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pdfdocument.py
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pdfdocument.py
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#!/usr/bin/env python
import re
import struct
import logging
try:
import hashlib as md5
except ImportError:
import md5
try:
from Crypto.Cipher import ARC4
from Crypto.Cipher import AES
from Crypto.Hash import SHA256
except ImportError:
AES = SHA256 = None
from . import arcfour as ARC4
from .psparser import PSEOF
from .psparser import literal_name
from .psparser import LIT
from .psparser import KWD
from .psparser import STRICT
from .pdftypes import PDFException
from .pdftypes import PDFTypeError
from .pdftypes import PDFStream
from .pdftypes import PDFObjectNotFound
from .pdftypes import decipher_all
from .pdftypes import int_value
from .pdftypes import bytes_value
from .pdftypes import list_value
from .pdftypes import dict_value
from .pdftypes import stream_value
from .pdfparser import PDFSyntaxError
from .pdfparser import PDFStreamParser
from .utils import choplist
from .utils import nunpack
from .utils import decode_text
## Exceptions
##
class PDFNoValidXRef(PDFSyntaxError):
pass
class PDFNoOutlines(PDFException):
pass
class PDFDestinationNotFound(PDFException):
pass
class PDFEncryptionError(PDFException):
pass
class PDFPasswordIncorrect(PDFEncryptionError):
pass
class PDFTextExtractionNotAllowed(PDFEncryptionError):
pass
# some predefined literals and keywords.
LITERAL_OBJSTM = LIT('ObjStm')
LITERAL_XREF = LIT('XRef')
LITERAL_CATALOG = LIT('Catalog')
## XRefs
##
class PDFBaseXRef:
debug = False
def get_trailer(self):
raise NotImplementedError
def get_objids(self):
return []
# Must return
# (strmid, index, genno)
# or (None, pos, genno)
def get_pos(self, objid):
raise KeyError(objid)
## PDFXRef
##
class PDFXRef(PDFBaseXRef):
def __init__(self):
self.offsets = {}
self.trailer = {}
return
def __repr__(self):
return '<PDFXRef: offsets=%r>' % (self.offsets.keys())
def load(self, parser):
while 1:
try:
(pos, line) = parser.nextline()
if not line.strip():
continue
except PSEOF:
raise PDFNoValidXRef('Unexpected EOF - file corrupted?')
if not line:
raise PDFNoValidXRef('Premature eof: %r' % parser)
if line.startswith(b'trailer'):
parser.seek(pos)
break
f = line.strip().split(b' ')
if len(f) != 2:
raise PDFNoValidXRef('Trailer not found: %r: line=%r' % (parser, line))
try:
(start, nobjs) = map(int, f)
except ValueError:
raise PDFNoValidXRef('Invalid line: %r: line=%r' % (parser, line))
for objid in range(start, start+nobjs):
try:
(_, line) = parser.nextline()
except PSEOF:
raise PDFNoValidXRef('Unexpected EOF - file corrupted?')
f = line.strip().split(b' ')
if len(f) != 3:
raise PDFNoValidXRef('Invalid XRef format: %r, line=%r' % (parser, line))
(pos, genno, use) = f
if use != b'n':
continue
self.offsets[objid] = (None, int(pos), int(genno))
if self.debug: logging.info('xref objects: %r' % self.offsets)
self.load_trailer(parser)
return
KEYWORD_TRAILER = KWD(b'trailer')
def load_trailer(self, parser):
try:
(_, kwd) = parser.nexttoken()
assert kwd is self.KEYWORD_TRAILER
(_, dic) = parser.nextobject()
except PSEOF:
x = parser.pop(1)
if not x:
raise PDFNoValidXRef('Unexpected EOF - file corrupted')
(_, dic) = x[0]
self.trailer.update(dict_value(dic))
return
def get_trailer(self):
return self.trailer
def get_objids(self):
return self.offsets.keys()
def get_pos(self, objid):
try:
return self.offsets[objid]
except KeyError:
raise
## PDFXRefFallback
##
class PDFXRefFallback(PDFXRef):
def __repr__(self):
return '<PDFXRefFallback: offsets=%r>' % (self.offsets.keys())
PDFOBJ_CUE = re.compile(br'^(\d+)\s+(\d+)\s+obj\b')
def load(self, parser):
parser.seek(0)
while 1:
try:
(pos, line) = parser.nextline()
except PSEOF:
break
if line.startswith(b'trailer'):
parser.seek(pos)
self.load_trailer(parser)
if self.debug: logging.info('trailer: %r' % self.get_trailer())
break
m = self.PDFOBJ_CUE.match(line)
if not m:
continue
(objid, genno) = m.groups()
objid = int(objid)
genno = int(genno)
self.offsets[objid] = (None, pos, genno)
