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|
use std::io::Read;
use crate::nar;
#[test]
fn symlink() {
let mut f = std::io::Cursor::new(include_bytes!("../tests/symlink.nar"));
let node = nar::reader::open(&mut f).unwrap();
match node {
nar::reader::Node::Symlink { target } => {
assert_eq!(
&b"/nix/store/somewhereelse"[..],
&target,
"target must match"
);
}
_ => panic!("unexpected type"),
}
}
#[test]
fn file() {
let mut f = std::io::Cursor::new(include_bytes!("../tests/helloworld.nar"));
let node = nar::reader::open(&mut f).unwrap();
match node {
nar::reader::Node::File {
executable,
mut reader,
} => {
assert!(!executable);
let mut buf = vec![];
reader.read_to_end(&mut buf).expect("read must succeed");
assert_eq!(&b"Hello World!"[..], &buf);
}
_ => panic!("unexpected type"),
}
}
#[test]
fn complicated() {
let mut f = std::io::Cursor::new(include_bytes!("../tests/complicated.nar"));
let node = nar::reader::open(&mut f).unwrap();
match node {
nar::reader::Node::Directory(mut dir_reader) => {
// first entry is .keep, an empty regular file.
must_read_file(
".keep",
dir_reader
.next()
.expect("next must succeed")
.expect("must be some"),
);
// second entry is aa, a symlink to /nix/store/somewhereelse
must_be_symlink(
"aa",
"/nix/store/somewhereelse",
dir_reader
.next()
.expect("next must be some")
.expect("must be some"),
);
{
// third entry is a directory called "keep"
let entry = dir_reader
.next()
.expect("next must be some")
.expect("must be some");
assert_eq!(&b"keep"[..], &entry.name);
match entry.node {
nar::reader::Node::Directory(mut subdir_reader) => {
{
// first entry is .keep, an empty regular file.
let entry = subdir_reader
.next()
.expect("next must succeed")
.expect("must be some");
must_read_file(".keep", entry);
}
// we must read the None
assert!(
subdir_reader.next().expect("next must succeed").is_none(),
"keep directory contains only .keep"
);
}
_ => panic!("unexpected type for keep/.keep"),
}
};
// reading more entries yields None (and we actually must read until this)
assert!(dir_reader.next().expect("must succeed").is_none());
}
_ => panic!("unexpected type"),
}
}
#[test]
#[should_panic]
fn file_read_abandoned() {
let mut f = std::io::Cursor::new(include_bytes!("../tests/complicated.nar"));
let node = nar::reader::open(&mut f).unwrap();
match node {
nar::reader::Node::Directory(mut dir_reader) => {
// first entry is .keep, an empty regular file.
{
let entry = dir_reader
.next()
.expect("next must succeed")
.expect("must be some");
assert_eq!(&b".keep"[..], &entry.name);
// don't bother to finish reading it.
};
// this should panic (not return an error), because we are meant to abandon the archive reader now.
assert!(dir_reader.next().expect("must succeed").is_none());
}
_ => panic!("unexpected type"),
}
}
#[test]
#[should_panic]
fn dir_read_abandoned() {
let mut f = std::io::Cursor::new(include_bytes!("../tests/complicated.nar"));
let node = nar::reader::open(&mut f).unwrap();
match node {
nar::reader::Node::Directory(mut dir_reader) => {
// first entry is .keep, an empty regular file.
must_read_file(
".keep",
dir_reader
.next()
.expect("next must succeed")
.expect("must be some"),
);
// second entry is aa, a symlink to /nix/store/somewhereelse
must_be_symlink(
"aa",
"/nix/store/somewhereelse",
dir_reader
.next()
.expect("next must be some")
.expect("must be some"),
);
{
// third entry is a directory called "keep"
let entry = dir_reader
.next()
.expect("next must be some")
.expect("must be some");
assert_eq!(&b"keep"[..], &entry.name);
match entry.node {
nar::reader::Node::Directory(_) => {
// don't finish using it, which poisons the archive reader
}
_ => panic!("unexpected type for keep/.keep"),
}
};
// this should panic, because we didn't finish reading the child subdirectory
assert!(dir_reader.next().expect("must succeed").is_none());
}
_ => panic!("unexpected type"),
}
}
#[test]
#[should_panic]
fn dir_read_after_none() {
let mut f = std::io::Cursor::new(include_bytes!("../tests/complicated.nar"));
let node = nar::reader::open(&mut f).unwrap();
match node {
nar::reader::Node::Directory(mut dir_reader) => {
// first entry is .keep, an empty regular file.
must_read_file(
".keep",
dir_reader
.next()
.expect("next must succeed")
.expect("must be some"),
);
// second entry is aa, a symlink to /nix/store/somewhereelse
must_be_symlink(
"aa",
"/nix/store/somewhereelse",
dir_reader
.next()
.expect("next must be some")
.expect("must be some"),
);
{
// third entry is a directory called "keep"
let entry = dir_reader
.next()
.expect("next must be some")
.expect("must be some");
assert_eq!(&b"keep"[..], &entry.name);
match entry.node {
nar::reader::Node::Directory(mut subdir_reader) => {
// first entry is .keep, an empty regular file.
must_read_file(
".keep",
subdir_reader
.next()
.expect("next must succeed")
.expect("must be some"),
);
// we must read the None
assert!(
subdir_reader.next().expect("next must succeed").is_none(),
"keep directory contains only .keep"
);
}
_ => panic!("unexpected type for keep/.keep"),
}
};
// reading more entries yields None (and we actually must read until this)
assert!(dir_reader.next().expect("must succeed").is_none());
// this should panic, because we already got a none so we're meant to stop.
dir_reader.next().unwrap();
unreachable!()
}
_ => panic!("unexpected type"),
}
}
fn must_read_file(name: &'static str, entry: nar::reader::Entry<'_, '_>) {
assert_eq!(name.as_bytes(), &entry.name);
match entry.node {
nar::reader::Node::File {
executable,
mut reader,
} => {
assert!(!executable);
assert_eq!(reader.read(&mut [0]).unwrap(), 0);
}
_ => panic!("unexpected type for {}", name),
}
}
fn must_be_symlink(
name: &'static str,
exp_target: &'static str,
entry: nar::reader::Entry<'_, '_>,
) {
assert_eq!(name.as_bytes(), &entry.name);
match entry.node {
nar::reader::Node::Symlink { target } => {
assert_eq!(exp_target.as_bytes(), &target);
}
_ => panic!("unexpected type for {}", name),
}
}
|
