash = "sha1-NKNeU1csW5YJ4lCeWH3Z/apppNU="; executable = true; })
/// ```
Executable {
/// The URL to fetch from.
url: Url,
/// The expected hash of the NAR representation.
/// This unfortunately supports more than sha256.
hash: NixHash,
},
/// TODO
Git(),
}
// Drops potentially sensitive username and password from a URL.
fn redact_url(url: &Url) -> Url {
let mut url = url.to_owned();
if !url.username().is_empty() {
let _ = url.set_username("redacted");
}
if url.password().is_some() {
let _ = url.set_password(Some("redacted"));
}
url
}
impl std::fmt::Debug for Fetch {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
match self {
Fetch::URL { url, exp_hash } => {
let url = redact_url(url);
if let Some(exp_hash) = exp_hash {
write!(f, "URL [url: {}, exp_hash: Some({})]", &url, exp_hash)
} else {
write!(f, "URL [url: {}, exp_hash: None]", &url)
}
}
Fetch::Tarball {
url,
exp_nar_sha256,
} => {
let url = redact_url(url);
if let Some(exp_nar_sha256) = exp_nar_sha256 {
write!(
f,
"Tarball [url: {}, exp_nar_sha256: Some({})]",
url,
NixHash::Sha256(*exp_nar_sha256)
)
} else {
write!(f, "Tarball [url: {}, exp_hash: None]", url)
}
}
Fetch::NAR { url, hash } => {
let url = redact_url(url);
write!(f, "NAR [url: {}, hash: {}]", &url, hash)
}
Fetch::Executable { url, hash } => {
let url = redact_url(url);
write!(f, "Executable [url: {}, hash: {}]", &url, hash)
}
Fetch::Git() => todo!(),
}
}
}
impl Fetch {
/// If the [Fetch] contains an expected hash upfront, returns the resulting
/// store path.
/// This doesn't do any fetching.
pub fn store_path<'a>(
&self,
name: &'a str,
) -> Result<Option<StorePathRef<'a>>, BuildStorePathError> {
let ca_hash = match self {
Fetch::URL {
exp_hash: Some(exp_hash),
..
} => CAHash::Flat(exp_hash.clone()),
Fetch::Tarball {
exp_nar_sha256: Some(exp_nar_sha256),
..
} => CAHash::Nar(NixHash::Sha256(*exp_nar_sha256)),
Fetch::NAR { hash, .. } | Fetch::Executable { hash, .. } => {
CAHash::Nar(hash.to_owned())
}
Fetch::Git() => todo!(),
// everything else
Fetch::URL { exp_hash: None, .. }
| Fetch::Tarball {
exp_nar_sha256: None,
..
} => return Ok(None),
};
// calculate the store path of this fetch
build_ca_path(name, &ca_hash, Vec::<String>::new(), false).map(Some)
}
}
/// Knows how to fetch a given [Fetch].
pub struct Fetcher<BS, DS, PS, NS> {
http_client: reqwest::Client,
blob_service: BS,
directory_service: DS,
path_info_service: PS,
nar_calculation_service: NS,
}
impl<BS, DS, PS, NS> Fetcher<BS, DS, PS, NS> {
pub fn new(
blob_service: BS,
directory_service: DS,
path_info_service: PS,
nar_calculation_service: NS,
) -> Self {
Self {
http_client: reqwest::Client::new(),
blob_service,
directory_service,
path_info_service,
nar_calculation_service,
}
}
/// Constructs a HTTP request to the passed URL, and returns a AsyncReadBuf to it.
/// In case the URI uses the file:// scheme, use tokio::fs to open it.
#[instrument(skip_all, fields(url, indicatif.pb_show=1), err)]
async fn download(
&self,
url: Url,
) -> Result<Box<dyn AsyncBufRead + Unpin + Send>, FetcherError> {
let span = Span::current();
span.pb_set_message(&format!(
"📡Fetching {}",
// TOOD: maybe shorten
redact_url(&url)
));
match url.scheme() {
"file" => {
let f = tokio::fs::File::open(url.to_file_path().map_err(|_| {
// "Returns Err if the host is neither empty nor "localhost"
// (except on Windows, where file: URLs may have a non-local host)"
FetcherError::Io(std::io::Error::new(
std::io::ErrorKind::Other,
"invalid host for file:// scheme",
))
})?)
