From 371a060eb685a2b76651689689dfa07461f69c7e Mon Sep 17 00:00:00 2001 From: Valentin Popov Date: Mon, 9 Feb 2026 23:11:11 +0000 Subject: Refactor tests and move them to a dedicated module - Moved the test suite from `lib.rs` to a new `tests.rs` file for better organization. - Added a `SyntheticRsliEntry` struct to facilitate synthetic test cases. - Introduced `RsliBuildOptions` struct to manage options for building RsLi byte arrays. - Implemented various utility functions for file handling, data compression, and bit manipulation. - Enhanced the `rsli_read_unpack_and_repack_all_files` test to validate all RsLi archives. - Added new tests for synthetic entries covering all packing methods, overlay handling, and validation error cases. --- crates/rsli/src/lib.rs | 186 +---------- crates/rsli/src/tests.rs | 847 +++++++++++++++++++++++++++++++++++++++++++++++ 2 files changed, 849 insertions(+), 184 deletions(-) create mode 100644 crates/rsli/src/tests.rs (limited to 'crates/rsli') diff --git a/crates/rsli/src/lib.rs b/crates/rsli/src/lib.rs index 0c55b25..ae800dc 100644 --- a/crates/rsli/src/lib.rs +++ b/crates/rsli/src/lib.rs @@ -27,6 +27,7 @@ impl Default for OpenOptions { } } +#[derive(Debug)] pub struct Library { bytes: Arc<[u8]>, entries: Vec, @@ -979,187 +980,4 @@ fn needs_xor_key(method: PackMethod) -> bool { } #[cfg(test)] -mod tests { - use super::*; - use std::any::Any; - use std::panic::{catch_unwind, AssertUnwindSafe}; - use std::path::PathBuf; - - fn collect_files_recursive(root: &Path, out: &mut Vec) { - let Ok(entries) = fs::read_dir(root) else { - return; - }; - for entry in entries.flatten() { - let path = entry.path(); - if path.is_dir() { - collect_files_recursive(&path, out); - } else if path.is_file() { - out.push(path); - } - } - } - - fn rsli_test_files() -> Vec { - let root = Path::new(env!("CARGO_MANIFEST_DIR")) - .join("..") - .join("..") - .join("testdata") - .join("rsli"); - let mut files = Vec::new(); - collect_files_recursive(&root, &mut files); - files.sort(); - files - .into_iter() - .filter(|path| { - fs::read(path) - .map(|data| data.get(0..4) == Some(b"NL\0\x01")) - .unwrap_or(false) - }) - .collect() - } - - fn panic_message(payload: Box) -> String { - let any = payload.as_ref(); - if let Some(message) = any.downcast_ref::() { - return message.clone(); - } - if let Some(message) = any.downcast_ref::<&str>() { - return (*message).to_string(); - } - String::from("panic without message") - } - - #[test] - fn rsli_read_unpack_and_repack_all_files() { - let files = rsli_test_files(); - assert!(!files.is_empty(), "testdata/rsli contains no RsLi archives"); - - let checked = files.len(); - let mut success = 0usize; - let mut failures = Vec::new(); - - for path in files { - let display_path = path.display().to_string(); - let result = catch_unwind(AssertUnwindSafe(|| { - let original = fs::read(&path).expect("failed to read archive"); - let library = Library::open_path(&path) - .unwrap_or_else(|err| panic!("failed to open {}: {err}", path.display())); - - let count = library.entry_count(); - assert_eq!( - count, - library.entries().count(), - "entry count mismatch: {}", - path.display() - ); - - for idx in 0..count { - let id = EntryId(idx as u32); - let meta_ref = library - .get(id) - .unwrap_or_else(|| panic!("missing entry #{idx} in {}", path.display())); - - let loaded = library.load(id).unwrap_or_else(|err| { - panic!