# expand ObjStm.
parser.seek(pos)
(_, obj) = parser.nextobject()
if isinstance(obj, PDFStream) and obj.get('Type') is LITERAL_OBJSTM:
stream = stream_value(obj)
try:
n = stream['N']
except KeyError:
if STRICT:
raise PDFSyntaxError('N is not defined: %r' % stream)
n = 0
parser1 = PDFStreamParser(stream.get_data())
objs = []
try:
while 1:
(_, obj) = parser1.nextobject()
objs.append(obj)
except PSEOF:
pass
n = min(n, len(objs)//2)
for index in range(n):
objid1 = objs[index*2]
self.offsets[objid1] = (objid, index, 0)
return
## PDFXRefStream
##
class PDFXRefStream(PDFBaseXRef):
debug = False
def __init__(self):
self.data = None
self.entlen = None
self.fl1 = self.fl2 = self.fl3 = None
self.ranges = []
return
def __repr__(self):
return '<PDFXRefStream: ranges=%r>' % (self.ranges)
def load(self, parser):
(_, objid) = parser.nexttoken() # ignored
(_, genno) = parser.nexttoken() # ignored
(_, kwd) = parser.nexttoken()
(_, stream) = parser.nextobject()
if not isinstance(stream, PDFStream) or stream['Type'] is not LITERAL_XREF:
raise PDFNoValidXRef('Invalid PDF stream spec.')
size = stream['Size']
index_array = stream.get('Index', (0, size))
if len(index_array) % 2 != 0:
raise PDFSyntaxError('Invalid index number')
self.ranges.extend(choplist(2, index_array))
(self.fl1, self.fl2, self.fl3) = stream['W']
self.data = stream.get_data()
self.entlen = self.fl1+self.fl2+self.fl3
self.trailer = stream.attrs
if self.debug:
logging.info('xref stream: objid=%s, fields=%d,%d,%d' %
(', '.join(map(repr, self.ranges)),
self.fl1, self.fl2, self.fl3))
return
def get_trailer(self):
return self.trailer
def get_objids(self):
for (start, nobjs) in self.ranges:
for i in range(nobjs):
offset = self.entlen * i
ent = self.data[offset:offset+self.entlen]
f1 = nunpack(ent[:self.fl1], 1)
if f1 == 1 or f1 == 2:
yield start+i
return
def get_pos(self, objid):
index = 0
for (start, nobjs) in self.ranges:
if start <= objid and objid < start+nobjs:
index += objid - start
break
else:
index += nobjs
else:
raise KeyError(objid)
offset = self.entlen * index
ent = self.data[offset:offset+self.entlen]
f1 = nunpack(ent[:self.fl1], 1)
f2 = nunpack(ent[self.fl1:self.fl1+self.fl2])
f3 = nunpack(ent[self.fl1+self.fl2:])
if f1 == 1:
return (None, f2, f3)
elif f1 == 2:
return (f2, f3, 0)
else:
# this is a free object
raise KeyError(objid)
## PDFSecurityHandler
##
class PDFStandardSecurityHandler:
PASSWORD_PADDING = (b'(\xbfN^Nu\x8aAd\x00NV\xff\xfa\x01\x08'
b'..\x00\xb6\xd0h>\x80/\x0c\xa9\xfedSiz')
supported_revisions = (2, 3)
def __init__(self, docid, param, password=b''):
self.docid = docid
self.param = param
self.password = password
self.init()
return
def init(self):
self.init_params()
if self.r not in self.supported_revisions:
raise PDFEncryptionError('Unsupported revision: param=%r' % self.param)
self.init_key()
return
def init_params(self):
self.v = int_value(self.param.get('V', 0))
self.r = int_value(self.param['R'])
self.p = int_value(self.param['P'])
self.o = bytes_value(self.param['O'])
self.u = bytes_value(self.param['U'])
