ref: 19f18b5dcee49c6f9c17550611930dffe1aaadf0
dir: /sys/lib/ghostscript/pdf_rbld.ps/
% Copyright (C) 2002 artofcode LLC. All rights reserved. % % This software is provided AS-IS with no warranty, either express or % implied. % % This software is distributed under license and may not be copied, % modified or distributed except as expressly authorized under the terms % of the license contained in the file LICENSE in this distribution. % % For more information about licensing, please refer to % http://www.ghostscript.com/licensing/. For information on % commercial licensing, go to http://www.artifex.com/licensing/ or % contact Artifex Software, Inc., 101 Lucas Valley Road #110, % San Rafael, CA 94903, U.S.A., +1(415)492-9861. % $Id: pdf_rbld.ps,v 1.8 2005/02/07 06:38:02 dan Exp $ % pdf_rbld.ps - Rebuilding of broken PDF files (xref errors) % This module contains routines that are used if we detect an error % while reading the xref tables. These routines will scan the file and % build an xref table by finding the objects. We also need to find the % appropriate trailer dictionary. Note: One procedure is also used % even if we do not need to rebuild a PDF file. % % This module cannot rebuild a PDF file which has had errors created inside % of objects or binary data streams. It often succeeds with files that % have had its end of lines converted between unix and dos versions. % if true --> we have an object with duplicate object and generation numbers. /dup_obj_gen_num false def % Note: This routine is also used by non-rebuild code. % Store a line in the xref array (Actually Objects and Generations arrays) % <obj num> (strm num> <obj loc> <gen num> setxrefentry <obj num> strm num> % <obj loc> <gen num> /setxrefentry { % We store generation numbers as value + 1 % We reserve 0 to indicate an free xref entry 1 add % increment generation number % To save space, generations numbers are stored in a lstring unless we % find a generation number greater than 255. If so then transfer to % an larray. dup 255 gt { Generations ltype /stringtype eq { % Convert Generations to an larray. larray Generations llength lgrowto dup % Create new larray 0 1 2 index llength 1 sub { % Copy from old lstring to new larray Generations 1 index lget lput dup } for pop /Generations exch store % Save new Generations larray } if } if % Verify that the new values are for a new object. If the current % entry is null then we have a new entry. Objects 4 index lget null eq { ObjectStream 4 index 4 index cvx lput % Save ObjectStream object number Objects 4 index 3 index cvx lput % Save object location Generations 4 index 2 index lput % Save geenration number } { % Verify that the new entry has at least as high a generaton number % We accept equal entry number because we have found PDF files in % which there are multiple objects with the same object and entry % numbers. The normal xref logic only accepts the first such % entry that it finds. However the 'rebuild PDF' logic can find % both such entries. The correct one is usually the last one. Generations 4 index lget 1 index le { ObjectStream 4 index 4 index cvx lput % Save ObjectStream object number Objects 4 index 3 index cvx lput % Save object location Generations 4 index 2 index lput % Save geenration number } if % Set error flag if we have equal object and generation numbers Generations 4 index lget 1 index eq { /dup_obj_gen_num true def } if } ifelse } bind def % Print the contents of the xref array. This actually consists of two % arrays (Objects and Generations). Both are larrays. larrays are a % special Ghostscript object which can be arrays with more than 64k % elements. /print_xref % - print_xref - { 0 1 Objects llength 1 sub % stack: 0 1 <number of objects - 1> { dup =only % print object number ( ) print dup Generations exch lget 1 sub =only % print Generation number ( ) print dup ObjectStream exch lget ==only % print ObjectStream object number ( ) print Objects exch lget === % print object location } for flush } bind def % This is the same as the postscript token operator except that % errors are ignored. /token_nofail { { token } .internalstopped { pop false } if } bind odef % Get token from string and check its type % <string> <type> typed_token <false> % no token or not match % <string> <type> typed_token <obj> <last> <true> % matching token type % Where last is the string remainder /typed_token { exch token_nofail % get token { dup type % stack: type last token type 4 -1 roll