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|
/* This is dvipdfmx, an eXtended version of dvipdfm by Mark A. Wicks.
Copyright (C) 2002-2020 by Jin-Hwan Cho and Shunsaku Hirata,
the dvipdfmx project team.
Copyright (C) 1998, 1999 by Mark A. Wicks <mwicks@kettering.edu>
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA.
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <ctype.h>
#include <string.h>
/* floor and abs */
#include <math.h>
#include "system.h"
#include "mem.h"
#include "error.h"
#include "mfileio.h"
#include "dpxconf.h"
#include "dpxutil.h"
#include "pdflimits.h"
#include "pdfencrypt.h"
#include "pdfparse.h"
#ifdef HAVE_ZLIB
#include <zlib.h>
#endif /* HAVE_ZLIB */
#include "pdfobj.h"
#include "pdfdev.h"
#define STREAM_ALLOC_SIZE 4096u
#define ARRAY_ALLOC_SIZE 256
#define IND_OBJECTS_ALLOC_SIZE 512
#define OBJ_NO_OBJSTM (1 << 0)
/* Objects with this flag will not be put into an object stream.
For instance, all stream objects have this flag set. */
#define OBJ_NO_ENCRYPT (1 << 1)
/* Objects with this flag will not be encrypted.
This implies OBJ_NO_OBJSTM if encryption is turned on. */
/* Any of these types can be represented as follows */
struct pdf_obj
{
int type;
uint32_t label; /* Only used for indirect objects all other "label" to zero */
uint16_t generation; /* Only used if "label" is used */
int refcount; /* Number of links to this object */
int32_t flags;
void *data;
#if defined(PDFOBJ_DEBUG)
int obj_id;
#endif
};
#if defined(PDFOBJ_DEBUG)
static pdf_obj *bucket[65535];
static int cur_obj_id = 0;
#endif
struct pdf_boolean
{
char value;
};
struct pdf_number
{
double value;
};
struct pdf_string
{
unsigned char *string;
size_t length;
};
struct pdf_name
{
char *name;
};
struct pdf_array
{
size_t max;
size_t size;
struct pdf_obj **values;
};
struct pdf_dict
{
struct pdf_obj *key;
struct pdf_obj *value;
struct pdf_dict *next;
};
/* DecodeParms for FlateDecode */
struct decode_parms {
int predictor;
int colors;
int bits_per_component;
int32_t columns;
};
/* 2015/12/27 Added support for predictor functions
*
* There are yet no way to specify the use of predictor functions.
* Using TIFF2 or PNG predictor usually gives better compression for images
* but there is a case that compression speed becomes significantly slower.
* Please use -C 0x20 option to disable the use of predictor functions.
*
* See, e.g., for a heuristic approach for selecting filters
* http://www.w3.org/TR/PNG-Encoders.html#E.Filter-selection
*/
struct pdf_stream
{
struct pdf_obj *dict;
unsigned char *stream;
int *objstm_data; /* used for object streams */
size_t stream_length;
size_t max_length;
int32_t _flags;
struct decode_parms decodeparms;
};
struct pdf_indirect
{
pdf_file *pf;
pdf_obj *obj; /* used when PF == NULL */
uint32_t label;
uint16_t generation;
};
typedef void pdf_null;
typedef struct pdf_boolean pdf_boolean;
typedef struct pdf_number pdf_number;
typedef struct pdf_string pdf_string;
typedef struct pdf_name pdf_name;
typedef struct pdf_array pdf_array;
typedef struct pdf_dict pdf_dict;
typedef struct pdf_stream pdf_stream;
typedef struct pdf_indirect pdf_indirect;
typedef struct xref_entry
{
uint8_t type; /* object storage type */
uint32_t field2; /* offset in file or object stream */
uint16_t field3; /* generation or index */
pdf_obj *direct; /* used for imported objects */
pdf_obj *indirect; /* used for imported objects */
} xref_entry;
struct pdf_file
{
FILE *file;
pdf_obj *trailer;
xref_entry *xref_table;
pdf_obj *catalog;
int num_obj;
int file_size;
int version;
};
static int error_out = 0;
#define OBJSTM_MAX_OBJS 200
/* the limit is only 100 for linearized PDF */
struct pdf_out {
struct {
int enc_mode; /* boolean */
} state;
unsigned char id1[16];
unsigned char id2[16];
struct {
int major;
int minor;
} version;
struct {
struct {
int level;
int use_predictor;
} compression;
int enable_encrypt;
int use_objstm;
} options;
struct {
FILE *file;
size_t file_position;
int line_position;
size_t compression_saved;
} output;
struct {
uint32_t next_label;
uint32_t max_ind_objects;
} obj;
pdf_sec *sec_data;
pdf_obj *trailer;
uint32_t startxref;
xref_entry * xref_table;
pdf_obj *xref_stream;
pdf_obj *output_stream;
pdf_obj *current_objstm;
};
#if defined(LIBDPX)
size_t output_file_size;
#endif /* LIBDPX */
/* Underway to reform PDF related code... For a moment place pdf_out
* object as a static variable. */
static pdf_out pout;
static pdf_out *
current_output (void)
{
return &pout;
}
static void
init_pdf_out_struct (pdf_out *p)
{
ASSERT(p);
p->state.enc_mode = 0;
memset(p->id1, 0, 16);
memset(p->id2, 0, 16);
p->version.major = 1;
p->version.minor = PDF_VERSION_DEFAULT;
p->options.compression.level = 9;
p->options.compression.use_predictor = 1;
p->options.enable_encrypt = 0;
p->options.use_objstm = 1;
p->output.file = NULL;
p->output.file_position = 0;
p->output.line_position = 0;
p->output.compression_saved = 0;
#if defined(LIBDPX)
output_file_size = 0;
#endif /* LIBDPX */
p->obj.next_label = 1;
p->obj.max_ind_objects = 0;
p->sec_data = NULL;
p->trailer = NULL;
p->startxref = 0;
p->xref_table = NULL;
p->xref_stream = NULL;
p->output_stream = NULL;
p->current_objstm = NULL;
}
static void
clean_pdf_out_struct (pdf_out *p)
{
memset(p, 0, sizeof(pdf_out));
}
/* Internal static routines */
static int check_for_pdf_version (FILE *file);
static void pdf_flush_obj (pdf_out *p, pdf_obj *object);
static void pdf_label_obj (pdf_out *p, pdf_obj *object);
static void pdf_write_obj (pdf_out *p, pdf_obj *object);
static void set_objstm_data (pdf_obj *objstm, int *data);
static int *get_objstm_data (pdf_obj *objstm);
static void release_objstm (pdf_obj *objstm);
static void pdf_out_char (pdf_out *p, char c);
static void pdf_out_str (pdf_out *p, const void *buffer, size_t length);
static pdf_obj *pdf_new_ref (pdf_out *p, pdf_obj *object);
static void release_indirect (pdf_indirect *data);
static void write_indirect (pdf_out *p, pdf_indirect *indirect);
static void release_boolean (pdf_obj *data);
static void write_boolean (pdf_out *p, pdf_boolean *data);
static void write_null (pdf_out *p);
static void release_number (pdf_number *number);
static void write_number (pdf_out *p, pdf_number *number);
static void write_string (pdf_out *p, pdf_string *str);
static void release_string (pdf_string *str);
static void write_name (pdf_out *p, pdf_name *name);
static void release_name (pdf_name *name);
static void write_array (pdf_out *p, pdf_array *array);
static void release_array (pdf_array *array);
static void write_dict (pdf_out *p, pdf_dict *dict);
static void release_dict (pdf_dict *dict);
static void write_stream (pdf_out *p, pdf_stream *stream);
static void release_stream (pdf_stream *stream);
static void
pdf_out_set_compression (pdf_out *p, int level)
{
ASSERT(p);
#ifndef HAVE_ZLIB
ERROR("You don't have compression compiled in. Possibly libz wasn't found by configure.");
#else
#ifndef HAVE_ZLIB_COMPRESS2
if (level != 0)
WARN("Unable to set compression level -- your zlib doesn't have compress2().");
#endif
if (level >= 0 && level <= 9)
p->options.compression.level = level;
else {
ERROR("set_compression: invalid compression level: %d", level);
}
#endif /* !HAVE_ZLIB */
return;
}
FILE *
pdf_get_output_file (void)
{
pdf_out *p = current_output();
return p->output.file;
}
static void
pdf_out_set_version (pdf_out *p, int ver_major, int ver_minor)
{
int version;
ASSERT(p);
version = ver_major * 10 + ver_minor;
/* Don't forget to update CIDFont_stdcc_def[] in cid.c too! */
if (version >= PDF_VERSION_MIN && version <= PDF_VERSION_MAX) {
p->version.major = ver_major;
p->version.minor = ver_minor;
} else {
WARN("Unsupported PDF version %d.%d ... Ignoring.", ver_major, ver_minor);
}
}
int
pdf_get_version (void)
{
pdf_out *p = current_output();
return (p->version.major * 10 + p->version.minor);
}
int
pdf_get_version_major (void)
{
pdf_out *p = current_output();
return p->version.major;
}
int
pdf_get_version_minor (void)
{
pdf_out *p = current_output();
return p->version.minor;
}
int
pdf_check_version (int major, int minor)
{
pdf_out *p = current_output();
if (p->version.major > major)
return 0;
else if (p->version.major < major)
return -1;
else {
return (p->version.minor >= minor) ? 0 : -1;
}
return -1;
}
static void
add_xref_entry (pdf_out *p,
uint32_t label, uint8_t type, uint32_t field2, uint16_t field3)
{
ASSERT(p);
if (label >= p->obj.max_ind_objects) {
p->obj.max_ind_objects = (label/IND_OBJECTS_ALLOC_SIZE+1)*IND_OBJECTS_ALLOC_SIZE;
p->xref_table = RENEW(p->xref_table, p->obj.max_ind_objects, xref_entry);
}
p->xref_table[label].type = type;
p->xref_table[label].field2 = field2;
p->xref_table[label].field3 = field3;
p->xref_table[label].direct = NULL;
p->xref_table[label].indirect = NULL;
}
#define BINARY_MARKER "%\344\360\355\370\n"
pdf_out *
pdf_out_init (const char *filename,
const unsigned char *id1,
const unsigned char *id2,
int ver_major, int ver_minor, int compression_level,
int enable_encrypt,
int enable_objstm,
int enable_predictor)
{
pdf_out *p = current_output();
char v;
init_pdf_out_struct(p);
pdf_out_set_version(p, ver_major, ver_minor);
pdf_out_set_compression(p, compression_level);
add_xref_entry(p, 0, 0, 0, 0xffff);
/* This must be set before pdf_set_root() is called */
p->options.enable_encrypt = enable_encrypt;
if (pdf_check_version(1, 5) == 0) {
if (enable_objstm) {
p->xref_stream = pdf_new_stream(STREAM_COMPRESS);
p->xref_stream->flags |= OBJ_NO_ENCRYPT;
p->trailer = pdf_stream_dict(p->xref_stream);
pdf_add_dict(p->trailer, pdf_new_name("Type"), pdf_new_name("XRef"));
p->options.use_objstm = 1;
} else {
p->xref_stream = NULL;
p->trailer = pdf_new_dict();
p->options.use_objstm = 0;
}
} else {
p->xref_stream = NULL;
p->trailer = pdf_new_dict();
p->options.use_objstm = 0;
}
p->output_stream = NULL;
if (filename == NULL) { /* no filename: writing to stdout */
#ifdef WIN32
setmode(fileno(stdout), _O_BINARY);
#endif
p->output.file = stdout;
} else {
p->output.file = MFOPEN(filename, FOPEN_WBIN_MODE);
if (!p->output.file) {
if (strlen(filename) < 128)
ERROR("Unable to open \"%s\".", filename);
else
ERROR("Unable to open file.");
}
}
pdf_out_str(p, "%PDF-", strlen("%PDF-"));
v = '0' + p->version.major;
pdf_out_str(p, &v, 1);
pdf_out_str(p, ".", 1);
v = '0' + p->version.minor;
pdf_out_str(p, &v, 1);
pdf_out_str(p, "\n", 1);
pdf_out_str(p, BINARY_MARKER, strlen(BINARY_MARKER));
/* Set trailer ID and setup security handler */
{
pdf_obj *id_array;
memcpy(p->id1, id1, 16);
memcpy(p->id2, id2, 16);
id_array = pdf_new_array();
pdf_add_array(id_array, pdf_new_string(p->id1, 16));
pdf_add_array(id_array, pdf_new_string(p->id2, 16));
pdf_add_dict(p->trailer, pdf_new_name("ID"), id_array);
}
p->state.enc_mode = 0;
p->options.compression.use_predictor = enable_predictor;
return p;
}
void
pdf_out_set_encrypt (int keybits, int32_t permission,
const char *opasswd, const char *upasswd,
int use_aes, int encrypt_metadata)
{
pdf_out *p = current_output();
pdf_obj *encrypt, *extension, *catalog;
p->sec_data = pdf_enc_init(p->id1, keybits, permission,
opasswd, upasswd, use_aes, encrypt_metadata);
if (!p->sec_data) {
p->options.enable_encrypt = 0;
return;
}
encrypt = pdf_enc_get_encrypt_dict(p->sec_data);
pdf_add_dict(p->trailer,
pdf_new_name("Encrypt"), pdf_ref_obj(encrypt));
encrypt->flags |= OBJ_NO_ENCRYPT;
encrypt->flags |= OBJ_NO_OBJSTM;
pdf_release_obj(encrypt);
extension = pdf_enc_get_extension_dict(p->sec_data);
if (extension) {
catalog = pdf_doc_catalog();
pdf_add_dict(catalog, pdf_new_name("Extensions"), extension);
}
}
static void
dump_xref_table (pdf_out *p)
{
int i, length;
char buf[32];
ASSERT(p);
pdf_out_str(p, "xref\n", 5);
length = sprintf(buf, "%d %u\n", 0, p->obj.next_label);
pdf_out_str(p, buf, length);
/*
* Every space counts. The space after the 'f' and 'n' is * *essential*.
* The PDF spec says the lines must be 20 characters long including the
* end of line character.
