openjpeg/src/lib/openjpip/jpip_parser.c

/*
 * $Id$
 *
 * Copyright (c) 2002-2014, Universite catholique de Louvain (UCL), Belgium
 * Copyright (c) 2002-2014, Professor Benoit Macq
 * Copyright (c) 2010-2011, Kaori Hagihara 
 * Copyright (c) 2011,      Lucian Corlaciu, GSoC
 * All rights reserved.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions
 * are met:
 * 1. Redistributions of source code must retain the above copyright
 *    notice, this list of conditions and the following disclaimer.
 * 2. Redistributions in binary form must reproduce the above copyright
 *    notice, this list of conditions and the following disclaimer in the
 *    documentation and/or other materials provided with the distribution.
 *
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS `AS IS'
 * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 * ARE DISCLAIMED.  IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
 * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
 * POSSIBILITY OF SUCH DAMAGE.
 */

#include <stdio.h>
#include <string.h>
#include <math.h>
#include "jpip_parser.h"
#include "channel_manager.h"
#include "imgreg_manager.h"

#ifdef SERVER
#include "fcgi_stdio.h"
#define logstream FCGI_stdout
#else
#define FCGI_stdout stdout
#define FCGI_stderr stderr
#define logstream stderr
#endif /*SERVER*/


OPJ_BOOL identify_target( query_param_t query_param, targetlist_param_t *targetlist, target_param_t **target)
{
  if( query_param.tid){
    if( strcmp( query_param.tid, "0") != 0 ){
      if( query_param.cid[0] != '\0'){
	fprintf( FCGI_stdout, "Reason: Target can not be specified both through tid and cid\r\n");
	fprintf( FCGI_stdout, "Status: 400\r\n");
	return OPJ_FALSE;
      }
      if( ( *target = search_targetBytid( query_param.tid, targetlist)))
	return OPJ_TRUE;
    }
  }

  if( query_param.target)
    if( !( *target = search_target( query_param.target, targetlist)))
      if(!( *target = gene_target( targetlist, query_param.target)))
	return OPJ_FALSE;

  if( *target){
    fprintf( FCGI_stdout, "JPIP-tid: %s\r\n", (*target)->tid);
    return OPJ_TRUE;
  }
  else{
    fprintf( FCGI_stdout, "Reason: target not found\r\n");
    fprintf( FCGI_stdout, "Status: 400\r\n");
    return OPJ_FALSE;
  }
}

OPJ_BOOL associate_channel( query_param_t    query_param, 
			sessionlist_param_t *sessionlist,
			session_param_t **cursession, 
			channel_param_t **curchannel)
{
  if( search_session_and_channel( query_param.cid, sessionlist, cursession, curchannel)){
    
    if( !query_param.cnew)
      set_channel_variable_param( query_param, *curchannel);
  }
  else{
    fprintf( FCGI_stderr, "Error: process canceled\n");
    return OPJ_FALSE;
  }
  return OPJ_TRUE;
}

OPJ_BOOL open_channel( query_param_t query_param, 
		   sessionlist_param_t *sessionlist,
		   auxtrans_param_t auxtrans,
		   target_param_t *target,
		   session_param_t **cursession, 
		   channel_param_t **curchannel)
{
  cachemodel_param_t *cachemodel = NULL;

  if( target){
    if( !(*cursession))
      *cursession = gene_session( sessionlist);
    if( !( cachemodel = search_cachemodel( target, (*cursession)->cachemodellist)))
      if( !(cachemodel = gene_cachemodel( (*cursession)->cachemodellist, target, query_param.return_type==JPPstream)))
	return OPJ_FALSE;
  }
  else
    if( *curchannel)
      cachemodel = (*curchannel)->cachemodel;