.await?;
span.pb_set_length(f.metadata().await?.len());
span.pb_set_style(&tvix_tracing::PB_TRANSFER_STYLE);
span.pb_start();
Ok(Box::new(tokio::io::BufReader::new(InspectReader::new(
f,
move |d| {
span.pb_inc(d.len() as u64);
},
))))
}
_ => {
let resp = self.http_client.get(url).send().await?;
if let Some(content_length) = resp.content_length() {
span.pb_set_length(content_length);
span.pb_set_style(&tvix_tracing::PB_TRANSFER_STYLE);
} else {
span.pb_set_style(&tvix_tracing::PB_TRANSFER_STYLE);
}
span.pb_start();
Ok(Box::new(tokio_util::io::StreamReader::new(
resp.bytes_stream()
.inspect_ok(move |d| {
span.pb_inc(d.len() as u64);
})
.map_err(|e| {
let e = e.without_url();
warn!(%e, "failed to get response body");
std::io::Error::new(std::io::ErrorKind::BrokenPipe, e)
}),
)))
}
}
}
}
/// Copies all data from the passed reader to the passed writer.
/// Afterwards, it also returns the resulting [Digest], as well as the number of
/// bytes copied.
/// The exact hash function used is left generic over all [Digest].
async fn hash<D: Digest + std::io::Write>(
mut r: impl AsyncRead + Unpin,
mut w: impl AsyncWrite + Unpin,
) -> std::io::Result<(Output<D>, u64)> {
let mut hasher = D::new();
let bytes_copied = tokio::io::copy(
&mut InspectReader::new(&mut r, |d| hasher.write_all(d).unwrap()),
&mut w,
)
.await?;
Ok((hasher.finalize(), bytes_copied))
}
impl<BS, DS, PS, NS> Fetcher<BS, DS, PS, NS>
where
BS: BlobService + Clone + 'static,
DS: DirectoryService + Clone,
PS: PathInfoService,
NS: NarCalculationService,
{
/// Ingest the data from a specified [Fetch].
/// On success, return the root node, a content digest and length.
/// Returns an error if there was a failure during fetching, or the contents
/// didn't match the previously communicated hash contained inside the FetchArgs.
pub async fn ingest(&self, fetch: Fetch) -> Result<(Node, CAHash, u64), FetcherError> {
match fetch {
Fetch::URL { url, exp_hash } => {
// Construct a AsyncRead reading from the data as its downloaded.
let mut r = self.download(url.clone()).await?;
// Construct a AsyncWrite to write into the BlobService.
let mut blob_writer = self.blob_service.open_write().await;
// Copy the contents from the download reader to the blob writer.
// Calculate the digest of the file received, depending on the
// communicated expected hash algo (or sha256 if none provided).
let (actual_hash, blob_size) = match exp_hash
.as_ref()
.map(NixHash::algo)
.unwrap_or_else(|| HashAlgo::Sha256)
{
HashAlgo::Sha256 => hash::<Sha256>(&mut r, &mut blob_writer).await.map(
|(digest, bytes_written)| (NixHash::Sha256(digest.into()), bytes_written),
)?,
HashAlgo::Md5 => hash::<Md5>(&mut r, &mut blob_writer).await.map(
|(digest, bytes_written)| (NixHash::Md5(digest.into()), bytes_written),
)?,
HashAlgo::Sha1 => hash::<Sha1>(&mut r, &mut blob_writer).await.map(
|(digest, bytes_written)| (NixHash::Sha1(digest.into()), bytes_written),
)?,
HashAlgo::Sha512 => hash::<Sha512>(&mut r, &mut blob_writer).await.map(
|(digest, bytes_written)| {
(NixHash::Sha512(Box::new(digest.into())), bytes_written)
},
)?,
};
if let Some(exp_hash) = exp_hash {
if exp_hash != actual_hash {
return Err(FetcherError::HashMismatch {
url,
wanted: exp_hash,
got: actual_hash,
});
}
}
// Construct and return the FileNode describing the downloaded contents.
Ok((
Node::File(FileNode {
name: vec![].into(),
digest: blob_writer.close().await?.into(),
size: blob_size,
executable: false,
}),
CAHash::Flat(actual_hash),
blob_size,
))
}
Fetch::Tarball {
url,
exp_nar_sha256,
} => {
// Construct a AsyncRead reading from the data as its downloaded.
let r = self.download(url.clone()).await?;
// Pop compression.
let r = DecompressedReader::new(r);
// Open the archive.
let archive = tokio_tar::Archive::new(r);
// Ingest the archive, get the root node.
let node = tvix_castore::import::archive::ingest_archive(
self.blob_service.clone(),
self.directory_service.clone(),
archive,
)
.await?;
// If an expected NAR sha256 was provided, compare with the one
// calculated from our root node.