*/
for (i = 0; i < p->obj.next_label; i++) {
uint8_t type = p->xref_table[i].type;
if (type > 1)
ERROR("object type %hu not allowed in xref table", type);
length = sprintf(buf, "%010u %05hu %c \n",
p->xref_table[i].field2, p->xref_table[i].field3,
type ? 'n' : 'f');
pdf_out_str(p, buf, length);
}
}
static void
dump_trailer (pdf_out *p)
{
ASSERT(p);
pdf_out_str(p, "trailer\n", 8);
p->state.enc_mode = 0;
write_dict(p, p->trailer->data);
pdf_release_obj(p->trailer);
p->trailer = NULL;
pdf_out_char(p, '\n');
}
/*
* output a PDF 1.5 cross-reference stream;
* contributed by Matthias Franz (March 21, 2007)
*/
static void
dump_xref_stream (pdf_out *p)
{
uint32_t pos, i;
uint32_t poslen;
unsigned char buf[7] = {0, 0, 0, 0, 0};
pdf_obj *w;
ASSERT(p);
/* determine the necessary size of the offset field */
pos = p->startxref; /* maximal offset value */
poslen = 1;
while (pos >>= 8)
poslen++;
w = pdf_new_array();
pdf_add_array(w, pdf_new_number(1)); /* type */
pdf_add_array(w, pdf_new_number(poslen)); /* offset (big-endian) */
pdf_add_array(w, pdf_new_number(2)); /* generation */
pdf_add_dict(p->trailer, pdf_new_name("W"), w);
/* We need the xref entry for the xref stream right now */
add_xref_entry(p, p->obj.next_label - 1, 1, p->startxref, 0);
for (i = 0; i < p->obj.next_label; i++) {
size_t j;
uint16_t f3;
buf[0] = p->xref_table[i].type;
pos = p->xref_table[i].field2;
for (j = poslen; j--; ) {
buf[1+j] = (unsigned char) pos;
pos >>= 8;
}
f3 = p->xref_table[i].field3;
buf[poslen+1] = (unsigned char) (f3 >> 8);
buf[poslen+2] = (unsigned char) (f3);
pdf_add_stream(p->xref_stream, &buf, poslen+3);
}
pdf_release_obj(p->xref_stream);
p->xref_stream = NULL;
}
#if defined(LIBDPX)
long
pdf_output_stats (void)
{
return (long) output_file_size;
}
#endif /* LIBDPX */
void
pdf_out_flush (void)
{
pdf_out *p = current_output();
char buf[16];
if (p->output.file) {
int length;
/* Flush current object stream */
if (p->current_objstm) {
release_objstm(p->current_objstm);
p->current_objstm =NULL;
}
/*
* Label xref stream - we need the number of correct objects
* for the xref stream dictionary (= trailer).
* Labelling it in pdf_out_init (with 1) does not work (why?).
*/
if (p->xref_stream)
pdf_label_obj(p, p->xref_stream);
/* Record where this xref is for trailer */
p->startxref = p->output.file_position;
pdf_add_dict(p->trailer,
pdf_new_name("Size"), pdf_new_number(p->obj.next_label));
if (p->xref_stream)
dump_xref_stream(p);
else {
dump_xref_table(p);
dump_trailer(p);
}
/* Done with xref table */
RELEASE(p->xref_table);
p->xref_table = NULL;
pdf_out_str(p, "startxref\n", 10);
length = sprintf(buf, "%u\n", p->startxref);
pdf_out_str(p, buf, length);
pdf_out_str(p, "%%EOF\n", 6);
#if !defined(LIBDPX)
MESG("\n");
#endif /* !LIBDPX */
if (dpx_conf.verbose_level > 0) {
if (p->options.compression.level > 0) {
MESG("Compression saved %ld bytes\n", p->output.compression_saved);
}
}
#if !defined(LIBDPX)
MESG("%ld bytes written", p->output.file_position);
#else
output_file_size = p->output.file_position;
#endif /* !LIBDPX */
MFCLOSE(p->output.file);
p->output.file = NULL;
p->output.file_position = 0;
p->output.line_position = 0;
}
if (p->sec_data)
pdf_enc_close(&p->sec_data);
#if defined(PDFOBJ_DEBUG)
{
int i;
error_out = 1;
MESG("\ndebug>> %d PDF objects created.", cur_obj_id);
for (i = 0; i < cur_obj_id; i++) {
pdf_obj *obj = bucket[i];
if (obj) {
if (obj->label > 0) {
WARN("Object obj_id=<%lu, %u> unreleased...", obj->label, obj->generation);
WARN("Reference count=%d", obj->refcount);
pdf_write_obj(p, obj);
MESG("\n");
} else {
WARN("Unreleased object found: (unlabeled) id=%d", i);
pdf_write_obj(p, obj);
MESG("\n");
}
}
}
}
#endif
clean_pdf_out_struct(p);
}
void
pdf_error_cleanup (void)
{
pdf_out *p = current_output();
/*
* This routine is the cleanup required for an abnormal exit.
* For now, simply close the file.
*/
if (p->output.file)
MFCLOSE(p->output.file);
p->output.file = NULL;
}
void
pdf_set_root (pdf_obj *object)
{
pdf_out *p = current_output();
if (pdf_lookup_dict(p->trailer, "Root"))
ERROR("Root object already set!");
pdf_add_dict(p->trailer, pdf_new_name("Root"), pdf_ref_obj(object));
/* Adobe Readers don't like a document catalog inside an encrypted
* object stream, although the PDF v1.5 spec seems to allow this.
* Note that we don't set OBJ_NO_ENCRYPT since the name dictionary in
* a document catalog may contain strings, which should be encrypted.
*/
if (p->options.enable_encrypt)
object->flags |= OBJ_NO_OBJSTM;
}
void
pdf_set_info (pdf_obj *object)
{
pdf_out *p = current_output();
if (pdf_lookup_dict(p->trailer, "Info"))
ERROR ("Info object already set!");
pdf_add_dict(p->trailer, pdf_new_name("Info"), pdf_ref_obj(object));
}
static void
pdf_out_char (pdf_out *p, char c)
{
ASSERT(p);
if (error_out) {
fputc(c, stderr);
} else {
if (p->output_stream)
pdf_add_stream(p->output_stream, &c, 1);
else {
fputc(c, p->output.file);
p->output.file_position += 1;
if (c == '\n')
p->output.line_position = 0;
else
p->output.line_position += 1;
}
}
}
static char xchar[] = "0123456789abcdef";
static void
pdf_out_xchar (pdf_out *p, char c)
{
ASSERT(p);
pdf_out_char(p, xchar[(c >> 4) & 0x0f]);
pdf_out_char(p, xchar[c & 0x0f]);
}
static void
pdf_out_str (pdf_out *p, const void *buffer, size_t length)
{
ASSERT(p);
if (error_out)
fwrite(buffer, 1, length, stderr);
else {
if (p->output_stream)
pdf_add_stream(p->output_stream, buffer, length);
else {
fwrite(buffer, 1, length, p->output.file);
p->output.file_position += length;
p->output.line_position += length;
/* "foo\nbar\n "... */
if (length > 0 &&
((const char *)buffer)[length-1] == '\n')
p->output.line_position = 0;
}
}
}
/* returns 1 if a white-space character is necessary to separate
an object of type1 followed by an object of type2 */
static
int pdf_need_white (int type1, int type2)
{
return !(type1 == PDF_STRING || type1 == PDF_ARRAY || type1 == PDF_DICT ||
type2 == PDF_STRING || type2 == PDF_NAME ||
type2 == PDF_ARRAY || type2 == PDF_DICT);
}
static
void pdf_out_white (pdf_out *p)
{
ASSERT(p);
if (p->output.line_position >= 80) {
pdf_out_char(p, '\n');
} else {
pdf_out_char(p, ' ');
}
}
#define TYPECHECK(o,t) if (!(o) || (o)->type != (t)) {\
ERROR("typecheck: Invalid object type: %d %d (line %d)", (o) ? (o)->type : -1, (t), __LINE__);\
}
#define INVALIDOBJ(o) ((o) == NULL || (o)->type <= 0 || (o)->type > PDF_UNDEFINED)
static pdf_obj *
pdf_new_obj(int type)
{
pdf_obj *result;
if (type > PDF_UNDEFINED || type < 0)
ERROR("Invalid object type: %d", type);
result = NEW(1, pdf_obj);
result->type = type;
result->data = NULL;
result->label = 0;
result->generation = 0;
result->refcount = 1;
result->flags = 0;
#if defined(PDFOBJ_DEBUG)
result->obj_id = cur_obj_id;
bucket[cur_obj_id] = result;
cur_obj_id++;
#endif
return result;
}
int
pdf_obj_typeof (pdf_obj *object)
{
if (INVALIDOBJ(object))
return PDF_OBJ_INVALID;
return object->type;
}
static void
pdf_label_obj (pdf_out *p, pdf_obj *object)
{
ASSERT(p);
if (INVALIDOBJ(object))
ERROR("pdf_label_obj(): passed invalid object.");
/*
* Don't change label on an already labeled object. Ignore such calls.
*/
if (object->label == 0) {
object->label = p->obj.next_label++;
object->generation = 0;
}
}
/*
* Transfer the label assigned to the object src to the object dst.
* The object dst must not yet have been labeled.
*/
void
pdf_transfer_label (pdf_obj *dst, pdf_obj *src)
{
ASSERT(dst && !dst->label && src);
dst->label = src->label;
dst->generation = src->generation;
src->label = 0;
src->generation = 0;
}
/*
* This doesn't really copy the object, but allows it to be used without
* fear that somebody else will free it.
*/
pdf_obj *
pdf_link_obj (pdf_obj *object)
{
if (INVALIDOBJ(object))
ERROR("pdf_link_obj(): passed invalid object.");
object->refcount += 1;
return object;
}
pdf_obj *
pdf_ref_obj (pdf_obj *object)
{
pdf_out *p = current_output();
if (INVALIDOBJ(object))
ERROR("pdf_ref_obj(): passed invalid object.");
if (object->refcount == 0) {
MESG("\nTrying to refer already released object!!!\n");
error_out = 1;
pdf_write_obj(p, object);
ERROR("Cannot continue...");
error_out = 0;
}
if (PDF_OBJ_INDIRECTTYPE(object)) {
return pdf_link_obj(object);
} else {
return pdf_new_ref(p, object);
}
}
static void
release_indirect (pdf_indirect *data)
{
RELEASE(data);
}
static void
write_indirect (pdf_out *p, pdf_indirect *indirect)
{
int length;
char buf[64];
ASSERT(p);
ASSERT(!indirect->pf);
length = sprintf(buf, "%u %hu R",
indirect->label, indirect->generation);
pdf_out_str(p, buf, length);
}
/* The undefined object is used as a placeholder in pdfnames.c
* for objects which are referenced before they are defined.
*/
pdf_obj *
pdf_new_undefined (void)
{
pdf_obj *result;
result = pdf_new_obj(PDF_UNDEFINED);
result->data = NULL;
return result;
}
pdf_obj *
pdf_new_null (void)
{
pdf_obj *result;
result = pdf_new_obj(PDF_NULL);
result->data = NULL;
return result;
}
static void
write_null (pdf_out *p)
{
pdf_out_str(p, "null", 4);
}
pdf_obj *
pdf_new_boolean (char value)
{
pdf_obj *result;
pdf_boolean *data;
result = pdf_new_obj(PDF_BOOLEAN);
data = NEW(1, pdf_boolean);
data->value = value;
result->data = data;
return result;
}
static void
release_boolean (pdf_obj *data)
{
RELEASE (data);
}
static void
write_boolean (pdf_out *p, pdf_boolean *data)
{
if (data->value) {
pdf_out_str(p, "true", 4);
} else {
pdf_out_str(p, "false", 5);
}
}
char
pdf_boolean_value (pdf_obj *object)
{
pdf_boolean *data;
TYPECHECK(object, PDF_BOOLEAN);
data = object->data;
return data->value;
}
pdf_obj *
pdf_new_number (double value)
{
pdf_obj *result;
pdf_number *data;
result = pdf_new_obj(PDF_NUMBER);
data = NEW(1, pdf_number);
data->value = value;
result->data = data;
return result;
}
static void
release_number (pdf_number *data)
{
RELEASE (data);
}
static void
write_number (pdf_out *p, pdf_number *number)
{
int count;
char buf[512];
count = pdf_sprint_number(buf, number->value);
pdf_out_str(p, buf, count);
}
void
pdf_set_number (pdf_obj *object, double value)
{
pdf_number *data;
TYPECHECK(object, PDF_NUMBER);
data = object->data;
data->value = value;
}
double
pdf_number_value (pdf_obj *object)
{
pdf_number *data;
TYPECHECK(object, PDF_NUMBER);
data = object->data;
return data->value;
}
pdf_obj *
pdf_new_string (const void *str, unsigned length)
{
pdf_obj *result;
pdf_string *data;
ASSERT(str);
result = pdf_new_obj(PDF_STRING);
data = NEW(1, pdf_string);
result->data = data;
data->length = length;
if (length) {
data->string = NEW(length+1, unsigned char);
memcpy(data->string, str, length);
/* Shouldn't assume NULL terminated. */
data->string[length] = '\0';
} else
data->string = NULL;
return result;
}
void *
pdf_string_value (pdf_obj *object)
{
pdf_string *data;
TYPECHECK(object, PDF_STRING);
data = object->data;
return data->string;
}
unsigned
pdf_string_length (pdf_obj *object)
{
pdf_string *data;
TYPECHECK(object, PDF_STRING);
data = object->data;
return (unsigned) data->length;
}
/*
* This routine escapes non printable characters and control
* characters in an output string.
*/
int
pdfobj_escape_str (char *buffer, int bufsize, const unsigned char *s, int len)
{
size_t result = 0;
size_t i;
for (i = 0; i < len; i++) {
unsigned char ch;
ch = s[i];
if (result > bufsize - 4)
ERROR("pdfobj_escape_str: Buffer overflow");
/*
* We always write three octal digits. Optimization only gives few Kb
* smaller size for most documents when zlib compressed.
*/
if (ch < 32 || ch > 126) {
buffer[result++] = '\\';
#if 0
if (i < len - 1 && !isdigit(s[i+1]))
result += sprintf(buffer+result, "%o", ch);
else
result += sprintf(buffer+result, "%03o", ch);
#endif
result += sprintf(buffer+result, "%03o", ch);
} else {
switch (ch) {
case '(':
buffer[result++] = '\\';
buffer[result++] = '(';
break;
case ')':
buffer[result++] = '\\';
buffer[result++] = ')';
break;
case '\\':
buffer[result++] = '\\';
buffer[result++] = '\\';
break;
default:
buffer[result++] = ch;
break;
}
}
}
return (int) result;
}
static void
write_string (pdf_out *p, pdf_string *str)
{
unsigned char *s = NULL;
size_t i, nescc = 0;
size_t len = 0;
ASSERT(p);
if (p->state.enc_mode) {
pdf_encrypt_data(p->sec_data, str->string, str->length, &s, &len);
} else {
s = str->string;
len = str->length;
}
/*
* Count all ASCII non-printable characters.
*/
for (i = 0; i < len; i++) {
if (!isprint(s[i]))
nescc++;
}
/*
* If the string contains much escaped chars, then we write it as
* ASCII hex string.
*/
if (nescc > len / 3) {
pdf_out_char(p, '<');
for (i = 0; i < len; i++) {
pdf_out_xchar(p, s[i]);
}
pdf_out_char(p, '>');
} else {
char *buf;
size_t size, count;
/* At most len/3 is to be escaped here. (see above)
* Thus 4*len/3 + 2*len/3 + 2 is enough for buffer size.
*/
size = len * 2 + 3;
buf = NEW(size, char);
pdf_out_char(p, '(');
/*
* This section of code probably isn't speed critical. Escaping the
* characters in the string one at a time may seem slow, but it's
* safe if the formatted string length exceeds FORMAT_BUF_SIZE.