("load failed for {} entry #{idx}: {err}", path.display()) - }); - - let packed = library.load_packed(id).unwrap_or_else(|err| { - panic!( - "load_packed failed for {} entry #{idx}: {err}", - path.display() - ) - }); - let unpacked = library.unpack(&packed).unwrap_or_else(|err| { - panic!("unpack failed for {} entry #{idx}: {err}", path.display()) - }); - assert_eq!( - loaded, - unpacked, - "load != unpack in {} entry #{idx}", - path.display() - ); - - let mut out = Vec::new(); - let written = library.load_into(id, &mut out).unwrap_or_else(|err| { - panic!( - "load_into failed for {} entry #{idx}: {err}", - path.display() - ) - }); - assert_eq!( - written, - loaded.len(), - "load_into size mismatch in {} entry #{idx}", - path.display() - ); - assert_eq!( - out, - loaded, - "load_into payload mismatch in {} entry #{idx}", - path.display() - ); - - let fast = library.load_fast(id).unwrap_or_else(|err| { - panic!( - "load_fast failed for {} entry #{idx}: {err}", - path.display() - ) - }); - assert_eq!( - fast.as_slice(), - loaded.as_slice(), - "load_fast mismatch in {} entry #{idx}", - path.display() - ); - - let found = library.find(&meta_ref.meta.name).unwrap_or_else(|| { - panic!( - "find failed for '{}' in {}", - meta_ref.meta.name, - path.display() - ) - }); - let found_meta = library.get(found).expect("find returned invalid entry id"); - assert_eq!( - found_meta.meta.name, - meta_ref.meta.name, - "find returned a different entry in {}", - path.display() - ); - } - - let rebuilt = library - .rebuild_from_parsed_metadata() - .unwrap_or_else(|err| panic!("rebuild failed for {}: {err}", path.display())); - assert_eq!( - rebuilt, - original, - "byte-to-byte roundtrip mismatch for {}", - path.display() - ); - })); - - match result { - Ok(()) => success += 1, - Err(payload) => { - failures.push(format!("{}: {}", display_path, panic_message(payload))); - } - } - } - - let failed = failures.len(); - eprintln!( - "RsLi summary: checked={}, success={}, failed={}", - checked, success, failed - ); - if !failures.is_empty() { - panic!( - "RsLi validation failed.\nsummary: checked={}, success={}, failed={}\n{}", - checked, - success, - failed, - failures.join("\n") - ); - } - } -} +mod tests; diff --git a/crates/rsli/src/tests.rs b/crates/rsli/src/tests.rs new file mode 100644 index 0000000..4d91aef --- /dev/null +++ b/crates/rsli/src/tests.rs @@ -0,0 +1,847 @@ +use super::*; +use flate2::write::DeflateEncoder; +use flate2::Compression; +use std::any::Any; +use std::fs; +use std::io::Write as _; +use std::panic::{catch_unwind, AssertUnwindSafe}; +use std::path::PathBuf; + +#[derive(Clone, Debug)] +struct SyntheticRsliEntry { + name: String, + method_raw: u16, + plain: Vec, + declared_packed_size: Option, +} + +#[derive(Clone, Debug)] +struct RsliBuildOptions { + seed: u32, + presorted: bool, + overlay: u32, + add_ao_trailer: bool, +} + +impl Default for RsliBuildOptions { + fn default() -> Self { + Self { + seed: 0x1234_5678, + presorted: true, + overlay: 0, + add_ao_trailer: false, + } + } +} + +fn collect_files_recursive(root: &Path, out: &mut Vec) { + let Ok(entries) = fs::read_dir(root) else { + return; + }; + for entry in entries.flatten() { + let path = entry.path(); + if path.is_dir() { + collect_files_recursive(&path, out); + } else if path.is_file() { + out.push(path); + } + } +} + +fn rsli_test_files() -> Vec { + let root = Path::new(env!