# Copyright (c) 2006, Mathieu Fenniak # All rights reserved. # # Redistribution and use in source and binary forms, with or without # modification, are permitted provided that the following conditions are # met: # # * Redistributions of source code must retain the above copyright notice, # this list of conditions and the following disclaimer. # * Redistributions in binary form must reproduce the above copyright notice, # this list of conditions and the following disclaimer in the documentation # and/or other materials provided with the distribution. # * The name of the author may not be used to endorse or promote products # derived from this software without specific prior written permission. # # THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" # AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE # IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE # ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE # LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR # CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF # SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS # INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN # CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) # ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE # POSSIBILITY OF SUCH DAMAGE. """ Implementation of stream filters for PDF. See TABLE H.1 Abbreviations for standard filter names """ __author__ = "Mathieu Fenniak" __author_email__ = "biziqe@mathieu.fenniak.net" import math import struct import zlib from base64 import a85decode from io import BytesIO from typing import Any, Dict, List, Optional, Tuple, Union, cast from ._utils import ( WHITESPACES_AS_BYTES, b_, deprecate_with_replacement, deprecation_no_replacement, logger_warning, ord_, ) from .constants import CcittFaxDecodeParameters as CCITT from .constants import ColorSpaces from .constants import FilterTypeAbbreviations as FTA from .constants import FilterTypes as FT from .constants import ImageAttributes as IA from .constants import LzwFilterParameters as LZW from .constants import StreamAttributes as SA from .errors import DeprecationError, PdfReadError, PdfStreamError from .generic import ( ArrayObject, DictionaryObject, IndirectObject, NullObject, ) def decompress(data: bytes) -> bytes: """ Decompress the given data using zlib. This function attempts to decompress the input data using zlib. If the decompression fails due to a zlib error, it falls back to using a decompression object with a larger window size. Args: data: The input data to be decompressed. Returns: The decompressed data. """ try: return zlib.decompress(data) except zlib.error: try: # For larger files, use Decompress object to enable buffered reading return zlib.decompressobj().decompress(data) except zlib.error: # If still failed, then try with increased window size d = zlib.decompressobj(zlib.MAX_WBITS | 32) result_str = b"" for b in [data[i : i + 1] for i in range(len(data))]: try: result_str += d.decompress(b) except zlib.error: pass return result_str class FlateDecode: @staticmethod def decode( data: bytes, decode_parms: Optional[DictionaryObject] = None, **kwargs: Any, ) -> bytes: """ Decode data which is flate-encoded. Args: data: flate-encoded data. decode_parms: a dictionary of values, understanding the "/Predictor": key only Returns: The flate-decoded data. Raises: PdfReadError: """ if "decodeParms" in kwargs: # deprecated deprecate_with_replacement("decodeParms", "parameters", "4.0.0") decode_parms = kwargs["decodeParms"] if isinstance(decode_parms, ArrayObject): raise DeprecationError("decode_parms as ArrayObject is depreciated") str_data = decompress(data) predictor = 1 if decode_parms: try: predictor = decode_parms.get("/Predictor", 1) except (AttributeError, TypeError): # Type Error is NullObject pass # Usually an array with a null object was read # predictor 1 == no predictor if predictor != 1: # /Columns, the number of samples in each row, has a default value of 1; # §7.4.4.3, ISO 32000. DEFAULT_BITS_PER_COMPONENT = 8 try: columns = cast(int, decode_parms[LZW.COLUMNS].get_object()) # type: ignore except (TypeError, KeyError): columns = 1 try: colors = cast(int, decode_parms[LZW.COLORS].get_object()) # type: ignore except (TypeError, KeyError): colors = 1 try: bits_per_component = cast( int, decode_parms[LZW.BITS_PER_COMPONENT].get_object(), # type: ignore ) except (TypeError, KeyError): bits_per_component = DEFAULT_BITS_PER_COMPONENT # PNG predictor can vary by row and so is the lead byte on each row rowlength = ( math.ceil(columns * colors * bits_per_component / 8) + 1 ) # number of bytes # TIFF prediction: if predictor == 2: rowlength -= 1 # remove the predictor byte bpp = rowlength // columns str_data = bytearray(str_data) for i in range(len(str_data)): if i % rowlength >= bpp: str_data[i] = (str_data[i] + str_data[i - bpp]) % 256 str_data = bytes(str_data) # PNG prediction: elif 10 <= predictor <= 15: str_data = FlateDecode._decode_png_prediction( str_data, columns, rowlength ) else: # unsupported predictor raise PdfReadError(f"Unsupported flatedecode predictor {predictor!r}") return str_data @staticmethod def _decode_png_prediction(data: bytes, columns: int, rowlength: int) -> bytes: # PNG prediction can vary from row to row if len(data) % rowlength != 0: raise PdfReadError("Image data is not rectangular") output = [] prev_rowdata = (0,) * rowlength bpp = (rowlength - 1) // columns # recomputed locally to not change params for row in range(0, len(data), rowlength): rowdata: List[int] = list(data[row : row + rowlength]) filter_byte = rowdata[0] if filter_byte == 0: pass elif filter_byte == 1: for i in range(bpp + 1, rowlength): rowdata[i] = (rowdata[i] + rowdata[i - bpp]) % 256 elif filter_byte == 2: for i in range(1, rowlength): rowdata[i] = (rowdata[i] + prev_rowdata[i]) % 256 elif filter_byte == 3: for i in range(1, bpp + 1): # left = 0 floor = prev_rowdata[i] // 2 rowdata[i] = (rowdata[i] + floor) % 256 for i in range(bpp + 1, rowlength): left = rowdata[i - bpp] floor = (left + prev_rowdata[i]) // 2 rowdata[i] = (rowdata[i] + floor) % 256 elif filter_byte == 4: for i in range(1, bpp + 1): # left = 0 up = prev_rowdata[i] # up_left = 0 paeth = up rowdata[i] = (rowdata[i] + paeth) % 256 for i in range(bpp + 1, rowlength): left = rowdata[i - bpp] up = prev_rowdata[i] up_left = prev_rowdata[i - bpp] p = left + up - up_left dist_left = abs(p - left) dist_up = abs(p - up) dist_up_left = abs(p - up_left) if dist_left <= dist_up and dist_left <= dist_up_left: paeth = left elif dist_up <= dist_up_left: paeth = up else: paeth = up_left rowdata[i] = (rowdata[i] + paeth) % 256 else: # unsupported PNG filter raise PdfReadError( f"Unsupported PNG filter {filter_byte!r}" ) # pragma: no cover prev_rowdata = tuple(rowdata) output.extend(rowdata[1:]) return bytes(output) @staticmethod def encode(data: bytes, level: int = -1) -> bytes: """ Compress the input data using zlib. Args: data: The data to be compressed. level: See https://docs.python.org/3/library/zlib.html#zlib.compress Returns: The compressed data. """ return zlib.compress(data, level) class ASCIIHexDecode: """ The ASCIIHexDecode filter decodes data that has been encoded in ASCII hexadecimal form into a base-7 ASCII format. """ @staticmethod def decode( data: Union[str, bytes], decode_parms: Optional[DictionaryObject] = None, **kwargs: Any, ) -> bytes: """ Decode an ASCII-Hex encoded data stream. Args: data: a str sequence of hexadecimal-encoded values to be converted into a base-7 ASCII string decode_parms: a string conversion in base-7 ASCII, where each of its values v is such that 0 <= ord(v) <= 127. Returns: A string conversion in base-7 ASCII, where each of its values v is such that 