self.length = int_value(self.param.get('Length', 40))
return
def init_key(self):
self.key = self.authenticate(self.password)
if self.key is None:
raise PDFPasswordIncorrect
return
def is_printable(self):
return bool(self.p & 4)
def is_modifiable(self):
return bool(self.p & 8)
def is_extractable(self):
return bool(self.p & 16)
def compute_u(self, key):
if self.r == 2:
# Algorithm 3.4
return ARC4.new(key).encrypt(self.PASSWORD_PADDING) # 2
else:
# Algorithm 3.5
hash = md5.md5(self.PASSWORD_PADDING) # 2
hash.update(self.docid[0]) # 3
result = ARC4.new(key).encrypt(hash.digest()) # 4
for i in range(1, 20): # 5
k = bytes( (c ^ i) for c in key )
result = ARC4.new(k).encrypt(result)
result += result # 6
return result
def compute_encryption_key(self, password):
# Algorithm 3.2
password = (password + self.PASSWORD_PADDING)[:32] # 1
hash = md5.md5(password) # 2
hash.update(self.o) # 3
hash.update(struct.pack('<l', self.p)) # 4
hash.update(self.docid[0]) # 5
if self.r >= 4:
if not self.encrypt_metadata:
hash.update(b'\xff\xff\xff\xff')
result = hash.digest()
n = 5
if self.r >= 3:
n = self.length // 8
for _ in range(50):
result = md5.md5(result[:n]).digest()
return result[:n]
def authenticate(self, password):
key = self.authenticate_user_password(password)
if key is None:
key = self.authenticate_owner_password(password)
return key
def authenticate_user_password(self, password):
key = self.compute_encryption_key(password)
if self.verify_encryption_key(key):
return key
else:
return None
def verify_encryption_key(self, key):
# Algorithm 3.6
u = self.compute_u(key)
if self.r == 2:
return u == self.u
return u[:16] == self.u[:16]
def authenticate_owner_password(self, password):
# Algorithm 3.7
password = (password + self.PASSWORD_PADDING)[:32]
hash = md5.md5(password)
if self.r >= 3:
for _ in range(50):
hash = md5.md5(hash.digest())
n = 5
if self.r >= 3:
n = self.length // 8
key = hash.digest()[:n]
if self.r == 2:
user_password = ARC4.new(key).decrypt(self.o)
else:
user_password = self.o
for i in range(19, -1, -1):
k = bytes( (c ^ i) for c in key )
user_password = ARC4.new(k).decrypt(user_password)
return self.authenticate_user_password(user_password)
def decrypt(self, objid, genno, data, attrs=None):
return self.decrypt_rc4(objid, genno, data)
def decrypt_rc4(self, objid, genno, data):
key = self.key + struct.pack('<L', objid)[:3] + struct.pack('<L', genno)[:2]
hash = md5.md5(key)
key = hash.digest()[:min(len(key), 16)]
return ARC4.new(key).decrypt(data)
class PDFStandardSecurityHandlerV4(PDFStandardSecurityHandler):
supported_revisions = (4,)
def init_params(self):
super(PDFStandardSecurityHandlerV4, self).init_params()
self.length = 128
self.cf = dict_value(self.param.get('CF'))
self.stmf = literal_name(self.param['StmF'])
self.strf = literal_name(self.param['StrF'])
self.encrypt_metadata = bool(self.param.get('EncryptMetadata', True))
if self.stmf != self.strf:
raise PDFEncryptionError('Unsupported crypt filter: param=%r' % self.param)
self.cfm = {}
for k, v in self.cf.items():