("CARGO_MANIFEST_DIR")) + .join("..") + .join("..") + .join("testdata") + .join("rsli"); + let mut files = Vec::new(); + collect_files_recursive(&root, &mut files); + files.sort(); + files + .into_iter() + .filter(|path| { + fs::read(path) + .map(|data| data.get(0..4) == Some(b"NL\0\x01")) + .unwrap_or(false) + }) + .collect() +} + +fn panic_message(payload: Box) -> String { + let any = payload.as_ref(); + if let Some(message) = any.downcast_ref::() { + return message.clone(); + } + if let Some(message) = any.downcast_ref::<&str>() { + return (*message).to_string(); + } + String::from("panic without message") +} + +fn write_temp_file(prefix: &str, bytes: &[u8]) -> PathBuf { + let mut path = std::env::temp_dir(); + path.push(format!( + "{}-{}-{}.bin", + prefix, + std::process::id(), + std::time::SystemTime::now() + .duration_since(std::time::UNIX_EPOCH) + .map(|d| d.as_nanos()) + .unwrap_or(0) + )); + fs::write(&path, bytes).expect("failed to write temp archive"); + path +} + +fn deflate_raw(data: &[u8]) -> Vec { + let mut encoder = DeflateEncoder::new(Vec::new(), Compression::default()); + encoder + .write_all(data) + .expect("deflate encoder write failed"); + encoder.finish().expect("deflate encoder finish failed") +} + +fn lzss_pack_literals(data: &[u8]) -> Vec { + let mut out = Vec::new(); + for chunk in data.chunks(8) { + let mask = if chunk.len() == 8 { + 0xFF + } else { + (1u16 + .checked_shl(u32::try_from(chunk.len()).expect("chunk len overflow")) + .expect("shift overflow") + - 1) as u8 + }; + out.push(mask); + out.extend_from_slice(chunk); + } + out +} + +struct BitWriter { + bytes: Vec, + current: u8, + mask: u8, +} + +impl BitWriter { + fn new() -> Self { + Self { + bytes: Vec::new(), + current: 0, + mask: 0x80, + } + } + + fn write_bit(&mut self, bit: u8) { + if bit != 0 { + self.current |= self.mask; + } + self.mask >>= 1; + if self.mask == 0 { + self.bytes.push(self.current); + self.current = 0; + self.mask = 0x80; + } + } + + fn finish(mut self) -> Vec { + if self.mask != 0x80 { + self.bytes.push(self.current); + } + self.bytes + } +} + +struct LzhLiteralModel { + freq: [u16; LZH_T + 1], + parent: [usize; LZH_T + LZH_N_CHAR], + son: [usize; LZH_T + 1], +} + +impl LzhLiteralModel { + fn new() -> Self { + let mut model = Self { + freq: [0; LZH_T + 1], + parent: [0; LZH_T + LZH_N_CHAR], + son: [0; LZH_T + 1], + }; + model.start_huff(); + model + } + + fn encode_literal(&mut self, literal: u8, writer: &mut BitWriter) { + let target = usize::from(literal) + LZH_T; + let mut path = Vec::new(); + let mut visited = [false; LZH_T + 1]; + let found = self.find_path(self.son[LZH_R], target, &mut path, &mut visited); + assert!(found, "failed to encode literal {literal}"); + for bit in path { + writer.write_bit(bit); + } + + self.update(usize::from(literal)); + } + + fn find_path( + &self, + node: usize, + target: usize, + path: &mut Vec, + visited: &mut [bool; LZH_T + 1], + ) -> bool { + if node == target { + return true; + } + if node >= LZH_T { + return false; + } + if visited[node] { + return false; + } + visited[node] = true; + + for bit in [0u8, 1u8] { + let child = self.son[node + usize::from(bit)]; + path.push(bit); + if self.find_path(child, target, path, visited) { + visited[node] = false; + return true; + } + path.pop(); + } + + visited[node] = false; + false + } + + fn start_huff(&mut self) { + for i in 0..LZH_N_CHAR { + self.freq[i] = 1; + self.son[i] = i + LZH_T; + self.parent[i + LZH_T] = i; + } + + let mut i = 0usize; + let mut j = LZH_N_CHAR; + while j <= LZH_R { + self.freq[j] = self.freq[i].saturating_add(self.freq[i + 1]); + self.son[j] = i; + self.parent[i] = j; + self.parent[i + 1] = j; + i += 2; + j += 1; + } + + self.freq[LZH_T] = u16::MAX; + self.parent[LZH_R] = 0; + } + + fn update(&mut self, c: usize) { + if self.freq[LZH_R] == LZH_MAX_FREQ { + self.reconstruct(); + } + + let mut current = self.parent[c + LZH_T]; + loop { + self.freq[current] = self.freq[current].saturating_add(1); + let freq = self.freq[current]; + + if current + 1 < self.freq.len() && freq > self.freq[current + 1] { + let mut swap_idx = current + 1; + while swap_idx + 1 < self.freq.len() && freq > self.freq[swap_idx + 1] { + swap_idx += 1; + } + + self.freq.swap(current, swap_idx); + + let left = self.son[current]; + let right = self.son[swap_idx]; + self.son[current] = right; + self.son[swap_idx] = left; + + self.parent[left] = swap_idx; + if left < LZH_T { + self.parent[left + 1] = swap_idx; + } + + self.parent[right] = current; + if right < LZH_T { + self.parent[right + 1] = current; + } + + current = swap_idx; + } + + current = self.parent[current]; + if current == 0 { + break; + } + } + } + + fn reconstruct(&mut self) { + let mut j = 0usize; + for i in 0..LZH_T { + if self.son[i] >= LZH_T { + self.freq[j] = self.freq[i].div_ceil(2); + self.son[j] = self.son[i]; + j += 1; + } + } + + let mut i = 0usize; + let mut current = LZH_N_CHAR; + while current < LZH_T { + let sum = self.freq[i].saturating_add(self.freq[i + 1]); + self.freq[current] = sum; + + let mut insert_at = current; + while insert_at > 0 && sum < self.freq[insert_at - 1] { + insert_at -= 1; + } + + for move_idx in (insert_at..current).rev() { + self.freq[move_idx + 1] = self.freq[move_idx]; + self.son[move_idx + 1] = self.son[move_idx]; + } + + self.freq[insert_at] = sum; + self.son[insert_at] = i; + i += 2; + current += 1; + } + + for idx in 0..LZH_T { + let node = self.son[idx]; + self.parent[node] = idx; + if node < LZH_T { + self.parent[node + 1] = idx; + } + } + + self.freq[LZH_T] = u16::MAX; + self.parent[LZH_R] = 0; + } +} + +fn lzh_pack_literals(data: &[u8]) -> Vec { + let mut writer = BitWriter::new(); + let mut model = LzhLiteralModel::new(); + for byte in data { + model.encode_literal(*byte, &mut writer); + } + writer.finish() +} + +fn packed_for_method(method_raw: u16, plain: &[u8], key16: u16) -> Vec { + match (u32::from(method_raw)) & 0x1E0 { + 0x000 => plain.to_vec(), + 0x020 => xor_stream(plain, key16), + 0x040 => lzss_pack_literals(plain), + 0x060 => xor_stream(&lzss_pack_literals(plain), key16), + 0x080 => lzh_pack_literals(plain), + 0x0A0 => xor_stream(&lzh_pack_literals(plain), key16), + 0x100 => deflate_raw(plain), + _ => plain.to_vec(), + } +} + +fn build_rsli_bytes(entries: &[SyntheticRsliEntry], opts: &RsliBuildOptions) -> Vec { + let count = entries.len(); + let mut rows_plain = vec![0u8; count * 32]; + let table_end = 32 + rows_plain.len(); + + let mut sort_lookup: Vec = (0..count).collect(); + sort_lookup.sort_by(|a, b| entries[*a].name.as_bytes().cmp(entries[*b].name.as_bytes())); + + let mut packed_blobs = Vec::with_capacity(count); + for index in 0..count { + let key16 = u16::try_from(sort_lookup[index]).expect("sort index overflow"); + let packed = packed_for_method(entries[index].method_raw, &entries[index].plain, key16); + packed_blobs.push(packed); + } + + let