* Occasionally you see some long strings in PDF. pdfobj_escape_str
* is also used for strings of text with no kerning. These must be
* handled as quickly as possible since there are so many of them.
*/
for (i = 0; i < len; i++) {
count = pdfobj_escape_str(buf, size, &(s[i]), 1);
pdf_out_str(p, buf, count);
}
pdf_out_char(p, ')');
RELEASE(buf);
}
if (p->state.enc_mode && s)
RELEASE(s);
}
static void
release_string (pdf_string *data)
{
if (data->string != NULL) {
RELEASE(data->string);
data->string = NULL;
}
RELEASE(data);
}
void
pdf_set_string (pdf_obj *object, unsigned char *str, unsigned length)
{
pdf_string *data;
TYPECHECK(object, PDF_STRING);
data = object->data;
if (data->string != 0) {
RELEASE(data->string);
}
if (length != 0) {
data->length = length;
data->string = NEW(length + 1, unsigned char);
memcpy(data->string, str, length);
data->string[length] = '\0';
} else {
data->length = 0;
data->string = NULL;
}
}
/* Name does *not* include the /. */
pdf_obj *
pdf_new_name (const char *name)
{
pdf_obj *result;
size_t length;
pdf_name *data;
result = pdf_new_obj(PDF_NAME);
data = NEW (1, pdf_name);
result->data = data;
length = strlen(name);
if (length != 0) {
data->name = NEW(length+1, char);
memcpy(data->name, name, length);
data->name[length] = '\0';
} else {
data->name = NULL;
}
return result;
}
static void
write_name (pdf_out *p, pdf_name *name)
{
char *s;
size_t i, length;
ASSERT(p);
s = name->name;
length = name->name ? strlen(name->name) : 0;
/*
* From PDF Reference, 3rd ed., p.33:
*
* Beginning with PDF 1.2, any character except null (character code 0)
* may be included in a name by writing its 2-digit hexadecimal code,
* preceded bythe number sign character (#); see implementation notes 3
* and 4 in Appendix H. This syntax is required in order to represent
* any of the delimiter or white-space characters or the number sign
* character itself; it is recommended but not required for characters
* whose codes are outside the range 33 (!) to 126 (~).
*/
#ifndef is_delim
/* Avoid '{' and '}' for PostScript compatibility? */
#define is_delim(c) ((c) == '(' || (c) == ')' || \
(c) == '/' || \
(c) == '<' || (c) == '>' || \
(c) == '[' || (c) == ']' || \
(c) == '{' || (c) == '}' || \
(c) == '%')
#endif
pdf_out_char(p, '/');
for (i = 0; i < length; i++) {
if (s[i] < '!' || s[i] > '~' || s[i] == '#' || is_delim(s[i])) {
/* ^ "space" is here. */
pdf_out_char (p, '#');
pdf_out_xchar(p, s[i]);
} else {
pdf_out_char (p, s[i]);
}
}
}
static void
release_name (pdf_name *data)
{
if (data->name != NULL) {
RELEASE(data->name);
data->name = NULL;
}
RELEASE(data);
}
char *
pdf_name_value (pdf_obj *object)
{
pdf_name *data;
TYPECHECK(object, PDF_NAME);
data = object->data;
return data->name;
}
/*
* We do not have pdf_name_length() since '\0' is not allowed
* in PDF name object.
*/
pdf_obj *
pdf_new_array (void)
{
pdf_obj *result;
pdf_array *data;
result = pdf_new_obj(PDF_ARRAY);
data = NEW(1, pdf_array);
data->values = NULL;
data->max = 0;
data->size = 0;
result->data = data;
return result;
}
static void
write_array (pdf_out *p, pdf_array *array)
{
ASSERT(p);
pdf_out_char(p, '[');
if (array->size > 0) {
size_t i;
int type1 = PDF_UNDEFINED, type2;
for (i = 0; i < array->size; i++) {
if (array->values[i]) {
type2 = array->values[i]->type;
if (type1 != PDF_UNDEFINED && pdf_need_white(type1, type2))
pdf_out_white(p);
type1 = type2;
pdf_write_obj(p, array->values[i]);
} else
WARN("PDF array element #ld undefined.", i);
}
}
pdf_out_char(p, ']');
}
pdf_obj *
pdf_get_array (pdf_obj *array, int idx)
{
pdf_obj *result = NULL;
pdf_array *data;
TYPECHECK(array, PDF_ARRAY);
data = array->data;
if (idx < 0)
result = data->values[idx + data->size];
else if (idx < data->size) {
result = data->values[idx];
}
return result;
}
unsigned
pdf_array_length (pdf_obj *array)
{
pdf_array *data;
TYPECHECK(array, PDF_ARRAY);
data = (pdf_array *) array->data;
return (unsigned) data->size;
}
static void
release_array (pdf_array *data)
{
size_t i;
if (data->values) {
for (i = 0; i < data->size; i++) {
pdf_release_obj(data->values[i]);
data->values[i] = NULL;
}
RELEASE(data->values);
data->values = NULL;
}
RELEASE(data);
}
/*
* The name pdf_add_array is misleading. It behaves differently than
* pdf_add_dict(). This should be pdf_push_array().
*/
void
pdf_add_array (pdf_obj *array, pdf_obj *object)
{
pdf_array *data;
TYPECHECK(array, PDF_ARRAY);
data = array->data;
if (data->size >= data->max) {
data->max += ARRAY_ALLOC_SIZE;
data->values = RENEW(data->values, data->max, pdf_obj *);
}
data->values[data->size] = object;
data->size++;
return;
}
#if 0
void
pdf_put_array (pdf_obj *array, int idx, pdf_obj *object)
{
pdf_array *data;
int i;
TYPECHECK(array, PDF_ARRAY);
data = array->data;
if (idx + 1 > data->max) {
data->max += ARRAY_ALLOC_SIZE;
data->values = RENEW(data->values, data->max, pdf_obj *);
}
/*
* Rangecheck error in PostScript interpreters if
* idx > data->size - 1. But pdf_new_array() doesn't set
* array size, pdf_add_array() dynamically increases size
* of array. This might confusing...
*/
if (idx + 1 > data->size) {
for (i = data->size; i < idx; i++)
data->values[i] = pdf_new_null(); /* release_array() won't work without this */
data->values[idx] = object;
data->size = idx + 1;
} else {
if (data->values[idx])
pdf_release_obj(data->values[idx]);
data->values[idx] = object;
}
}
/* Easily leaks memory... */
pdf_obj *
pdf_shift_array (pdf_obj *array)
{
pdf_obj *result = NULL;
pdf_array *data;
TYPECHECK(array, PDF_ARRAY);
data = array->data;
if (data->size > 0) {
size_t i;
result = data->values[0];
for (i = 1; i < data->size; i++)
data->values[i-1] = data->values[i];
data->size--;
}
return result;
}
#endif
/* Prepend an object to an array */
static void
pdf_unshift_array (pdf_obj *array, pdf_obj *object)
{
pdf_array *data;
TYPECHECK(array, PDF_ARRAY);
data = array->data;
if (data->size >= data->max) {
data->max += ARRAY_ALLOC_SIZE;
data->values = RENEW(data->values, data->max, pdf_obj *);
}
memmove(&data->values[1], data->values, data->size * sizeof(pdf_obj *));
data->values[0] = object;
data->size++;
}
#if 0
pdf_obj *
pdf_pop_array (pdf_obj *array)
{
pdf_obj *result;
pdf_array *data;
TYPECHECK(array, PDF_ARRAY);
data = array->data;
if (data->size > 0) {
result = data->values[data->size - 1];
data->size--;
} else {
result = NULL;
}
return result;
}
#endif
static void
write_dict (pdf_out *p, pdf_dict *dict)
{
#if 0
pdf_out_str (p, "<<\n", 3); /* dropping \n saves few kb. */
#else
pdf_out_str(p, "<<", 2);
#endif
while (dict->key != NULL) {
pdf_write_obj(p, dict->key);
if (pdf_need_white(PDF_NAME, (dict->value)->type)) {
pdf_out_white(p);
}
pdf_write_obj(p, dict->value);
#if 0
pdf_out_char (file, '\n'); /* removing this saves few kb. */
#endif
dict = dict->next;
}
pdf_out_str(p, ">>", 2);
}
pdf_obj *
pdf_new_dict (void)
{
pdf_obj *result;
pdf_dict *data;
result = pdf_new_obj(PDF_DICT);
data = NEW(1, pdf_dict);
data->key = NULL;
data->value = NULL;
data->next = NULL;
result->data = data;
return result;
}
static void
release_dict (pdf_dict *data)
{
pdf_dict *next;
while (data != NULL && data->key != NULL) {
pdf_release_obj(data->key);
pdf_release_obj(data->value);
data->key = NULL;
data->value = NULL;
next = data->next;
RELEASE(data);
data = next;
}
RELEASE(data);
}
/* Array is ended by a node with NULL this pointer */
/* pdf_add_dict returns 0 if the key is new and non-zero otherwise */
int
pdf_add_dict (pdf_obj *dict, pdf_obj *key, pdf_obj *value)
{
pdf_dict *data, *new_node;
TYPECHECK(dict, PDF_DICT);
TYPECHECK(key, PDF_NAME);
/* It seems that NULL is sometimes used for null object... */
if (value != NULL && INVALIDOBJ(value))
ERROR("pdf_add_dict(): Passed invalid value");
/* If this key already exists, simply replace the value */
for (data = dict->data; data->key != NULL; data = data->next) {
if (!strcmp(pdf_name_value(key), pdf_name_value(data->key))) {
/* Release the old value */
pdf_release_obj(data->value);
/* Release the new key (we don't need it) */
pdf_release_obj(key);
data->value = value;
return 1;
}
}
/*
* We didn't find the key. We build a new "end" node and add
* the new key just before the end
*/
new_node = NEW (1, pdf_dict);
new_node->key = NULL;
new_node->value = NULL;
new_node->next = NULL;
data->next = new_node;
data->key = key;
data->value = value;
return 0;
}
#if 0
void
pdf_put_dict (pdf_obj *dict, const char *key, pdf_obj *value)
{
pdf_dict *data;
TYPECHECK(dict, PDF_DICT);
if (!key) {
ERROR("pdf_put_dict(): Passed invalid key.");
}
/* It seems that NULL is sometimes used for null object... */
if (value != NULL && INVALIDOBJ(value)) {
ERROR("pdf_add_dict(): Passed invalid value.");
}
data = dict->data;
while (data->key != NULL) {
if (!strcmp(key, pdf_name_value(data->key))) {
pdf_release_obj(data->value);
data->value = value;
break;
}
data = data->next;
}
/*
* If we didn't find the key, build a new "end" node and add
* the new key just before the end
*/
if (data->key == NULL) {
pdf_dict *new_node;
new_node = NEW (1, pdf_dict);
new_node->key = NULL;
new_node->value = NULL;
new_node->next = NULL;
data->next = new_node;
data->key = pdf_new_name(key);
data->value = value;
}
}
#endif
/* pdf_merge_dict makes a link for each item in dict2 before stealing it */
void
pdf_merge_dict (pdf_obj *dict1, pdf_obj *dict2)
{
pdf_dict *data;
TYPECHECK(dict1, PDF_DICT);
TYPECHECK(dict2, PDF_DICT);
data = dict2->data;
while (data->key != NULL) {
pdf_add_dict(dict1, pdf_link_obj(data->key), pdf_link_obj(data->value));
data = data->next;
}
}
int
pdf_foreach_dict (pdf_obj *dict,
int (*proc) (pdf_obj *, pdf_obj *, void *), void *pdata)
{
int error = 0;
pdf_dict *data;
ASSERT(proc);
TYPECHECK(dict, PDF_DICT);
data = dict->data;
while (!error &&
data->key != NULL) {
error = proc(data->key, data->value, pdata);
data = data->next;
}
return error;
}
#define pdf_match_name(o,s) ((o) && (s) && !strcmp(((pdf_name *)(o)->data)->name, (s)))
pdf_obj *
pdf_lookup_dict (pdf_obj *dict, const char *name)
{
pdf_dict *data;
ASSERT(name);
TYPECHECK(dict, PDF_DICT);
data = dict->data;
while (data->key != NULL) {
if (!strcmp(name, pdf_name_value(data->key))) {
return data->value;
}
data = data->next;
}
return NULL;
}
/* Returns array of dictionary keys */
pdf_obj *
pdf_dict_keys (pdf_obj *dict)
{
pdf_obj *keys;
pdf_dict *data;
TYPECHECK(dict, PDF_DICT);
keys = pdf_new_array();
for (data = dict->data; (data &&
data->key != NULL); data = data->next) {
/* We duplicate name object rather than linking keys.
* If we forget to free keys, broken PDF is generated.
*/
pdf_add_array(keys, pdf_new_name(pdf_name_value(data->key)));
}
return keys;
}
void
pdf_remove_dict (pdf_obj *dict, const char *name)
{
pdf_dict *data, **data_p;
TYPECHECK(dict, PDF_DICT);
data = dict->data;
data_p = (pdf_dict **) (void *) &(dict->data);
while (data->key != NULL) {
if (pdf_match_name(data->key, name)) {
pdf_release_obj(data->key);
pdf_release_obj(data->value);
*data_p = data->next;
RELEASE(data);
break;
}
data_p = &(data->next);
data = data->next;
}
}
pdf_obj *
pdf_new_stream (int flags)
{
pdf_obj *result;
pdf_stream *data;
result = pdf_new_obj(PDF_STREAM);
data = NEW(1, pdf_stream);
/*
* Although we are using an arbitrary pdf_object here, it must have
* type=PDF_DICT and cannot be an indirect reference. This will be
* checked by the output routine.
*/
data->dict = pdf_new_dict();
data->_flags = flags;
data->stream = NULL;
data->stream_length = 0;
data->max_length = 0;
data->objstm_data = NULL;
data->decodeparms.predictor = 2;
data->decodeparms.columns = 0;
data->decodeparms.bits_per_component = 0;
data->decodeparms.colors = 0;
result->data = data;
result->flags |= OBJ_NO_OBJSTM;
return result;
}
void
pdf_stream_set_predictor (pdf_obj *stream,
int predictor, int32_t columns, int bpc, int colors)
{
struct pdf_stream *data;
if (pdf_obj_typeof(stream) != PDF_STREAM)
return;
else if (columns < 0 || bpc < 0 || colors < 0)
return;
data = (struct pdf_stream *) stream->data;
data->decodeparms.predictor = predictor;
data->decodeparms.columns = columns;
data->decodeparms.bits_per_component = bpc;
data->decodeparms.colors = colors;
data->_flags |= STREAM_USE_PREDICTOR;
}
/* Adaptive PNG filter
* We use the "minimum sum of absolute differences" heuristic approach
* for finding the most optimal filter to be used.
*
* From http://www.libpng.org/pub/png/book/chapter09.html
*
* For grayscale and truecolor images of 8 or more bits per sample, with or
* without alpha channels, dynamic filtering is almost always beneficial. The
* approach that has by now become standard is known as the minimum sum of
* absolute differences heuristic and was first proposed by Lee Daniel
* Crocker in February 1995.