0 <= ord(v) <= 127. Raises: PdfStreamError: """ # decode_parms is unused here if isinstance(data, str): data = data.encode() retval = b"" hex_pair = b"" index = 0 while True: if index >= len(data): logger_warning( "missing EOD in ASCIIHexDecode, check if output is OK", __name__ ) break # reach End Of String even if no EOD char = data[index : index + 1] if char == b">": break elif char.isspace(): index += 1 continue hex_pair += char if len(hex_pair) == 2: retval += bytes((int(hex_pair, base=16),)) hex_pair = b"" index += 1 assert hex_pair == b"" return retval class RunLengthDecode: """ The RunLengthDecode filter decodes data that has been encoded in a simple byte-oriented format based on run length. The encoded data is a sequence of runs, where each run consists of a length byte followed by 1 to 128 bytes of data. If the length byte is in the range 0 to 127, the following length + 1 (1 to 128) bytes are copied literally during decompression. If length is in the range 129 to 255, the following single byte is to be copied 257 − length (2 to 128) times during decompression. A length value of 128 denotes EOD. """ @staticmethod def decode( data: bytes, decode_parms: Optional[DictionaryObject] = None, **kwargs: Any, ) -> bytes: """ Decode a run length encoded data stream. Args: data: a bytes sequence of length/data decode_parms: ignored. Returns: A bytes decompressed sequence. Raises: PdfStreamError: """ # decode_parms is unused here lst = [] index = 0 while True: if index >= len(data): logger_warning( "missing EOD in RunLengthDecode, check if output is OK", __name__ ) break # reach End Of String even if no EOD length = data[index] index += 1 if length == 128: if index < len(data): raise PdfStreamError("early EOD in RunLengthDecode") else: break elif length < 128: length += 1 lst.append(data[index : (index + length)]) index += length else: # >128 length = 257 - length lst.append(bytes((data[index],)) * length) index += 1 return b"".join(lst) class LZWDecode: """ Taken from: http://www.java2s.com/Open-Source/Java-Document/PDF/PDF- Renderer/com/sun/pdfview/decode/LZWDecode.java.htm """ class Decoder: def __init__(self, data: bytes) -> None: self.STOP = 257 self.CLEARDICT = 256 self.data = data self.bytepos = 0 self.bitpos = 0 self.dict = [""] * 4096 for i in range(256): self.dict[i] = chr(i) self.reset_dict() def reset_dict(self) -> None: self.dictlen = 258 self.bitspercode = 9 def next_code(self) -> int: fillbits = self.bitspercode value = 0 while fillbits > 0: if self.bytepos >= len(self.data): return -1 nextbits = ord_(self.data[self.bytepos]) bitsfromhere = 8 - self.bitpos bitsfromhere = min(bitsfromhere, fillbits) value |= ( (nextbits >> (8 - self.bitpos - bitsfromhere)) & (0xFF >> (8 - bitsfromhere)) ) << (fillbits - bitsfromhere) fillbits -= bitsfromhere self.bitpos += bitsfromhere if self.bitpos >= 8: self.bitpos = 0 self.bytepos = self.bytepos + 1 return value def decode(self) -> str: """ TIFF 6.0 specification explains in sufficient details the steps to implement the LZW encode() and decode() algorithms. algorithm derived from: http://www.rasip.fer.hr/research/compress/algorithms/fund/lz/lzw.html and the PDFReference Raises: PdfReadError: If the stop code is missing """ cW = self.CLEARDICT baos = "" while True: pW = cW cW = self.next_code() if cW == -1: raise PdfReadError("Missed the stop code in LZWDecode!") if cW == self.STOP: break elif cW == self.CLEARDICT: self.reset_dict() elif pW == self.CLEARDICT: baos += self.dict[cW] else: if cW < self.dictlen: baos += self.dict[cW] p = self.dict[pW] + self.dict[cW][0] self.dict[self.dictlen] = p self.dictlen += 1 else: p = self.dict[pW] + self.dict[pW][0] baos += p self.dict[self.dictlen] = p self.dictlen += 1 if ( self.dictlen >= (1 << self.bitspercode) - 1 and self.bitspercode < 12 ): self.bitspercode += 1 return baos @staticmethod def decode( data: bytes, decode_parms: Optional[DictionaryObject] = None, **kwargs: Any, ) -> str: """ Decode an LZW encoded data stream. Args: data: ``bytes`` or ``str`` text to decode. decode_parms: a dictionary of parameter values. Returns: decoded data. """ # decode_parms is unused here return LZWDecode.Decoder(data).decode() class ASCII85Decode: """Decodes string ASCII85-encoded data into a byte format.""" @staticmethod def decode( data: Union[str, bytes], decode_parms: Optional[DictionaryObject] = None, **kwargs: Any, ) -> bytes: """ Decode an Ascii85 encoded data stream. Args: data: ``bytes`` or ``str`` text to decode. decode_parms: a dictionary of parameter values. Returns: decoded data. """ if isinstance(data, str): data = data.encode() data = data.strip(WHITESPACES_AS_BYTES) return a85decode(data, adobe=True, ignorechars=WHITESPACES_AS_BYTES) class DCTDecode: @staticmethod def decode( data: bytes, decode_parms: Optional[DictionaryObject] = None, **kwargs: Any, ) -> bytes: # decode_parms is unused here return data class JPXDecode: @staticmethod def decode( data: bytes, decode_parms: Optional[DictionaryObject] = None, **kwargs: Any, ) -> bytes: # decode_parms is unused here return data class CCITParameters: """§7.4.6, optional parameters for the CCITTFaxDecode filter.""" def __init__(self, K: int = 0, columns: int = 0, rows: int = 0) -> None: self.K = K self.EndOfBlock = None self.EndOfLine = None self.EncodedByteAlign = None self.columns = columns # width self.rows = rows # height self.DamagedRowsBeforeError = None @property def group(self) -> int: if self.K < 0: CCITTgroup = 4 else: # k == 0: Pure one-dimensional encoding (Group 3, 1-D) # k > 0: Mixed one- and two-dimensional encoding (Group 3, 2-D) CCITTgroup = 3 return CCITTgroup class CCITTFaxDecode: """ §7.4.6, CCITTFaxDecode filter (ISO 32000). Either Group 3 or Group 4 CCITT facsimile (fax) encoding. CCITT encoding is bit-oriented, not byte-oriented. §7.4.6, optional parameters for the CCITTFaxDecode filter. """ @staticmethod def _get_parameters( parameters: Union[None, ArrayObject, DictionaryObject, IndirectObject], rows: int, ) -> CCITParameters: # §7.4.6, optional parameters for the CCITTFaxDecode filter k = 0 columns = 1728 if parameters: parameters_unwrapped = cast( Union[ArrayObject, DictionaryObject], parameters.get_object() ) if isinstance(parameters_unwrapped, ArrayObject): for decode_parm in parameters_unwrapped: if CCITT.COLUMNS in decode_parm: columns = decode_parm[CCITT.COLUMNS] if CCITT.K in decode_parm: k = decode_parm[CCITT.K] else: if CCITT.COLUMNS in parameters_unwrapped: columns = parameters_unwrapped[CCITT.COLUMNS] # type: ignore if CCITT.K in parameters_unwrapped: k = parameters_unwrapped[CCITT.K] # type: ignore return CCITParameters(k, columns, rows) @staticmethod def decode( data: bytes, decode_parms: Optional[DictionaryObject] = None, height: int = 0, **kwargs: Any, ) -> bytes: # decode_parms is unused here if "decodeParms" in kwargs: # deprecated deprecate_with_replacement("decodeParms", "parameters", "4.0.0") decode_parms = kwargs["decodeParms"] if isinstance(decode_parms, ArrayObject): # deprecated deprecation_no_replacement( "decode_parms being an ArrayObject", removed_in="3.15.5" ) params = CCITTFaxDecode._get_parameters(decode_parms, height) img_size = len(data) tiff_header_struct = "<2shlh" + "hhll" * 8 + "h" tiff_header = struct.pack( tiff_header_struct, b"II", # Byte order indication: Little endian 42, # Version number (always 42) 8, # Offset to first IFD 8, # Number of tags in IFD 256, 4, 1, params.columns, # ImageWidth, LONG, 1, width 257, 4, 1, params.rows, # ImageLength, LONG, 1, length 258, 3, 1, 1, # BitsPerSample, SHORT, 1, 1 259, 3, 1, params.group, # Compression, SHORT, 1, 4 = CCITT Group 4 fax encoding 262, 3, 1, 0, # Thresholding, SHORT, 1, 0 = WhiteIsZero 273, 4, 1, struct.calcsize( tiff_header_struct ), # StripOffsets, LONG, 1, length of header 278, 4, 1, params.rows, # RowsPerStrip, LONG, 1, length 279, 4, 1, img_size, # StripByteCounts, LONG, 1, size of image 0, # last IFD ) return tiff_header + data def decode_stream_data(stream: Any) -> Union[bytes, str]: # utils.StreamObject """ Decode the stream data based on the specified filters. This function decodes the stream data using the filters provided in the stream. It supports various filter types, including FlateDecode, ASCIIHexDecode, RunLengthDecode, LZWDecode, ASCII85Decode, DCTDecode, JPXDecode, and CCITTFaxDecode. Args: stream: The input stream object containing the data and filters. Returns: The decoded stream data. Raises: NotImplementedError: If an unsupported filter type is encountered. """ filters = stream.get(SA.FILTER, ()) if isinstance(filters, IndirectObject): filters = cast(ArrayObject, filters.get_object()) if not isinstance(filters, ArrayObject): # we have a single filter instance filters = (filters,) decodparms = stream.get(SA.DECODE_PARMS, ({},) * len(filters)) if not isinstance(decodparms, (list, tuple)): decodparms = (decodparms,) data: bytes = b_(stream._data) # If there is not data to decode we should not try to decode the data. if data: for filter_type, params in zip(filters, decodparms): if isinstance(params, NullObject): params = {} if filter_type in (FT.FLATE_DECODE, FTA.FL): data = FlateDecode.decode(data, params) elif filter_type in (FT.ASCII_HEX_DECODE, FTA.AHx): data = ASCIIHexDecode.decode(data) elif filter_type in (FT.RUN_LENGTH_DECODE, FTA.RL): data = RunLengthDecode.decode(data) elif filter_type in (FT.LZW_DECODE, FTA.LZW): data = LZWDecode.decode(data, params) # type: ignore elif filter_type in (FT.ASCII_85_DECODE, FTA.A85): data = ASCII85Decode.decode(data) elif filter_type == FT.DCT_DECODE: data = DCTDecode.decode(data) elif filter_type == FT.JPX_DECODE: data = JPXDecode.decode(data) elif filter_type == FT.CCITT_FAX_DECODE: height = stream.get(IA.HEIGHT, ()) data = CCITTFaxDecode.decode(data, params, height) elif filter_type == "/Crypt": if "/Name" in params or "/Type" in params: raise NotImplementedError( "/Crypt filter with /Name or /Type not supported yet" ) else: # Unsupported filter raise NotImplementedError(f"unsupported filter {filter_type}") return data def decodeStreamData(stream: Any) -> Union[str, bytes]: # deprecated """Deprecated. Use decode_stream_data.""" deprecate_with_replacement("decodeStreamData", "decode_stream_data", "4.0.0") return decode_stream_data(stream) def _xobj_to_image(x_object_obj: Dict[str, Any]) -> Tuple[Optional[str], bytes, Any]: """ Users need to have the pillow package installed. It's unclear if pypdf will keep this function here, hence it's private. It might get removed at any point. Args: x_object_obj: Returns: Tuple[file extension, bytes, PIL.Image.Image] """ from ._xobj_image_helpers import ( Image, UnidentifiedImageError, _extended_image_frombytes, _get_imagemode, _handle_flate, _handle_jpx, mode_str_type, ) # for error reporting if ( hasattr(x_object_obj, "indirect_reference") and x_object_obj is None ): # pragma: no cover obj_as_text = x_object_obj.indirect_reference.__repr__() else: obj_as_text = x_object_obj.__repr__() size = (cast(int, x_object_obj[IA.WIDTH]), cast(int, x_object_obj[IA.HEIGHT])) data = x_object_obj.get_data() # type: ignore if isinstance(data, str): # pragma: no cover data = data.encode() if len(data) % (size[0] * size[1]) == 1 and data[-1] == 0x0A: # ie. '\n' data = data[:-1] colors = x_object_obj.get("/Colors", 1) color_space: Any = x_object_obj.get("/ColorSpace", NullObject()).get_object() if isinstance(color_space, list) and len(color_space) == 1: color_space = color_space[0].get_object() if ( IA.COLOR_SPACE in x_object_obj and x_object_obj[IA.COLOR_SPACE] == ColorSpaces.DEVICE_RGB ): # https://pillow.readthedocs.io/en/stable/handbook/concepts.html#modes