overlay = usize::try_from(opts.overlay).expect("overlay overflow"); + let mut cursor = table_end + overlay; + let mut output = vec![0u8; cursor]; + + let mut data_offsets = Vec::with_capacity(count); + for (index, packed) in packed_blobs.iter().enumerate() { + let raw_offset = cursor + .checked_sub(overlay) + .expect("overlay larger than cursor"); + data_offsets.push(raw_offset); + + let end = cursor.checked_add(packed.len()).expect("cursor overflow"); + if output.len() < end { + output.resize(end, 0); + } + output[cursor..end].copy_from_slice(packed); + cursor = end; + + let base = index * 32; + let mut name_raw = [0u8; 12]; + let uppercase = entries[index].name.to_ascii_uppercase(); + let name_bytes = uppercase.as_bytes(); + assert!(name_bytes.len() <= 12, "name too long in synthetic fixture"); + name_raw[..name_bytes.len()].copy_from_slice(name_bytes); + + rows_plain[base..base + 12].copy_from_slice(&name_raw); + + let sort_field: i16 = if opts.presorted { + i16::try_from(sort_lookup[index]).expect("sort field overflow") + } else { + 0 + }; + + let packed_size = entries[index] + .declared_packed_size + .unwrap_or_else(|| u32::try_from(packed.len()).expect("packed size overflow")); + + rows_plain[base + 16..base + 18].copy_from_slice(&entries[index].method_raw.to_le_bytes()); + rows_plain[base + 18..base + 20].copy_from_slice(&sort_field.to_le_bytes()); + rows_plain[base + 20..base + 24].copy_from_slice( + &u32::try_from(entries[index].plain.len()) + .expect("unpacked size overflow") + .to_le_bytes(), + ); + rows_plain[base + 24..base + 28].copy_from_slice( + &u32::try_from(data_offsets[index]) + .expect("data offset overflow") + .to_le_bytes(), + ); + rows_plain[base + 28..base + 32].copy_from_slice(&packed_size.to_le_bytes()); + } + + if output.len() < table_end { + output.resize(table_end, 0); + } + + output[0..2].copy_from_slice(b"NL"); + output[2] = 0; + output[3] = 1; + output[4..6].copy_from_slice( + &i16::try_from(count) + .expect("entry count overflow") + .to_le_bytes(), + ); + + let presorted_flag = if opts.presorted { 0xABBA_u16 } else { 0_u16 }; + output[14..16].copy_from_slice(&presorted_flag.to_le_bytes()); + output[20..24].copy_from_slice(&opts.seed.to_le_bytes()); + + let encrypted_table = xor_stream(&rows_plain, (opts.seed & 0xFFFF) as u16); + output[32..table_end].copy_from_slice(&encrypted_table); + + if opts.add_ao_trailer { + output.extend_from_slice(b"AO"); + output.extend_from_slice(&opts.overlay.to_le_bytes()); + } + + output +} + +#[test] +fn rsli_read_unpack_and_repack_all_files() { + let files = rsli_test_files(); + assert!(!files.is_empty(), "testdata/rsli contains no RsLi archives"); + + let checked = files.len(); + let mut success = 0usize; + let mut failures = Vec::new(); + + for path in files { + let display_path = path.display().to_string(); + let result = catch_unwind(AssertUnwindSafe(|| { + let original = fs::read(&path).expect("failed to read archive"); + let library = Library::open_path(&path) + .unwrap_or_else(|err| panic!("failed to open {}: {err}", path.display())); + + let count = library.entry_count(); + assert_eq!( + count, + library.entries().count(), + "entry count mismatch: {}", + path.display() + ); + + for idx in 0..count { + let id = EntryId(idx as u32); + let meta_ref = library + .get(id) + .unwrap_or_else(|| panic!