eq { % stack: last token bool exch true % desired object found - set exit status } { pop pop false % not type - clear stack, set exit status } ifelse } { pop false % no token - pop type, set exit status } ifelse % check if we got token } bind def % Allocate space for post_eof_count to be bound into procedures below. /post_eof_count 0 def % We want the location of the trailer dictionary at the start of file. % First we will find the xref. Then we will skip over the xref entries % to the trailer. /search_start_trailer % - search_start_trailer <trailer loc> { % Read the first 300 bytes and check for xref PDFfile 0 setfileposition 300 string 0 1 299 { 2 copy PDFfile read pop put pop } for (xref) search { % found 'xref' exch pop exch pop length 4 add PDFfile exch setfileposition PDFfile token pop % get starting entry - or 'trailer' (trailer) ne { % if we do not already have 'trailer' PDFfile token pop % get number of entries PDFfile token pop pop % this moves us into the middle of the first entry 25 string exch % define working string for readline { PDFfile 1 index readline pop pop } repeat % skip entries pop % pop working string PDFfile token pop pop % get 'trailer' PDFfile fileposition % get file position } if } { pop 0 % no xref - should not happen } ifelse } bind def % We want the location of the trailer dictionary at the end of file. % We will read the last block of data and search for the final occurance % of the word 'trailer' /search_end_trailer % - search_end_trailer <trailer loc> { % Position to read block of data from the end of the file. Note: We ignore % anything past the last %%EOF since this is not PDF data. PDFfile 0 setfileposition PDFfile bytesavailable post_eof_count sub % location of end of data dup 4096 .min % block size to read % stack: <file end pos> <block size> % move file position to the start of the block 2 copy sub PDFfile exch setfileposition % read block of data dup string 0 1 4 -1 roll 1 sub { 2 copy PDFfile read pop put pop } for % search for last occurance of 'trailer' (trailer) { search not { exit } if pop } loop % determine where the trailer is in the file % trailer loc = end loc - remaing string length length sub } bind def % We want to find the trailer dictionary. There is a trailer dictionary % for each xref object list. We only want the trailer dictionary associated % with the first xref object list. In theory this can be anywhere in the % file. However since we are trying to repair a broken file, we cannot simply % follow the xref links. So we are falling back to a simple strategy. We % find the specified location of the first xref list. If its location is in % the first half of the file then we search for the first trailer dictionary % at the start of the file. Otherwise we search for the last trailer at the % end of the file. /search_trailer % - search_trailer - { % Find the 'startxref' and associated position at the end of the file. % Position to read block of data from the end of the file. Note: We % actually end at the end of the last %%EOF since this is the end of the % useful PDF data. (Some files contain trailing garbage.) PDFfile 0 setfileposition PDFfile bytesavailable % size of file post_eof_count sub dup % location of end of last %%EOF dup 4096 .min % block size to read % stack: <useful file size> <useful file size file> <block size> % move file position to the start of the block 2 copy sub PDFfile exch setfileposition % read block of data dup string 0 1 4 -1 roll 1 sub { 2 copy PDFfile read pop put pop } for % search for last occurance of 'startxref' (startxref) { search not { exit } if pop } loop % determine where the trailer is in the file % trailer loc = end loc - remaing string length length sub 9 sub % move the file to this position and read startxref and position PDFfile exch setfileposition PDFfile token pop pop PDFfile token pop % compare xref position to 1/2 the length of the file and search for trailer exch 2 div lt { search_start_trailer } { search_end_trailer } ifelse % get the trailer PDFfile exch setfileposition % set to the specified trailer location PDFfile traileropdict .pdfrun % read trailer info /Trailer exch def } bind def % This routine will determine if there is stuff after the %%EOF. There is % supposed to be only a line termination. However many real life files % contain some garbage. This routine checks how much. We then ignore this % stuff when we are scanning for objects. /determine_post_eof_count % - determine_post_eof_count <count> { % Position to read block of data from the end of the file. PDFfile 0 setfileposition PDFfile bytesavailable % size of file dup 4096 .min % block size to read % stack: <file size> <file size> <block size> % move file position to the start of the block 2 copy sub PDFfile exch setfileposition % read block of data dup string 0 1 4 -1 roll 1 sub { 2 copy PDFfile read pop put pop } for % search for last occurance of '%%EOF' (%%EOF) { search not { exit } if pop } loop % how much is left = remaining string length length exch pop % pop /%%EOF } bind def % This routine will scan a file searaching for object locations to build % an alternate version of the data in the xref tables. % Its purpose is to provide a basis for an xref fixing facility. /search_objects % - search_objects - { % Initialize the Objects, Generations, etc. larrays initPDFobjects % reset duplicate object and generation numbers error flag /dup_obj_gen_num false def % Determine how many bytes are in the file after the final %%EOF /post_eof_count determine_post_eof_count def % Start at the beginning of the file PDFfile 0 setfileposition % Create a working string (and also store its length on stack). We are % using a maximum size string size the logic below wants a recovered object % to fit into our working string. 65535 dup string { % Now loop through the entire file lloking for objects PDFfile fileposition % save current file position % When we get near the end of the file, we use a smaller interval of % our working string to prevent reading past the end. (See comments on % EOF testing below.) PDFfile bytesavailable post_eof_count sub 10 sub dup 4 index lt { 2 index 0 3 -1 roll getinterval % near EOF, use interval of string } { pop 1 index % not near end, use full working string }ifelse % Read a line from file. If the line does not fit into our working string, % or any other error, then we will discard it. PDFfile exch { readline } .internalstopped { pop pop false } if % indicate no string if we stopped { % stack: <length> <working_str> <loc> <string> % Now that we have line, get obj num, ref num, and 'obj'. Verify that each % of these is correct type. /integertype typed_token { % get obj number /integertype typed_token { % get ref number /nametype typed_token { % get 'obj' text pop % pop remaining string /obj eq { % verify name is 'obj' % make sure we have room in the arrays. We work in increments % of 20 each time we increase the size. 1 index 20 add 20 idiv 20 mul growPDFobjects % save xref parameters into ObjectStream, Objects and Generations 1 index 0 4 index 3 index % rearrange parms for setxrefentry setxrefentry % save parameters pop pop pop pop % clear parameters } if % check if name is 'obj' } if % check if we got 'obj" string pop % remove ref number } if % check if we got ref number pop % remove obj number } if % check if we got object number } if % check if got a string from readline pop % remove location % Check if we are approaching the end of the file. We do not want to % read past the end of the file since that closes it. We actually stop % 10-20 bytes early since there cannot be an object that close to the end. % (There is a Trailer dictionary, etc. at the end of the file.) PDFfile bytesavailable post_eof_count sub 20 lt { exit } if } loop % loop through the entire file pop pop % remove working string and its length % Output warning if we have two objects with the same object and generation % numbers. dup_obj_gen_num { ( **** Warning: There are objects with matching object and generation\n) pdfformaterror ( **** numbers. The accuracy of the resulting image is unknown.\n) pdfformaterror } if } bind def % Print warning message because we found a problem while reading the xref % tables /print_xref_warning { ( **** Warning: An error occurred while reading an XREF table.\n) pdfformaterror ( **** The file has been damaged. This may have been caused\n) pdfformaterror ( **** by a problem while converting or transfering the file.\n) pdfformaterror ( **** Ghostscript will attempt to recover the data.\n) pdfformaterror } bind def % Attempt to recover the XRef data. This is called if we have a failure % while reading the normal XRef tables. This routine usually works % only for pre PDF1.5 versions of PDF files. /recover_xref_data % - recover_xref_data - { print_xref_warning % Print warning message count pdfemptycount sub { pop } repeat % remove anything left by readxref search_objects % Search for objects } bind def