f = self.get_cfm(literal_name(v['CFM']))
if f is None:
raise PDFEncryptionError('Unknown crypt filter method: param=%r' % self.param)
self.cfm[k] = f
self.cfm['Identity'] = self.decrypt_identity
if self.strf not in self.cfm:
raise PDFEncryptionError('Undefined crypt filter: param=%r' % self.param)
return
def get_cfm(self, name):
if name == 'V2':
return self.decrypt_rc4
elif name == 'AESV2':
return self.decrypt_aes128
else:
return None
def decrypt(self, objid, genno, data, attrs=None, name=None):
if not self.encrypt_metadata and attrs is not None:
t = attrs.get('Type')
if t is not None and literal_name(t) == 'Metadata':
return data
if name is None:
name = self.strf
return self.cfm[name](objid, genno, data)
def decrypt_identity(self, objid, genno, data):
return data
def decrypt_aes128(self, objid, genno, data):
key = self.key + struct.pack('<L', objid)[:3] + struct.pack('<L', genno)[:2] + b'sAlT'
hash = md5.md5(key)
key = hash.digest()[:min(len(key), 16)]
return AES.new(key, mode=AES.MODE_CBC, IV=data[:16]).decrypt(data[16:])
class PDFStandardSecurityHandlerV5(PDFStandardSecurityHandlerV4):
supported_revisions = (5,)
def init_params(self):
super(PDFStandardSecurityHandlerV5, self).init_params()
self.length = 256
self.oe = bytes_value(self.param['OE'])
self.ue = bytes_value(self.param['UE'])
self.o_hash = self.o[:32]
self.o_validation_salt = self.o[32:40]
self.o_key_salt = self.o[40:]
self.u_hash = self.u[:32]
self.u_validation_salt = self.u[32:40]
self.u_key_salt = self.u[40:]
return
def get_cfm(self, name):
if name == 'AESV3':
return self.decrypt_aes256
else:
return None
def authenticate(self, password):
password = password[:127]
hash = SHA256.new(password)
hash.update(self.o_validation_salt)
hash.update(self.u)
if hash.digest() == self.o_hash:
hash = SHA256.new(password)
hash.update(self.o_key_salt)
hash.update(self.u)
return AES.new(hash.digest(), mode=AES.MODE_CBC, IV=b'\x00' * 16).decrypt(self.oe)
hash = SHA256.new(password)
hash.update(self.u_validation_salt)
if hash.digest() == self.u_hash:
hash = SHA256.new(password)
hash.update(self.u_key_salt)
return AES.new(hash.digest(), mode=AES.MODE_CBC, IV=b'\x00' * 16).decrypt(self.ue)
return None
def decrypt_aes256(self, objid, genno, data):
return AES.new(self.key, mode=AES.MODE_CBC, IV=data[:16]).decrypt(data[16:])
## PDFDocument
##
class PDFDocument:
"""PDFDocument object represents a PDF document.
Since a PDF file can be very big, normally it is not loaded at
once. So PDF document has to cooperate with a PDF parser in order to
dynamically import the data as processing goes.
Typical usage:
doc = PDFDocument(parser, password)
obj = doc.getobj(objid)
"""
security_handler_registry = {
1: PDFStandardSecurityHandler,
2: PDFStandardSecurityHandler,
}
if AES is not None:
security_handler_registry[4] = PDFStandardSecurityHandlerV4
if SHA256 is not None:
security_handler_registry[5] = PDFStandardSecurityHandlerV5
debug = 0
def __init__(self, parser, password=b'', caching=True, fallback=True):
"Set the document to use a given PDFParser object."