("missing entry #{idx} in {}", path.display())); + + let loaded = library.load(id).unwrap_or_else(|err| { + panic!("load failed for {} entry #{idx}: {err}", path.display()) + }); + + let packed = library.load_packed(id).unwrap_or_else(|err| { + panic!( + "load_packed failed for {} entry #{idx}: {err}", + path.display() + ) + }); + let unpacked = library.unpack(&packed).unwrap_or_else(|err| { + panic!("unpack failed for {} entry #{idx}: {err}", path.display()) + }); + assert_eq!( + loaded, + unpacked, + "load != unpack in {} entry #{idx}", + path.display() + ); + + let mut out = Vec::new(); + let written = library.load_into(id, &mut out).unwrap_or_else(|err| { + panic!( + "load_into failed for {} entry #{idx}: {err}", + path.display() + ) + }); + assert_eq!( + written, + loaded.len(), + "load_into size mismatch in {} entry #{idx}", + path.display() + ); + assert_eq!( + out, + loaded, + "load_into payload mismatch in {} entry #{idx}", + path.display() + ); + + let fast = library.load_fast(id).unwrap_or_else(|err| { + panic!( + "load_fast failed for {} entry #{idx}: {err}", + path.display() + ) + }); + assert_eq!( + fast.as_slice(), + loaded.as_slice(), + "load_fast mismatch in {} entry #{idx}", + path.display() + ); + + let found = library.find(&meta_ref.meta.name).unwrap_or_else(|| { + panic!( + "find failed for '{}' in {}", + meta_ref.meta.name, + path.display() + ) + }); + let found_meta = library.get(found).expect("find returned invalid entry id"); + assert_eq!( + found_meta.meta.name, + meta_ref.meta.name, + "find returned a different entry in {}", + path.display() + ); + } + + let rebuilt = library + .rebuild_from_parsed_metadata() + .unwrap_or_else(|err| panic!("rebuild failed for {}: {err}", path.display())); + assert_eq!( + rebuilt, + original, + "byte-to-byte roundtrip mismatch for {}", + path.display() + ); + })); + + match result { + Ok(()) => success += 1, + Err(payload) => failures.push(format!("{}: {}", display_path, panic_message(payload))), + } + } + + let failed = failures.len(); + eprintln!( + "RsLi summary: checked={}, success={}, failed={}", + checked, success, failed + ); + if !failures.is_empty() { + panic!( + "RsLi validation failed.\nsummary: checked={}, success={}, failed={}\n{}", + checked, + success, + failed, + failures.join("\n") + ); + } +} + +#[test] +fn rsli_synthetic_all_methods_roundtrip() { + let entries = vec![ + SyntheticRsliEntry { + name: "M_NONE".to_string(), + method_raw: 0x000, + plain: b"plain-data".to_vec(), + declared_packed_size: None, + }, + SyntheticRsliEntry { + name: "M_XOR".to_string(), + method_raw: 0x020, + plain: b"xor-only".to_vec(), + declared_packed_size: None, + }, + SyntheticRsliEntry { + name: "M_LZSS".to_string(), + method_raw: 0x040, + plain: b"lzss literals payload".to_vec(), + declared_packed_size: None, + }, + SyntheticRsliEntry { + name: "M_XLZS".to_string(), + method_raw: 0x060, + plain: b"xor lzss payload".to_vec(), + declared_packed_size: None, + }, + SyntheticRsliEntry { + name: "M_LZHU".to_string(), + method_raw: 0x080, + plain: b"huffman literals payload".to_vec(), + declared_packed_size: None, + }, + SyntheticRsliEntry { + name: "M_XLZH".to_string(), + method_raw: 0x0A0, + plain: b"xor huffman payload".to_vec(), + declared_packed_size: None, + }, + SyntheticRsliEntry { + name: "M_DEFL".to_string(), + method_raw: 0x100, + plain: b"deflate payload with repetition repetition repetition".to_vec(), + declared_packed_size: None, + }, + ]; + + let bytes = build_rsli_bytes( + &entries, + &RsliBuildOptions { + seed: 0xA1B2_C3D4, + presorted: false, + overlay: 0, + add_ao_trailer: false, + }, + ); + let path = write_temp_file("rsli-all-methods", &bytes); + + let library = Library::open_path(&path).expect("open synthetic rsli failed"); + assert_eq!