  *curchannel = gene_channel( query_param, auxtrans, cachemodel, (*cursession)->channellist);
  if( *curchannel == NULL)
    return OPJ_FALSE;

  return OPJ_TRUE;
}

OPJ_BOOL close_channel( query_param_t query_param, 
		    sessionlist_param_t *sessionlist,
		    session_param_t **cursession, 
		    channel_param_t **curchannel)
{
  char *cclose;
  int i;
  
  if( query_param.cclose[0] =='*'){
#ifndef SERVER
    fprintf( logstream, "local log: close all\n");
#endif
    /* all channels associatd with the session will be closed */
    if( !delete_session( cursession, sessionlist))
      return OPJ_FALSE;
  }
  else{
    /* check if all entry belonging to the same session */
    
    for( i=0, cclose=query_param.cclose; i<query_param.numOfcclose; i++, cclose += (strlen(cclose)+1)){
      
      /* In case of the first entry of close cid */
      if( *cursession == NULL){
	if( !search_session_and_channel( cclose, sessionlist, cursession, curchannel))
	  return OPJ_FALSE;
      }
      else /* second or more entry of close cid */
	if( !(*curchannel=search_channel( cclose, (*cursession)->channellist))){
	  fprintf( FCGI_stdout, "Reason: Cclose id %s is from another session\r\n", cclose); 
	  return OPJ_FALSE;
	}
    }

    /* delete channels */
    for( i=0, cclose=query_param.cclose; i<query_param.numOfcclose; i++, cclose += (strlen(cclose)+1)){
      *curchannel = search_channel( cclose, (*cursession)->channellist);
      delete_channel( curchannel, (*cursession)->channellist);
    }
    
    if( (*cursession)->channellist->first == NULL || (*cursession)->channellist->last == NULL)
      /* In case of empty session */
      delete_session( cursession, sessionlist);
  }
  return OPJ_TRUE;
}


/**
 * enqueue tiles or precincts into the message queue
 *
 * @param[in] query_param structured query
 * @param[in] msgqueue    message queue pointer  
 */
void enqueue_imagedata( query_param_t query_param, msgqueue_param_t *msgqueue);

/**
 * enqueue metadata bins into the message queue
 *
 * @param[in]     query_param  structured query
 * @param[in]     metadatalist pointer to metadata bin list
 * @param[in,out] msgqueue     message queue pointer  
 * @return                     if succeeded (true) or failed (false)
 */
OPJ_BOOL enqueue_metabins( query_param_t query_param, metadatalist_param_t *metadatalist, msgqueue_param_t *msgqueue);


OPJ_BOOL gene_JPIPstream( query_param_t query_param,
		      target_param_t *target,
		      session_param_t *cursession, 
		      channel_param_t *curchannel,
		      msgqueue_param_t **msgqueue)
{
  index_param_t *codeidx;
  cachemodel_param_t *cachemodel;
  
  if( !cursession || !curchannel){ /* stateless */
    if( !target)
      return OPJ_FALSE;
    if( !(cachemodel = gene_cachemodel( NULL, target, query_param.return_type==JPPstream)))
      return OPJ_FALSE;
    *msgqueue = gene_msgqueue( OPJ_TRUE, cachemodel);
  }
  else{ /* session */
    cachemodel  = curchannel->cachemodel;
    target = cachemodel->target;
    *msgqueue = gene_msgqueue( OPJ_FALSE, cachemodel);
  }
  
  codeidx = target->codeidx;

  if( cachemodel->jppstream)
    fprintf( FCGI_stdout, "Content-type: image/jpp-stream\r\n");
  else
    fprintf( FCGI_stdout, "Content-type: image/jpt-stream\r\n");
  
  if( query_param.layers != -1){
    if( query_param.layers  > codeidx->COD.numOflayers){
      fprintf( FCGI_stdout, "JPIP-layers: %d\r\n", codeidx->COD.numOflayers);
      query_param.layers = codeidx->COD.numOflayers;
    }
  }

  /*meta*/
  if( query_param.box_type[0][0] != 0  && query_param.len != 0)
    if( !enqueue_metabins( query_param, codeidx->metadatalist, *msgqueue))
      return OPJ_FALSE;
  
  if( query_param.metadata_only)
    return OPJ_TRUE;

  /* main header */
  if( !cachemodel->mhead_model && query_param.len != 0)
      enqueue_mainheader( *msgqueue);