// Even if no expected NAR sha256 has been provided, we need
// the actual one to calculate the store path.
let (nar_size, actual_nar_sha256) = self
.nar_calculation_service
.calculate_nar(&node)
.await
.map_err(|e| {
// convert the generic Store error to an IO error.
FetcherError::Io(e.into())
})?;
if let Some(exp_nar_sha256) = exp_nar_sha256 {
if exp_nar_sha256 != actual_nar_sha256 {
return Err(FetcherError::HashMismatch {
url,
wanted: NixHash::Sha256(exp_nar_sha256),
got: NixHash::Sha256(actual_nar_sha256),
});
}
}
Ok((
node,
CAHash::Nar(NixHash::Sha256(actual_nar_sha256)),
nar_size,
))
}
Fetch::NAR {
url,
hash: exp_hash,
} => {
// Construct a AsyncRead reading from the data as its downloaded.
let r = self.download(url.clone()).await?;
// Pop compression.
let r = DecompressedReader::new(r);
// Wrap the reader, calculating our own hash.
let mut hasher: Box<dyn DynDigest + Send> = match exp_hash.algo() {
HashAlgo::Md5 => Box::new(Md5::new()),
HashAlgo::Sha1 => Box::new(Sha1::new()),
HashAlgo::Sha256 => Box::new(Sha256::new()),
HashAlgo::Sha512 => Box::new(Sha512::new()),
};
let mut r = tokio_util::io::InspectReader::new(r, |b| {
hasher.update(b);
});
// Ingest the NAR, get the root node.
let (root_node, _actual_nar_sha256, actual_nar_size) =
tvix_store::nar::ingest_nar_and_hash(
self.blob_service.clone(),
self.directory_service.clone(),
&mut r,
)
.await
.map_err(|e| FetcherError::Io(std::io::Error::other(e.to_string())))?;
// finalize the hasher.
let actual_hash = {
match exp_hash.algo() {
HashAlgo::Md5 => {
NixHash::Md5(hasher.finalize().to_vec().try_into().unwrap())
}
HashAlgo::Sha1 => {
NixHash::Sha1(hasher.finalize().to_vec().try_into().unwrap())
}
HashAlgo::Sha256 => {
NixHash::Sha256(hasher.finalize().to_vec().try_into().unwrap())
}
HashAlgo::Sha512 => {
NixHash::Sha512(hasher.finalize().to_vec().try_into().unwrap())
}
}
};
// Ensure the hash matches.
if exp_hash != actual_hash {
return Err(FetcherError::HashMismatch {
url,
wanted: exp_hash,
got: actual_hash,
});
}
Ok((
root_node,
// use a CAHash::Nar with the algo from the input.
CAHash::Nar(exp_hash),
actual_nar_size,
))
}
Fetch::Executable {
url,
hash: exp_hash,
} => {
// Construct a AsyncRead reading from the data as its downloaded.
let mut r = self.download(url.clone()).await?;
// Construct a AsyncWrite to write into the BlobService.
let mut blob_writer = self.blob_service.open_write().await;
// Copy the contents from the download reader to the blob writer.
let file_size = tokio::io::copy(&mut r, &mut blob_writer).await?;
let blob_digest = blob_writer.close().await?;
// Render the NAR representation on-the-fly into a hash function with
// the same algo as our expected hash.
// We cannot do this upfront, as we don't know the actual size.
// FUTUREWORK: make opportunistic use of Content-Length header?
let w = tokio::io::sink();
// Construct the hash function.
let mut hasher: Box<dyn DynDigest + Send> = match exp_hash.algo() {
HashAlgo::Md5 => Box::new(Md5::new()),
HashAlgo::Sha1 => Box::new(Sha1::new()),
HashAlgo::Sha256 => Box::new(Sha256::new()),
HashAlgo::Sha512 => Box::new(Sha512::new()),
};
let mut nar_size: u64 = 0;
let mut w = InspectWriter::new(w, |d| {
hasher.update(d);
nar_size += d.len() as u64;
});
{
let node = nix_compat::nar::writer::r#async::open(&mut w).await?;
let blob_reader = self
.blob_service
.open_read(&blob_digest)
.await?
