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|
//! Implements builtins used to import paths in the store.
use crate::tvix_store_io::TvixStoreIO;
use std::path::Path;
use tvix_castore::import::ingest_entries;
use tvix_castore::Node;
use tvix_eval::{
builtin_macros::builtins,
generators::{self, GenCo},
ErrorKind, EvalIO, Value,
};
use std::rc::Rc;
async fn filtered_ingest(
state: Rc<TvixStoreIO>,
co: GenCo,
path: &Path,
filter: Option<&Value>,
) -> Result<Node, ErrorKind> {
let mut entries: Vec<walkdir::DirEntry> = vec![];
let mut it = walkdir::WalkDir::new(path)
.follow_links(false)
.follow_root_links(false)
.contents_first(false)
.into_iter();
// Skip root node.
entries.push(
it.next()
.ok_or_else(|| ErrorKind::IO {
path: Some(path.to_path_buf()),
error: std::io::Error::new(std::io::ErrorKind::NotFound, "No root node emitted")
.into(),
})?
.map_err(|err| ErrorKind::IO {
path: Some(path.to_path_buf()),
error: std::io::Error::from(err).into(),
})?,
);
while let Some(entry) = it.next() {
// Entry could be a NotFound, if the root path specified does not exist.
let entry = entry.map_err(|err| ErrorKind::IO {
path: err.path().map(|p| p.to_path_buf()),
error: std::io::Error::from(err).into(),
})?;
// As per Nix documentation `:doc builtins.filterSource`.
let file_type = if entry.file_type().is_dir() {
"directory"
} else if entry.file_type().is_file() {
"regular"
} else if entry.file_type().is_symlink() {
"symlink"
} else {
"unknown"
};
let should_keep: bool = if let Some(filter) = filter {
generators::request_force(
&co,
generators::request_call_with(
&co,
filter.clone(),
[
Value::String(entry.path().as_os_str().as_encoded_bytes().into()),
Value::String(file_type.into()),
],
)
.await,
)
.await
.as_bool()?
} else {
true
};
if !should_keep {
if file_type == "directory" {
it.skip_current_dir();
}
continue;
}
entries.push(entry);
}
let dir_entries = entries.into_iter().rev().map(Ok);
state.tokio_handle.block_on(async {
let entries = tvix_castore::import::fs::dir_entries_to_ingestion_stream::<'_, _, _, &[u8]>(
&state.blob_service,
dir_entries,
path,
None, // TODO re-scan
);
ingest_entries(&state.directory_service, entries)
.await
.map_err(|e| ErrorKind::IO {
path: Some(path.to_path_buf()),
error: Rc::new(std::io::Error::new(std::io::ErrorKind::Other, e)),
})
})
}
#[builtins(state = "Rc<TvixStoreIO>")]
mod import_builtins {
use super::*;
use crate::builtins::ImportError;
use crate::tvix_store_io::TvixStoreIO;
use bstr::ByteSlice;
use nix_compat::nixhash::{CAHash, NixHash};
use nix_compat::store_path::{build_ca_path, StorePathRef};
use sha2::Digest;
use std::rc::Rc;
use tokio::io::AsyncWriteExt;
use tvix_eval::builtins::coerce_value_to_path;
use tvix_eval::generators::Gen;
use tvix_eval::{generators::GenCo, ErrorKind, Value};
use tvix_eval::{FileType, NixContextElement, NixString};
use tvix_store::path_info::PathInfo;
#[builtin("path")]
async fn builtin_path(
state: Rc<TvixStoreIO>,
co: GenCo,
args: Value,
) -> Result<Value, ErrorKind> {
let args = args.to_attrs()?;
let path = args.select_required("path")?;
let path =
match coerce_value_to_path(&co, generators::request_force(&co, path.clone()).await)
.await?
{
Ok(path) => path,
Err(cek) => return Ok(cek.into()),
};
let name: String = if let Some(name) = args.select("name") {
generators::request_force(&co, name.clone())
.await
.to_str()?
.as_bstr()
.to_string()
} else {
tvix_store::import::path_to_name(&path)
.expect("Failed to derive the default name out of the path")
.to_string()
};
let filter = args.select("filter");
// Construct a sha256 hasher, which is needed for flat ingestion.
let recursive_ingestion = args
.select("recursive")
.map(|r| r.as_bool())
.transpose()?
