def save(self, fn, preview=None, dviPreview=None):
     cf = not hasattr(fn, 'write')
     if cf:
         f = open(fn, 'wb')
     else:
         f = fn
     try:
         ps = self._postscript(dviPreview)
         if preview:
             import struct
             A = (b'\xc5', b'\xd0', b'\xd3', b'\xc6')
             hdr = struct.pack(
                 *(("<4c7i", ) + A +
                   (32, len(ps), 0, 0, 32 + len(ps), len(preview), 0xffff)))
             f.write(hdr)
             f.write(rawBytes(ps))
             f.write(preview)
         else:
             f.write(rawBytes(ps))
     finally:
         if cf:
             f.close()
     if cf and os.name == 'mac':
         from reportlab.lib.utils import markfilename
         markfilename(fn, ext='EPSF')
Ejemplo n.º 2
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 def save(self,fn, preview=None, dviPreview=None):
     cf = not hasattr(fn,'write')
     if cf: 
         f = open(fn,'wb')
     else:
         f = fn
     try:
         ps = self._postscript(dviPreview)
         if preview:
             import struct
             A = (b'\xc5',b'\xd0',b'\xd3',b'\xc6')if isPy3 else (chr(0xc5),chr(0xd0),chr(0xd3),chr(0xc6))
             hdr=struct.pack(*(
                             ("<4c7i",)
                             +A
                             +( 32,len(ps),0,0,32+len(ps),len(preview),0xffff)
                             )
                             )
             f.write(hdr)
             f.write(rawBytes(ps))
             f.write(preview)
         else:
             f.write(rawBytes(ps))
     finally:
         if cf:
             f.close()
     if cf and os.name=='mac':
         from reportlab.lib.utils import markfilename
         markfilename(fn,ext='EPSF')
Ejemplo n.º 3
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def computeU(encryptionkey,
             encodestring=PadString,
             revision=None,
             documentId=None):
    revision = checkRevision(revision)
    from reportlab.lib.arciv import ArcIV
    if revision == 2:
        result = ArcIV(encryptionkey).encode(encodestring)
    elif revision == 3:
        assert documentId is not None, "Revision 3 algorithm needs the document ID!"
        h = md5(PadString)
        h.update(rawBytes(documentId))
        tmp = h.digest()
        tmp = ArcIV(encryptionkey).encode(tmp)
        for n in range(1, 20):
            thisKey = xorKey(n, encryptionkey)
            tmp = ArcIV(thisKey).encode(tmp)
        while len(tmp) < 32:
            tmp += b'\0'
        result = tmp
    if DEBUG:
        print('computeU(%s,%s,%s,%s)==>%s' % tuple([
            hexText(str(x)) for x in (encryptionkey, encodestring, revision,
                                      documentId, result)
        ]))
    return result
Ejemplo n.º 4
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def computeU(encryptionkey, encodestring=PadString,revision=2,documentId=None):
    from reportlab.lib.arciv import ArcIV
    if revision == 2:
        result = ArcIV(encryptionkey).encode(encodestring)
    elif revision == 3:
        assert documentId is not None, "Revision 3 algorithm needs the document ID!"
        h = md5(PadString)
        h.update(rawBytes(documentId))
        tmp = h.digest()
        tmp = ArcIV(encryptionkey).encode(tmp)
        for n in range(1,20):
            thisKey = xorKey(n, encryptionkey)
            tmp = ArcIV(thisKey).encode(tmp)
        while len(tmp) < 32:
            tmp += b'\0'
        result = tmp
    if DEBUG: print('computeU(%s,%s,%s,%s)==>%s' % tuple([hexText(str(x)) for x in (encryptionkey, encodestring,revision,documentId,result)]))
    return result
Ejemplo n.º 5
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    def save(self,f=None):
        if not hasattr(f,'write'):
            _f = open(f,'wb')
        else:
            _f = f
        if self.code[-1]!='showpage': self.clear()
        self.code.insert(0,'''\
%%!PS-Adobe-3.0 EPSF-3.0
%%%%BoundingBox: 0 0 %d %d
%%%% Initialization:
/m {moveto} bind def
/l {lineto} bind def
/c {curveto} bind def
''' % (self.width,self.height))

