use indexmap::IndexSet; use oxipng::internal_tests::*; use oxipng::{InFile, OutFile}; #[cfg(feature = "filetime")] use std::cell::RefCell; use std::fs::remove_file; #[cfg(feature = "filetime")] use std::ops::Deref; use std::path::Path; use std::path::PathBuf; fn get_opts(input: &Path) -> (OutFile, oxipng::Options) { let mut options = oxipng::Options { force: true, ..Default::default() }; let mut filter = IndexSet::new(); filter.insert(0); options.filter = filter; ( OutFile::Path(Some(input.with_extension("out.png"))), options, ) } /// Add callback to allow checks before the output file is deleted again fn test_it_converts_callbacks( input: PathBuf, output: &OutFile, opts: &oxipng::Options, color_type_in: ColorType, bit_depth_in: BitDepth, color_type_out: ColorType, bit_depth_out: BitDepth, mut callback_pre: CBPRE, mut callback_post: CBPOST, ) where CBPOST: FnMut(&Path) -> (), CBPRE: FnMut(&Path) -> (), { let png = PngData::new(&input, opts.fix_errors).unwrap(); assert_eq!(png.raw.ihdr.color_type, color_type_in); assert_eq!(png.raw.ihdr.bit_depth, bit_depth_in); callback_pre(&input); match oxipng::optimize(&InFile::Path(input), &output, &opts) { Ok(_) => (), Err(x) => panic!("{}", x), }; let output = output.path().unwrap(); assert!(output.exists()); callback_post(&output); let png = match PngData::new(output, opts.fix_errors) { Ok(x) => x, Err(x) => { remove_file(output).ok(); panic!("{}", x) } }; assert_eq!(png.raw.ihdr.color_type, color_type_out); assert_eq!(png.raw.ihdr.bit_depth, bit_depth_out); remove_file(output).ok(); } /// Shim for new callback functionality fn test_it_converts( input: PathBuf, output: &OutFile, opts: &oxipng::Options, color_type_in: ColorType, bit_depth_in: BitDepth, color_type_out: ColorType, bit_depth_out: BitDepth, ) { test_it_converts_callbacks( input, output, opts, color_type_in, bit_depth_in, color_type_out, bit_depth_out, |_| {}, |_| {}, ) } #[test] fn verbose_mode() { use crossbeam_channel::{unbounded, Sender}; use log::{set_logger, set_max_level, Level, LevelFilter, Log, Metadata, Record}; use std::cell::RefCell; // Rust runs tests in parallel by default. // We want to make sure that we verify only logs from our test. // // For that, we store an Option in a thread-local variable and // initialise it with Some(sender) only on threads spawned within // our test. thread_local! { static VERBOSE_LOGS: RefCell>> = RefCell::new(None); } struct LogTester; impl Log for LogTester { fn enabled(&self, metadata: &Metadata) -> bool { metadata.level() <= Level::Debug } fn log(&self, record: &Record) { if record.level() == Level::Debug { VERBOSE_LOGS.with(|logs| { // If current thread has a storage for logs, add our line. // Otherwise our handler is invoked from an unrelated test. if let Some(logs) = logs.borrow().as_ref() { logs.send(record.args().to_string()).unwrap(); } }); } } fn flush(&self) {} } set_logger(&LogTester).unwrap(); set_max_level(LevelFilter::Debug); let input = PathBuf::from("tests/files/verbose_mode.png"); let (output, opts) = get_opts(&input); let (sender, receiver) = unbounded(); let thread_init = move || { // Initialise logs storage for all threads within our test. VERBOSE_LOGS.with(|logs| *logs.borrow_mut() = Some(sender.clone())); }; let thread_exec = move || { test_it_converts( input, &output, &opts, ColorType::RGB, BitDepth::Eight, ColorType::RGB, BitDepth::Eight, ); }; #[cfg(feature = "rayon")] rayon::ThreadPoolBuilder::new() .start_handler(move |_| thread_init()) .num_threads(rayon::current_num_threads() + 1) .build() .unwrap() .install(move || rayon::spawn(thread_exec)); #[cfg(not(feature = "rayon"))] std::thread::spawn(move || { thread_init(); thread_exec(); }); let mut logs: Vec<_> = receiver.into_iter().collect(); assert_eq!