from __future__ import annotations import re import sys import warnings import zlib from io import BytesIO from pathlib import Path from types import ModuleType from typing import Any, cast import pytest from PIL import Image, ImageFile, PngImagePlugin, features from .helper import ( PillowLeakTestCase, assert_image, assert_image_equal, assert_image_equal_tofile, hopper, is_win32, mark_if_feature_version, skip_unless_feature, ) ElementTree: ModuleType | None try: from defusedxml import ElementTree except ImportError: ElementTree = None # sample png stream TEST_PNG_FILE = "Tests/images/hopper.png" # stuff to create inline PNG images MAGIC = PngImagePlugin._MAGIC def chunk(cid: bytes, *data: bytes) -> bytes: test_file = BytesIO() PngImagePlugin.putchunk(test_file, cid, *data) return test_file.getvalue() o32 = PngImagePlugin.o32 IHDR = chunk(b"IHDR", o32(1), o32(1), b"\x08\x02", b"\0\0\0") IDAT = chunk(b"IDAT") IEND = chunk(b"IEND") HEAD = MAGIC + IHDR TAIL = IDAT + IEND def load(data: bytes) -> Image.Image: return Image.open(BytesIO(data)) def roundtrip(im: Image.Image, **options: Any) -> PngImagePlugin.PngImageFile: out = BytesIO() im.save(out, "PNG", **options) out.seek(0) return cast(PngImagePlugin.PngImageFile, Image.open(out)) @skip_unless_feature("zlib") class TestFilePng: def get_chunks(self, filename: str) -> list[bytes]: chunks = [] with open(filename, "rb") as fp: fp.read(8) with PngImagePlugin.PngStream(fp) as png: while True: cid, pos, length = png.read() chunks.append(cid) try: s = png.call(cid, pos, length) except EOFError: break png.crc(cid, s) return chunks def test_sanity(self, tmp_path: Path) -> None: # internal version number version = features.version_codec("zlib") assert version is not None assert re.search(r"\d+(\.\d+){1,3}(\.zlib\-ng)?$", version) test_file = str(tmp_path / "temp.png") hopper("RGB").save(test_file) with Image.open(test_file) as im: im.load() assert im.mode == "RGB" assert im.size == (128, 128) assert im.format == "PNG" assert im.get_format_mimetype() == "image/png" for mode in ["1", "L", "P", "RGB", "I", "I;16", "I;16B"]: im = hopper(mode) im.save(test_file) with Image.open(test_file) as reloaded: if mode in ("I", "I;16B"): reloaded = reloaded.convert(mode) assert_image_equal(reloaded, im) def test_invalid_file(self) -> None: invalid_file = "Tests/images/flower.jpg" with pytest.raises(SyntaxError): PngImagePlugin.PngImageFile(invalid_file) def test_broken(self) -> None: # Check reading of totally broken files. In this case, the test # file was checked into Subversion as a text file. test_file = "Tests/images/broken.png" with pytest.raises(OSError): with Image.open(test_file): pass def test_bad_text(self) -> None: # Make sure PIL can read malformed tEXt chunks (@PIL152) im = load(HEAD + chunk(b"tEXt") + TAIL) assert im.info == {} im = load(HEAD + chunk(b"tEXt", b"spam") + TAIL) assert im.info == {"spam": ""} im = load(HEAD + chunk(b"tEXt", b"spam\0") + TAIL) assert im.info == {"spam": ""} im = load(HEAD + chunk(b"tEXt", b"spam\0egg") + TAIL) assert im.info == {"spam": "egg"} im = load(HEAD + chunk(b"tEXt", b"spam\0egg\0") + TAIL) assert im.info == {"spam": "egg\x00"} def test_bad_ztxt(self) -> None: # Test reading malformed zTXt chunks (python-pillow/Pillow#318) im = load(HEAD + chunk(b"zTXt") + TAIL) assert im.info == {} im = load(HEAD + chunk(b"zTXt", b"spam") + TAIL) assert im.info == {"spam": ""} im = load(HEAD + chunk(b"zTXt", b"spam\0") + TAIL) assert im.info == {"spam": ""} im = load(HEAD + chunk(b"zTXt", b"spam\0\0") + TAIL) assert im.info == {"spam": ""} im = load(HEAD + chunk(b"zTXt", b"spam\0\0" + zlib.compress(b"egg")[:1]) + TAIL) assert im.info == {"spam": ""} im = load(HEAD + chunk(b"zTXt", b"spam\0\0" + zlib.compress(b"egg")) + TAIL) assert im.info == {"spam": "egg"} def test_bad_itxt(self) -> None: im = load(HEAD + chunk(b"iTXt") + TAIL) assert im.info == {} im = load(HEAD + chunk(b"iTXt", b"spam") + TAIL) assert im.info == {} im = load(HEAD + chunk(b"iTXt", b"spam\0") + TAIL) assert im.info == {} im = load(HEAD + chunk(b"iTXt", b"spam\0\x02") + TAIL) assert im.info == {} im = load(HEAD + chunk(b"iTXt", b"spam\0\0\0foo\0") + TAIL) assert im.info == {} im = load(HEAD + chunk(b"iTXt", b"spam\0\0\0en\0Spam\0egg") + TAIL) assert im.info == {"spam": "egg"} assert im.info["spam"].lang == "en" assert im.info["spam"].tkey == "Spam" im = load( HEAD + chunk(b"iTXt", b"spam\0\1\0en\0Spam\0" + zlib.compress(b"egg")[:1]) + TAIL ) assert im.info == {"spam": ""} im = load( HEAD + chunk(b"iTXt", b"spam\0\1\1en\0Spam\0" + zlib.compress(b"egg")) + TAIL ) assert im.info == {} im = load( HEAD + chunk(b"iTXt", b"spam\0\1\0en\0Spam\0" + zlib.compress(b"egg")) + TAIL ) assert im.info == {"spam": "egg"} assert im.info["spam"].lang == "en" assert im.info["spam"].tkey == "Spam" def test_interlace(self) -> None: test_file = "Tests/images/pil123p.png" with Image.open(test_file) as im: assert_image(im, "P", (162, 150)) assert im.info.get("interlace") im.load() test_file = "Tests/images/pil123rgba.png" with Image.open(test_file) as im: assert_image(im, "RGBA", (162, 150)) assert im.info.get("interlace") im.load() def test_load_transparent_p(self) -> None: test_file = "Tests/images/pil123p.png" with Image.open(test_file) as im: assert_image(im, "P", (162, 150)) im = im.convert("RGBA") assert_image(im, "RGBA", (162, 150)) # image has 124 unique alpha values assert len(im.getchannel("A").getcolors()) == 124 def test_load_transparent_rgb(self) -> None: test_file = "Tests/images/rgb_trns.png" with Image.open(test_file) as im: assert im.info["transparency"] == (0, 255, 52) assert_image(im, "RGB", (64, 64)) im = im.convert("RGBA") assert_image(im, "RGBA", (64, 64)) # image has 876 transparent pixels assert im.getchannel("A").getcolors()[0][0] == 876 def test_save_p_transparent_palette(self, tmp_path: Path) -> None: in_file = "Tests/images/pil123p.png" with Image.open(in_file) as im: # 'transparency' contains a byte string with the opacity for # each palette entry assert len(im.info["transparency"]) == 256 test_file = str(tmp_path / "temp.png") im.save(test_file) # check if saved image contains same transparency with Image.open(test_file) as im: assert len(im.info["transparency"]) == 256 assert_image(im, "P", (162, 150)) im = im.convert("RGBA") assert_image(im, "RGBA", (162, 150)) # image has 124 unique alpha values assert len(im.getchannel("A").getcolors()) == 124 def test_save_p_single_transparency(self, tmp_path: Path) -> None: in_file = "Tests/images/p_trns_single.png" with Image.open(in_file) as im: # pixel value 164 is full transparent assert im.info["transparency"] == 164 assert im.getpixel((31, 31)) == 164 test_file = str(tmp_path / "temp.png") im.save(test_file) # check if saved image contains same transparency with Image.open(test_file) as im: assert im.info["transparency"] == 164 assert im.getpixel((31, 31)) == 164 assert_image(im, "P", (64, 64)) im = im.convert("RGBA") assert_image(im, "RGBA", (64, 64)) assert im.getpixel((31, 31)) == (0, 255, 52, 0) # image has 876 transparent pixels assert im.getchannel("A").getcolors()[0][0] == 876 def test_save_p_transparent_black(self, tmp_path: Path) -> None: # check if solid black image with full transparency # is supported (check for #1838) im = Image.new("RGBA", (10, 10), (0, 0, 0, 0)) assert im.getcolors() == [(100, (0, 0, 0, 0))] im = im.convert("P") test_file = str(tmp_path / "temp.png") im.save(test_file) # check if saved image contains same transparency with Image.open(test_file) as im: assert len(im.info["transparency"]) == 256 assert_image(im, "P", (10, 10)) im = im.convert("RGBA") assert_image(im, "RGBA", (10, 10)) assert im.getcolors() == [(100, (0, 0, 0, 0))] def test_save_grayscale_transparency(self, tmp_path: Path) -> None: for mode, num_transparent in {"1": 1994, "L": 559, "I;16": 559}.items(): in_file = "Tests/images/" + mode.split(";")[0].lower() + "_trns.png" with Image.open(in_file) as im: assert im.mode == mode assert im.info["transparency"] == 255 im_rgba = im.convert("RGBA") assert im_rgba.getchannel("A").getcolors()[0][0] == num_transparent test_file = str(tmp_path / "temp.png") im.save(test_file) with Image.open(test_file) as test_im: assert test_im.mode == mode assert test_im.info["transparency"] == 255 assert_image_equal(im, test_im) test_im_rgba = test_im.convert("RGBA") assert test_im_rgba.getchannel("A").getcolors()[0][0] == num_transparent def test_save_rgb_single_transparency(self, tmp_path: Path) -> None: in_file = "Tests/images/caption_6_33_22.png" with Image.open(in_file) as im: test_file = str(tmp_path / "temp.png") im.save(test_file) def test_load_verify(self) -> None: # Check open/load/verify exception (@PIL150) with Image.open(TEST_PNG_FILE) as im: # Assert that there is no unclosed file warning with warnings.catch_warnings(): im.verify() with Image.open(TEST_PNG_FILE) as im: im.load() with pytest.raises(RuntimeError): im.verify() def test_verify_struct_error(self) -> None: # Check open/load/verify exception (#1755) # offsets to test, -10: breaks in i32() in read. (OSError) # -13: breaks in crc, txt chunk. # -14: malformed chunk for offset in (-10, -13, -14): with open(TEST_PNG_FILE, "rb") as f: test_file = f.read()[:offset] with Image.open(BytesIO(test_file)) as im: assert im.fp is not None with pytest.raises((OSError, SyntaxError)): im.verify() def test_verify_ignores_crc_error(self) -> None: # check ignores crc errors in ancillary chunks chunk_data = chunk(b"tEXt", b"spam") broken_crc_chunk_data = chunk_data[:-1] + b"q" # break CRC image_data = HEAD + broken_crc_chunk_data + TAIL with pytest.raises(SyntaxError): PngImagePlugin.PngImageFile(BytesIO(image_data)) ImageFile.LOAD_TRUNCATED_IMAGES = True try: im = load(image_data) assert