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//! The main library function here is [ingest_entries], receiving a stream of
//! [IngestionEntry].
//!
//! Specific implementations, such as ingesting from the filesystem, live in
//! child modules.
use crate::blobservice::BlobService;
use crate::directoryservice::DirectoryPutter;
use crate::directoryservice::DirectoryService;
use crate::proto::node::Node;
use crate::proto::Directory;
use crate::proto::DirectoryNode;
use crate::proto::FileNode;
use crate::proto::SymlinkNode;
use crate::B3Digest;
use futures::{Stream, StreamExt};
use std::fs::FileType;
use tracing::Level;
#[cfg(target_family = "unix")]
use std::os::unix::ffi::OsStrExt;
use std::{
collections::HashMap,
path::{Path, PathBuf},
};
use tracing::instrument;
mod error;
pub use error::Error;
pub mod archive;
pub mod fs;
/// Ingests [IngestionEntry] from the given stream into a the passed [DirectoryService].
/// On success, returns the root [Node].
///
/// The stream must have the following invariants:
/// - All children entries must come before their parents.
/// - The last entry must be the root node which must have a single path component.
/// - Every entry should have a unique path, and only consist of normal components.
/// This means, no windows path prefixes, absolute paths, `.` or `..`.
/// - All referenced directories must have an associated directory entry in the stream.
/// This means if there is a file entry for `foo/bar`, there must also be a `foo` directory
/// entry.
///
/// Internally we maintain a [HashMap] of [PathBuf] to partially populated [Directory] at that
/// path. Once we receive an [IngestionEntry] for the directory itself, we remove it from the
/// map and upload it to the [DirectoryService] through a lazily created [DirectoryPutter].
///
/// On success, returns the root node.
#[instrument(skip_all, ret(level = Level::TRACE), err)]
pub async fn ingest_entries<DS, S>(directory_service: DS, mut entries: S) -> Result<Node, Error>
where
DS: AsRef<dyn DirectoryService>,
S: Stream<Item = Result<IngestionEntry, Error>> + Send + std::marker::Unpin,
{
// For a given path, this holds the [Directory] structs as they are populated.
let mut directories: HashMap<PathBuf, Directory> = HashMap::default();
let mut maybe_directory_putter: Option<Box<dyn DirectoryPutter>> = None;
let root_node = loop {
let mut entry = entries
.next()
.await
// The last entry of the stream must have 1 path component, after which
// we break the loop manually.
.expect("Tvix bug: unexpected end of stream")?;
debug_assert!(
entry
.path()
.components()
.all(|x| matches!(x, std::path::Component::Normal(_))),
"path may only contain normal components"
);
let name = entry
.path()
.file_name()
// If this is the root node, it will have an empty name.
.unwrap_or_default()
.as_bytes()
.to_owned()
.into();
let node = match &mut entry {
IngestionEntry::Dir { .. } => {
// If the entry is a directory, we traversed all its children (and
// populated it in `directories`).
// If we don't have it in there, it's an empty directory.
let directory = directories
.remove(entry.path())
// In that case, it contained no children
.unwrap_or_default();
let directory_size = directory.size();
let directory_digest = directory.digest();
// Use the directory_putter to upload the directory.
// If we don't have one yet (as that's the first one to upload),
// initialize the putter.
maybe_directory_putter
.get_or_insert_with(|| directory_service.as_ref().put_multiple_start())
.put(directory)
.await?;
Node::Directory(DirectoryNode {
name,
digest: directory_digest.into(),
size: directory_size,
})
}
IngestionEntry::Symlink { ref target, .. } => Node::Symlink(SymlinkNode {
name,
target: target.as_os_str().as_bytes().to_owned().into(),
}),
IngestionEntry::Regular {
size,
executable,
digest,
..
} => Node::File(FileNode {
name,
digest: digest.to_owned().into(),
size: *size,
executable: *executable,
}),
IngestionEntry::Unknown { path, file_type } => {
return Err(Error::UnsupportedFileType(path.clone(), *file_type));
}
};
if entry.path().components().count() == 1 {
break node;
}
// record node in parent directory, creating a new [Directory] if not there yet.
directories
.entry(entry.path().parent().unwrap().to_path_buf())
.or_default()
.add(node);
};
assert!(
directories.is_empty(),
"Tvix bug: left over directories after processing ingestion stream"
);
// if there were directories uploaded, make sure we flush the putter, so
// they're all persisted to the backend.
if let Some(mut directory_putter) = maybe_directory_putter {
#[cfg_attr(not(debug_assertions), allow(unused))]
let root_directory_digest = directory_putter.close().await?;
#[cfg(debug_assertions)]
{
if let Node::Directory(directory_node) = &root_node {
debug_assert_eq!(
root_directory_digest,
directory_node
.digest
.to_vec()
.try_into()
.expect("invalid digest len")
)
} else {
unreachable!("Tvix bug: directory putter initialized but no root directory node");
}
}
};
Ok(root_node)
}
/// Uploads the file at the provided [Path] the the [BlobService].
#[instrument(skip(blob_service), fields(path), err)]
async fn upload_blob_at_path<BS>(blob_service: BS, path: PathBuf) -> Result<B3Digest, Error>
where
BS: BlobService,
{
let mut file = match tokio::fs::File::open(&path).await {
Ok(file) => file,
Err(e) => return Err(Error::UnableToRead(path, e)),
};
let mut writer = blob_service.open_write().await;
if let Err(e) = tokio::io::copy(&mut file, &mut writer).await {
return Err(Error::UnableToRead(path, e));
};
let digest = writer
.close()
.await
.map_err(|e| Error::UnableToRead(path, e))?;
Ok(digest)
}
pub enum IngestionEntry {
Regular {
path: PathBuf,
size: u64,
executable: bool,
digest: B3Digest,
},
Symlink {
path: PathBuf,
target: PathBuf,
},
Dir {
path: PathBuf,
},
Unknown {
path: PathBuf,
file_type: FileType,
},
}
impl IngestionEntry {
fn path(&self) -> &Path {
match self {
IngestionEntry::Regular { path, .. } => path,
IngestionEntry::Symlink { path, .. } => path,
IngestionEntry::Dir { path } => path,
IngestionEntry::Unknown { path, .. } => path,
}
}
}
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