*/
static unsigned char *
filter_PNG15_apply_filter (unsigned char *raster,
int32_t columns, int32_t rows,
int8_t bpc, int8_t colors, int32_t *length)
{
unsigned char *dst;
int bits_per_pixel = colors * bpc;
int bytes_per_pixel = (bits_per_pixel + 7) / 8;
int32_t rowbytes = columns * bytes_per_pixel;
int32_t i, j;
ASSERT(raster && length);
/* Result */
dst = NEW((rowbytes+1)*rows, unsigned char);
*length = (rowbytes + 1) * rows;
for (j = 0; j < rows; j++) {
int type = 0;
unsigned char *pp = dst + j * (rowbytes + 1);
unsigned char *p = raster + j * rowbytes;
uint32_t sum[5] = {0, 0, 0, 0, 0};
/* First calculated sum of values to make a heuristic guess
* of optimal predictor function.
*/
for (i = 0; i < rowbytes; i++) {
int left = (i - bytes_per_pixel >= 0) ? p[i - bytes_per_pixel] : 0;
int up = (j > 0) ? *(p+i-rowbytes) : 0;
int uplft = (j > 0) ?
((i - bytes_per_pixel >= 0) ?
*(p+i-rowbytes-bytes_per_pixel) : 0) : 0;
/* Type 0 -- None */
sum[0] += p[i];
/* Type 1 -- Sub */
sum[1] += abs((int) p[i] - left);
/* Type 2 -- Up */
sum[2] += abs((int) p[i] - up);
/* Type 3 -- Average */
{
int tmp = floor((up + left) / 2);
sum[3] += abs((int) p[i] - tmp);
}
/* Type 4 -- Peath */
{
int q = left + up - uplft;
int qa = abs(q - left), qb = abs(q - up), qc = abs(q - uplft);
if (qa <= qb && qa <= qc)
sum[4] += abs((int) p[i] - left);
else if (qb <= qc)
sum[4] += abs((int) p[i] - up);
else
sum[4] += abs((int) p[i] - uplft);
}
}
{
int min = sum[0], min_idx = 0;
for (i = 0; i < 5; i++) {
if (sum[i] < min) {
min = sum[i]; min_idx = i;
}
}
type = min_idx;
}
/* Now we actually apply filter. */
pp[0] = type;
switch (type) {
case 0:
memcpy(pp+1, p, rowbytes);
break;
case 1:
for (i = 0; i < rowbytes; i++) {
int left = (i - bytes_per_pixel >= 0) ? p[i - bytes_per_pixel] : 0;
pp[i+1] = p[i] - left;
}
break;
case 2:
for (i = 0; i < rowbytes; i++) {
int up = (j > 0) ? *(p+i - rowbytes) : 0;
pp[i+1] = p[i] - up;
}
break;
case 3:
{
for (i = 0; i < rowbytes; i++) {
int up = (j > 0) ? *(p+i-rowbytes) : 0;
int left = (i - bytes_per_pixel >= 0) ? p[i - bytes_per_pixel] : 0;
int tmp = floor((up + left) / 2);
pp[i+1] = p[i] - tmp;
}
}
break;
case 4: /* Peath */
{
for (i = 0; i < rowbytes; i++) {
int up = (j > 0) ? *(p+i-rowbytes) : 0;
int left = (i - bytes_per_pixel >= 0) ? p[i - bytes_per_pixel] : 0;
int uplft = (j > 0) ?
((i - bytes_per_pixel >= 0) ?
*(p+i-rowbytes-bytes_per_pixel) : 0) : 0;
int q = left + up - uplft;
int qa = abs(q - left), qb = abs(q - up), qc = abs(q - uplft);
if (qa <= qb && qa <= qc)
pp[i+1] = p[i] - left;
else if (qb <= qc)
pp[i+1] = p[i] - up;
else
pp[i+1] = p[i] - uplft;
}
}
break;
}
}
return dst;
}
/* TIFF predictor filter support
* This modifies "raster" itself!
*/
static void
apply_filter_TIFF2_1_2_4 (unsigned char *raster,
int32_t width, int32_t height,
int8_t bpc, int8_t num_comp)
{
int32_t rowbytes = (bpc * num_comp * width + 7) / 8;
uint8_t mask = (1 << bpc) - 1;
uint16_t *prev;
int32_t i, j;
ASSERT(raster);
ASSERT( bpc > 0 && bpc <= 8 );
prev = NEW(num_comp, uint16_t);
/* Generic routine for 1 to 16 bit.
* It supports, e.g., 7 bpc images too.
* Actually, it is not necessary to have 16 bit inbuf and outbuf
* since we only need 1, 2, and 4 bit support here. 8 bit is enough.
*/
for (j = 0; j < height; j++) {
int32_t k, l, inbits, outbits;
uint16_t inbuf, outbuf;
int c;
memset(prev, 0, sizeof(uint16_t)*num_comp);
inbuf = outbuf = 0; inbits = outbits = 0;
l = k = j * rowbytes;
for (i = 0; i < width; i++) {
for (c = 0; c < num_comp; c++) {
uint8_t cur;
int8_t sub;
if (inbits < bpc) { /* need more byte */
inbuf = (inbuf << 8) | raster[l]; l++;
inbits += 8;
}
cur = (inbuf >> (inbits - bpc)) & mask;
inbits -= bpc; /* consumed bpc bits */
sub = cur - prev[c];
prev[c] = cur;
if (sub < 0)
sub += (1 << bpc);
/* Append newly filtered component value */
outbuf = (outbuf << bpc) | sub;
outbits += bpc;
/* flush */
if (outbits >= 8) {
raster[k] = (outbuf >> (outbits - 8)); k++;
outbits -= 8;
}
}
}
if (outbits > 0) {
raster[k] = (outbuf << (8 - outbits));
k++;
}
}
RELEASE(prev);
}
static unsigned char *
filter_TIFF2_apply_filter (unsigned char *raster,
int32_t columns, int32_t rows,
int8_t bpc, int8_t colors, int32_t *length)
{
unsigned char *dst;
uint16_t *prev;
int32_t rowbytes = (bpc * colors * columns + 7) / 8;
int32_t i, j;
ASSERT(raster && length);
dst = NEW(rowbytes*rows, unsigned char);
memcpy(dst, raster, rowbytes*rows);
*length = rowbytes * rows;
switch (bpc) {
case 1: case 2: case 4:
apply_filter_TIFF2_1_2_4(dst, columns, rows, bpc, colors);
break;
case 8:
prev = NEW(colors, uint16_t);
for (j = 0; j < rows; j++) {
memset(prev, 0, sizeof(uint16_t)*colors);
for (i = 0; i < columns; i++) {
int c;
int32_t pos = colors * (columns * j + i);
for (c = 0; c < colors; c++) {
uint8_t cur = raster[pos+c];
int32_t sub = cur - prev[c];
prev[c] = cur;
dst[pos+c] = sub;
}
}
}
RELEASE(prev);
break;
case 16:
prev = NEW(colors, uint16_t);
for (j = 0; j < rows; j++) {
memset(prev, 0, sizeof(uint16_t)*colors);
for (i = 0; i < columns; i++) {
int c;
int32_t pos = 2 * colors * (columns * j + i);
for (c = 0; c < colors; c++) {
uint16_t cur = ((uint8_t)raster[pos+2*c])*256 +
(uint8_t)raster[pos+2*c+1];
uint16_t sub = cur - prev[c];
prev[c] = cur;
dst[pos+2*c ] = (sub >> 8) & 0xff;
dst[pos+2*c+1] = sub & 0xff;
}
}
}
RELEASE(prev);
break;
}
return dst;
}
static pdf_obj *
filter_create_predictor_dict (int predictor, int32_t columns,
int bpc, int colors)
{
pdf_obj *parms;
parms = pdf_new_dict();
pdf_add_dict(parms, pdf_new_name("BitsPerComponent"), pdf_new_number(bpc));
pdf_add_dict(parms, pdf_new_name("Colors"), pdf_new_number(colors));
pdf_add_dict(parms, pdf_new_name("Columns"), pdf_new_number(columns));
pdf_add_dict(parms, pdf_new_name("Predictor"), pdf_new_number(predictor));
return parms;
}
static void
write_stream (pdf_out *p, pdf_stream *stream)
{
unsigned char *filtered;
size_t filtered_length;
#ifdef HAVE_ZLIB
uLong buffer_length;
#else
size_t buffer_length;
#endif
unsigned char *buffer;
ASSERT(p);
/*
* Always work from a copy of the stream. All filters read from
* "filtered" and leave their result in "filtered".
*/
#if 0
filtered = NEW(stream->stream_length + 1, unsigned char);
#endif
filtered = NEW(stream->stream_length, unsigned char);
memcpy(filtered, stream->stream, stream->stream_length);
filtered_length = stream->stream_length;
/* PDF/A requires Metadata to be not filtered. */
{
pdf_obj *type;
type = pdf_lookup_dict(stream->dict, "Type");
if (type && !strcmp("Metadata", pdf_name_value(type))) {
stream->_flags &= ~STREAM_COMPRESS;
}
}
#ifdef HAVE_ZLIB
/* Apply compression filter if requested */
if (stream->stream_length > 0 &&
(stream->_flags & STREAM_COMPRESS) &&
p->options.compression.level > 0) {
pdf_obj *filters;
/* First apply predictor filter if requested. */
if ( p->options.compression.use_predictor &&
(stream->_flags & STREAM_USE_PREDICTOR) &&
!pdf_lookup_dict(stream->dict, "DecodeParms")) {
int bits_per_pixel = stream->decodeparms.colors *
stream->decodeparms.bits_per_component;
int32_t len = (stream->decodeparms.columns * bits_per_pixel + 7) / 8;
int32_t rows = stream->stream_length / len;
unsigned char *filtered2 = NULL;
int32_t length2 = stream->stream_length;
pdf_obj *parms;
parms = filter_create_predictor_dict(stream->decodeparms.predictor,
stream->decodeparms.columns,
stream->decodeparms.bits_per_component,
stream->decodeparms.colors);
switch (stream->decodeparms.predictor) {
case 2: /* TIFF2 */
filtered2 = filter_TIFF2_apply_filter(filtered,
stream->decodeparms.columns,
rows,
stream->decodeparms.bits_per_component,
stream->decodeparms.colors, &length2);
break;
case 15: /* PNG optimun */
filtered2 = filter_PNG15_apply_filter(filtered,
stream->decodeparms.columns,
rows,
stream->decodeparms.bits_per_component,
stream->decodeparms.colors, &length2);
break;
default:
WARN("Unknown/unsupported Predictor function %d.",
stream->decodeparms.predictor);
break;
}
if (parms && filtered2) {
RELEASE(filtered);
filtered = filtered2;
filtered_length = length2;
pdf_add_dict(stream->dict, pdf_new_name("DecodeParms"), parms);
}
}
filters = pdf_lookup_dict(stream->dict, "Filter");
buffer_length = filtered_length + filtered_length/1000 + 14;
buffer = NEW(buffer_length, unsigned char);
{
pdf_obj *filter_name = pdf_new_name("FlateDecode");
if (filters)
/*
* FlateDecode is the first filter to be applied to the stream.
*/
pdf_unshift_array(filters, filter_name);
else
/*
* Adding the filter as a name instead of a one-element array
* is crucial because otherwise Adobe Reader cannot read the
* cross-reference stream any more, cf. the PDF v1.5 Errata.
*/
pdf_add_dict(stream->dict, pdf_new_name("Filter"), filter_name);
}
#ifdef HAVE_ZLIB_COMPRESS2
if (compress2(buffer, &buffer_length, filtered,
filtered_length, p->options.compression.level)) {
ERROR("Zlib error");
}
#else
if (compress(buffer, &buffer_length, filtered,
filtered_length)) {
ERROR ("Zlib error");
}
#endif /* HAVE_ZLIB_COMPRESS2 */
RELEASE(filtered);
p->output.compression_saved +=
filtered_length - buffer_length
- (filters ? strlen("/FlateDecode "): strlen("/Filter/FlateDecode\n"));
filtered = buffer;
filtered_length = buffer_length;
}
#endif /* HAVE_ZLIB */
/* AES will change the size of data! */
if (p->state.enc_mode) {
unsigned char *cipher = NULL;
size_t cipher_len = 0;
pdf_encrypt_data(p->sec_data, filtered, filtered_length, &cipher, &cipher_len);
RELEASE(filtered);
filtered = cipher;
filtered_length = cipher_len;
}
#if 0
/*
* An optional end-of-line marker preceding the "endstream" is
* not part of stream data. See, PDF Reference 4th ed., p. 38.
*/
/* Add a '\n' if the last character wasn't one */
if (filtered_length > 0 &&
filtered[filtered_length-1] != '\n') {
filtered[filtered_length] = '\n';
filtered_length++;
}
#endif
pdf_add_dict(stream->dict,
pdf_new_name("Length"), pdf_new_number(filtered_length));
pdf_write_obj(p, stream->dict);
pdf_out_str(p, "\nstream\n", 8);
if (filtered_length > 0)
pdf_out_str(p, filtered, filtered_length);
RELEASE(filtered);
/*
* This stream length "object" gets reset every time write_stream is
* called for the stream object.
* If this stream gets written more than once with different
* filters, this could be a problem.