(library.entry_count(), entries.len()); + + for entry in &entries { + let id = library + .find(&entry.name) + .unwrap_or_else(|| panic!("find failed for {}", entry.name)); + let loaded = library + .load(id) + .unwrap_or_else(|err| panic!("load failed for {}: {err}", entry.name)); + assert_eq!( + loaded, entry.plain, + "decoded payload mismatch for {}", + entry.name + ); + + let packed = library + .load_packed(id) + .unwrap_or_else(|err| panic!("load_packed failed for {}: {err}", entry.name)); + let unpacked = library + .unpack(&packed) + .unwrap_or_else(|err| panic!("unpack failed for {}: {err}", entry.name)); + assert_eq!(unpacked, entry.plain, "unpack mismatch for {}", entry.name); + } + + let _ = fs::remove_file(&path); +} + +#[test] +fn rsli_synthetic_overlay_and_ao_trailer() { + let entries = vec![SyntheticRsliEntry { + name: "OVERLAY".to_string(), + method_raw: 0x040, + plain: b"overlay-data".to_vec(), + declared_packed_size: None, + }]; + + let bytes = build_rsli_bytes( + &entries, + &RsliBuildOptions { + seed: 0x4433_2211, + presorted: true, + overlay: 128, + add_ao_trailer: true, + }, + ); + let path = write_temp_file("rsli-overlay", &bytes); + + let library = Library::open_path_with( + &path, + OpenOptions { + allow_ao_trailer: true, + allow_deflate_eof_plus_one: true, + }, + ) + .expect("open with AO trailer enabled failed"); + + let id = library.find("OVERLAY").expect("find overlay entry failed"); + let payload = library.load(id).expect("load overlay entry failed"); + assert_eq!(payload, b"overlay-data"); + + let _ = fs::remove_file(&path); +} + +#[test] +fn rsli_deflate_eof_plus_one_quirk() { + let plain = b"quirk deflate payload".to_vec(); + let packed = deflate_raw(&plain); + let declared = u32::try_from(packed.len() + 1).expect("declared size overflow"); + + let entries = vec![SyntheticRsliEntry { + name: "QUIRK".to_string(), + method_raw: 0x100, + plain, + declared_packed_size: Some(declared), + }]; + let bytes = build_rsli_bytes(&entries, &RsliBuildOptions::default()); + let path = write_temp_file("rsli-deflate-quirk", &bytes); + + let lib_ok = Library::open_path_with( + &path, + OpenOptions { + allow_ao_trailer: true, + allow_deflate_eof_plus_one: true, + }, + ) + .expect("open with EOF+1 quirk enabled failed"); + let loaded = lib_ok + .load(lib_ok.find("QUIRK").expect("find quirk entry failed")) + .expect("load quirk entry failed"); + assert_eq!(loaded, b"quirk deflate payload"); + + match Library::open_path_with( + &path, + OpenOptions { + allow_ao_trailer: true, + allow_deflate_eof_plus_one: false, + }, + ) { + Err(Error::DeflateEofPlusOneQuirkRejected { id }) => assert_eq!(id, 0), + other => panic!("expected DeflateEofPlusOneQuirkRejected, got {other:?}"), + } + + let _ = fs::remove_file(&path); +} + +#[test] +fn rsli_validation_error_cases() { + let valid = build_rsli_bytes( + &[SyntheticRsliEntry { + name: "BASE".to_string(), + method_raw: 0x000, + plain: b"abc".to_vec(), + declared_packed_size: None, + }], + &RsliBuildOptions::default(), + ); + + let mut bad_magic = valid.clone(); + bad_magic[0..2].copy_from_slice(b"XX"); + let path = write_temp_file("rsli-bad-magic", &bad_magic); + match Library::open_path(&path) { + Err(Error::InvalidMagic { .. }) => {} + other => panic!