.unwrap_or(true); // Yes, yes, Nix, by default, puts `recursive = true;`.
let expected_sha256 = args
.select("sha256")
.map(|h| {
h.to_str().and_then(|expected| {
match nix_compat::nixhash::from_str(
expected.into_bstring().to_str()?,
Some("sha256"),
) {
Ok(NixHash::Sha256(digest)) => Ok(digest),
Ok(_) => unreachable!(),
Err(_e) => {
// TODO: a better error would be nice, we use
// DerivationError::InvalidOutputHash usually for derivation construction.
// This is not a derivation construction, should we move it outside and
// generalize?
Err(ErrorKind::TypeError {
expected: "sha256",
actual: "not a sha256",
})
}
}
})
})
.transpose()?;
// As a first step, we ingest the contents, and get back a root node,
// and optionally the sha256 a flat file.
let (root_node, ca) = match state.file_type(path.as_ref())? {
// Check if the path points to a regular file.
// If it does, the filter function is never executed, and we copy to the blobservice directly.
// If recursive is false, we need to calculate the sha256 digest of the raw contents,
// as that affects the output path calculation.
FileType::Regular => {
let mut file = state.open(path.as_ref())?;
let mut flat_sha256 = (!recursive_ingestion).then(sha2::Sha256::new);
let mut blob_size = 0;
let mut blob_writer = state
.tokio_handle
.block_on(async { state.blob_service.open_write().await });
// read piece by piece and write to blob_writer.
// This is a bit manual due to EvalIO being sync, while everything else async.
{
let mut buf = [0u8; 4096];
loop {
// read bytes into buffer, break out if EOF
let len = file.read(&mut buf)?;
if len == 0 {
break;
}
blob_size += len as u64;
let data = &buf[0..len];
// add to blobwriter
state
.tokio_handle
.block_on(async { blob_writer.write_all(data).await })?;
// update blob_sha256 if needed.
if let Some(h) = flat_sha256.as_mut() {
h.update(data)
}
}
}
// close the blob writer, construct the root node and the blob_sha256 (later used for output path calculation)
(
Node::File {
digest: state
.tokio_handle
.block_on(async { blob_writer.close().await })?,
size: blob_size,
executable: false,
},
{
// If non-recursive ingestion is requested…
if let Some(flat_sha256) = flat_sha256 {
let actual_sha256 = flat_sha256.finalize().into();
// compare the recorded flat hash with an upfront one if provided.
if let Some(expected_sha256) = expected_sha256 {
if actual_sha256 != expected_sha256 {
return Err(ImportError::HashMismatch(
path,
NixHash::Sha256(expected_sha256),
NixHash::Sha256(actual_sha256),
)
.into());
}
}
Some(CAHash::Flat(NixHash::Sha256(actual_sha256)))
} else {
None
}
},
)
}
FileType::Directory if !recursive_ingestion => {
return Err(ImportError::FlatImportOfNonFile(path))?
}
// do the filtered ingest
FileType::Directory => (
filtered_ingest(state.clone(), co, path.as_ref(), filter).await?,
None,
),
FileType::Symlink => {
// FUTUREWORK: Nix follows a symlink if it's at the root,
// except if it's not resolve-able (NixOS/nix#7761).i
return Err(tvix_eval::ErrorKind::IO {
path: Some(path.to_path_buf()),
error: Rc::new(std::io::Error::new(
std::io::ErrorKind::Unsupported,
"builtins.path pointing to a symlink is ill-defined.",
)),
});
}
FileType::Unknown => {
return Err(tvix_eval::ErrorKind::IO {
path: Some(path.to_path_buf()),
error: Rc::new(std::io::Error::new(
std::io::ErrorKind::Unsupported,
"unsupported file type",
)),
})
}
};
// Calculate the NAR sha256.
let (nar_size, nar_sha256) = state
.tokio_handle
.block_on(async {
state
.nar_calculation_service
.as_ref()
.calculate_nar(&root_node)
.await
})
.map_err(|e| tvix_eval::ErrorKind::TvixError(Rc::new(e)))?;
// Calculate the CA hash for the recursive cases, this is only already
// `Some(_)` for flat ingestion.
let ca = match ca {
None => {
// If an upfront-expected NAR hash was specified, compare.