*/
pdf_out_str(p, "\n", 1);
pdf_out_str(p, "endstream", 9);
}
static void
release_stream (pdf_stream *stream)
{
pdf_release_obj(stream->dict);
stream->dict = NULL;
if (stream->stream) {
RELEASE(stream->stream);
stream->stream = NULL;
}
if (stream->objstm_data) {
RELEASE(stream->objstm_data);
stream->objstm_data = NULL;
}
RELEASE(stream);
}
pdf_obj *
pdf_stream_dict (pdf_obj *stream)
{
pdf_stream *data;
TYPECHECK(stream, PDF_STREAM);
data = stream->data;
return data->dict;
}
const void *
pdf_stream_dataptr (pdf_obj *stream)
{
pdf_stream *data;
TYPECHECK(stream, PDF_STREAM);
data = stream->data;
return (const void *) data->stream;
}
int
pdf_stream_length (pdf_obj *stream)
{
pdf_stream *data;
TYPECHECK(stream, PDF_STREAM);
data = stream->data;
return (int) data->stream_length;
}
static void
set_objstm_data (pdf_obj *objstm, int *data) {
TYPECHECK(objstm, PDF_STREAM);
((pdf_stream *) objstm->data)->objstm_data = data;
}
static int *
get_objstm_data (pdf_obj *objstm) {
TYPECHECK(objstm, PDF_STREAM);
return ((pdf_stream *) objstm->data)->objstm_data;
}
void
pdf_add_stream (pdf_obj *stream, const void *stream_data, int length)
{
pdf_stream *data;
TYPECHECK(stream, PDF_STREAM);
if (length < 1)
return;
data = stream->data;
if (data->stream_length + length > data->max_length) {
data->max_length += length + STREAM_ALLOC_SIZE;
data->stream = RENEW(data->stream, data->max_length, unsigned char);
}
memcpy(data->stream + data->stream_length, stream_data, length);
data->stream_length += length;
}
#if HAVE_ZLIB
#define WBUF_SIZE 4096
static int
filter_get_DecodeParms_FlateDecode (struct decode_parms *parms, pdf_obj *dict)
{
pdf_obj *tmp;
ASSERT(dict && parms);
ASSERT(PDF_OBJ_DICTTYPE(dict));
/* Fill with default values */
parms->predictor = 1;
parms->colors = 1;
parms->bits_per_component = 8;
parms->columns = 1;
tmp = pdf_deref_obj(pdf_lookup_dict(dict, "Predictor"));
if (tmp) {
parms->predictor = pdf_number_value(tmp);
pdf_release_obj(tmp);
}
tmp = pdf_deref_obj(pdf_lookup_dict(dict, "Colors"));
if (tmp) {
parms->colors = pdf_number_value(tmp);
pdf_release_obj(tmp);
}
tmp = pdf_deref_obj(pdf_lookup_dict(dict, "BitsPerComponent"));
if (tmp) {
parms->bits_per_component = pdf_number_value(tmp);
pdf_release_obj(tmp);
}
tmp = pdf_deref_obj(pdf_lookup_dict(dict, "Columns"));
if (tmp) {
parms->columns = pdf_number_value(tmp);
pdf_release_obj(tmp);
}
if (parms->bits_per_component != 1 &&
parms->bits_per_component != 2 &&
parms->bits_per_component != 4 &&
parms->bits_per_component != 8 &&
parms->bits_per_component != 16) {
WARN("Invalid BPC value in DecodeParms: %d", parms->bits_per_component);
return -1;
} else if (parms->predictor <= 0 || parms->colors <= 0 ||
parms->columns <= 0)
return -1;
return 0;
}
/* From Xpdf version 3.04
* I'm not sure if I properly ported... Untested.
*/
static int
filter_row_TIFF2 (unsigned char *dst, const unsigned char *src,
struct decode_parms *parms)
{
const unsigned char *p = src;
unsigned char *col;
/* bits_per_component < 8 here */
int mask = (1 << parms->bits_per_component) - 1;
int inbuf, outbuf; /* 2 bytes buffer */
int i, ci, j, k, inbits, outbits;
col = NEW(parms->colors, unsigned char);
memset(col, 0, parms->colors);
inbuf = outbuf = 0; inbits = outbits = 0;
j = k = 0;
for (i = 0; i < parms->columns; i++) {
/* expanding each color component into an 8-bits bytes array */
for (ci = 0; ci < parms->colors; ci++) {
if (inbits < parms->bits_per_component) {
/* need more byte */
inbuf = (inbuf << 8) | p[j++];
inbits += 8;
}
/* predict current color component */
col[ci] = (unsigned char) ((col[ci] +
(inbuf >> (inbits - parms->bits_per_component))) & mask);
inbits -= parms->bits_per_component; /* consumed bpc bits */
/* append newly predicted color component value */
outbuf = (outbuf << parms->bits_per_component) | col[ci];
outbits += parms->bits_per_component;
if (outbits >= 8) { /* flush */
dst[k++] = (unsigned char) (outbuf >> (outbits - 8));
outbits -= 8;
}
}
}
if (outbits > 0) {
dst[k] = (unsigned char) (outbuf << (8 - outbits));
}
RELEASE(col);
return 0;
}
/* This routine is inefficient. Length is typically 4 for Xref streams.
* Especially, calling pdf_add_stream() for each 4 bytes append is highly
* inefficient.
*/
static pdf_obj *
filter_stream_decode_Predictor (const void *src, size_t srclen, struct decode_parms *parms)
{
pdf_obj *dst;
const unsigned char *p = (const unsigned char *) src;
const unsigned char *endptr = p + srclen;
unsigned char *prev, *buf;
int bits_per_pixel = parms->colors * parms->bits_per_component;
int bytes_per_pixel = (bits_per_pixel + 7) / 8;
int length = (parms->columns * bits_per_pixel + 7) / 8;
int i, error = 0;
dst = pdf_new_stream(0);
prev = NEW(length, unsigned char);
buf = NEW(length, unsigned char);
memset(prev, 0, length);
switch (parms->predictor) {
case 1 : /* No prediction */
pdf_add_stream(dst, src, srclen); /* Just copy */
break;
case 2: /* TIFF Predictor 2 */
{
if (parms->bits_per_component == 8) {
while (p + length < endptr) {
/* Same as PNG Sub */
for (i = 0; i < length; i++) {
int pv = i - bytes_per_pixel >= 0 ? buf[i - bytes_per_pixel] : 0;
buf[i] = (unsigned char)(((int) p[i] + pv) & 0xff);
}
pdf_add_stream(dst, buf, length);
p += length;
}
} else if (parms->bits_per_component == 16) {
while (p + length < endptr) {
for (i = 0; i < length; i += 2) {
int b = i - bytes_per_pixel;
char hi = b >= 0 ? buf[b] : 0;
char lo = b >= 0 ? buf[b + 1] : 0;
int pv = (hi << 8) | lo;
int cv = (p[i] << 8) | p[i + 1];
int c = pv + cv;
buf[i] = (unsigned char) (c >> 8);
buf[i + 1] = (unsigned char) (c & 0xff);
}
pdf_add_stream(dst, buf, length);
p += length;
}
} else { /* bits per component 1, 2, 4 */
while (!error && p + length < endptr) {
error = filter_row_TIFF2(buf, p, parms);
if (!error) {
pdf_add_stream(dst, buf, length);
p += length;
}
}
}
}
break;
/* PNG predictors: first byte of each rows is predictor type */
case 10: /* PNG None */
case 11: /* PNG Sub on all rows */
case 12: /* PNG UP on all rows */
case 13: /* PNG Average on all rows */
case 14: /* PNG Paeth on all rows */
case 15: /* PNG optimun: prediction algorithm can change from line to line. */
{
int type = parms->predictor - 10;
while (!error && p + length < endptr) {
if (parms->predictor == 15)
type = *p;
else if (*p != type) {
WARN("Mismatched Predictor type in data stream.");
error = -1;
}
p++;
switch (type) {
case 0: /* Do nothing just skip first byte */
memcpy(buf, p, length);
break;
case 1:
for (i = 0; i < length; i++) {
int pv = i - bytes_per_pixel >= 0 ? buf[i - bytes_per_pixel] : 0;
buf[i] = (unsigned char)(((int) p[i] + pv) & 0xff);
}
break;
case 2:
for (i = 0; i < length; i++) {
buf[i] = (unsigned char)(((int) p[i] + (int) prev[i]) & 0xff);
}
break;
case 3:
for (i = 0; i < length; i++) {
int up = prev[i];
int left = i - bytes_per_pixel >= 0 ? buf[i - bytes_per_pixel] : 0;
int tmp = floor((up + left) / 2);
buf[i] = (unsigned char)((p[i] + tmp) & 0xff);
}
break;
case 4:
for (i = 0; i < length; i++) {
int a = i - bytes_per_pixel >= 0 ? buf[i - bytes_per_pixel] : 0; /* left */
int b = prev[i]; /* above */
int c = i - bytes_per_pixel >= 0 ? prev[i - bytes_per_pixel] : 0; /* upper left */
int q = a + b - c;
int qa = q - a, qb = q - b, qc = q - c;
qa = qa < 0 ? -qa : qa;
qb = qb < 0 ? -qb : qb;
qc = qc < 0 ? -qc : qc;
if (qa <= qb && qa <= qc)
buf[i] = (unsigned char) (((int) p[i] + a) & 0xff);
else if (qb <= qc)
buf[i] = (unsigned char) (((int) p[i] + b) & 0xff);
else
buf[i] = (unsigned char) (((int) p[i] + c) & 0xff);
}
break;
default:
WARN("Unknown PNG predictor type: %d", type);
error = -1;
}
if (!error) {
pdf_add_stream(dst, buf, length); /* highly inefficient */
memcpy(prev, buf, length);
p += length;
}
}
}
break;
default:
WARN("Unknown Predictor type value :%d", parms->predictor);
error = -1;
}
RELEASE(prev);
RELEASE(buf);
if (error) {
pdf_release_obj(dst);
dst = NULL;
}
return dst;
}
static pdf_obj *
filter_stream_decode_FlateDecode (const void *data, size_t len, struct decode_parms *parms)
{
pdf_obj *dst;
pdf_obj *tmp;
z_stream z;
Bytef wbuf[WBUF_SIZE];
z.zalloc = Z_NULL; z.zfree = Z_NULL; z.opaque = Z_NULL;
z.next_in = (z_const Bytef *) data; z.avail_in = len;
z.next_out = (Bytef *) wbuf; z.avail_out = WBUF_SIZE;
if (inflateInit(&z) != Z_OK) {
WARN("inflateInit() failed.");
return NULL;
}
tmp = pdf_new_stream(0);
for (;;) {
int status;
status = inflate(&z, Z_NO_FLUSH);
if (status == Z_STREAM_END) {
break;
} else if (status == Z_DATA_ERROR && z.avail_in == 0) {
WARN("Ignoring zlib error: status=%d, message=\"%s\"", status, z.msg);
break;
} else if (status != Z_OK) {
WARN("inflate() failed. Broken PDF file?");
inflateEnd(&z);
pdf_release_obj(tmp);
return NULL;
}
if (z.avail_out == 0) {
pdf_add_stream(tmp, wbuf, WBUF_SIZE);
z.next_out = wbuf;
z.avail_out = WBUF_SIZE;
}
}
if (WBUF_SIZE - z.avail_out > 0)
pdf_add_stream(tmp, wbuf, WBUF_SIZE - z.avail_out);
if (inflateEnd(&z) == Z_OK) {
if (parms) {
dst = filter_stream_decode_Predictor(pdf_stream_dataptr(tmp), pdf_stream_length(tmp), parms);
} else {
dst = pdf_link_obj(tmp);
}
} else {
dst = NULL;
}
pdf_release_obj(tmp);
return dst;
}
#endif
static pdf_obj *
filter_stream_decode_ASCIIHexDecode (const void *data, size_t len)
{
pdf_obj *dst;
int eod, error;
const char *p = (const char *) data;
const char *endptr = p + len;
unsigned char *buf, ch;
size_t pos, n;
buf = NEW((len+1)/2, unsigned char);
skip_white(&p, endptr);
ch = 0; n = 0; pos = 0; eod = 0; error = 0;
while (p < endptr && !error && !eod) {
char c1, val;
c1 = p[0];
if (c1 >= 'A' && c1 <= 'F') {
val = c1 - 'A' + 10;
} else if (c1 >= 'a' && c1 <= 'f') {
val = c1 - 'a' + 10;
} else if (c1 >= '0' && c1 <= '9') {
val = c1 - '0';
} else if (c1 == '>') {
val = 0;
eod = 1;
if ((pos % 2) == 0)
break;
} else {
error = -1;
break;
}
if (pos % 2) {
buf[n] = ch + val;
n++;
ch = 0;
} else {
ch = val << 4;
}
pos++; p++;
skip_white(&p, endptr);
}
if (error || !eod) {
WARN("Invalid ASCIIHex data seen: %s", error ? "Invalid character" : "No EOD marker");
dst = NULL;
} else {
dst = pdf_new_stream(0);
pdf_add_stream(dst, buf, n);
}
RELEASE(buf);
return dst;
}
/* Percent sign is not start of comment here.
* We need this for reading Ascii85 encoded data.
*/
#define is_space(c) ((c) == ' ' || (c) == '\t' || (c) == '\f' || \
(c) == '\r' || (c) == '\n' || (c) == '\0')
static void
skip_white_a85 (const char **p, const char *endptr)
{
while (*p < endptr && (is_space(**p))) {
(*p)++;
}
}
static pdf_obj *
filter_stream_decode_ASCII85Decode (const void *data, size_t len)
{
pdf_obj *dst;
int eod, error;
const char *p = (const char *) data;
const char *endptr = p + len;
unsigned char *buf;
size_t n;
buf = NEW(((len+4)/5)*4, unsigned char);
skip_white_a85(&p, endptr);
n = 0; eod = 0; error = 0;
while (p < endptr && !error && !eod) {
char q[5] = {'u', 'u', 'u', 'u', 'u'};
int m;
char ch;
ch = p[0];
p++;
skip_white_a85(&p, endptr);
if (ch == 'z') {
memset(buf+n, 0, 4);
n += 4;
continue;
} else if (ch == '~') {
if (p < endptr && p[0] == '>') {
eod = 1;
p++;
} else {
error = -1;
}
break;
}
q[0] = ch;
for (m = 1; m < 5 && p < endptr; m++) {
ch = p[0];
p++;
skip_white_a85(&p, endptr);
if (ch == '~') {
if (p < endptr && p[0] == '>') {
eod = 1;
p++;
} else {
error = -1;
}
break;
} else if (ch < '!' || ch > 'u') {
error = -1;
break;
} else {
q[m] = ch;
}
}
if (!error) {
uint32_t val = 0;
int i;
if (m <= 1) {
error = -1;
break;
}
val = 85*85*85*(q[0] - '!') + 85*85*(q[1] - '!')