(logs.len(), 4); logs.sort(); for (i, log) in logs.into_iter().enumerate() { let expected_prefix = format!(" zc = 9 zs = {} f = 0 ", i); assert!( log.starts_with(&expected_prefix), "logs[{}] = {:?} doesn't start with {:?}", i, log, expected_prefix ); } } #[test] fn strip_headers_list() { let input = PathBuf::from("tests/files/strip_headers_list.png"); let (output, mut opts) = get_opts(&input); opts.strip = Headers::Strip(vec!["iCCP".to_owned(), "tEXt".to_owned()]); let png = PngData::new(&input, opts.fix_errors).unwrap(); assert!(png.raw.aux_headers.contains_key(b"tEXt")); assert!(png.raw.aux_headers.contains_key(b"iTXt")); assert!(png.raw.aux_headers.contains_key(b"iCCP")); match oxipng::optimize(&InFile::Path(input), &output, &opts) { Ok(_) => (), Err(x) => panic!("{}", x), }; let output = output.path().unwrap(); assert!(output.exists()); let png = match PngData::new(output, opts.fix_errors) { Ok(x) => x, Err(x) => { remove_file(output).ok(); panic!("{}", x) } }; assert!(!png.raw.aux_headers.contains_key(b"tEXt")); assert!(png.raw.aux_headers.contains_key(b"iTXt")); assert!(!png.raw.aux_headers.contains_key(b"iCCP")); remove_file(output).ok(); } #[test] fn strip_headers_safe() { let input = PathBuf::from("tests/files/strip_headers_safe.png"); let (output, mut opts) = get_opts(&input); opts.strip = Headers::Safe; let png = PngData::new(&input, opts.fix_errors).unwrap(); assert!(png.raw.aux_headers.contains_key(b"tEXt")); assert!(png.raw.aux_headers.contains_key(b"iTXt")); assert!(png.raw.aux_headers.contains_key(b"iCCP")); match oxipng::optimize(&InFile::Path(input), &output, &opts) { Ok(_) => (), Err(x) => panic!("{}", x), }; let output = output.path().unwrap(); assert!(output.exists()); let png = match PngData::new(output, opts.fix_errors) { Ok(x) => x, Err(x) => { remove_file(output).ok(); panic!("{}", x) } }; assert!(!png.raw.aux_headers.contains_key(b"tEXt")); assert!(!png.raw.aux_headers.contains_key(b"iTXt")); assert!(png.raw.aux_headers.contains_key(b"sRGB")); remove_file(output).ok(); } #[test] fn strip_headers_all() { let input = PathBuf::from("tests/files/strip_headers_all.png"); let (output, mut opts) = get_opts(&input); opts.strip = Headers::All; let png = PngData::new(&input, opts.fix_errors).unwrap(); assert!(png.raw.aux_headers.contains_key(b"tEXt")); assert!(png.raw.aux_headers.contains_key(b"iTXt")); assert!(png.raw.aux_headers.contains_key(b"iCCP")); match oxipng::optimize(&InFile::Path(input), &output, &opts) { Ok(_) => (), Err(x) => panic!("{}", x), }; let output = output.path().unwrap(); assert!(output.exists()); let png = match PngData::new(output, opts.fix_errors) { Ok(x) => x, Err(x) => { remove_file(output).ok(); panic!("{}", x) } }; assert!(!png.raw.aux_headers.contains_key(b"tEXt")); assert!(!png.raw.aux_headers.contains_key(b"iTXt")); assert!(!png.raw.aux_headers.contains_key(b"iCCP")); remove_file(output).ok(); } #[test] fn strip_headers_none() { let input = PathBuf::from("tests/files/strip_headers_none.png"); let (output, mut opts) = get_opts(&input); opts.strip = Headers::None; let png = PngData::new(&input, opts.fix_errors).unwrap(); assert!(png.raw.aux_headers.contains_key(b"tEXt")); assert!(png.raw.aux_headers.contains_key(b"iTXt")); assert!(png.raw.aux_headers.contains_key(b"iCCP")); match oxipng::optimize(&InFile::Path(input), &output, &opts) { Ok(_) => (), Err(x) => panic!("{}", x), }; let output = output.path().unwrap(); assert!(output.exists()); let png = match PngData::new(output, opts.fix_errors) { Ok(x) => x, Err(x) => { remove_file(output).ok(); panic!