# 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. """Utility functions for PDF library.""" __author__ = "Mathieu Fenniak" __author_email__ = "biziqe@mathieu.fenniak.net" import functools import logging import warnings from codecs import getencoder from dataclasses import dataclass from io import DEFAULT_BUFFER_SIZE from os import SEEK_CUR from typing import ( IO, Any, Callable, Dict, Optional, Pattern, Tuple, Union, overload, ) try: # Python 3.10+: https://www.python.org/dev/peps/pep-0484/ from typing import TypeAlias # type: ignore[attr-defined] except ImportError: from typing_extensions import TypeAlias from .errors import ( STREAM_TRUNCATED_PREMATURELY, DeprecationError, PdfStreamError, ) TransformationMatrixType: TypeAlias = Tuple[ Tuple[float, float, float], Tuple[float, float, float], Tuple[float, float, float] ] CompressedTransformationMatrix: TypeAlias = Tuple[ float, float, float, float, float, float ] StreamType = IO StrByteType = Union[str, StreamType] DEPR_MSG_NO_REPLACEMENT = "{} is deprecated and will be removed in PyPDF2 {}." DEPR_MSG_NO_REPLACEMENT_HAPPENED = "{} is deprecated and was removed in PyPDF2 {}." DEPR_MSG = "{} is deprecated and will be removed in PyPDF2 3.0.0. Use {} instead." DEPR_MSG_HAPPENED = "{} is deprecated and was removed in PyPDF2 {}. Use {} instead." def _get_max_pdf_version_header(header1: bytes, header2: bytes) -> bytes: versions = ( b"%PDF-1.3", b"%PDF-1.4", b"%PDF-1.5", b"%PDF-1.6", b"%PDF-1.7", b"%PDF-2.0", ) pdf_header_indices = [] if header1 in versions: pdf_header_indices.append(versions.index(header1)) if header2 in versions: pdf_header_indices.append(versions.index(header2)) if len(pdf_header_indices) == 0: raise ValueError(f"neither {header1!r} nor {header2!r} are proper headers") return versions[max(pdf_header_indices)] def read_until_whitespace(stream: StreamType, maxchars: Optional[int] = None) -> bytes: """ Read non-whitespace characters and return them. Stops upon encountering whitespace or when maxchars is reached. """ txt = b"" while True: tok = stream.read(1) if tok.isspace() or not tok: break txt += tok if len(txt) == maxchars: break return txt def read_non_whitespace(stream: StreamType) -> bytes: """Find and read the next non-whitespace character (ignores whitespace).""" tok = stream.read(1) while tok in WHITESPACES: tok = stream.read(1) return tok def skip_over_whitespace(stream: StreamType) -> bool: """ Similar to read_non_whitespace, but return a Boolean if more than one whitespace character was read. """ tok = WHITESPACES[0] cnt = 0 while tok in WHITESPACES: tok = stream.read(1) cnt += 1 return cnt > 1 def skip_over_comment(stream: StreamType) -> None: tok = stream.read(1) stream.seek(-1, 1) if tok == b"%": while tok not in (b"\n", b"\r"): tok = stream.read(1) def read_until_regex( stream: StreamType, regex: Pattern[bytes], ignore_eof: bool = False ) -> bytes: """ Read until the regular expression pattern matched (ignore the match). :raises PdfStreamError: on premature end-of-file :param bool ignore_eof: If true, ignore end-of-line and return immediately :param regex: re.Pattern """ name = b"" while True: tok = stream.read(16) if not tok: if ignore_eof: return name raise PdfStreamError(STREAM_TRUNCATED_PREMATURELY) m = regex.search(tok) if m is not None: name += tok[: m.start()] stream.seek(m.start() - len(tok), 1) break name += tok return name def read_block_backwards(stream: StreamType, to_read: int) -> bytes: """ Given a stream at position X, read a block of size to_read ending at position X. This changes the stream's position to the beginning of where the block was read. """ if stream.tell() < to_read: raise PdfStreamError("Could not read malformed PDF file") # Seek to the start of the block we want to read. stream.seek(-to_read, SEEK_CUR) read = stream.read(to_read) # Seek to the start of the block we read after reading it. stream.seek(-to_read, SEEK_CUR) return read def read_previous_line(stream: StreamType) -> bytes: """ Given a byte stream with current position X, return the previous line. All characters between the first CR/LF byte found before X (or, the start of the file, if no such byte is found) and position X After this call, the stream will be positioned one byte after the first non-CRLF character found beyond the first CR/LF byte before X, or, if no such byte is found, at the beginning of the stream. """ line_content = [] found_crlf = False if stream.tell() == 0: raise PdfStreamError(STREAM_TRUNCATED_PREMATURELY) while True: to_read = min(DEFAULT_BUFFER_SIZE, stream.tell()) if to_read == 0: break # Read the block. After this, our stream will be one # beyond the initial position. block = read_block_backwards(stream, to_read) idx = len(block) - 1 if not found_crlf: # We haven't found our first CR/LF yet. # Read off characters until we hit one. while idx >= 0 and block[idx] not in b"\r\n": idx -= 1 if idx >= 0: found_crlf = True if found_crlf: # We found our first CR/LF already (on this block or # a previous one). # Our combined line is the remainder of the block # plus any previously read blocks. line_content.append(block[idx + 1 :]) # Continue to read off any more CRLF characters. while idx >= 0 and block[idx] in b"\r\n": idx -= 1 else: # Didn't find CR/LF yet - add this block to our # previously read blocks and continue. line_content.append(block) if idx >= 0: # We found the next