im is not None finally: ImageFile.LOAD_TRUNCATED_IMAGES = False def test_verify_not_ignores_crc_error_in_required_chunk(self) -> None: # check does not ignore crc errors in required chunks image_data = MAGIC + IHDR[:-1] + b"q" + TAIL ImageFile.LOAD_TRUNCATED_IMAGES = True try: with pytest.raises(SyntaxError): PngImagePlugin.PngImageFile(BytesIO(image_data)) finally: ImageFile.LOAD_TRUNCATED_IMAGES = False def test_roundtrip_dpi(self) -> None: # Check dpi roundtripping with Image.open(TEST_PNG_FILE) as im: im = roundtrip(im, dpi=(100.33, 100.33)) assert im.info["dpi"] == (100.33, 100.33) def test_load_float_dpi(self) -> None: with Image.open(TEST_PNG_FILE) as im: assert im.info["dpi"] == (95.9866, 95.9866) def test_roundtrip_text(self) -> None: # Check text roundtripping with Image.open(TEST_PNG_FILE) as im: info = PngImagePlugin.PngInfo() info.add_text("TXT", "VALUE") info.add_text("ZIP", "VALUE", zip=True) im = roundtrip(im, pnginfo=info) assert im.info == {"TXT": "VALUE", "ZIP": "VALUE"} assert im.text == {"TXT": "VALUE", "ZIP": "VALUE"} def test_roundtrip_itxt(self) -> None: # Check iTXt roundtripping im = Image.new("RGB", (32, 32)) info = PngImagePlugin.PngInfo() info.add_itxt("spam", "Eggs", "en", "Spam") info.add_text("eggs", PngImagePlugin.iTXt("Spam", "en", "Eggs"), zip=True) im = roundtrip(im, pnginfo=info) assert im.info == {"spam": "Eggs", "eggs": "Spam"} assert im.text == {"spam": "Eggs", "eggs": "Spam"} assert isinstance(im.text["spam"], PngImagePlugin.iTXt) assert im.text["spam"].lang == "en" assert im.text["spam"].tkey == "Spam" assert isinstance(im.text["eggs"], PngImagePlugin.iTXt) assert im.text["eggs"].lang == "en" assert im.text["eggs"].tkey == "Eggs" def test_nonunicode_text(self) -> None: # Check so that non-Unicode text is saved as a tEXt rather than iTXt im = Image.new("RGB", (32, 32)) info = PngImagePlugin.PngInfo() info.add_text("Text", "Ascii") im = roundtrip(im, pnginfo=info) assert isinstance(im.info["Text"], str) def test_unicode_text(self) -> None: # Check preservation of non-ASCII characters def rt_text(value: str) -> None: im = Image.new("RGB", (32, 32)) info = PngImagePlugin.PngInfo() info.add_text("Text", value) im = roundtrip(im, pnginfo=info) assert im.info == {"Text": value} rt_text(" Aa" + chr(0xA0) + chr(0xC4) + chr(0xFF)) # Latin1 rt_text(chr(0x400) + chr(0x472) + chr(0x4FF)) # Cyrillic # CJK: rt_text(chr(0x4E00) + chr(0x66F0) + chr(0x9FBA) + chr(0x3042) + chr(0xAC00)) rt_text("A" + chr(0xC4) + chr(0x472) + chr(0x3042)) # Combined def test_scary(self) -> None: # Check reading of evil PNG file. For information, see: # http://scary.beasts.org/security/CESA-2004-001.txt # The first byte is removed from pngtest_bad.png # to avoid classification as malware. with open("Tests/images/pngtest_bad.png.bin", "rb") as fd: data = b"\x89" + fd.read() pngfile = BytesIO(data) with pytest.raises(OSError): with Image.open(pngfile): pass def test_trns_rgb(self) -> None: # Check writing and reading of tRNS chunks for RGB images. # Independent file sample provided by Sebastian Spaeth. test_file = "Tests/images/caption_6_33_22.png" with Image.open(test_file) as im: assert im.info["transparency"] == (248, 248, 248) # check saving transparency by default im = roundtrip(im) assert im.info["transparency"] == (248, 248, 248) im = roundtrip(im, transparency=(0, 1, 2)) assert im.info["transparency"] == (0, 1, 2) def test_trns_p(self, tmp_path: Path) -> None: # Check writing a transparency of 0, issue #528 im = hopper("P") im.info["transparency"] = 0 f = str(tmp_path / "temp.png") im.save(f) with Image.open(f) as im2: assert "transparency" in im2.info assert_image_equal(im2.convert("RGBA"), im.convert("RGBA")) def test_trns_null(self) -> None: # Check reading images with null tRNS value, issue #1239 test_file = "Tests/images/tRNS_null_1x1.png" with Image.open(test_file) as im: assert im.info["transparency"] == 0 def test_save_icc_profile(self) -> None: with Image.open("Tests/images/icc_profile_none.png") as im: assert im.info["icc_profile"] is None with Image.open("Tests/images/icc_profile.png") as with_icc: expected_icc = with_icc.info["icc_profile"] im = roundtrip(im, icc_profile=expected_icc) assert im.info["icc_profile"] == expected_icc def test_discard_icc_profile(self) -> None: with Image.open("Tests/images/icc_profile.png") as im: assert "icc_profile" in im.info im = roundtrip(im, icc_profile=None) assert "icc_profile" not in im.info def test_roundtrip_icc_profile(self) -> None: with Image.open("Tests/images/icc_profile.png") as im: expected_icc = im.info["icc_profile"] im = roundtrip(im) assert im.info["icc_profile"] == expected_icc def test_roundtrip_no_icc_profile(self) -> None: with Image.open("Tests/images/icc_profile_none.png") as im: assert im.info["icc_profile"] is None im = roundtrip(im) assert "icc_profile" not in im.info def test_repr_png(self) -> None: im = hopper() b = im._repr_png_() assert b is not None with Image.open(BytesIO(b)) as repr_png: assert repr_png.format == "PNG" assert_image_equal(im, repr_png) def test_repr_png_error_returns_none(self) -> None: im = hopper("F") assert im._repr_png_() is None def test_chunk_order(self, tmp_path: Path) -> None: with Image.open("Tests/images/icc_profile.png") as im: test_file = str(tmp_path / "temp.png") im.convert("P").save(test_file, dpi=(100, 100)) chunks = self.get_chunks(test_file) # https://www.w3.org/TR/PNG/#5ChunkOrdering # IHDR - shall be first assert chunks.index(b"IHDR") == 0 # PLTE - before first IDAT assert chunks.index(b"PLTE") < chunks.index(b"IDAT") # iCCP - before PLTE and IDAT assert chunks.index(b"iCCP") < chunks.index(b"PLTE") assert chunks.index(b"iCCP") < chunks.index(b"IDAT") # tRNS - after PLTE, before IDAT assert chunks.index(b"tRNS") > chunks.index(b"PLTE") assert chunks.index(b"tRNS") < chunks.index(b"IDAT") # pHYs - before IDAT assert chunks.index(b"pHYs") < chunks.index(b"IDAT") def test_getchunks(self) -> None: im = hopper() chunks = PngImagePlugin.getchunks(im) assert len(chunks) == 3 def test_read_private_chunks(self) -> None: with Image.open("Tests/images/exif.png") as im: assert im.private_chunks == [(b"orNT", b"\x01")] def test_roundtrip_private_chunk(self) -> None: # Check private chunk roundtripping with Image.open(TEST_PNG_FILE) as im: info = PngImagePlugin.PngInfo() info.add(b"prIV", b"VALUE") info.add(b"atEC", b"VALUE2") info.add(b"prIV", b"VALUE3", True) im = roundtrip(im, pnginfo=info) assert im.private_chunks == [(b"prIV", b"VALUE"), (b"atEC", b"VALUE2")] im.load() assert im.private_chunks == [ (b"prIV", b"VALUE"), (b"atEC", b"VALUE2"), (b"prIV", b"VALUE3", True), ] def test_textual_chunks_after_idat(self) -> None: with Image.open("Tests/images/hopper.png") as im: assert "comment" in im.text for k, v in { "date:create": "2014-09-04T09:37:08+03:00", "date:modify": "2014-09-04T09:37:08+03:00", }.items(): assert im.text[k] == v # Raises a SyntaxError in load_end with Image.open("Tests/images/broken_data_stream.png") as im: with pytest.raises(OSError): assert isinstance(im.text, dict) # Raises a UnicodeDecodeError in load_end with Image.open("Tests/images/truncated_image.png") as im: # The file is truncated with pytest.raises(OSError): im.text() ImageFile.LOAD_TRUNCATED_IMAGES = True assert isinstance(im.text, dict) ImageFile.LOAD_TRUNCATED_IMAGES = False # Raises an EOFError in load_end with Image.open("Tests/images/hopper_idat_after_image_end.png") as im: assert im.text == {"TXT": "VALUE", "ZIP": "VALUE"} def test_unknown_compression_method(self) -> None: with pytest.raises(SyntaxError, match="Unknown compression method"): PngImagePlugin.PngImageFile("Tests/images/unknown_compression_method.png") def test_padded_idat(self) -> None: # This image has been manually hexedited # so that the IDAT chunk has padding at the end # Set MAXBLOCK to the length of the actual data # so that the decoder finishes reading before the chunk ends MAXBLOCK = ImageFile.MAXBLOCK ImageFile.MAXBLOCK = 45 ImageFile.LOAD_TRUNCATED_IMAGES = True with Image.open("Tests/images/padded_idat.png") as im: im.load() ImageFile.MAXBLOCK = MAXBLOCK ImageFile.LOAD_TRUNCATED_IMAGES = False assert_image_equal_tofile(im, "Tests/images/bw_gradient.png") @pytest.mark.parametrize( "cid", (b"IHDR", b"sRGB", b"pHYs", b"acTL", b"fcTL", b"fdAT") ) def test_truncated_chunks(self, cid: bytes) -> None: fp = BytesIO() with PngImagePlugin.PngStream(fp) as png: with pytest.raises(ValueError): png.call(cid, 0, 0) ImageFile.LOAD_TRUNCATED_IMAGES = True png.call(cid, 0, 0) ImageFile.LOAD_TRUNCATED_IMAGES = False @pytest.mark.parametrize("save_all", (True, False)) def test_specify_bits(self, save_all: bool, tmp_path: Path) -> None: im = hopper("P") out = str(tmp_path / "temp.png") im.save(out, bits=4, save_all=save_all) with Image.open(out) as reloaded: assert len(reloaded.png.im_palette[1]) == 48 def test_plte_length(self, tmp_path: Path) -> None: im = Image.new("P", (1, 1)) im.putpalette((1, 1, 1)) out = str(tmp_path / "temp.png") im.save(str(tmp_path / "temp.png")) with Image.open(out) as reloaded: assert len(reloaded.png.im_palette[1]) == 3 def test_getxmp(self) -> None: with Image.open("Tests/images/color_snakes.png") as im: if ElementTree is None: with pytest.warns( UserWarning, match="XMP data cannot be read without defusedxml dependency", ): assert im.getxmp() == {} else: assert "xmp" in im.info xmp = im.getxmp() description = xmp["xmpmeta"]["RDF"]["Description"] assert description["PixelXDimension"] == "10" assert description["subject"]["Seq"] is None def test_exif(self) -> None: # With an EXIF chunk with Image.open("Tests/images/exif.png") as im: exif = im._getexif() assert exif[274] == 1 # With an ImageMagick zTXt chunk with Image.open("Tests/images/exif_imagemagick.png") as