("{}", x) } }; assert!(png.raw.aux_headers.contains_key(b"tEXt")); assert!(png.raw.aux_headers.contains_key(b"iTXt")); assert!(png.raw.aux_headers.contains_key(b"iCCP")); remove_file(output).ok(); } #[test] fn interlacing_0_to_1() { let input = PathBuf::from("tests/files/interlacing_0_to_1.png"); let (output, mut opts) = get_opts(&input); opts.interlace = Some(1); let png = PngData::new(&input, opts.fix_errors).unwrap(); assert_eq!(png.raw.ihdr.interlaced, 0); match oxipng::optimize(&InFile::Path(input), &output, &opts) { Ok(_) => (), Err(x) => panic!("{}", x), }; let output = output.path().unwrap(); assert!(output.exists()); let png = match PngData::new(output, opts.fix_errors) { Ok(x) => x, Err(x) => { remove_file(output).ok(); panic!("{}", x) } }; assert_eq!(png.raw.ihdr.interlaced, 1); remove_file(output).ok(); } #[test] fn interlacing_1_to_0() { let input = PathBuf::from("tests/files/interlacing_1_to_0.png"); let (output, mut opts) = get_opts(&input); opts.interlace = Some(0); let png = PngData::new(&input, opts.fix_errors).unwrap(); assert_eq!(png.raw.ihdr.interlaced, 1); match oxipng::optimize(&InFile::Path(input), &output, &opts) { Ok(_) => (), Err(x) => panic!("{}", x), }; let output = output.path().unwrap(); assert!(output.exists()); let png = match PngData::new(output, opts.fix_errors) { Ok(x) => x, Err(x) => { remove_file(output).ok(); panic!("{}", x) } }; assert_eq!(png.raw.ihdr.interlaced, 0); remove_file(output).ok(); } #[test] fn interlacing_0_to_1_small_files() { let input = PathBuf::from("tests/files/interlacing_0_to_1_small_files.png"); let (output, mut opts) = get_opts(&input); opts.interlace = Some(1); let png = PngData::new(&input, opts.fix_errors).unwrap(); assert_eq!(png.raw.ihdr.interlaced, 0); assert_eq!(png.raw.ihdr.color_type, ColorType::Indexed); assert_eq!(png.raw.ihdr.bit_depth, BitDepth::Eight); match oxipng::optimize(&InFile::Path(input), &output, &opts) { Ok(_) => (), Err(x) => panic!("{}", x), }; let output = output.path().unwrap(); assert!(output.exists()); let png = match PngData::new(output, opts.fix_errors) { Ok(x) => x, Err(x) => { remove_file(output).ok(); panic!("{}", x) } }; assert_eq!(png.raw.ihdr.interlaced, 1); assert_eq!(png.raw.ihdr.color_type, ColorType::Indexed); assert_eq!(png.raw.ihdr.bit_depth, BitDepth::One); remove_file(output).ok(); } #[test] fn interlacing_1_to_0_small_files() { let input = PathBuf::from("tests/files/interlacing_1_to_0_small_files.png"); let (output, mut opts) = get_opts(&input); opts.interlace = Some(0); let png = PngData::new(&input, opts.fix_errors).unwrap(); assert_eq!(png.raw.ihdr.interlaced, 1); assert_eq!(png.raw.ihdr.color_type, ColorType::Indexed); assert_eq!(png.raw.ihdr.bit_depth, BitDepth::Eight); match oxipng::optimize(&InFile::Path(input), &output, &opts) { Ok(_) => (), Err(x) => panic!("{}", x), }; let output = output.path().unwrap(); assert!(output.exists()); let png = match PngData::new(output, opts.fix_errors) { Ok(x) => x, Err(x) => { remove_file(output).ok(); panic!("{}", x) } }; assert_eq!(png.raw.ihdr.interlaced, 0); assert_eq!(png.raw.ihdr.color_type, ColorType::Indexed); // the depth can't be asserted reliably, because on such small file different zlib implementations pick different depth as the best remove_file(output).ok(); } #[test] fn interlaced_0_to_1_other_filter_mode() { let input = PathBuf::from("tests/files/interlaced_0_to_1_other_filter_mode.png"); let (output, mut opts) = get_opts(&input); opts.interlace = Some(1); let mut filter = IndexSet::new(); filter.insert(4); opts.filter = filter; let png = PngData::new(&input, opts.fix_errors).unwrap(); assert_eq!