if let Some(expected_nar_sha256) = expected_sha256 {
if expected_nar_sha256 != nar_sha256 {
return Err(ImportError::HashMismatch(
path,
NixHash::Sha256(expected_nar_sha256),
NixHash::Sha256(nar_sha256),
)
.into());
}
}
CAHash::Nar(NixHash::Sha256(nar_sha256))
}
Some(ca) => ca,
};
let store_path = build_ca_path(&name, &ca, Vec::<&str>::new(), false)
.map_err(|e| tvix_eval::ErrorKind::TvixError(Rc::new(e)))?;
let path_info = state
.tokio_handle
.block_on(async {
state
.path_info_service
.as_ref()
.put(PathInfo {
store_path,
node: root_node,
// There's no reference scanning on path contents ingested like this.
references: vec![],
nar_size,
nar_sha256,
signatures: vec![],
deriver: None,
ca: Some(ca),
})
.await
})
.map_err(|e| tvix_eval::ErrorKind::IO {
path: Some(path.to_path_buf()),
error: Rc::new(e.into()),
})?;
// We need to attach context to the final output path.
let outpath = path_info.store_path.to_absolute_path();
Ok(
NixString::new_context_from(NixContextElement::Plain(outpath.clone()).into(), outpath)
.into(),
)
}
#[builtin("filterSource")]
async fn builtin_filter_source(
state: Rc<TvixStoreIO>,
co: GenCo,
#[lazy] filter: Value,
path: Value,
) -> Result<Value, ErrorKind> {
let p = path.to_path()?;
let root_node = filtered_ingest(Rc::clone(&state), co, &p, Some(&filter)).await?;
let name = tvix_store::import::path_to_name(&p)?;
let path_info = state
.tokio_handle
.block_on(async {
// Ask the PathInfoService for the NAR size and sha256
// We always need it no matter what is the actual hash mode
// because the [PathInfo] needs to contain nar_{sha256,size}.
let (nar_size, nar_sha256) = state
.nar_calculation_service
.as_ref()
.calculate_nar(&root_node)
.await?;
let ca = CAHash::Nar(NixHash::Sha256(nar_sha256));
// Calculate the output path. This might still fail, as some names are illegal.
let output_path =
nix_compat::store_path::build_ca_path(name, &ca, Vec::<&str>::new(), false)
.map_err(|_| {
std::io::Error::new(
std::io::ErrorKind::InvalidData,
format!("invalid name: {}", name),
)
})?;
state
.path_info_service
.as_ref()
.put(PathInfo {
store_path: output_path,
node: root_node,
// There's no reference scanning on path contents ingested like this.
references: vec![],
nar_size,
nar_sha256,
signatures: vec![],
deriver: None,
ca: Some(ca),
})
.await
})
.map_err(|e| ErrorKind::IO {
path: Some(p.to_path_buf()),
error: Rc::new(e.into()),
})?;
// We need to attach context to the final output path.
let outpath = path_info.store_path.to_absolute_path();
Ok(
NixString::new_context_from(NixContextElement::Plain(outpath.clone()).into(), outpath)
.into(),
)
}
#[builtin("storePath")]
async fn builtin_store_path(
state: Rc<TvixStoreIO>,
co: GenCo,
path: Value,
) -> Result<Value, ErrorKind> {
let p = match &path {
Value::String(s) => Path::new(s.as_bytes().to_os_str()?),
Value::Path(p) => p.as_path(),
_ => {
return Err(ErrorKind::TypeError {
expected: "string or path",
actual: path.type_of(),
})
}
};
// For this builtin, the path needs to start with an absolute store path.
let (store_path, _sub_path) = StorePathRef::from_absolute_path_full(p)
.map_err(|_e| ImportError::PathNotAbsoluteOrInvalid(p.to_path_buf()))?;
if state.path_exists(p)? {
Ok(Value::String(NixString::new_context_from(
[NixContextElement::Plain(store_path.to_absolute_path())].into(),
p.as_os_str().as_encoded_bytes(),
)))
} else {
Err(ErrorKind::IO {
path: Some(p.to_path_buf()),
error: Rc::new(std::io::ErrorKind::NotFound.into()),
})
}
}
}
pub use import_builtins::builtins as import_builtins;
|