.expect("Tvix bug: just-uploaded blob not found");
node.file(true, file_size, &mut BufReader::new(blob_reader))
.await?;
w.flush().await?;
}
// finalize the hasher.
let actual_hash = {
match exp_hash.algo() {
HashAlgo::Md5 => {
NixHash::Md5(hasher.finalize().to_vec().try_into().unwrap())
}
HashAlgo::Sha1 => {
NixHash::Sha1(hasher.finalize().to_vec().try_into().unwrap())
}
HashAlgo::Sha256 => {
NixHash::Sha256(hasher.finalize().to_vec().try_into().unwrap())
}
HashAlgo::Sha512 => {
NixHash::Sha512(hasher.finalize().to_vec().try_into().unwrap())
}
}
};
if exp_hash != actual_hash {
return Err(FetcherError::HashMismatch {
url,
wanted: exp_hash,
got: actual_hash,
});
}
// Construct and return the FileNode describing the downloaded contents,
// make it executable.
let root_node = Node::File(FileNode {
name: vec![].into(),
digest: blob_digest.into(),
size: file_size,
executable: true,
});
Ok((root_node, CAHash::Nar(actual_hash), file_size))
}
Fetch::Git() => todo!(),
}
}
/// Ingests the data from a specified [Fetch], persists the returned node
/// in the PathInfoService, and returns the calculated StorePath, as well as
/// the root node pointing to the contents.
/// The root node can be used to descend into the data without doing the
/// lookup to the PathInfoService again.
pub async fn ingest_and_persist<'a>(
&self,
name: &'a str,
fetch: Fetch,
) -> Result<(StorePathRef<'a>, Node), FetcherError> {
// Fetch file, return the (unnamed) (File)Node of its contents, ca hash and filesize.
let (node, ca_hash, size) = self.ingest(fetch).await?;
// Calculate the store path to return, by calculating from ca_hash.
let store_path = build_ca_path(name, &ca_hash, Vec::<String>::new(), false)?;
// Rename the node name to match the Store Path.
let node = node.rename(store_path.to_string().into());
// If the resulting hash is not a CAHash::Nar, we also need to invoke
// `calculate_nar` to calculate this representation, as it's required in
// the [PathInfo].
// FUTUREWORK: allow ingest() to return multiple hashes, or have it feed
// nar_calculation_service too?
let (nar_size, nar_sha256) = match &ca_hash {
CAHash::Nar(NixHash::Sha256(nar_sha256)) => (size, *nar_sha256),
CAHash::Nar(_) | CAHash::Flat(_) => self
.nar_calculation_service
.calculate_nar(&node)
.await
.map_err(|e| FetcherError::Io(e.into()))?,
CAHash::Text(_) => unreachable!("Tvix bug: fetch returned CAHash::Text"),
};
// Construct the PathInfo and persist it.
let path_info = PathInfo {
node: Some(tvix_castore::proto::Node { node: Some(node) }),
references: vec![],
narinfo: Some(tvix_store::proto::NarInfo {
nar_size,
nar_sha256: nar_sha256.to_vec().into(),
signatures: vec![],
reference_names: vec![],
deriver: None,
ca: Some(ca_hash.into()),
}),
};
let path_info = self
.path_info_service
.put(path_info)
.await
.map_err(|e| FetcherError::Io(e.into()))?;
Ok((store_path, path_info.node.unwrap().node.unwrap()))
}
}
/// Attempts to mimic `nix::libutil::baseNameOf`
pub(crate) fn url_basename(url: &Url) -> &str {
let s = url.path();
if s.is_empty() {
return "";
}
let mut last = s.len() - 1;
if s.chars().nth(last).unwrap() == '/' && last > 0 {
last -= 1;
}
if last == 0 {
return "";
}
let pos = match s[..=last].rfind('/') {
Some(pos) => {
if pos == last - 1 {
0
} else {
pos
}
}
None => 0,
};
&s[(pos + 1)..=last]
}
#[cfg(test)]
mod tests {
mod fetch {
use super::super::*;
use crate::fetchers::Fetch;
use nix_compat::{nixbase32, nixhash};
use rstest::rstest;
#[rstest]