(png.raw.ihdr.interlaced, 0); match oxipng::optimize(&InFile::Path(input), &output, &opts) { Ok(_) => (), Err(x) => panic!("{}", x), }; let output = output.path().unwrap(); assert!(output.exists()); let png = match PngData::new(output, opts.fix_errors) { Ok(x) => x, Err(x) => { remove_file(output).ok(); panic!("{}", x) } }; assert_eq!(png.raw.ihdr.interlaced, 1); remove_file(output).ok(); } #[test] fn preserve_attrs() { let input = PathBuf::from("tests/files/preserve_attrs.png"); #[cfg(feature = "filetime")] let atime_canon = RefCell::new(filetime::FileTime::from_unix_time(0, 0)); #[cfg(feature = "filetime")] let mtime_canon = RefCell::new(filetime::FileTime::from_unix_time(0, 0)); let (output, mut opts) = get_opts(&input); opts.preserve_attrs = true; #[cfg(feature = "filetime")] let callback_pre = |path_in: &Path| { let meta_input = path_in .metadata() .expect("unable to get file metadata for output file"); atime_canon.replace(filetime::FileTime::from_last_access_time(&meta_input)); mtime_canon.replace(filetime::FileTime::from_last_modification_time(&meta_input)); }; #[cfg(not(feature = "filetime"))] let callback_pre = |_: &Path| {}; #[cfg(feature = "filetime")] let callback_post = |path_out: &Path| { let meta_output = path_out .metadata() .expect("unable to get file metadata for output file"); let cellref_atime_canon = atime_canon.borrow(); let cellref_mtime_canon = mtime_canon.borrow(); let ref_atime_canon: &filetime::FileTime = cellref_atime_canon.deref(); let ref_mtime_canon: &filetime::FileTime = cellref_mtime_canon.deref(); assert_eq!( ref_atime_canon, &filetime::FileTime::from_last_access_time(&meta_output), "expected access time to be identical to that of input", ); assert_eq!( ref_mtime_canon, &filetime::FileTime::from_last_modification_time(&meta_output), "expected modification time to be identical to that of input", ); }; #[cfg(not(feature = "filetime"))] let callback_post = |_: &Path| {}; test_it_converts_callbacks( input, &output, &opts, ColorType::RGB, BitDepth::Eight, ColorType::RGB, BitDepth::Eight, callback_pre, callback_post, ); // TODO: Actually check permissions } #[test] fn fix_errors() { let input = PathBuf::from("tests/files/fix_errors.png"); let (output, mut opts) = get_opts(&input); opts.fix_errors = true; let png = PngData::new(&input, opts.fix_errors).unwrap(); assert_eq!(png.raw.ihdr.color_type, ColorType::RGBA); assert_eq!(png.raw.ihdr.bit_depth, BitDepth::Eight); match oxipng::optimize(&InFile::Path(input), &output, &opts) { Ok(_) => (), Err(x) => panic!("{}", x), }; let output = output.path().unwrap(); assert!(output.exists()); let png = match PngData::new(output, false) { Ok(x) => x, Err(x) => { remove_file(output).ok(); panic!("{}", x) } }; assert_eq!(png.raw.ihdr.color_type, ColorType::Grayscale); assert_eq!(png.raw.ihdr.bit_depth, BitDepth::Eight); // Cannot check if pixels are equal because image crate cannot read corrupt (input) PNGs remove_file(output).ok(); } #[test] #[cfg(feature = "zopfli")] fn zopfli_mode() { let input = PathBuf::from("tests/files/zopfli_mode.png"); let (output, mut opts) = get_opts(&input); opts.deflate = Deflaters::Zopfli; test_it_converts( input, &output, &opts, ColorType::RGB, BitDepth::Eight, ColorType::RGB, BitDepth::Eight, ); } #[test] #[cfg(feature = "libdeflater")] fn libdeflater_mode() { let input = PathBuf::from("tests/files/zopfli_mode.png"); let (output, mut opts) = get_opts(&input); opts.deflate = Deflaters::Libdeflater; test_it_converts( input, &output, &opts, ColorType::RGB, BitDepth::Eight, ColorType::RGB, BitDepth::Eight, ); }