self.caching = caching
self.xrefs = []
self.info = []
self.catalog = None
self.encryption = None
self.decipher = None
self._parser = None
self._cached_objs = {}
self._parsed_objs = {}
self._parser = parser
self._parser.set_document(self)
self.is_printable = self.is_modifiable = self.is_extractable = True
# Retrieve the information of each header that was appended
# (maybe multiple times) at the end of the document.
try:
pos = self.find_xref(parser)
self.read_xref_from(parser, pos, self.xrefs)
except PDFNoValidXRef:
fallback = True
if fallback:
parser.fallback = True
xref = PDFXRefFallback()
xref.load(parser)
self.xrefs.append(xref)
for xref in self.xrefs:
trailer = xref.get_trailer()
if not trailer:
continue
# If there's an encryption info, remember it.
if 'Encrypt' in trailer:
#assert not self.encryption
self.encryption = (list_value(trailer['ID']),
dict_value(trailer['Encrypt']))
self._initialize_password(password)
if 'Info' in trailer:
self.info.append(dict_value(trailer['Info']))
if 'Root' in trailer:
# Every PDF file must have exactly one /Root dictionary.
self.catalog = dict_value(trailer['Root'])
break
else:
raise PDFSyntaxError('No /Root object! - Is this really a PDF?')
if self.catalog.get('Type') is not LITERAL_CATALOG:
if STRICT:
raise PDFSyntaxError('Catalog not found!')
return
# _initialize_password(password=b'')
# Perform the initialization with a given password.
def _initialize_password(self, password=b''):
(docid, param) = self.encryption
if literal_name(param.get('Filter')) != 'Standard':
raise PDFEncryptionError('Unknown filter: param=%r' % param)
v = int_value(param.get('V', 0))
factory = self.security_handler_registry.get(v)
if factory is None:
raise PDFEncryptionError('Unknown algorithm: param=%r' % param)
handler = factory(docid, param, password)
self.decipher = handler.decrypt
self.is_printable = handler.is_printable()
self.is_modifiable = handler.is_modifiable()
self.is_extractable = handler.is_extractable()
self._parser.fallback = False # need to read streams with exact length
return
def _getobj_objstm(self, stream, index, objid):
if stream.objid in self._parsed_objs:
(objs, n) = self._parsed_objs[stream.objid]
else:
(objs, n) = self._get_objects(stream)
if self.caching:
self._parsed_objs[stream.objid] = (objs, n)
i = n*2+index
try:
obj = objs[i]
except IndexError:
raise PDFSyntaxError('index too big: %r' % index)
return obj
def _get_objects(self, stream):
if stream.get('Type') is not LITERAL_OBJSTM:
if STRICT:
raise PDFSyntaxError('Not a stream object: %r' % stream)
try:
n = stream['N']
except KeyError:
if STRICT:
raise PDFSyntaxError('N is not defined: %r' % stream)
n = 0
parser = PDFStreamParser(stream.get_data())
parser.set_document(self)
objs = []
try:
while 1:
(_, obj) = parser.nextobject()
objs.append(obj)
except PSEOF:
pass
return (objs, n)
KEYWORD_OBJ = KWD(b'obj')
def _getobj_parse(self, pos, objid):
self._parser.seek(pos)
(_, objid1) = self._parser.nexttoken() # objid
if objid1 != objid:
raise PDFSyntaxError('objid mismatch: %r=%r' % (objid1, objid))
(_, genno) = self._parser.nexttoken() # genno
(_, kwd) = self._parser.nexttoken()
if kwd is not self.KEYWORD_OBJ:
raise PDFSyntaxError('Invalid object spec: offset=%r' % pos)
(_, obj) = self._parser.nextobject()
return obj
# can raise PDFObjectNotFound
def getobj(self, objid):
assert objid != 0
if not self.xrefs:
raise PDFException('PDFDocument is not initialized')
if self.debug:
logging.debug('getobj: objid=%r' % objid)
if objid in self._cached_objs:
(obj, genno) = self._cached_objs[objid]
else:
for xref in self.xrefs:
try:
(strmid, index, genno) = xref.get_pos(objid)
except KeyError:
continue
try:
if strmid is not None:
stream = stream_value(self.getobj(strmid))
obj = self._getobj_objstm(stream, index, objid)
else:
obj = self._getobj_parse(index, objid)
if self.decipher:
obj = decipher_all(self.decipher, objid, genno, obj)
if isinstance(obj, PDFStream):
obj.set_objid(objid, genno)
break
except (PSEOF, PDFSyntaxError):
continue
else:
raise PDFObjectNotFound(objid)
if self.debug:
logging.debug('register: objid=%r: %r' % (objid, obj))
if self.caching:
self._cached_objs[objid] = (obj, genno)
return obj
def get_outlines(self):
if 'Outlines' not in self.catalog:
raise PDFNoOutlines
def search(entry, level):
entry = dict_value(entry)
if 'Title' in entry:
if 'A' in entry or 'Dest' in entry:
title = decode_text(bytes_value(entry['Title']))
dest = entry.get('Dest')
action = entry.get('A')
se = entry.get('SE')
yield (level, title, dest, action, se)
if 'First' in entry and 'Last' in entry:
for x in search(entry['First'], level+1):
yield x
if 'Next' in entry:
for x in search(entry['Next'], level):
yield x
return
return search(self.catalog['Outlines'], 0)
def lookup_name(self, cat, key):
try:
names = dict_value(self.catalog['Names'])
except (PDFTypeError, KeyError):
raise KeyError((cat, key))
# may raise KeyError
d0 = dict_value(names[cat])
def lookup(d):
if 'Limits' in d:
(k1, k2) = list_value(d['Limits'])
if key < k1 or k2 < key:
return None
if 'Names' in d:
objs = list_value(d['Names'])
names = dict(choplist(2, objs))
return names[key]
if 'Kids' in d:
for c in list_value(d['Kids']):
v = lookup(dict_value(c))
if v:
return v
raise KeyError((cat, key))
return lookup(d0)
def get_dest(self, name):
try:
# PDF-1.2 or later
obj = self.lookup_name('Dests', name)
except KeyError:
# PDF-1.1 or prior
if 'Dests' not in self.catalog:
raise PDFDestinationNotFound(name)
d0 = dict_value(self.catalog['Dests'])
if name not in d0:
raise PDFDestinationNotFound(name)
obj = d0[name]
return obj
# find_xref
def find_xref(self, parser):
"""Internal function used to locate the first XRef."""
# search the last xref table by scanning the file backwards.
prev = None
for line in parser.revreadlines():
line = line.strip()
if self.debug:
logging.debug('find_xref: %r' % line)
if line == b'startxref':
break
if line:
prev = line
else:
raise PDFNoValidXRef('Unexpected EOF')
if self.debug:
logging.info('xref found: pos=%r' % prev)
return int(prev)
# read xref table
def read_xref_from(self, parser, start, xrefs):
"""Reads XRefs from the given location."""
parser.seek(start)
parser.reset()
try:
(pos, token) = parser.nexttoken()
except PSEOF:
raise PDFNoValidXRef('Unexpected EOF')
if self.debug:
logging.info('read_xref_from: start=%d, token=%r' % (start, token))
if isinstance(token, int):
# XRefStream: PDF-1.5
parser.seek(pos)
parser.reset()
xref = PDFXRefStream()
xref.load(parser)
else:
if token is parser.KEYWORD_XREF:
parser.nextline()
xref = PDFXRef()
xref.load(parser)
xrefs.append(xref)
trailer = xref.get_trailer()
if self.debug:
logging.info('trailer: %r' % trailer)
if 'XRefStm' in trailer:
pos = int_value(trailer['XRefStm'])
self.read_xref_from(parser, pos, xrefs)
if 'Prev' in trailer:
# find previous xref
pos = int_value(trailer['Prev'])
self.read_xref_from(parser, pos, xrefs)
return