//! This module contains all the data structures used to track information
//! about inodes, which present tvix-store nodes in a filesystem.
use crate::{proto, B3Digest};
#[derive(Clone, Debug)]
pub enum InodeData {
Regular(B3Digest, u32, bool), // digest, size, executable
Symlink(bytes::Bytes), // target
Directory(DirectoryInodeData), // either [DirectoryInodeData:Sparse] or [DirectoryInodeData:Populated]
}
/// This encodes the two different states of [InodeData::Directory].
/// Either the data still is sparse (we only saw a [proto::DirectoryNode], but
/// didn't fetch the [proto::Directory] struct yet,
/// or we processed a lookup and did fetch the data.
#[derive(Clone, Debug)]
pub enum DirectoryInodeData {
Sparse(B3Digest, u32), // digest, size
Populated(B3Digest, Vec<(u64, proto::node::Node)>), // [(child_inode, node)]
}
impl From<&proto::node::Node> for InodeData {
fn from(value: &proto::node::Node) -> Self {
match value {
proto::node::Node::Directory(directory_node) => directory_node.into(),
proto::node::Node::File(file_node) => file_node.into(),
proto::node::Node::Symlink(symlink_node) => symlink_node.into(),
}
}
}
impl From<&proto::SymlinkNode> for InodeData {
fn from(value: &proto::SymlinkNode) -> Self {
InodeData::Symlink(value.target.clone())
}
}
impl From<&proto::FileNode> for InodeData {
fn from(value: &proto::FileNode) -> Self {
InodeData::Regular(
value.digest.clone().try_into().unwrap(),
value.size,
value.executable,
)
}
}
/// Converts a DirectoryNode to a sparsely populated InodeData::Directory.
impl From<&proto::DirectoryNode> for InodeData {
fn from(value: &proto::DirectoryNode) -> Self {
InodeData::Directory(DirectoryInodeData::Sparse(
value.digest.clone().try_into().unwrap(),
value.size,
))
}
}
/// converts a proto::Directory to a InodeData::Directory(DirectoryInodeData::Populated(..)).
/// The inodes for each child are 0, because it's up to the InodeTracker to allocate them.
impl From<proto::Directory> for InodeData {
fn from(value: proto::Directory) -> Self {
let digest = value.digest();
let children: Vec<(u64, proto::node::Node)> = value.nodes().map(|node| (0, node)).collect();
InodeData::Directory(DirectoryInodeData::Populated(digest, children))
}
}