+ 85*(q[2] - '!') + (q[3] - '!');
/* Check overflow */
if (val > UINT32_MAX / 85) {
error = -1;
break;
} else {
val = 85 * val;
if (val > UINT32_MAX - (q[4] - '!')) {
error = -1;
break;
}
val += (q[4] - '!');
}
if (!error) {
for (i = 3; i >= 0; i--) {
buf[n + i] = val & 0xff;
val /= 256;
}
n += m - 1;
}
}
}
if (error) {
WARN("Error in reading ASCII85 data.");
dst = NULL;
} else if (!eod) {
WARN("Error in reading ASCII85 data: No EOD");
dst = NULL;
} else {
dst = pdf_new_stream(0);
pdf_add_stream(dst, buf, n);
}
RELEASE(buf);
return dst;
}
static pdf_obj *
filter_stream_decode (const char *filter_name, pdf_obj *src, pdf_obj *parm)
{
pdf_obj *dec;
const char *stream_data;
size_t stream_length;
if (!filter_name)
return pdf_link_obj(src);
stream_data = pdf_stream_dataptr(src);
stream_length = pdf_stream_length(src);
if (!strcmp(filter_name, "ASCIIHexDecode")) {
dec = filter_stream_decode_ASCIIHexDecode(stream_data, stream_length);
} else if (!strcmp(filter_name, "ASCII85Decode")) {
dec = filter_stream_decode_ASCII85Decode(stream_data, stream_length);
#if HAVE_ZLIB
} else if (!strcmp(filter_name, "FlateDecode")) {
struct decode_parms decode_parm;
if (parm)
filter_get_DecodeParms_FlateDecode(&decode_parm, parm);
dec = filter_stream_decode_FlateDecode(stream_data, stream_length, parm ? &decode_parm : NULL);
#endif /* HAVE_ZLIB */
} else {
WARN("DecodeFilter \"%s\" not supported.", filter_name);
dec = NULL;
}
return dec;
}
int
pdf_concat_stream (pdf_obj *dst, pdf_obj *src)
{
pdf_obj *filtered;
pdf_obj *stream_dict;
pdf_obj *filter, *parms;
int error = 0;
if (!PDF_OBJ_STREAMTYPE(dst) || !PDF_OBJ_STREAMTYPE(src)) {
WARN("Passed invalid type in pdf_concat_stream().");
return -1;
}
stream_dict = pdf_stream_dict(src);
filter = pdf_lookup_dict(stream_dict, "Filter");
if (!filter) {
pdf_add_stream(dst, pdf_stream_dataptr(src), pdf_stream_length(src));
return 0;
}
if (pdf_lookup_dict(stream_dict, "DecodeParms")) {
/* Dictionary or array */
parms = pdf_deref_obj(pdf_lookup_dict(stream_dict, "DecodeParms"));
if (!parms) {
WARN("Failed to deref DeocdeParms...");
return -1;
} else if (!PDF_OBJ_ARRAYTYPE(parms) && !PDF_OBJ_DICTTYPE(parms)) {
WARN("PDF dict or array expected for DecodeParms...");
pdf_release_obj(parms);
return -1;
}
} else {
parms = NULL;
}
if (PDF_OBJ_ARRAYTYPE(filter)) {
int i, num;
pdf_obj *prev = NULL;
num = pdf_array_length(filter);
if (parms) {
if (!PDF_OBJ_ARRAYTYPE(parms) || pdf_array_length(parms) != num) {
WARN("Invalid DecodeParam object found.");
pdf_release_obj(parms);
return -1;
}
}
if (num == 0) {
filtered = pdf_link_obj(src);
} else {
filtered = NULL;
prev = pdf_link_obj(src);
for (i = 0; i < num && prev != NULL; i++) {
pdf_obj *tmp1, *tmp2;
tmp1 = pdf_deref_obj(pdf_get_array(filter, i));
if (parms) {
tmp2 = pdf_deref_obj(pdf_get_array(parms, i));
} else {
tmp2 = NULL;
}
if (PDF_OBJ_NAMETYPE(tmp1)) {
filtered = filter_stream_decode(pdf_name_value(tmp1), prev, tmp2);
} else if (PDF_OBJ_NULLTYPE(tmp1)) {
filtered = pdf_link_obj(prev);
} else {
WARN("Unexpected object found for /Filter...");
filtered = NULL;
}
if (prev)
pdf_release_obj(prev);
if (tmp1)
pdf_release_obj(tmp1);
if (tmp2)
pdf_release_obj(tmp2);
prev = filtered;
}
}
} else if (PDF_OBJ_NAMETYPE(filter)) {
filtered = filter_stream_decode(pdf_name_value(filter), src, parms);
} else {
WARN("Invalid value for /Filter found.");
filtered = NULL;
}
if (parms)
pdf_release_obj(parms);
if (filtered) {
pdf_add_stream(dst, pdf_stream_dataptr(filtered), pdf_stream_length(filtered));
pdf_release_obj(filtered);
error = 0;
} else {
error = -1;
}
return error;
}
static pdf_obj *
pdf_stream_uncompress (pdf_obj *src) {
pdf_obj *dst = pdf_new_stream(0);
TYPECHECK(src, PDF_STREAM);
pdf_merge_dict(pdf_stream_dict(dst), pdf_stream_dict(src));
pdf_remove_dict(pdf_stream_dict(dst), "Length");
pdf_concat_stream(dst, src);
return dst;
}
#if 0
void
pdf_stream_set_flags (pdf_obj *stream, int flags)
{
pdf_stream *data;
TYPECHECK(stream, PDF_STREAM);
data = stream->data;
data->_flags = flags;
}
int
pdf_stream_get_flags (pdf_obj *stream)
{
pdf_stream *data;
TYPECHECK(stream, PDF_STREAM);
data = stream->data;
return data->_flags;
}
#endif
static void
pdf_write_obj (pdf_out *p, pdf_obj *object)
{
ASSERT(p);
if (object == NULL) {
write_null(p);
return;
}
if (INVALIDOBJ(object) || PDF_OBJ_UNDEFINED(object))
ERROR("pdf_write_obj: Invalid object, type = %d\n", object->type);
if (error_out)
fprintf(stderr, "{%d}", object->refcount);
switch (object->type) {
case PDF_BOOLEAN:
write_boolean(p, object->data);
break;
case PDF_NUMBER:
write_number (p, object->data);
break;
case PDF_STRING:
write_string (p, object->data);
break;
case PDF_NAME:
write_name(p, object->data);
break;
case PDF_ARRAY:
write_array(p, object->data);
break;
case PDF_DICT:
write_dict (p, object->data);
break;
case PDF_STREAM:
write_stream(p, object->data);
break;
case PDF_NULL:
write_null(p);
break;
case PDF_INDIRECT:
write_indirect(p, object->data);
break;
}
}
/* Write the object to the file */
static void
pdf_flush_obj (pdf_out *p, pdf_obj *object)
{
size_t length;
char buf[64];
/*
* Record file position
*/
add_xref_entry(p, object->label, 1,
p->output.file_position, object->generation);
length = sprintf(buf, "%u %hu obj\n", object->label, object->generation);
p->state.enc_mode =
(p->options.enable_encrypt && !(object->flags & OBJ_NO_ENCRYPT)) ? 1 : 0;
if (p->state.enc_mode) {
pdf_enc_set_label(p->sec_data, object->label);
pdf_enc_set_generation(p->sec_data, object->generation);
}
pdf_out_str(p, buf, length);
pdf_write_obj(p, object);
pdf_out_str(p, "\nendobj\n", 8);
}
static int
pdf_add_objstm (pdf_out *p, pdf_obj *objstm, pdf_obj *object)
{
int *data, pos;
TYPECHECK(objstm, PDF_STREAM);
ASSERT(p);
data = get_objstm_data(objstm);
pos = ++data[0];
data[2*pos] = object->label;
data[2*pos+1] = pdf_stream_length(objstm);
add_xref_entry(p, object->label, 2, objstm->label, pos-1);
/* redirect output into objstm */
p->output_stream = objstm;
p->state.enc_mode = 0;
pdf_write_obj(p, object);
pdf_out_char(p, '\n');
p->output_stream = NULL;
return pos;
}
static void
release_objstm (pdf_obj *objstm)
{
int *data = get_objstm_data(objstm);
int pos = data[0];
pdf_obj *dict;
pdf_stream *stream;
unsigned char *old_buf;
size_t old_length;
stream = (pdf_stream *) objstm->data;
/* Precede stream data by offset table */
old_buf = stream->stream;
old_length = stream->stream_length;
/* Reserve 22 bytes for each entry (two 10 digit numbers plus two spaces) */
stream->stream = NEW(old_length + 22*pos, unsigned char);
stream->stream_length = 0;
{
int i = 2*pos, *val = data+2;
while (i--) {
char buf[32];
size_t length = sprintf(buf, "%d ", *(val++));
pdf_add_stream(objstm, buf, length);
}
}
dict = pdf_stream_dict(objstm);
pdf_add_dict(dict, pdf_new_name("Type"), pdf_new_name("ObjStm"));
pdf_add_dict(dict, pdf_new_name("N"), pdf_new_number(pos));
pdf_add_dict(dict, pdf_new_name("First"), pdf_new_number(stream->stream_length));
pdf_add_stream(objstm, old_buf, old_length);
RELEASE(old_buf);
pdf_release_obj(objstm);
}
void
pdf_release_obj (pdf_obj *object)
{
pdf_out *p = current_output();
if (object == NULL)
return;
if (INVALIDOBJ(object) || object->refcount <= 0) {
MESG("\npdf_release_obj: object=%p, type=%d, refcount=%d\n",
object, object->type, object->refcount);
error_out = 1;
pdf_write_obj(p, object);
ERROR("pdf_release_obj: Called with invalid object.");
error_out = 0;
}
object->refcount -= 1;
if (object->refcount == 0) {
#if defined(PDFOBJ_DEBUG)
bucket[object->obj_id] = NULL;
#endif
/*
* Nothing is using this object so it's okay to remove it.
* Nonzero "label" means object needs to be written before it's destroyed.
*/
if (object->label && p->output.file != NULL) {
if (!p->options.use_objstm || object->flags & OBJ_NO_OBJSTM ||
(p->options.enable_encrypt && (object->flags & OBJ_NO_ENCRYPT)) ||
object->generation)
pdf_flush_obj(p, object);
else {
if (!p->current_objstm) {
int *data = NEW(2*OBJSTM_MAX_OBJS+2, int);
data[0] = data[1] = 0;
p->current_objstm = pdf_new_stream(STREAM_COMPRESS);
set_objstm_data(p->current_objstm, data);
pdf_label_obj(p, p->current_objstm);
}
if (pdf_add_objstm(p, p->current_objstm, object) == OBJSTM_MAX_OBJS) {
release_objstm(p->current_objstm);
p->current_objstm = NULL;
}
}
}
switch (object->type) {
case PDF_BOOLEAN:
release_boolean(object->data);
break;
case PDF_NULL:
break;
case PDF_NUMBER:
release_number(object->data);
break;
case PDF_STRING:
release_string(object->data);
break;
case PDF_NAME:
release_name(object->data);
break;
case PDF_ARRAY:
release_array(object->data);
break;
case PDF_DICT:
release_dict(object->data);
break;
case PDF_STREAM:
release_stream(object->data);
break;
case PDF_INDIRECT:
release_indirect(object->data);
break;
}
/* This might help detect freeing already freed objects */
object->type = -1;
object->data = NULL;
RELEASE(object);
}
}
/* Reading external PDF files
*
*/
static int
backup_line (FILE *pdf_input_file)
{
int ch = -1;
/*
* Note: this code should work even if \r\n is eol. It could fail on a
* machine where \n is eol and there is a \r in the stream --- Highly
* unlikely in the last few bytes where this is likely to be used.
*/
if (tell_position(pdf_input_file) > 1)
do {
seek_relative (pdf_input_file, -2);
} while (tell_position(pdf_input_file) > 0 &&
(ch = fgetc(pdf_input_file)) >= 0 &&
(ch != '\n' && ch != '\r' ));
if (ch < 0) {
return 0;
}
return 1;
}
static int
find_xref (FILE *pdf_input_file)
{
size_t len, xref_pos = 0;
int tries = 10;
do {
size_t currentpos;
if (!backup_line(pdf_input_file)) {
tries = 0;
break;
}
currentpos = tell_position(pdf_input_file);
fread(work_buffer, sizeof(char), strlen("startxref"), pdf_input_file);
seek_absolute(pdf_input_file, currentpos);
tries--;
} while (tries > 0 &&
strncmp(work_buffer, "startxref", strlen("startxref")));
if (tries <= 0)
return 0;
/* Skip rest of this line */
mfgets(work_buffer, WORK_BUFFER_SIZE, pdf_input_file);
/* Next line of input file should contain actual xref location */
len = mfreadln(work_buffer, WORK_BUFFER_SIZE, pdf_input_file);
if (len <= 0)
WARN("Reading xref location data failed... Not a PDF file?");
else {
const char *start, *end;
char *number;
start = work_buffer;
end = start + len;
skip_white(&start, end);
number = parse_number(&start, end);
xref_pos = (int) atof(number);
RELEASE(number);
}
return xref_pos;
}
/*
* This routine must be called with the file pointer located
* at the start of the trailer.
*/
static pdf_obj *
parse_trailer (pdf_file *pf)
{
pdf_obj *result;
/*
* Fill work_buffer and hope trailer fits. This should
* be made a bit more robust sometime.
*/
if (fread(work_buffer, sizeof(char),
WORK_BUFFER_SIZE, pf->file) == 0 ||
strncmp(work_buffer, "trailer", strlen("trailer"))) {
WARN("No trailer. Are you sure this is a PDF file?");
WARN("buffer:\n->%s<-\n", work_buffer);
result = NULL;
} else {
const char *p = work_buffer + strlen("trailer");
skip_white(&p, work_buffer + WORK_BUFFER_SIZE);
result = parse_pdf_dict(&p, work_buffer + WORK_BUFFER_SIZE, pf);
}
return result;
}
/*
* This routine tries to estimate an upper bound for character position
* of the end of the object, so it knows how big the buffer must be.
* The parsing routines require that the entire object be read into
* memory. It would be a major pain to rewrite them. The worst case
* is that an object before an xref table will grab the whole table
* :-(
*/
static int
next_object_offset (pdf_file *pf, uint32_t obj_num)
{
uint32_t next = pf->file_size; /* Worst case */
size_t i;
uint32_t curr;
curr = pf->xref_table[obj_num].field2;
/* Check all other type 1 objects to find next one */
for (i = 0; i < pf->num_obj; i++) {
if (pf->xref_table[i].type == 1 &&
pf->xref_table[i].field2 > curr &&
pf->xref_table[i].field2 < next)
next = pf->xref_table[i].field2;
}
return next;
}
#define checklabel(pf, n, g) ((n) > 0 && (n) < (pf)->num_obj && ( \
((pf)->xref_table[(n)].type == 1 && (pf)->xref_table[(n)].field3 == (g)) || \
((pf)->xref_table[(n)].type == 2 && !(g))))
pdf_obj *
pdf_new_indirect (pdf_file *pf, uint32_t obj_num, uint16_t obj_gen)
{
pdf_obj *result;
pdf_indirect *indirect;
indirect = NEW(1, pdf_indirect);
indirect->pf = pf;
indirect->obj = NULL;
indirect->label = obj_num;
indirect->generation = obj_gen;
result = pdf_new_obj(PDF_INDIRECT);
result->data = indirect;
return result;
}
static pdf_obj *
pdf_read_object (uint32_t obj_num, uint16_t obj_gen, pdf_file *pf, size_t offset, size_t limit)
{
pdf_obj *result = NULL;
size_t length;
char *buffer;
const char *p, *endptr;
length = limit - offset;
if (length <= 0)
return NULL;
buffer = NEW(length + 1, char);
seek_absolute(pf->file, offset);
fread(buffer, sizeof(char), length, pf->file);
p = buffer;
endptr = p + length;
/* Check for obj_num and obj_gen */
{
const char *q = p; /* <== p */
char *sp;
uint32_t n, g;
skip_white(&q, endptr);
sp = parse_unsigned(&q, endptr);
if (!sp) {
RELEASE(buffer);
return NULL;
}
n = strtoul(sp, NULL, 10);
RELEASE(sp);
skip_white(&q, endptr);
sp = parse_unsigned(&q, endptr);
if (!sp) {
RELEASE(buffer);
return NULL;
}
g = strtoul(sp, NULL, 10);
RELEASE(sp);
if (obj_num && (n != obj_num || g != obj_gen)) {
RELEASE(buffer);
return NULL;
}
p = q; /* ==> p */
}
skip_white(&p, endptr);
if (memcmp(p, "obj", strlen("obj"))) {
WARN("Didn't find \"obj\".");
RELEASE(buffer);
return NULL;
}
p += strlen("obj");
result = parse_pdf_object(&p, endptr, pf);
skip_white(&p, endptr);
if (memcmp(p, "endobj", strlen("endobj"))) {
WARN("Didn't find \"endobj\".");
if (result)
pdf_release_obj(result);
result = NULL;
}
RELEASE(buffer);
return result;
}
static pdf_obj *
read_objstm (pdf_file *pf, uint32_t num)
{
size_t offset = pf->xref_table[num].field2;
uint16_t gen = pf->xref_table[num].field3;
size_t limit = next_object_offset(pf, num);
int n, first, *header = NULL;
char *data = NULL, *q;
const char *p, *endptr;
int i;
pdf_obj *objstm, *dict, *type, *n_obj, *first_obj;
objstm = pdf_read_object(num, gen, pf, offset, limit);
if (!PDF_OBJ_STREAMTYPE(objstm))
goto error;
{
pdf_obj *tmp = pdf_stream_uncompress(objstm);
if (!tmp)
goto error;
pdf_release_obj(objstm);
objstm = tmp;
}
dict = pdf_stream_dict(objstm);
type = pdf_lookup_dict(dict, "Type");
if (!PDF_OBJ_NAMETYPE(type) ||
strcmp(pdf_name_value(type), "ObjStm"))
goto error;
n_obj = pdf_lookup_dict(dict, "N");
if (!PDF_OBJ_NUMBERTYPE(n_obj))
goto error;
n = (int) pdf_number_value(n_obj);
first_obj = pdf_lookup_dict(dict, "First");
if (!PDF_OBJ_NUMBERTYPE(first_obj))
goto error;
first = (int) pdf_number_value(first_obj);
/* reject object streams without object data */
if (first >= pdf_stream_length(objstm))
goto error;
header = NEW(2*(n+1), int);
set_objstm_data(objstm, header);
*(header++) = n;
*(header++) = first;
/* avoid parsing beyond offset table */
data = NEW(first + 1, char);
memcpy(data, pdf_stream_dataptr(objstm), first);
data[first] = 0;
p = data;
endptr = p + first;
i = 2*n;
while (i--) {
*(header++) = strtoul(p, &q, 10);
if (q == p)
goto error;
p = q;
}
/* Any garbage after last entry? */
skip_white(&p, endptr);
if (p != endptr)
goto error;
RELEASE(data);
return pf->xref_table[num].direct = objstm;
error:
WARN("Cannot parse object stream.");
if (data)
RELEASE(data);
if (objstm)
pdf_release_obj(objstm);
return NULL;
}
/* Label without corresponding object definition are replaced by the
* null object, as required by the PDF spec. This is important to parse
* several cross-reference sections.