  /* image codestream */
  if( (query_param.fx > 0 && query_param.fy > 0))
    enqueue_imagedata( query_param, *msgqueue);
  
  return OPJ_TRUE;
}


/**
 * enqueue precinct data-bins into the queue
 *
 * @param[in] xmin      min x coordinate in the tile at the decomposition level
 * @param[in] xmax      max x coordinate in the tile at the decomposition level
 * @param[in] ymin      min y coordinate in the tile at the decomposition level
 * @param[in] ymax      max y coordinate in the tile at the decomposition level
 * @param[in] tile_id   tile index
 * @param[in] level     decomposition level
 * @param[in] lastcomp  last component number
 * @param[in] comps     pointer to the array that stores the requested components
 * @param[in] layers    number of quality layers
 * @param[in] msgqueue  message queue
 * @return
 */
void enqueue_precincts( int xmin, int xmax, int ymin, int ymax, int tile_id, int level, int lastcomp, OPJ_BOOL *comps, int layers, msgqueue_param_t *msgqueue);

/**
 * enqueue all precincts inside a tile into the queue
 *
 * @param[in] tile_id   tile index
 * @param[in] level     decomposition level
 * @param[in] lastcomp  last component number
 * @param[in] comps     pointer to the array that stores the requested components
 * @param[in] layers    number of quality layers
 * @param[in] msgqueue  message queue
 * @return
 */
void enqueue_allprecincts( int tile_id, int level, int lastcomp, OPJ_BOOL *comps, int layers, msgqueue_param_t *msgqueue);

void enqueue_imagedata( query_param_t query_param, msgqueue_param_t *msgqueue)
{
  index_param_t *codeidx;
  imgreg_param_t imgreg;
  range_param_t tile_Xrange, tile_Yrange;
  Byte4_t u, v, tile_id;
  int xmin, xmax, ymin, ymax;
  int numOfreslev;

  codeidx = msgqueue->cachemodel->target->codeidx;

  if( !(msgqueue->cachemodel->jppstream)  &&  get_nmax( codeidx->tilepart) == 1) /* normally not the case */
    numOfreslev = 1;
  else
    numOfreslev = codeidx->COD.numOfdecomp+1;

  imgreg  = map_viewin2imgreg( query_param.fx, query_param.fy, 
			       query_param.rx, query_param.ry, query_param.rw, query_param.rh,
			       (int)codeidx->SIZ.XOsiz, (int)codeidx->SIZ.YOsiz, (int)codeidx->SIZ.Xsiz, (int)codeidx->SIZ.Ysiz, 
			       numOfreslev );

  if( query_param.len == 0)
    return;

  for( u=0, tile_id=0; u<codeidx->SIZ.YTnum; u++){
    tile_Yrange = get_tile_Yrange( codeidx->SIZ, tile_id, imgreg.level);
    
    for( v=0; v<codeidx->SIZ.XTnum; v++, tile_id++){
      tile_Xrange = get_tile_Xrange( codeidx->SIZ, tile_id, imgreg.level);
	
      if( tile_Xrange.minvalue < tile_Xrange.maxvalue && tile_Yrange.minvalue < tile_Yrange.maxvalue){
	if( tile_Xrange.maxvalue <= (Byte4_t)(imgreg.xosiz + imgreg.ox) || 
	    tile_Xrange.minvalue >= (Byte4_t)(imgreg.xosiz + imgreg.ox + imgreg.sx) ||
	    tile_Yrange.maxvalue <= (Byte4_t)(imgreg.yosiz + imgreg.oy) || 
	    tile_Yrange.minvalue >= (Byte4_t)(imgreg.yosiz + imgreg.oy + imgreg.sy)) {
	  /*printf("Tile completely excluded from view-window %d\n", tile_id);*/
	  /* Tile completely excluded from view-window */
	}
	else if( tile_Xrange.minvalue >= (Byte4_t)(imgreg.xosiz + imgreg.ox) && 
		       tile_Xrange.maxvalue <= (Byte4_t)(imgreg.xosiz + imgreg.ox + imgreg.sx) && 
		       tile_Yrange.minvalue >= (Byte4_t)(imgreg.yosiz + imgreg.oy) && 
		       tile_Yrange.maxvalue <= (Byte4_t)(imgreg.yosiz + imgreg.oy + imgreg.sy)) {
	  /* Tile completely contained within view-window */
	  /* high priority */
	  /*printf("Tile completely contained within view-window %d\n", tile_id);*/
	  if( msgqueue->cachemodel->jppstream){
	    enqueue_tileheader( (int)tile_id, msgqueue);
	    enqueue_allprecincts( (int)tile_id, imgreg.level, query_param.lastcomp, query_param.comps, query_param.layers, msgqueue);
	  }
	  else
	    enqueue_tile( tile_id, imgreg.level, msgqueue);
	}
	else{
	  /* Tile partially overlaps view-window */
	  /* low priority */
	  /*printf("Tile partially overlaps view-window %d\n", tile_id);*/
	  if( msgqueue->cachemodel->jppstream){
	    enqueue_tileheader( (int)tile_id, msgqueue);

