import io import logging import zlib from typing import ( TYPE_CHECKING, Any, Dict, Iterable, List, Optional, Protocol, Tuple, Union, cast, ) from warnings import warn from pdfminer import pdfexceptions, settings from pdfminer.ascii85 import ascii85decode, asciihexdecode from pdfminer.ccitt import ccittfaxdecode from pdfminer.lzw import lzwdecode from pdfminer.psparser import LIT, PSObject from pdfminer.runlength import rldecode from pdfminer.utils import apply_png_predictor if TYPE_CHECKING: from pdfminer.pdfdocument import PDFDocument logger = logging.getLogger(__name__) LITERAL_CRYPT = LIT("Crypt") # Abbreviation of Filter names in PDF 4.8.6. "Inline Images" LITERALS_FLATE_DECODE = (LIT("FlateDecode"), LIT("Fl")) LITERALS_LZW_DECODE = (LIT("LZWDecode"), LIT("LZW")) LITERALS_ASCII85_DECODE = (LIT("ASCII85Decode"), LIT("A85")) LITERALS_ASCIIHEX_DECODE = (LIT("ASCIIHexDecode"), LIT("AHx")) LITERALS_RUNLENGTH_DECODE = (LIT("RunLengthDecode"), LIT("RL")) LITERALS_CCITTFAX_DECODE = (LIT("CCITTFaxDecode"), LIT("CCF")) LITERALS_DCT_DECODE = (LIT("DCTDecode"), LIT("DCT")) LITERALS_JBIG2_DECODE = (LIT("JBIG2Decode"),) LITERALS_JPX_DECODE = (LIT("JPXDecode"),) class DecipherCallable(Protocol): """Fully typed a decipher callback, with optional parameter.""" def __call__( self, objid: int, genno: int, data: bytes, attrs: Optional[Dict[str, Any]] = None, ) -> bytes: raise NotImplementedError class PDFObject(PSObject): pass # Adding aliases for these exceptions for backwards compatibility PDFException = pdfexceptions.PDFException PDFTypeError = pdfexceptions.PDFTypeError PDFValueError = pdfexceptions.PDFValueError PDFObjectNotFound = pdfexceptions.PDFObjectNotFound PDFNotImplementedError = pdfexceptions.PDFNotImplementedError _DEFAULT = object() class PDFObjRef(PDFObject): def __init__( self, doc: Optional["PDFDocument"], objid: int, _: Any = _DEFAULT, ) -> None: """Reference to a PDF object. :param doc: The PDF document. :param objid: The object number. :param _: Unused argument for backwards compatibility. """ if _ is not _DEFAULT: warn( "The third argument of PDFObjRef is unused and will be removed after " "2024", DeprecationWarning, ) if objid == 0: if settings.STRICT: raise PDFValueError("PDF object id cannot be 0.") self.doc = doc self.objid = objid def __repr__(self) -> str: return "" % (self.objid) def resolve(self, default: object = None) -> Any: assert self.doc is not None try: return self.doc.getobj(self.objid) except PDFObjectNotFound: return default def resolve1(x: object, default: object = None) -> Any: """Resolves an object. If this is an array or dictionary, it may still contains some indirect objects inside. """ while isinstance(x, PDFObjRef): x = x.resolve(default=default) return x def resolve_all(x: object, default: object = None) -> Any: """Recursively resolves the given object and all the internals. Make sure there is no indirect reference within the nested object. This procedure might be slow. """ while isinstance(x, PDFObjRef): x = x.resolve(default=default) if isinstance(x, list): x = [resolve_all(v, default=default) for v in x] elif isinstance(x, dict): for k, v in x.items(): x[k] = resolve_all(v, default=default) return x def decipher_all(decipher: DecipherCallable, objid: int, genno: int, x: object) -> Any: """Recursively deciphers the given object.""" if isinstance(x, bytes): if len(x) == 0: return x return decipher(objid, genno, x) if isinstance(x, list): x = [decipher_all(decipher, objid, genno, v) for v in x] elif isinstance(x, dict): for k, v in x.items(): x[k] = decipher_all(decipher, objid, genno, v) return x def int_value(x: object) -> int: x = resolve1(x) if not isinstance(x, int): if settings.STRICT: raise PDFTypeError("Integer required: %r" % x) return 0 return x def float_value(x: object) -> float: x = resolve1(x) if not isinstance(x, float): if settings.STRICT: raise PDFTypeError("Float required: %r" % x) return 0.0 return x def num_value(x: object) -> float: x = resolve1(x) if not isinstance(x, (int, float)): # == utils.isnumber(x) if settings.STRICT: raise PDFTypeError("Int or Float required: %r" % x) return 0 return x def uint_value(x: object, n_bits: int) -> int: """Resolve number and interpret it as a two's-complement unsigned number""" xi = int_value(x) if xi > 0: return xi else: return xi + cast(int, 2**n_bits) def str_value(x: object) -> bytes: x = resolve1(x) if not isinstance(x, bytes): if settings.STRICT: raise PDFTypeError("String required: %r" % x) return b"" return x def list_value(x: object) -> Union[List[Any], Tuple[Any, ...]]: x = resolve1(x) if not isinstance(x, (list, tuple)): if settings.STRICT: raise PDFTypeError("List required: %r" % x) return [] return x def dict_value(x: object) -> Dict[Any, Any]: x = resolve1(x) if