("expected InvalidMagic, got {other:?}"), + } + let _ = fs::remove_file(&path); + + let mut bad_version = valid.clone(); + bad_version[3] = 2; + let path = write_temp_file("rsli-bad-version", &bad_version); + match Library::open_path(&path) { + Err(Error::UnsupportedVersion { got }) => assert_eq!(got, 2), + other => panic!("expected UnsupportedVersion, got {other:?}"), + } + let _ = fs::remove_file(&path); + + let mut bad_count = valid.clone(); + bad_count[4..6].copy_from_slice(&(-1_i16).to_le_bytes()); + let path = write_temp_file("rsli-bad-count", &bad_count); + match Library::open_path(&path) { + Err(Error::InvalidEntryCount { got }) => assert_eq!(got, -1), + other => panic!("expected InvalidEntryCount, got {other:?}"), + } + let _ = fs::remove_file(&path); + + let mut bad_table = valid.clone(); + bad_table[4..6].copy_from_slice(&100_i16.to_le_bytes()); + let path = write_temp_file("rsli-bad-table", &bad_table); + match Library::open_path(&path) { + Err(Error::EntryTableOutOfBounds { .. }) => {} + other => panic!("expected EntryTableOutOfBounds, got {other:?}"), + } + let _ = fs::remove_file(&path); + + let mut unknown_method = build_rsli_bytes( + &[SyntheticRsliEntry { + name: "UNK".to_string(), + method_raw: 0x120, + plain: b"x".to_vec(), + declared_packed_size: None, + }], + &RsliBuildOptions::default(), + ); + // Force truly unknown method by writing 0x1C0 mask bits. + let row = 32; + unknown_method[row + 16..row + 18].copy_from_slice(&(0x1C0_u16).to_le_bytes()); + // Re-encrypt table with the same seed. + let seed = u32::from_le_bytes([ + unknown_method[20], + unknown_method[21], + unknown_method[22], + unknown_method[23], + ]); + let mut plain_row = vec![0u8; 32]; + plain_row.copy_from_slice(&unknown_method[32..64]); + plain_row = xor_stream(&plain_row, (seed & 0xFFFF) as u16); + plain_row[16..18].copy_from_slice(&(0x1C0_u16).to_le_bytes()); + let encrypted_row = xor_stream(&plain_row, (seed & 0xFFFF) as u16); + unknown_method[32..64].copy_from_slice(&encrypted_row); + + let path = write_temp_file("rsli-unknown-method", &unknown_method); + let lib = Library::open_path(&path).expect("open archive with unknown method failed"); + match lib.load(EntryId(0)) { + Err(Error::UnsupportedMethod { raw }) => assert_eq!(raw, 0x1C0), + other => panic!("expected UnsupportedMethod, got {other:?}"), + } + let _ = fs::remove_file(&path); + + let mut bad_packed = valid.clone(); + bad_packed[32 + 28..32 + 32].copy_from_slice(&0xFFFF_FFF0_u32.to_le_bytes()); + let path = write_temp_file("rsli-bad-packed", &bad_packed); + match Library::open_path(&path) { + Err(Error::PackedSizePastEof { .. }) => {} + other => panic!("expected PackedSizePastEof, got {other:?}"), + } + let _ = fs::remove_file(&path); + + let mut with_bad_overlay = valid; + with_bad_overlay.extend_from_slice(b"AO"); + with_bad_overlay.extend_from_slice(&0xFFFF_FFFF_u32.to_le_bytes()); + let path = write_temp_file("rsli-bad-overlay", &with_bad_overlay); + match Library::open_path_with( + &path, + OpenOptions { + allow_ao_trailer: true, + allow_deflate_eof_plus_one: true, + }, + ) { + Err(Error::MediaOverlayOutOfBounds { .. }) => {} + other => panic!("expected MediaOverlayOutOfBounds, got {other:?}"), + } + let _ = fs::remove_file(&path); +} -- cgit v1.2.3