      /* FIXME: The following code is suspicious it implicitely cast an unsigned int to int, which truncates values */
	    xmin = tile_Xrange.minvalue >= (Byte4_t)(imgreg.xosiz + imgreg.ox) ? 0 : imgreg.xosiz + imgreg.ox - (int)tile_Xrange.minvalue;
	    xmax = tile_Xrange.maxvalue <= (Byte4_t)(imgreg.xosiz + imgreg.ox + imgreg.sx) ? (int)(tile_Xrange.maxvalue - tile_Xrange.minvalue -1) : (int)(imgreg.xosiz + imgreg.ox + imgreg.sx - (int)tile_Xrange.minvalue - 1);
	    ymin = tile_Yrange.minvalue >= (Byte4_t)(imgreg.yosiz + imgreg.oy) ? 0 : imgreg.yosiz + imgreg.oy - (int)tile_Yrange.minvalue;
	    ymax = tile_Yrange.maxvalue <= (Byte4_t)(imgreg.yosiz + imgreg.oy + imgreg.sy) ? (int)(tile_Yrange.maxvalue - tile_Yrange.minvalue - 1) : (int)(imgreg.yosiz + imgreg.oy + imgreg.sy - (int)tile_Yrange.minvalue - 1);
	    enqueue_precincts( xmin, xmax, ymin, ymax, (int)tile_id, imgreg.level, query_param.lastcomp, query_param.comps, query_param.layers, msgqueue);
	  }
	  else
	    enqueue_tile( tile_id, imgreg.level, msgqueue);
	}
      }
    }
  }
}


void enqueue_precincts( int xmin, int xmax, int ymin, int ymax, int tile_id, int level, int lastcomp, OPJ_BOOL *comps, int layers, msgqueue_param_t *msgqueue)
{
  index_param_t *codeidx;
  int c, u, v, res_lev, dec_lev;
  int seq_id;
  Byte4_t XTsiz, YTsiz;
  Byte4_t XPsiz, YPsiz;
  Byte4_t xminP, xmaxP, yminP, ymaxP;

  codeidx  = msgqueue->cachemodel->target->codeidx;
  /* MM: shouldn't xmin/xmax be Byte4_t instead ? */
  if( xmin < 0 || xmax < 0 || ymin < 0 || ymax < 0)
    return;
  /* MM: I think the API should not really be int should it ? */
  if( tile_id < 0 )
    return;

  for( c=0; c<codeidx->SIZ.Csiz; c++)
    if( lastcomp == -1 /*all*/ || ( c<=lastcomp && comps[c])){
      seq_id = 0;
      for( res_lev=0, dec_lev=codeidx->COD.numOfdecomp; dec_lev>=level; res_lev++, dec_lev--){
	
	XTsiz = get_tile_XSiz( codeidx->SIZ, (Byte4_t)tile_id, dec_lev);
	YTsiz = get_tile_YSiz( codeidx->SIZ, (Byte4_t)tile_id, dec_lev);
	