non-CRLF character. # Set the stream position correctly, then break stream.seek(idx + 1, SEEK_CUR) break # Join all the blocks in the line (which are in reverse order) return b"".join(line_content[::-1]) def matrix_multiply( a: TransformationMatrixType, b: TransformationMatrixType ) -> TransformationMatrixType: return tuple( # type: ignore[return-value] tuple(sum(float(i) * float(j) for i, j in zip(row, col)) for col in zip(*b)) for row in a ) def mark_location(stream: StreamType) -> None: """Create text file showing current location in context.""" # Mainly for debugging radius = 5000 stream.seek(-radius, 1) with open("PyPDF2_pdfLocation.txt", "wb") as output_fh: output_fh.write(stream.read(radius)) output_fh.write(b"HERE") output_fh.write(stream.read(radius)) stream.seek(-radius, 1) B_CACHE: Dict[Union[str, bytes], bytes] = {} def b_(s: Union[str, bytes]) -> bytes: bc = B_CACHE if s in bc: return bc[s] if isinstance(s, bytes): return s try: r = s.encode("latin-1") if len(s) < 2: bc[s] = r return r except Exception: r = s.encode("utf-8") if len(s) < 2: bc[s] = r return r @overload def str_(b: str) -> str: ... @overload def str_(b: bytes) -> str: ... def str_(b: Union[str, bytes]) -> str: if isinstance(b, bytes): return b.decode("latin-1") else: return b @overload def ord_(b: str) -> int: ... @overload def ord_(b: bytes) -> bytes: ... @overload def ord_(b: int) -> int: ... def ord_(b: Union[int, str, bytes]) -> Union[int, bytes]: if isinstance(b, str): return ord(b) return b def hexencode(b: bytes) -> bytes: coder = getencoder("hex_codec") coded = coder(b) # type: ignore return coded[0] def hex_str(num: int) -> str: return hex(num).replace("L", "") WHITESPACES = (b" ", b"\n", b"\r", b"\t", b"\x00") def paeth_predictor(left: int, up: int, up_left: int) -> int: 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: return left elif dist_up <= dist_up_left: return up else: return up_left def deprecate(msg: str, stacklevel: int = 3) -> None: warnings.warn(msg, DeprecationWarning, stacklevel=stacklevel) def deprecation(msg: str) -> None: raise DeprecationError(msg) def deprecate_with_replacement( old_name: str, new_name: str, removed_in: str = "3.0.0" ) -> None: """ Raise an exception that a feature will be removed, but has a replacement. """ deprecate(DEPR_MSG.format(old_name, new_name, removed_in), 4) def deprecation_with_replacement( old_name: str, new_name: str, removed_in: str = "3.0.0" ) -> None: """ Raise an exception that a feature was already removed, but has a replacement. """ deprecation(DEPR_MSG_HAPPENED.format(old_name, removed_in, new_name)) def deprecate_no_replacement(name: str, removed_in: str = "3.0.0") -> None: """ Raise an exception that a feature will be removed without replacement. """ deprecate(DEPR_MSG_NO_REPLACEMENT.format(name, removed_in), 4) def deprecation_no_replacement(name: str, removed_in: str = "3.0.0") -> None: """ Raise an exception that a feature was already removed without replacement. """ deprecation(DEPR_MSG_NO_REPLACEMENT_HAPPENED.format(name, removed_in)) def logger_warning(msg: str, src: str) -> None: """ Use this instead of logger.warning directly. That allows people to overwrite it more easily. ## Exception, warnings.warn, logger_warning - Exceptions should be used if the user should write code that deals with an error case, e.g. the PDF being completely broken. - warnings.warn should be used if the user needs to fix their code, e.g. DeprecationWarnings - logger_warning should be used if the user needs to know that an issue was handled by PyPDF2, e.g. a non-compliant PDF being read in a way that PyPDF2 could apply a robustness fix to still read it. This applies mainly to strict=False mode. """ logging.getLogger(src).warning(msg) def deprecation_bookmark(**aliases: str) -> Callable: """ Decorator for deprecated term "bookmark" To be used for methods and function arguments outline_item = a bookmark outline = a collection of outline items """ def decoration(func: Callable): # type: ignore @functools.wraps(func) def wrapper(*args, **kwargs): # type: ignore rename_kwargs(func.__name__, kwargs, aliases, fail=True) return func(*args, **kwargs) return wrapper return decoration def rename_kwargs( # type: ignore func_name: str, kwargs: Dict[str, Any], aliases: Dict[str, str], fail: bool = False ): """ Helper function to deprecate arguments. """ for old_term, new_term in aliases.items(): if old_term in kwargs: if fail: raise DeprecationError( f"{old_term} is deprecated as an argument. Use {new_term} instead" ) if new_term in kwargs: raise TypeError( f"{func_name} received both {old_term} and {new_term} as an argument. " f"{old_term} is deprecated. Use {new_term} instead." ) kwargs[new_term] = kwargs.pop(old_term) warnings.warn( message=( f"{old_term} is deprecated as an argument. Use {new_term} instead" ), category=DeprecationWarning, ) def _human_readable_bytes(bytes: int) -> str: if bytes < 10**3: return f"{bytes} Byte" elif bytes < 10**6: return f"{bytes / 10**3:.1f} kB" elif bytes < 10**9: return f"{bytes / 10**6:.1f} MB" else: return f"{bytes / 10**9:.1f} GB" @dataclass class File: name: str data: bytes def __str__(self) -> str: return f"File(name={self.name}, data: {_human_readable_bytes(len(self.data))})" def __repr__(self) -> str: return f"File(name={self.name}, data: {_human_readable_bytes(len(self.data))}, hash: {hash(self.data)})"