        self._t1_re_encode()
        _f.write(rawBytes(self._sep.join(self.code)))
        if _f is not f:
            _f.close()
            from reportlab.lib.utils import markfilename
            markfilename(f,creatorcode='XPR3',filetype='EPSF')
Ejemplo n.º 6
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    def save(self,f=None):
        if not hasattr(f,'write'):
            _f = open(f,'wb')
        else:
            _f = f
        if self.code[-1]!='showpage': self.clear()
        self.code.insert(0,'''\
%%!PS-Adobe-3.0 EPSF-3.0
%%%%BoundingBox: 0 0 %d %d
%%%% Initialization:
/m {moveto} bind def
/l {lineto} bind def
/c {curveto} bind def
''' % (self.width,self.height))

        self._t1_re_encode()
        _f.write(rawBytes(self._sep.join(self.code)))
        if _f is not f:
            _f.close()
            from reportlab.lib.utils import markfilename
            markfilename(f,creatorcode='XPR3',filetype='EPSF')
Ejemplo n.º 7
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    return '<' + ''.join('%02X' % ord(c) for c in rawUnicode(text)) + '>'


def unHexText(hexText):
    equalityCheck(hexText[0], '<', 'bad hex text')
    equalityCheck(hexText[-1], '>', 'bad hex text')
    hexText = hexText[1:-1]
    out = b''
    for i in range(int(len(hexText) / 2.0)):
        slice = hexText[i * 2:i * 2 + 2]
        char = int2Byte(eval('0x' + slice))
        out = out + char
    return out


PadString = rawBytes(''.join(chr(int(c, 16)) for c in padding.strip().split()))


def checkRevision(revision):
    if revision is None:
        strength = rl_config.encryptionStrength
        if strength == 40:
            revision = 2
        elif strength == 128:
            revision = 3
        elif strength == 256:
            if not pyaes:
                raise ValueError(
                    'strength==256 is not supported as package pyaes is not importable'
                )
            revision = 5
Ejemplo n.º 8
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 def calcChecksum(data):
     """Calculates TTF-style checksums"""
     data = rawBytes(data)
     if len(data)&3: data = data + (4-(len(data)&3))*b"\0"
     return sum(unpack(">%dl" % (len(data)>>2), data)) & 0xFFFFFFFF
Ejemplo n.º 9
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 def calcChecksum(data):
     """Calculates TTF-style checksums"""
     data = rawBytes(data)
     if len(data) & 3: data = data + (4 - (len(data) & 3)) * b"\0"
     return sum(unpack(">%dl" % (len(data) >> 2), data)) & 0xFFFFFFFF
Ejemplo n.º 10
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def hexText(text):
    "a legitimate way to show strings in PDF"
    return '<%s>' % asNative(hexlify(rawBytes(text))).upper()
Ejemplo n.º 11
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def hexText(text):
    "a legitimate way to show strings in PDF"
    return '<' + ''.join('%02X' % ord(c) for c in rawUnicode(text)) + '>'

def unHexText(hexText):
    equalityCheck(hexText[0], '<', 'bad hex text')
    equalityCheck(hexText[-1], '>', 'bad hex text')
    hexText = hexText[1:-1]
    out = b''
    for i in range(int(len(hexText)/2.0)):
        slice = hexText[i*2: i*2+2]
        char = int2Byte(eval('0x'+slice))
        out = out + char
    return out

PadString = rawBytes(''.join(chr(int(c, 16)) for c in padding.strip().split()))

def encryptionkey(password, OwnerKey, Permissions, FileId1, revision=2):
    # FileId1 is first string of the fileid array
    # add padding string
    #AR force same as iText example
    #Permissions =  -1836   #int(Permissions - 2**31)
    password = asBytes(password) + PadString
    # truncate to 32 bytes
    password = password[:32]
    # translate permissions to string, low order byte first
    p = Permissions# + 2**32L
    permissionsString = b""
    for i in range(4):
        byte = (p & 0xff)    # seems to match what iText does
        p = p>>8