mode: mode_str_type = "RGB" if x_object_obj.get("/BitsPerComponent", 8) < 8: mode, invert_color = _get_imagemode( f"{x_object_obj.get('/BitsPerComponent', 8)}bit", 0, "" ) else: mode, invert_color = _get_imagemode( color_space, 2 if ( colors == 1 and ( not isinstance(color_space, NullObject) and "Gray" not in color_space ) ) else colors, "", ) extension = None alpha = None filters = x_object_obj.get(SA.FILTER, NullObject()).get_object() lfilters = filters[-1] if isinstance(filters, list) else filters if lfilters in (FT.FLATE_DECODE, FT.RUN_LENGTH_DECODE): img, image_format, extension, _ = _handle_flate( size, data, mode, color_space, colors, obj_as_text, ) elif lfilters in (FT.LZW_DECODE, FT.ASCII_85_DECODE, FT.CCITT_FAX_DECODE): # I'm not sure if the following logic is correct. # There might not be any relationship between the filters and the # extension if lfilters in (FT.LZW_DECODE, FT.CCITT_FAX_DECODE): extension = ".tiff" # mime_type = "image/tiff" image_format = "TIFF" else: extension = ".png" # mime_type = "image/png" image_format = "PNG" try: img = Image.open(BytesIO(data), formats=("TIFF", "PNG")) except UnidentifiedImageError: img = _extended_image_frombytes(mode, size, data) elif lfilters == FT.DCT_DECODE: img, image_format, extension = Image.open(BytesIO(data)), "JPEG", ".jpg" # invert_color kept unchanged elif lfilters == FT.JPX_DECODE: img, image_format, extension, invert_color = _handle_jpx( size, data, mode, color_space, colors ) elif lfilters == FT.CCITT_FAX_DECODE: img, image_format, extension, invert_color = ( Image.open(BytesIO(data), formats=("TIFF",)), "TIFF", ".tiff", False, ) elif mode == "CMYK": img, image_format, extension, invert_color = ( _extended_image_frombytes(mode, size, data), "TIFF", ".tif", False, ) elif mode == "": raise PdfReadError(f"ColorSpace field not found in {x_object_obj}") else: img, image_format, extension, invert_color = ( _extended_image_frombytes(mode, size, data), "PNG", ".png", False, ) # CMYK image and other colorspaces without decode # requires reverting scale (cf p243,2§ last sentence) decode = x_object_obj.get( IA.DECODE, ([1.0, 0.0] * len(img.getbands())) if ( (img.mode == "CMYK" and lfilters in (FT.DCT_DECODE, FT.JPX_DECODE)) or (invert_color and img.mode == "L") ) else None, ) if ( isinstance(color_space, ArrayObject) and color_space[0].get_object() == "/Indexed" ): decode = None # decode is meanless of Indexed if ( isinstance(color_space, ArrayObject) and color_space[0].get_object() == "/Separation" ): decode = [1.0, 0.0] * len(img.getbands()) if decode is not None and not all(decode[i] == i % 2 for i in range(len(decode))): lut: List[int] = [] for i in range(0, len(decode), 2): dmin = decode[i] dmax = decode[i + 1] lut.extend( round(255.0 * (j / 255.0 * (dmax - dmin) + dmin)) for j in range(256) ) img = img.point(lut) if IA.S_MASK in x_object_obj: # add alpha channel alpha = _xobj_to_image(x_object_obj[IA.S_MASK])[2] if img.size != alpha.size: logger_warning(f"image and mask size not matching: {obj_as_text}", __name__) else: # TODO : implement mask if alpha.mode != "L": alpha = alpha.convert("L") if img.mode == "P": img = img.convert("RGB") elif img.mode == "1": img = img.convert("L") img.putalpha(alpha) if "JPEG" in image_format: extension = ".jp2" image_format = "JPEG2000" else: extension = ".png" image_format = "PNG" img_byte_arr = BytesIO() try: img.save(img_byte_arr, format=image_format) except OSError: # pragma: no cover # covered with pillow 10.3 # in case of we convert to RGBA and then to PNG img1 = img.convert("RGBA") image_format = "PNG" extension = ".png" img_byte_arr = BytesIO() img1.save(img_byte_arr, format=image_format) data = img_byte_arr.getvalue() try: # temporary try/except until other fixes of images img = Image.open(BytesIO(data)) except Exception: img = None # type: ignore return extension, data, img