*/
static pdf_obj *
pdf_get_object (pdf_file *pf, uint32_t obj_num, uint16_t obj_gen)
{
pdf_obj *result;
if (!checklabel(pf, obj_num, obj_gen)) {
WARN("Trying to read nonexistent or deleted object: %lu %u",
obj_num, obj_gen);
return pdf_new_null();
}
if ((result = pf->xref_table[obj_num].direct)) {
return pdf_link_obj(result);
}
if (pf->xref_table[obj_num].type == 1) {
/* type == 1 */
uint32_t offset;
size_t limit;
offset = pf->xref_table[obj_num].field2;
limit = next_object_offset(pf, obj_num);
result = pdf_read_object(obj_num, obj_gen, pf, offset, limit);
} else {
/* type == 2 */
uint32_t objstm_num = pf->xref_table[obj_num].field2;
uint16_t index = pf->xref_table[obj_num].field3;
pdf_obj *objstm;
int *data, n, first, length;
const char *p, *q;
if (objstm_num >= pf->num_obj ||
pf->xref_table[objstm_num].type != 1 ||
!((objstm = pf->xref_table[objstm_num].direct) ||
(objstm = read_objstm(pf, objstm_num))))
goto error;
data = get_objstm_data(objstm);
n = *(data++);
first = *(data++);
if (index >= n || data[2*index] != obj_num)
goto error;
length = pdf_stream_length(objstm);
p = (const char *) pdf_stream_dataptr(objstm) + first + data[2*index+1];
q = p + (index == n-1 ? length : first+data[2*index+3]);
result = parse_pdf_object(&p, q, pf);
if (!result)
goto error;
}
/* Make sure the caller doesn't free this object */
pf->xref_table[obj_num].direct = pdf_link_obj(result);
return result;
error:
WARN("Could not read object from object stream.");
return pdf_new_null();
}
#define OBJ_FILE(o) (((pdf_indirect *)((o)->data))->pf)
#define OBJ_OBJ(o) (((pdf_indirect *)((o)->data))->obj)
#define OBJ_NUM(o) (((pdf_indirect *)((o)->data))->label)
#define OBJ_GEN(o) (((pdf_indirect *)((o)->data))->generation)
static pdf_obj *
pdf_new_ref (pdf_out *p, pdf_obj *object)
{
pdf_obj *result;
ASSERT(p);
if (object->label == 0) {
pdf_label_obj(p, object);
}
result = pdf_new_indirect(NULL, object->label, object->generation);
OBJ_OBJ(result) = object;
return result;
}
/* pdf_deref_obj always returns a link instead of the original */
/* It never return the null object, but the NULL pointer instead */
pdf_obj *
pdf_deref_obj (pdf_obj *obj)
{
int count = PDF_OBJ_MAX_DEPTH;
if (obj)
obj = pdf_link_obj(obj);
while (PDF_OBJ_INDIRECTTYPE(obj) && --count) {
pdf_file *pf = OBJ_FILE(obj);
if (pf) {
uint32_t obj_num = OBJ_NUM(obj);
uint16_t obj_gen = OBJ_GEN(obj);
pdf_release_obj(obj);
obj = pdf_get_object(pf, obj_num, obj_gen);
} else {
pdf_obj *next_obj = OBJ_OBJ(obj);
if (!next_obj) {
ERROR("Undefined object reference");
}
pdf_release_obj(obj);
obj = pdf_link_obj(next_obj);
}
}
if (!count)
ERROR("Loop in object hierarchy detected. Broken PDF file?");
if (PDF_OBJ_NULLTYPE(obj)) {
pdf_release_obj(obj);
return NULL;
} else
return obj;
}
static void
extend_xref (pdf_file *pf, size_t new_size)
{
size_t i;
pf->xref_table = RENEW(pf->xref_table, new_size, xref_entry);
for (i = pf->num_obj; i < new_size; i++) {
pf->xref_table[i].direct = NULL;
pf->xref_table[i].indirect = NULL;
pf->xref_table[i].type = 0;
pf->xref_table[i].field3 = 0;
pf->xref_table[i].field2 = 0L;
}
pf->num_obj = new_size;
}
/* Returns < 0 for error, 1 for success, and 0 when xref stream found. */
static int
parse_xref_table (pdf_file *pf, size_t xref_pos)
{
FILE *pdf_input_file = pf->file;
const char *p, *endptr;
char buf[256]; /* See, PDF ref. v.1.7, p.91 for "255+1" here. */
size_t len;
/*
* This routine reads one xref segment. It may be called multiple times
* on the same file. xref tables sometimes come in pieces.
*/
seek_absolute(pf->file, xref_pos);
len = mfreadln(buf, 255, pdf_input_file);
/* We should have already checked that "startxref" section exists.
* So, EOF here (len = -1) is impossible. We don't treat too long line
* case seriously.
*/
if (len < 0) {
WARN("Something went wrong while reading xref table...giving up.");
return -1;
}
p = buf;
endptr = buf + len;
/* No skip_white() here. There should not be any white-spaces here. */
if (memcmp(p, "xref", strlen("xref"))) {
/* Might be an xref stream and not an xref table */
return 0;
}
p += strlen("xref");
skip_white(&p, endptr);
if (p != endptr) {
WARN("Garbage after \"xref\" keyword found.");
return -1;
}
/* Next line in file has first item and size of table */
for (;;) {
char flag;
size_t current_pos, size, offset;
int i;
uint32_t first, obj_gen;
current_pos = tell_position(pdf_input_file);
len = mfreadln(buf, 255, pdf_input_file);
if (len == 0) /* empty line... just skip. */
continue;
else if (len < 0) {
WARN("Reading a line failed in xref table.");
return -1;
}
p = buf;
endptr = buf + len;
skip_white(&p, endptr);
if (p == endptr) { /* Only white-spaces and/or comment found. */
continue;
} else if (!strncmp(p, "trailer", strlen ("trailer"))) {
/*
* Backup... This is ugly, but it seems like the safest thing to
* do. It is possible the trailer dictionary starts on the same
* logical line as the word trailer. In that case, the mfgets
* call might have started to read the trailer dictionary and
* parse_trailer would fail.
*/
current_pos += p - buf; /* Jump to the beginning of "trailer" keyword. */
seek_absolute(pdf_input_file, current_pos);
break;
}
/* Line containing something other than white-space characters found.
*
* Start reading xref subsection
*
* This section just reads two nusigned integers, namely, the object number
* of first object and the size of the xref subsection. PDF reference says
* that only "a space" is allowed between those two numbers but we allow
* more white-space characters.
*/
{
char *q;
/* Object number of the first object whithin this xref subsection. */
q = parse_unsigned(&p, endptr);
if (!q) {
WARN("An unsigned integer expected but could not find. (xref)");
return -1;
}
first = atoi(q);
RELEASE(q);
skip_white(&p, endptr);
/* Nnumber of objects in this xref subsection. */
q = parse_unsigned(&p, endptr);
if (!q) {
WARN("An unsigned integer expected but could not find. (xref)");
return -1;
}
size = atoi(q);
RELEASE(q);
skip_white(&p, endptr);
/* Check for unrecognized tokens */
if (p != endptr) {
WARN("Unexpected token found in xref table.");
return -1;
}
}
/* The first line of a xref subsection OK. */
if (pf->num_obj < first + size) {
extend_xref(pf, first + size);
}
/* Start parsing xref subsection body... */
for (i = first; i < first + size; ) {
/* PDF spec. requires each xref subsection lines being exactly 20 bytes
* long [including end-of-line marker(s)], offset 10 decimal digits,
* generation number being 5 decimal digits, and each entries delimitted
* by "a single space". However, we don't srtictly follow this rule:
* More than one "white-spaces" allowed, can be ended with a comment,
* and so on.
*/
len = mfreadln(buf, 255, pdf_input_file);
if (len == 0) /* empty line...just skip. */
continue;
else if (len < 0) {
WARN("Something went wrong while reading xref subsection...");
return -1;
}
p = buf;
endptr = buf + len;
skip_white(&p, endptr);
if (p == endptr) /* Only white-spaces and/or comment. */
continue;
/*
* Don't overwrite positions that have already been set by a
* modified xref table. We are working our way backwards
* through the reference table, so we only set "position"
* if it hasn't been set yet.
*/
offset = 0UL; obj_gen = 0; flag = 0;
{
char *q;
/* Offset value -- 10 digits (0 padded) */
q = parse_unsigned(&p, endptr);
if (!q) {
WARN("An unsigned integer expected but could not find. (xref)");
return -1;
} else if (strlen(q) != 10) { /* exactly 10 digits */
WARN(("Offset must be a 10 digits number. (xref)"));
RELEASE(q);
return -1;
}
/* FIXME: Possible overflow here. Consider using strtoll(). */
offset = atoi(q);
RELEASE(q);
skip_white(&p, endptr);
/* Generation number -- 5 digits (0 padded) */
q = parse_unsigned(&p, endptr);
if (!q) {
WARN("An unsigned integer expected but could not find. (xref)");
return -1;
} else if (strlen(q) != 5) { /* exactly 5 digits */
WARN(("Expecting a 5 digits number. (xref)"));
RELEASE(q);
return -1;
}
obj_gen = atoi(q);
RELEASE(q);
skip_white(&p, endptr);
}
if (p == endptr) {
WARN("Unexpected EOL reached while reading a xref subsection entry.");
return -1;
}
/* Flag -- a char */
flag = *p; p++;
skip_white(&p, endptr);
if (p < endptr) {
WARN("Garbage in xref subsection entry found...");
return -1;
} else if (((flag != 'n' && flag != 'f') ||
(flag == 'n' &&
(offset >= pf->file_size || (offset > 0 && offset < 4))))) {
WARN("Invalid xref table entry [%lu]. PDF file is corrupt...", i);
return -1;
}
/* Everything seems to be OK. */
if (!pf->xref_table[i].field2) {
pf->xref_table[i].type = (flag == 'n');
pf->xref_table[i].field2 = offset;
pf->xref_table[i].field3 = obj_gen;
}
i++;
}
}
return 1;
}
static uint32_t
parse_xrefstm_field (const char **p, size_t length, uint32_t def)
{
uint32_t val = 0;
if (!length)
return def;
while (length--) {
val <<= 8;
val |= (unsigned char) *((*p)++);
}
return val;
}
static int
parse_xrefstm_subsec (pdf_file *pf,
const char **p, size_t *length,
int *W, int wsum, int first, int size)
{
xref_entry *e;
if ((*length -= wsum*size) < 0)
return -1;
if (pf->num_obj < first+size)
extend_xref(pf, first+size); /* TODO: change! why? */
e = pf->xref_table + first;
while (size--) {
uint8_t type;
uint32_t field2;
uint16_t field3;
type = (unsigned char) parse_xrefstm_field(p, W[0], 1);
if (type > 2)
WARN("Unknown cross-reference stream entry type.");
#if 0
/* Not sure */
else if (!W[1] || (type != 1 && !W[2]))
return -1;
#endif
field2 = (uint32_t) parse_xrefstm_field(p, W[1], 0);
field3 = (uint16_t) parse_xrefstm_field(p, W[2], 0);
if (!e->field2) {
e->type = type;
e->field2 = field2;
e->field3 = field3;
}
e++;
}
return 0;
}
static int
parse_xref_stream (pdf_file *pf, size_t xref_pos, pdf_obj **trailer)
{
pdf_obj *xrefstm, *size_obj, *W_obj, *index_obj;
uint32_t size;
size_t length;
int W[3], i, wsum = 0;
const char *p;
xrefstm = pdf_read_object(0, 0, pf, xref_pos, pf->file_size);
if (!PDF_OBJ_STREAMTYPE(xrefstm))
goto error;
{
pdf_obj *tmp = pdf_stream_uncompress(xrefstm);
if (!tmp)
goto error;
pdf_release_obj(xrefstm);
xrefstm = tmp;
}
*trailer = pdf_link_obj(pdf_stream_dict(xrefstm));
size_obj = pdf_lookup_dict(*trailer, "Size");
if (!PDF_OBJ_NUMBERTYPE(size_obj))
goto error;
size = (uint32_t) pdf_number_value(size_obj);
length = pdf_stream_length(xrefstm);
W_obj = pdf_lookup_dict(*trailer, "W");
if (!PDF_OBJ_ARRAYTYPE(W_obj) || pdf_array_length(W_obj) != 3)
goto error;
for (i = 0; i < 3; i++) {
pdf_obj *tmp = pdf_get_array(W_obj, i);
if (!PDF_OBJ_NUMBERTYPE(tmp))
goto error;
wsum += (W[i] = (int) pdf_number_value(tmp));
}
p = pdf_stream_dataptr(xrefstm);
index_obj = pdf_lookup_dict(*trailer, "Index");
if (index_obj) {
size_t index_len;
if (!PDF_OBJ_ARRAYTYPE(index_obj) ||
((index_len = pdf_array_length(index_obj)) % 2 ))
goto error;
i = 0;
while (i < index_len) {
pdf_obj *first = pdf_get_array(index_obj, i++);
size_obj = pdf_get_array(index_obj, i++);
if (!PDF_OBJ_NUMBERTYPE(first) || !PDF_OBJ_NUMBERTYPE(size_obj) ||
parse_xrefstm_subsec(pf, &p, &length, W, wsum,
(int) pdf_number_value(first), (int) pdf_number_value(size_obj)))
goto error;
}
} else if (parse_xrefstm_subsec(pf, &p, &length, W, wsum, 0, size))
goto error;
if (length)
WARN("Garbage in xref stream.");
pdf_release_obj(xrefstm);
return 1;
error:
WARN("Cannot parse cross-reference stream.");
if (xrefstm)
pdf_release_obj(xrefstm);
if (*trailer) {
pdf_release_obj(*trailer);
*trailer = NULL;
}
return 0;
}
/* TODO: parse Version entry */
static pdf_obj *
read_xref (pdf_file *pf)
{
pdf_obj *trailer = NULL, *main_trailer = NULL;
size_t xref_pos;
if (!(xref_pos = find_xref(pf->file)))
goto error;
while (xref_pos) {
pdf_obj *prev;
int res = parse_xref_table(pf, xref_pos);
if (res > 0) {
/* cross-reference table */
pdf_obj *xrefstm;
if (!(trailer = parse_trailer(pf)))
goto error;
if (!main_trailer)
main_trailer = pdf_link_obj(trailer);
if ((xrefstm = pdf_lookup_dict(trailer, "XRefStm"))) {
pdf_obj *new_trailer = NULL;
if (PDF_OBJ_NUMBERTYPE(xrefstm) &&
parse_xref_stream(pf, (int) pdf_number_value(xrefstm),
&new_trailer))
pdf_release_obj(new_trailer);
else
WARN("Skipping hybrid reference section.");
/* Many PDF 1.5 xref streams use DecodeParms, which we cannot
* parse. This way we can use at least xref tables in hybrid
* documents. Or should we better stop parsing the file?