#[case::url_no_hash(
Fetch::URL{
url: Url::parse("https://raw.githubusercontent.com/aaptel/notmuch-extract-patch/f732a53e12a7c91a06755ebfab2007adc9b3063b/notmuch-extract-patch").unwrap(),
exp_hash: None,
},
None,
"notmuch-extract-patch"
)]
#[case::url_sha256(
Fetch::URL{
url: Url::parse("https://raw.githubusercontent.com/aaptel/notmuch-extract-patch/f732a53e12a7c91a06755ebfab2007adc9b3063b/notmuch-extract-patch").unwrap(),
exp_hash: Some(nixhash::from_sri_str("sha256-Xa1Jbl2Eq5+L0ww+Ph1osA3Z/Dxe/RkN1/dITQCdXFk=").unwrap()),
},
Some(StorePathRef::from_bytes(b"06qi00hylriyfm0nl827crgjvbax84mz-notmuch-extract-patch").unwrap()),
"notmuch-extract-patch"
)]
#[case::url_custom_name(
Fetch::URL{
url: Url::parse("https://test.example/owo").unwrap(),
exp_hash: Some(nixhash::from_sri_str("sha256-Xa1Jbl2Eq5+L0ww+Ph1osA3Z/Dxe/RkN1/dITQCdXFk=").unwrap()),
},
Some(StorePathRef::from_bytes(b"06qi00hylriyfm0nl827crgjvbax84mz-notmuch-extract-patch").unwrap()),
"notmuch-extract-patch"
)]
#[case::nar_sha256(
Fetch::NAR{
url: Url::parse("https://cache.nixos.org/nar/0r8nqa1klm5v17ifc6z96m9wywxkjvgbnqq9pmy0sgqj53wj3n12.nar.xz").unwrap(),
hash: nixhash::from_sri_str("sha256-oj6yfWKbcEerK8D9GdPJtIAOveNcsH1ztGeSARGypRA=").unwrap(),
},
Some(StorePathRef::from_bytes(b"b40vjphshq4fdgv8s3yrp0bdlafi4920-0r8nqa1klm5v17ifc6z96m9wywxkjvgbnqq9pmy0sgqj53wj3n12.nar.xz").unwrap()),
"0r8nqa1klm5v17ifc6z96m9wywxkjvgbnqq9pmy0sgqj53wj3n12.nar.xz"
)]
#[case::nar_sha1(
Fetch::NAR{
url: Url::parse("https://cache.nixos.org/nar/0r8nqa1klm5v17ifc6z96m9wywxkjvgbnqq9pmy0sgqj53wj3n12.nar.xz").unwrap(),
hash: nixhash::from_sri_str("sha1-F/fMsgwkXF8fPCg1v9zPZ4yOFIA=").unwrap(),
},
Some(StorePathRef::from_bytes(b"8kx7fdkdbzs4fkfb57xq0cbhs20ymq2n-0r8nqa1klm5v17ifc6z96m9wywxkjvgbnqq9pmy0sgqj53wj3n12.nar.xz").unwrap()),
"0r8nqa1klm5v17ifc6z96m9wywxkjvgbnqq9pmy0sgqj53wj3n12.nar.xz"
)]
#[case::nar_sha1(
Fetch::Executable{
url: Url::parse("https://cache.nixos.org/nar/0r8nqa1klm5v17ifc6z96m9wywxkjvgbnqq9pmy0sgqj53wj3n12.nar.xz").unwrap(),
hash: nixhash::from_sri_str("sha1-NKNeU1csW5YJ4lCeWH3Z/apppNU=").unwrap(),
},
Some(StorePathRef::from_bytes(b"y92hm2xfk1009hrq0ix80j4m5k4j4w21-0r8nqa1klm5v17ifc6z96m9wywxkjvgbnqq9pmy0sgqj53wj3n12.nar.xz").unwrap()),
"0r8nqa1klm5v17ifc6z96m9wywxkjvgbnqq9pmy0sgqj53wj3n12.nar.xz"
)]
fn fetch_store_path(
#[case] fetch: Fetch,
#[case] exp_path: Option<StorePathRef>,
#[case] name: &str,
) {
assert_eq!(
exp_path,
fetch.store_path(name).expect("invalid name"),
"unexpected calculated store path"
);
}
#[test]
fn fetch_tarball_store_path() {
let url = Url::parse("https://github.com/NixOS/nixpkgs/archive/91050ea1e57e50388fa87a3302ba12d188ef723a.tar.gz").unwrap();
let exp_sha256 =
nixbase32::decode_fixed("1hf6cgaci1n186kkkjq106ryf8mmlq9vnwgfwh625wa8hfgdn4dm")
.unwrap();
let fetch = Fetch::Tarball {
url,
exp_nar_sha256: Some(exp_sha256),
};
assert_eq!(
"7adgvk5zdfq4pwrhsm3n9lzypb12gw0g-source",
&fetch.store_path("source").unwrap().unwrap().to_string(),
)
}
}
mod url_basename {
use super::super::*;
use rstest::rstest;
#[rstest]
#[case::empty_path("", "")]
#[case::path_on_root("/dir", "dir")]
#[case::relative_path("dir/foo", "foo")]
#[case::root_with_trailing_slash("/", "")]
#[case::trailing_slash("/dir/", "dir")]
fn test_url_basename(#[case] url_path: &str, #[case] exp_basename: &str) {
let mut url = Url::parse("http://localhost").expect("invalid url");
url.set_path(url_path);
assert_eq!(url_basename(&url), exp_basename);
}
}
}
|