	XPsiz = ( codeidx->COD.Scod & 0x01) ? codeidx->COD.XPsiz[ res_lev] : XTsiz;
	YPsiz = ( codeidx->COD.Scod & 0x01) ? codeidx->COD.YPsiz[ res_lev] : YTsiz;
	  
	for( u=0; u<ceil((double)YTsiz/(double)YPsiz); u++){
	  yminP = (Byte4_t)u*YPsiz;
	  ymaxP = (Byte4_t)(u+1)*YPsiz-1;
	  if( YTsiz <= ymaxP)
	    ymaxP = YTsiz-1;
	  
	  for( v=0; v<ceil((double)XTsiz/(double)XPsiz); v++, seq_id++){
	    xminP = (Byte4_t)v*XPsiz;
	    xmaxP = (Byte4_t)(v+1)*XPsiz-1;
	    if( XTsiz <= xmaxP)
	      xmaxP = XTsiz-1;
	    
	    if( xmaxP < (Byte4_t)xmin || xminP > (Byte4_t)xmax || ymaxP < (Byte4_t)ymin || yminP > (Byte4_t)ymax){
	      /* Precinct completely excluded from view-window */
	    }
	    else if( xminP >= (Byte4_t)xmin && xmaxP <= (Byte4_t)xmax && yminP >= (Byte4_t)ymin && ymaxP <= (Byte4_t)ymax){
	      /* Precinct completely contained within view-window
	       high priority */
	      enqueue_precinct( seq_id, tile_id, c, (dec_lev>level)?-1:layers, msgqueue);
	    }
	    else{
	      /* Precinct partially overlaps view-window
	       low priority */
	      enqueue_precinct( seq_id, tile_id, c, (dec_lev>level)?-1:layers, msgqueue);
	    }
	  }
	}
      }
    }
}

void enqueue_allprecincts( int tile_id, int level, int lastcomp, OPJ_BOOL *comps, int layers, msgqueue_param_t *msgqueue)
{
  index_param_t *codeidx;
  int c, i, res_lev, dec_lev;
  int seq_id;
  Byte4_t XTsiz, YTsiz;
  Byte4_t XPsiz, YPsiz;

  codeidx  = msgqueue->cachemodel->target->codeidx;
  if( tile_id < 0 )
    return;

  for( c=0; c<codeidx->SIZ.Csiz; c++)
    if( lastcomp == -1 /*all*/ || ( c<=lastcomp && comps[c])){
      seq_id = 0;
      for( res_lev=0, dec_lev=codeidx->COD.numOfdecomp; dec_lev>=level; res_lev++, dec_lev--){
	
	XTsiz = get_tile_XSiz( codeidx->SIZ, (Byte4_t)tile_id, dec_lev);
	YTsiz = get_tile_YSiz( codeidx->SIZ, (Byte4_t)tile_id, dec_lev);
	
	XPsiz = ( codeidx->COD.Scod & 0x01) ? codeidx->COD.XPsiz[ res_lev] : XTsiz;
	YPsiz = ( codeidx->COD.Scod & 0x01) ? codeidx->COD.YPsiz[ res_lev] : YTsiz;
	
	for( i=0; i<ceil((double)YTsiz/(double)YPsiz)*ceil((double)XTsiz/(double)XPsiz); i++, seq_id++)
	  enqueue_precinct( seq_id, tile_id, c, (dec_lev>level)?-1:layers, msgqueue);
      }
    }
}

OPJ_BOOL enqueue_metabins( query_param_t query_param, metadatalist_param_t *metadatalist, msgqueue_param_t *msgqueue)
{
  int i;
  for( i=0; i<MAX_NUMOFBOX && query_param.box_type[i][0]!=0; i++){
    if( query_param.box_type[i][0] == '*'){
      fprintf( FCGI_stdout, "Status: 501\r\n");
      fprintf( FCGI_stdout, "Reason: metareq with all box-property * not implemented\r\n");
      return OPJ_FALSE;
    }
    else{
      Byte8_t idx = search_metadataidx( query_param.box_type[i], metadatalist);

      if( idx != (Byte8_t)-1)
	enqueue_metadata( idx, msgqueue);
      else{
	fprintf( FCGI_stdout, "Status: 400\r\n");
	fprintf( FCGI_stdout, "Reason: box-type %.4s not found\r\n", query_param.box_type[i]);
	return OPJ_FALSE;
      }
    }
  }
  return OPJ_TRUE;
}