*/
}
} else if (!res && parse_xref_stream(pf, xref_pos, &trailer)) {
/* cross-reference stream */
if (!main_trailer)
main_trailer = pdf_link_obj(trailer);
} else
goto error;
if ((prev = pdf_lookup_dict(trailer, "Prev"))) {
if (PDF_OBJ_NUMBERTYPE(prev))
xref_pos = (size_t) pdf_number_value(prev);
else
goto error;
} else
xref_pos = 0;
pdf_release_obj(trailer);
}
#if 0
if (!pdf_lookup_dict(main_trailer, "Root")) {
WARN("Trailer doesn't have catalog. Is this a correct PDF file?");
goto error;
}
#endif
return main_trailer;
error:
WARN("Error while parsing PDF file.");
if (trailer)
pdf_release_obj(trailer);
if (main_trailer)
pdf_release_obj(main_trailer);
return NULL;
}
static struct ht_table *pdf_files = NULL;
static pdf_file *
pdf_file_new (FILE *file)
{
pdf_file *pf;
ASSERT(file);
pf = NEW(1, pdf_file);
pf->file = file;
pf->trailer = NULL;
pf->xref_table = NULL;
pf->catalog = NULL;
pf->num_obj = 0;
pf->version = 0;
seek_end(file);
pf->file_size = tell_position(file);
return pf;
}
static void
pdf_file_free (pdf_file *pf)
{
size_t i;
if (!pf) {
return;
}
for (i = 0; i < pf->num_obj; i++) {
if (pf->xref_table[i].direct)
pdf_release_obj(pf->xref_table[i].direct);
if (pf->xref_table[i].indirect)
pdf_release_obj(pf->xref_table[i].indirect);
}
RELEASE(pf->xref_table);
if (pf->trailer)
pdf_release_obj(pf->trailer);
if (pf->catalog)
pdf_release_obj(pf->catalog);
RELEASE(pf);
}
void
pdf_files_init (void)
{
pdf_files = NEW(1, struct ht_table);
ht_init_table(pdf_files, (void (*)(void *)) pdf_file_free);
}
int
pdf_file_get_version (pdf_file *pf)
{
ASSERT(pf);
return pf->version;
}
pdf_obj *
pdf_file_get_trailer (pdf_file *pf)
{
ASSERT(pf);
return pdf_link_obj(pf->trailer);
}
/* FIXME:
* pdf_file_get_trailer() does pdf_link_obj() but
* pdf_file_get_catalog() does not. Why?
*/
pdf_obj *
pdf_file_get_catalog (pdf_file *pf)
{
ASSERT(pf);
return pf->catalog;
}
pdf_file *
pdf_open (const char *ident, FILE *file)
{
pdf_out *p = current_output();
pdf_file *pf = NULL;
ASSERT(pdf_files);
if (ident)
pf = (pdf_file *) ht_lookup_table(pdf_files, ident, strlen(ident));
if (pf) {
pf->file = file;
} else {
pdf_obj *new_version;
int version = check_for_pdf_version(file);
if (!dpx_conf.is_xbb) {
int ver_major, ver_minor;
ver_major = version / 10;
ver_minor = version % 10;
if (version < 10)
WARN("Unrecognized PDF version specified for input PDF file: %d.%d",
ver_major, ver_minor);
else if (pdf_check_version(ver_major, ver_minor) < 0) {
WARN("Trying to include PDF file with version (%d.%d), which is " \
"newer than current output PDF setting (%d.%d).",
ver_major, ver_minor, p->version.major, p->version.minor);
}
}
pf = pdf_file_new(file);
pf->version = version;
if (!(pf->trailer = read_xref(pf)))
goto error;
if (pdf_lookup_dict(pf->trailer, "Encrypt")) {
WARN("PDF document is encrypted.");
goto error;
}
pf->catalog = pdf_deref_obj(pdf_lookup_dict(pf->trailer, "Root"));
if (!PDF_OBJ_DICTTYPE(pf->catalog)) {
WARN("Cannot read PDF document catalog. Broken PDF file?");
goto error;
}
new_version = pdf_deref_obj(pdf_lookup_dict(pf->catalog, "Version"));
if (new_version) {
unsigned int major, minor;
if (!PDF_OBJ_NAMETYPE(new_version) ||
sscanf(pdf_name_value(new_version), "%u.%u", &major, &minor) != 2) {
pdf_release_obj(new_version);
WARN("Illegal Version entry in document catalog. Broken PDF file?");
goto error;
}
if (pf->version < major*10+minor)
pf->version = major*10+minor;
pdf_release_obj(new_version);
}
if (ident)
ht_append_table(pdf_files, ident, strlen(ident), pf);
}
return pf;
error:
pdf_file_free(pf);
return NULL;
}
void
pdf_close (pdf_file *pf)
{
if (pf)
pf->file = NULL;
}
void
pdf_files_close (void)
{
ASSERT(pdf_files);
ht_clear_table(pdf_files);
RELEASE(pdf_files);
}
static int
check_for_pdf_version (FILE *file)
{
unsigned int major, minor;
rewind(file);
return (ungetc(fgetc(file), file) == '%' &&
fscanf(file, "%%PDF-%u.%u", &major, &minor) == 2) ? (major*10+minor) : -1;
}
int
check_for_pdf (FILE *file)
{
int version = check_for_pdf_version(file);
if (version < 0) /* not a PDF file */
return 0;
if (version <= pdf_get_version())
return 1;
return 1;
}
static inline int
import_dict (pdf_obj *key, pdf_obj *value, void *pdata)
{
pdf_obj *copy;
pdf_obj *tmp;
copy = (pdf_obj *) pdata;
tmp = pdf_import_object(value);
if (!tmp) {
return -1;
}
pdf_add_dict(copy, pdf_link_obj(key), tmp);
return 0;
}
static pdf_obj *
pdf_import_indirect (pdf_obj *object)
{
pdf_out *p = current_output();
pdf_file *pf = OBJ_FILE(object);
uint32_t obj_num = OBJ_NUM(object);
uint16_t obj_gen = OBJ_GEN(object);
pdf_obj *ref;
ASSERT(pf);
if (!checklabel(pf, obj_num, obj_gen)) {
WARN("Can't resolve object: %lu %u", obj_num, obj_gen);
return pdf_new_null();
}
ref = pf->xref_table[obj_num].indirect;
if (!ref) {
pdf_obj *obj, *reserved, *imported;
obj = pdf_get_object(pf, obj_num, obj_gen);
if (!obj) {
WARN("Could not read object: %lu %u", obj_num, obj_gen);
return NULL;
}
/* Fix for circular reference issue
*
* Older version of dvipdfmx disallowed the following case of
* circular reference:
* obj #1 --> << /Kids [2 0 R] >>
* obj #2 --> << /Parents [1 0 R] >>
* The problem is in that dvipdfmx gives new labels to objects after they
* are completely read.
*/
reserved = pdf_new_null(); /* for reservation of label */
pf->xref_table[obj_num].indirect = ref = pdf_new_ref(p, reserved);
imported = pdf_import_object(obj);
if (imported) {
if (imported->label) {
WARN("Imported object already has a label: obj_id=%lu", imported->label);
}
OBJ_OBJ(ref) = imported;
imported->label = reserved->label;
imported->generation = reserved->generation;
reserved->label = 0;
reserved->generation = 0;
pdf_release_obj(imported);
}
pdf_release_obj(reserved);
pdf_release_obj(obj);
}
return pdf_link_obj(ref);
}
/*
* pdf_import_object recursively copies the object and those
* referenced by it and changes the indirect references so that
* they refer to the current output file. New indirect references
* are remembered, which avoids duplicating objects when they
* are imported several times.
*/
pdf_obj *
pdf_import_object (pdf_obj *object)
{
pdf_obj *imported;
pdf_obj *tmp;
size_t i;
switch (pdf_obj_typeof(object)) {
case PDF_INDIRECT:
if (OBJ_FILE(object)) {
imported = pdf_import_indirect(object);
} else {
imported = pdf_link_obj(object);
}
break;
case PDF_STREAM:
{
pdf_obj *stream_dict;
tmp = pdf_import_object(pdf_stream_dict(object));
if (!tmp)
return NULL;
imported = pdf_new_stream(0);
stream_dict = pdf_stream_dict(imported);
pdf_merge_dict(stream_dict, tmp);
pdf_release_obj(tmp);
pdf_add_stream(imported,
pdf_stream_dataptr(object),
pdf_stream_length(object));
}
break;
case PDF_DICT:
imported = pdf_new_dict();
if (pdf_foreach_dict(object, import_dict, imported) < 0) {
pdf_release_obj(imported);
return NULL;
}
break;
case PDF_ARRAY:
imported = pdf_new_array();
for (i = 0; i < pdf_array_length(object); i++) {
tmp = pdf_import_object(pdf_get_array(object, i));
if (!tmp) {
pdf_release_obj(imported);
return NULL;
}
pdf_add_array(imported, tmp);
}
break;
default:
imported = pdf_link_obj(object);
}
return imported;
}
/* returns 0 if indirect references point to the same object */
int
pdf_compare_reference (pdf_obj *ref1, pdf_obj *ref2)
{
pdf_indirect *data1, *data2;
ASSERT(PDF_OBJ_INDIRECTTYPE(ref1) && PDF_OBJ_INDIRECTTYPE(ref2));
data1 = (pdf_indirect *) ref1->data;
data2 = (pdf_indirect *) ref2->data;
return data1->pf != data2->pf || data1->label != data2->label
|| data1->generation != data2->generation;
}
int
pdf_compare_object (pdf_obj *obj1, pdf_obj *obj2)
{
int r = 0;
if (!obj1 && !obj2) {
return 0;
} else if (!obj1 && obj2) {
return 1;
} else if (obj1 && !obj2) {
return 1;
} else if (pdf_obj_typeof(obj1) != pdf_obj_typeof(obj2)) {
return 1;
}
switch (pdf_obj_typeof(obj1)) {
case PDF_BOOLEAN:
r = pdf_boolean_value(obj1) - pdf_boolean_value(obj2);
break;
case PDF_NUMBER:
if (pdf_number_value(obj1) < pdf_number_value(obj2)) {
r = -1;
} else if (pdf_number_value(obj1) > pdf_number_value(obj2)) {
r = 1;
} else {
r = 0;
}
break;
case PDF_STRING:
if (pdf_string_length(obj1) < pdf_string_length(obj2)) {
r = -1;
} else if (pdf_string_length(obj1) > pdf_string_length(obj2)) {
r = 1;
} else {
r = memcmp(pdf_string_value(obj1), pdf_string_value(obj2), pdf_string_length(obj1));
}
break;
case PDF_NAME:
r = strcmp(pdf_name_value(obj1), pdf_name_value(obj2));
break;
case PDF_NULL:
/* Always same */
r = 0;
break;
case PDF_INDIRECT:
r = pdf_compare_reference(obj1, obj2);
break;
case PDF_ARRAY:
if (pdf_array_length(obj1) < pdf_array_length(obj2)) {
r = -1;
} else if (pdf_array_length(obj1) > pdf_array_length(obj2)) {
r = 1;
} else {
int i;
for (i = 0; r == 0 && i < pdf_array_length(obj1); i++) {
pdf_obj *v1, *v2;
v1 = pdf_get_array(obj1, i);
v2 = pdf_get_array(obj2, i);
r = pdf_compare_object(v1, v2);
}
}
break;
case PDF_DICT:
{
pdf_obj *keys1, *keys2;
keys1 = pdf_dict_keys(obj1);
keys2 = pdf_dict_keys(obj2);
r = pdf_compare_object(keys1, keys2);
if (r == 0) {
int i;
for (i = 0; r == 0 && i < pdf_array_length(keys1); i++) {
pdf_obj *key, *v1, *v2;
key = pdf_get_array(keys1, i);
v1 = pdf_lookup_dict(obj1, pdf_name_value(key));
v2 = pdf_lookup_dict(obj2, pdf_name_value(key));
r = pdf_compare_object(v1, v2);
}
}
pdf_release_obj(keys1);
pdf_release_obj(keys2);
}
break;
case PDF_STREAM:
/* Not seriously testing... */
r = pdf_compare_object(pdf_stream_dict(obj1), pdf_stream_dict(obj2));
if (r == 0) {
size_t len1, len2;
len1 = pdf_stream_length(obj1);
len2 = pdf_stream_length(obj2);
if (len1 < len2) {
r = -1;
} else if (len1 > len2) {
r = 1;
} else {
r = 0;
}
}
break;
default:
r = 1;
}
return r;
}
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