not isinstance(x, dict): if settings.STRICT: logger.error("PDFTypeError : Dict required: %r", x) raise PDFTypeError("Dict required: %r" % x) return {} return x def stream_value(x: object) -> "PDFStream": x = resolve1(x) if not isinstance(x, PDFStream): if settings.STRICT: raise PDFTypeError("PDFStream required: %r" % x) return PDFStream({}, b"") return x def decompress_corrupted(data: bytes) -> bytes: """Called on some data that can't be properly decoded because of CRC checksum error. Attempt to decode it skipping the CRC. """ d = zlib.decompressobj() f = io.BytesIO(data) result_str = b"" buffer = f.read(1) i = 0 try: while buffer: result_str += d.decompress(buffer) buffer = f.read(1) i += 1 except zlib.error: # Let the error propagates if we're not yet in the CRC checksum if i < len(data) - 3: logger.warning("Data-loss while decompressing corrupted data") return result_str class PDFStream(PDFObject): def __init__( self, attrs: Dict[str, Any], rawdata: bytes, decipher: Optional[DecipherCallable] = None, ) -> None: assert isinstance(attrs, dict), str(type(attrs)) self.attrs = attrs self.rawdata: Optional[bytes] = rawdata self.decipher = decipher self.data: Optional[bytes] = None self.objid: Optional[int] = None self.genno: Optional[int] = None def set_objid(self, objid: int, genno: int) -> None: self.objid = objid self.genno = genno def __repr__(self) -> str: if self.data is None: assert self.rawdata is not None return "" % ( self.objid, len(self.rawdata), self.attrs, ) else: assert self.data is not None return "" % ( self.objid, len(self.data), self.attrs, ) def __contains__(self, name: object) -> bool: return name in self.attrs def __getitem__(self, name: str) -> Any: return self.attrs[name] def get(self, name: str, default: object = None) -> Any: return self.attrs.get(name, default) def get_any(self, names: Iterable[str], default: object = None) -> Any: for name in names: if name in self.attrs: return self.attrs[name] return default def get_filters(self) -> List[Tuple[Any, Any]]: filters = resolve1(self.get_any(("F", "Filter"), [])) params = resolve1(self.get_any(("DP", "DecodeParms", "FDecodeParms"), {})) if not filters: return [] if not isinstance(filters, list): filters = [filters] if not isinstance(params, list): # Make sure the parameters list is the same as filters. params = [params] * len(filters) if settings.STRICT and len(params) != len(filters): raise PDFException("Parameters len filter mismatch") resolved_filters = [resolve1(f) for f in filters] resolved_params = [resolve1(param) for param in params] return list(zip(resolved_filters, resolved_params)) def decode(self) -> None: assert self.data is None and self.rawdata is not None, str( (self.data, self.rawdata), ) data = self.rawdata if self.decipher: # Handle encryption assert self.objid is not None assert self.genno is not None data = self.decipher(self.objid, self.genno, data, self.attrs) filters = self.get_filters() if not filters: self.data = data self.rawdata = None return for f, params in filters: if f in LITERALS_FLATE_DECODE: # will get errors if the document is encrypted. try: data = zlib.decompress(data) except zlib.error as e: if settings.STRICT: error_msg = f"Invalid zlib bytes: {e!r}, {data!r}" raise PDFException(error_msg) try: data = decompress_corrupted(data) except zlib.error: data = b"" elif f in LITERALS_LZW_DECODE: data = lzwdecode(data) elif f in LITERALS_ASCII85_DECODE: data = ascii85decode(data) elif f in LITERALS_ASCIIHEX_DECODE: data = asciihexdecode(data) elif f in LITERALS_RUNLENGTH_DECODE: data = rldecode(data) elif f in LITERALS_CCITTFAX_DECODE: data = ccittfaxdecode(data, params) elif f in LITERALS_DCT_DECODE: # This is probably a JPG stream # it does not need to be decoded twice. # Just return the stream to the user. pass elif f in LITERALS_JBIG2_DECODE or f in LITERALS_JPX_DECODE: pass elif f == LITERAL_CRYPT: # not yet.. raise PDFNotImplementedError("/Crypt filter is unsupported") else: raise PDFNotImplementedError("Unsupported filter: %r" % f) # apply predictors if params and "Predictor" in params: pred = int_value(params["Predictor"]) if pred == 1: # no predictor pass elif pred >= 10: # PNG predictor colors = int_value(params.get("Colors", 1)) columns = int_value(params.get("Columns", 1)) raw_bits_per_component = params.get("BitsPerComponent", 8) bitspercomponent = int_value(raw_bits_per_component) data = apply_png_predictor( pred, colors, columns, bitspercomponent, data, ) else: error_msg = "Unsupported predictor: %r" % pred raise PDFNotImplementedError(error_msg) self.data = data self.rawdata = None def get_data(self) -> bytes: if self.data is None: self.decode() assert self.data is not None return self.data def get_rawdata(self) -> Optional[bytes]: return self.rawdata