📄 t1parse.c
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{
FT_Memory memory = parser->root.memory;
/* always free the private dictionary */
FT_FREE( parser->private_dict );
/* free the base dictionary only when we have a disk stream */
if ( !parser->in_memory )
FT_FREE( parser->base_dict );
parser->root.funcs.done( &parser->root );
}
FT_LOCAL_DEF( FT_Error )
T1_Get_Private_Dict( T1_Parser parser,
PSAux_Service psaux )
{
FT_Stream stream = parser->stream;
FT_Memory memory = parser->root.memory;
FT_Error error = T1_Err_Ok;
FT_Long size;
if ( parser->in_pfb )
{
/* in the case of the PFB format, the private dictionary can be */
/* made of several segments. We thus first read the number of */
/* segments to compute the total size of the private dictionary */
/* then re-read them into memory. */
FT_Long start_pos = FT_STREAM_POS();
FT_UShort tag;
parser->private_len = 0;
for (;;)
{
error = read_pfb_tag( stream, &tag, &size );
if ( error )
goto Fail;
if ( tag != 0x8002U )
break;
parser->private_len += size;
if ( FT_STREAM_SKIP( size ) )
goto Fail;
}
/* Check that we have a private dictionary there */
/* and allocate private dictionary buffer */
if ( parser->private_len == 0 )
{
FT_ERROR(( "T1_Get_Private_Dict:" ));
FT_ERROR(( " invalid private dictionary section\n" ));
error = T1_Err_Invalid_File_Format;
goto Fail;
}
if ( FT_STREAM_SEEK( start_pos ) ||
FT_ALLOC( parser->private_dict, parser->private_len ) )
goto Fail;
parser->private_len = 0;
for (;;)
{
error = read_pfb_tag( stream, &tag, &size );
if ( error || tag != 0x8002U )
{
error = T1_Err_Ok;
break;
}
if ( FT_STREAM_READ( parser->private_dict + parser->private_len,
size ) )
goto Fail;
parser->private_len += size;
}
}
else
{
/* We have already `loaded' the whole PFA font file into memory; */
/* if this is a memory resource, allocate a new block to hold */
/* the private dict. Otherwise, simply overwrite into the base */
/* dictionary block in the heap. */
/* first of all, look at the `eexec' keyword */
FT_Byte* cur = parser->base_dict;
FT_Byte* limit = cur + parser->base_len;
FT_Byte c;
Again:
for (;;)
{
c = cur[0];
if ( c == 'e' && cur + 9 < limit ) /* 9 = 5 letters for `eexec' + */
/* newline + 4 chars */
{
if ( cur[1] == 'e' &&
cur[2] == 'x' &&
cur[3] == 'e' &&
cur[4] == 'c' )
break;
}
cur++;
if ( cur >= limit )
{
FT_ERROR(( "T1_Get_Private_Dict:" ));
FT_ERROR(( " could not find `eexec' keyword\n" ));
error = T1_Err_Invalid_File_Format;
goto Exit;
}
}
/* check whether `eexec' was real -- it could be in a comment */
/* or string (as e.g. in u003043t.gsf from ghostscript) */
parser->root.cursor = parser->base_dict;
parser->root.limit = cur + 9;
cur = parser->root.cursor;
limit = parser->root.limit;
while ( cur < limit )
{
if ( *cur == 'e' && ft_strncmp( (char*)cur, "eexec", 5 ) == 0 )
goto Found;
T1_Skip_PS_Token( parser );
if ( parser->root.error )
break;
T1_Skip_Spaces ( parser );
cur = parser->root.cursor;
}
/* we haven't found the correct `eexec'; go back and continue */
/* searching */
cur = limit;
limit = parser->base_dict + parser->base_len;
goto Again;
/* now determine where to write the _encrypted_ binary private */
/* dictionary. We overwrite the base dictionary for disk-based */
/* resources and allocate a new block otherwise */
Found:
parser->root.limit = parser->base_dict + parser->base_len;
T1_Skip_PS_Token( parser );
cur = parser->root.cursor;
if ( *cur == '\r' )
{
cur++;
if ( *cur == '\n' )
cur++;
}
else if ( *cur == '\n' )
cur++;
else
{
FT_ERROR(( "T1_Get_Private_Dict:" ));
FT_ERROR(( " `eexec' not properly terminated\n" ));
error = T1_Err_Invalid_File_Format;
goto Exit;
}
size = (FT_Long)( parser->base_len - ( cur - parser->base_dict ) );
if ( parser->in_memory )
{
/* note that we allocate one more byte to put a terminating `0' */
if ( FT_ALLOC( parser->private_dict, size + 1 ) )
goto Fail;
parser->private_len = size;
}
else
{
parser->single_block = 1;
parser->private_dict = parser->base_dict;
parser->private_len = size;
parser->base_dict = 0;
parser->base_len = 0;
}
/* now determine whether the private dictionary is encoded in binary */
/* or hexadecimal ASCII format -- decode it accordingly */
/* we need to access the next 4 bytes (after the final \r following */
/* the `eexec' keyword); if they all are hexadecimal digits, then */
/* we have a case of ASCII storage */
if ( ft_isxdigit( cur[0] ) && ft_isxdigit( cur[1] ) &&
ft_isxdigit( cur[2] ) && ft_isxdigit( cur[3] ) )
{
/* ASCII hexadecimal encoding */
FT_Long len;
parser->root.cursor = cur;
(void)psaux->ps_parser_funcs->to_bytes( &parser->root,
parser->private_dict,
parser->private_len,
&len,
0 );
parser->private_len = len;
/* put a safeguard */
parser->private_dict[len] = '\0';
}
else
/* binary encoding -- copy the private dict */
FT_MEM_MOVE( parser->private_dict, cur, size );
}
/* we now decrypt the encoded binary private dictionary */
psaux->t1_decrypt( parser->private_dict, parser->private_len, 55665U );
/* replace the four random bytes at the beginning with whitespace */
parser->private_dict[0] = ' ';
parser->private_dict[1] = ' ';
parser->private_dict[2] = ' ';
parser->private_dict[3] = ' ';
parser->root.base = parser->private_dict;
parser->root.cursor = parser->private_dict;
parser->root.limit = parser->root.cursor + parser->private_len;
Fail:
Exit:
return error;
}
/* END */
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