im: exif = im._getexif() assert exif[274] == 1 # Assert that info still can be extracted # when the image is no longer a PngImageFile instance exif = im.copy().getexif() assert exif[274] == 1 # With a tEXt chunk with Image.open("Tests/images/exif_text.png") as im: exif = im._getexif() assert exif[274] == 1 # With XMP tags with Image.open("Tests/images/xmp_tags_orientation.png") as im: exif = im.getexif() assert exif[274] == 3 def test_exif_save(self, tmp_path: Path) -> None: # Test exif is not saved from info test_file = str(tmp_path / "temp.png") with Image.open("Tests/images/exif.png") as im: im.save(test_file) with Image.open(test_file) as reloaded: assert reloaded._getexif() is None # Test passing in exif with Image.open("Tests/images/exif.png") as im: im.save(test_file, exif=im.getexif()) with Image.open(test_file) as reloaded: exif = reloaded._getexif() assert exif[274] == 1 @mark_if_feature_version( pytest.mark.valgrind_known_error, "libjpeg_turbo", "2.0", reason="Known Failing" ) def test_exif_from_jpg(self, tmp_path: Path) -> None: with Image.open("Tests/images/pil_sample_rgb.jpg") as im: test_file = str(tmp_path / "temp.png") im.save(test_file, exif=im.getexif()) with Image.open(test_file) as reloaded: exif = reloaded._getexif() assert exif[305] == "Adobe Photoshop CS Macintosh" def test_exif_argument(self, tmp_path: Path) -> None: with Image.open(TEST_PNG_FILE) as im: test_file = str(tmp_path / "temp.png") im.save(test_file, exif=b"exifstring") with Image.open(test_file) as reloaded: assert reloaded.info["exif"] == b"Exif\x00\x00exifstring" def test_tell(self) -> None: with Image.open(TEST_PNG_FILE) as im: assert im.tell() == 0 def test_seek(self) -> None: with Image.open(TEST_PNG_FILE) as im: im.seek(0) with pytest.raises(EOFError): im.seek(1) @pytest.mark.parametrize("buffer", (True, False)) def test_save_stdout(self, buffer: bool) -> None: old_stdout = sys.stdout class MyStdOut: buffer = BytesIO() mystdout: MyStdOut | BytesIO = MyStdOut() if buffer else BytesIO() sys.stdout = mystdout with Image.open(TEST_PNG_FILE) as im: im.save(sys.stdout, "PNG") # Reset stdout sys.stdout = old_stdout if isinstance(mystdout, MyStdOut): mystdout = mystdout.buffer with Image.open(mystdout) as reloaded: assert_image_equal_tofile(reloaded, TEST_PNG_FILE) def test_truncated_end_chunk(self) -> None: with Image.open("Tests/images/truncated_end_chunk.png") as im: with pytest.raises(OSError): im.load() ImageFile.LOAD_TRUNCATED_IMAGES = True try: with Image.open("Tests/images/truncated_end_chunk.png") as im: assert_image_equal_tofile(im, "Tests/images/hopper.png") finally: ImageFile.LOAD_TRUNCATED_IMAGES = False @pytest.mark.skipif(is_win32(), reason="Requires Unix or macOS") @skip_unless_feature("zlib") class TestTruncatedPngPLeaks(PillowLeakTestCase): mem_limit = 2 * 1024 # max increase in K iterations = 100 # Leak is 56k/iteration, this will leak 5.6megs def test_leak_load(self) -> None: with open("Tests/images/hopper.png", "rb") as f: DATA = BytesIO(f.read(16 * 1024)) ImageFile.LOAD_TRUNCATED_IMAGES = True with Image.open(DATA) as im: im.load() def core() -> None: with Image.open(DATA) as im: im.load() try: self._test_leak(core) finally: ImageFile.LOAD_TRUNCATED_IMAGES = False