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use std::collections::btree_map::{self, BTreeMap};
use crate::{errors::DirectoryError, path::PathComponent, proto, B3Digest, Node};
/// A Directory contains nodes, which can be Directory, File or Symlink nodes.
/// It attaches names to these nodes, which is the basename in that directory.
/// These names:
/// - MUST not contain slashes or null bytes
/// - MUST not be '.' or '..'
/// - MUST be unique across all three lists
#[derive(Default, Debug, Clone, PartialEq, Eq)]
pub struct Directory {
nodes: BTreeMap<PathComponent, Node>,
}
impl Directory {
/// Constructs a new, empty Directory.
pub fn new() -> Self {
Directory {
nodes: BTreeMap::new(),
}
}
/// Construct a [Directory] from tuples of name and [Node].
///
/// Inserting multiple elements with the same name will yield an error, as
/// well as exceeding the maximum size.
pub fn try_from_iter<T: IntoIterator<Item = (PathComponent, Node)>>(
iter: T,
) -> Result<Directory, DirectoryError> {
let mut nodes = BTreeMap::new();
iter.into_iter().try_fold(0u64, |size, (name, node)| {
check_insert_node(size, &mut nodes, name, node)
})?;
Ok(Self { nodes })
}
/// The size of a directory is the number of all regular and symlink elements,
/// the number of directory elements, and their size fields.
pub fn size(&self) -> u64 {
// It's impossible to create a Directory where the size overflows, because we
// check before every add() that the size won't overflow.
(self.nodes.len() as u64)
+ self
.nodes()
.map(|(_name, n)| match n {
Node::Directory { size, .. } => 1 + size,
Node::File { .. } | Node::Symlink { .. } => 1,
})
.sum::<u64>()
}
/// Calculates the digest of a Directory, which is the blake3 hash of a
/// Directory protobuf message, serialized in protobuf canonical form.
pub fn digest(&self) -> B3Digest {
proto::Directory::from(self.clone()).digest()
}
/// Allows iterating over all nodes (directories, files and symlinks)
/// For each, it returns a tuple of its name and node.
/// The elements are sorted by their names.
pub fn nodes(&self) -> impl Iterator<Item = (&PathComponent, &Node)> + Send + Sync + '_ {
self.nodes.iter()
}
/// Dissolves a Directory into its individual names and nodes.
/// The elements are sorted by their names.
pub fn into_nodes(self) -> impl Iterator<Item = (PathComponent, Node)> + Send + Sync {
self.nodes.into_iter()
}
/// Adds the specified [Node] to the [Directory] with a given name.
///
/// Inserting a node that already exists with the same name in the directory
/// will yield an error, as well as exceeding the maximum size.
///
/// In case you want to construct a [Directory] from multiple elements, use
/// [from_iter] instead.
pub fn add(&mut self, name: PathComponent, node: Node) -> Result<(), DirectoryError> {
check_insert_node(self.size(), &mut self.nodes, name, node)?;
Ok(())
}
}
fn checked_sum(iter: impl IntoIterator<Item = u64>) -> Option<u64> {
iter.into_iter().try_fold(0u64, |acc, i| acc.checked_add(i))
}
/// Helper function dealing with inserting nodes into the nodes [BTreeMap],
/// after ensuring the new size doesn't overlow and the key doesn't exist already.
///
/// Returns the new total size, or an error.
fn check_insert_node(
current_size: u64,
nodes: &mut BTreeMap<PathComponent, Node>,
name: PathComponent,
node: Node,
) -> Result<u64, DirectoryError> {
// Check that the even after adding this new directory entry, the size calculation will not
// overflow
let new_size = checked_sum([
current_size,
1,
match node {
Node::Directory { size, .. } => size,
_ => 0,
},
])
.ok_or(DirectoryError::SizeOverflow)?;
match nodes.entry(name) {
btree_map::Entry::Vacant(e) => {
e.insert(node);
}
btree_map::Entry::Occupied(occupied) => {
return Err(DirectoryError::DuplicateName(occupied.key().to_owned()))
}
}
Ok(new_size)
}
#[cfg(test)]
mod test {
use super::{Directory, Node};
use crate::fixtures::DUMMY_DIGEST;
use crate::{DirectoryError, PathComponent};
#[test]
fn from_iter_single() {
Directory::try_from_iter([(
PathComponent::try_from("b").unwrap(),
Node::Directory {
digest: DUMMY_DIGEST.clone(),
size: 1,
},
)])
.unwrap();
}
#[test]
fn from_iter_multiple() {
let d = Directory::try_from_iter([
(
"b".try_into().unwrap(),
Node::Directory {
digest: DUMMY_DIGEST.clone(),
size: 1,
},
),
(
"a".try_into().unwrap(),
Node::Directory {
digest: DUMMY_DIGEST.clone(),
size: 1,
},
),
(
"z".try_into().unwrap(),
Node::Directory {
digest: DUMMY_DIGEST.clone(),
size: 1,
},
),
(
"f".try_into().unwrap(),
Node::File {
digest: DUMMY_DIGEST.clone(),
size: 1,
executable: true,
},
),
(
"c".try_into().unwrap(),
Node::File {
digest: DUMMY_DIGEST.clone(),
size: 1,
executable: true,
},
),
(
"g".try_into().unwrap(),
Node::File {
digest: DUMMY_DIGEST.clone(),
size: 1,
executable: true,
},
),
(
"t".try_into().unwrap(),
Node::Symlink {
target: "a".try_into().unwrap(),
},
),
(
"o".try_into().unwrap(),
Node::Symlink {
target: "a".try_into().unwrap(),
},
),
(
"e".try_into().unwrap(),
Node::Symlink {
target: "a".try_into().unwrap(),
},
),
])
.unwrap();
// Convert to proto struct and back to ensure we are not generating any invalid structures
crate::Directory::try_from(crate::proto::Directory::from(d))
.expect("directory should be valid");
}
#[test]
fn add_nodes_to_directory() {
let mut d = Directory::new();
d.add(
"b".try_into().unwrap(),
Node::Directory {
digest: DUMMY_DIGEST.clone(),
size: 1,
},
)
.unwrap();
d.add(
"a".try_into().unwrap(),
Node::Directory {
digest: DUMMY_DIGEST.clone(),
size: 1,
},
)
.unwrap();
// Convert to proto struct and back to ensure we are not generating any invalid structures
crate::Directory::try_from(crate::proto::Directory::from(d))
.expect("directory should be valid");
}
#[test]
fn validate_overflow() {
let mut d = Directory::new();
assert_eq!(
d.add(
"foo".try_into().unwrap(),
Node::Directory {
digest: DUMMY_DIGEST.clone(),
size: u64::MAX
}
),
Err(DirectoryError::SizeOverflow)
);
}
#[test]
fn add_duplicate_node_to_directory() {
let mut d = Directory::new();
d.add(
"a".try_into().unwrap(),
Node::Directory {
digest: DUMMY_DIGEST.clone(),
size: 1,
},
)
.unwrap();
assert_eq!(
format!(
"{}",
d.add(
"a".try_into().unwrap(),
Node::File {
digest: DUMMY_DIGEST.clone(),
size: 1,
executable: true
}
)
.expect_err("adding duplicate dir entry must fail")
),
"\"a\" is a duplicate name"
);
}
}