[1.5] backport revisions 996, 997, 1000, 1008-1012 from trunk (JPIP modifications)

This commit is contained in:
Antonin Descampe 2011-11-01 23:28:07 +00:00
parent 6a1530e4b1
commit 49a0f0db8f
28 changed files with 1384 additions and 872 deletions

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@ -7,6 +7,7 @@ What's New for OpenJPEG
October 21, 2011
* [mickael] remove one obvious memory leak from test functions
! [kaori] change -v option was renamed to -u, which is equivalent to -TP long option
October 20, 2011
* [mickael] remove obvious memory leak from applications

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@ -204,6 +204,8 @@ void encode_help_display() {
fprintf(stdout," Indicate multiple modes by adding their values. \n");
fprintf(stdout," ex: RESTART(4) + RESET(2) + SEGMARK(32) = -M 38\n");
fprintf(stdout,"\n");
fprintf(stdout,"-TP : devide packets of every tile into tile-parts (-TP R) [R, L, C]\n");
fprintf(stdout,"\n");
fprintf(stdout,"-x : create an index file *.Idx (-x index_name.Idx) \n");
fprintf(stdout,"\n");
fprintf(stdout,"-ROI : c=%%d,U=%%d : quantization indices upshifted \n");
@ -499,7 +501,7 @@ int parse_cmdline_encoder(int argc, char **argv, opj_cparameters_t *parameters,
{"cinema2K",REQ_ARG, NULL ,'w'},
{"cinema4K",NO_ARG, NULL ,'y'},
{"ImgDir",REQ_ARG, NULL ,'z'},
{"TP",REQ_ARG, NULL ,'v'},
{"TP",REQ_ARG, NULL ,'u'},
{"SOP",NO_ARG, NULL ,'S'},
{"EPH",NO_ARG, NULL ,'E'},
{"OutFor",REQ_ARG, NULL ,'O'},
@ -510,7 +512,7 @@ int parse_cmdline_encoder(int argc, char **argv, opj_cparameters_t *parameters,
/* parse the command line */
/* UniPG>> */
const char optlist[] = "i:o:hr:q:n:b:c:t:p:s:SEM:x:R:d:T:If:P:C:F:"
const char optlist[] = "i:o:hr:q:n:b:c:t:p:s:SEM:x:R:d:T:If:P:C:F:u:J"
#ifdef USE_JPWL
"W:"
#endif /* USE_JPWL */
@ -871,7 +873,7 @@ int parse_cmdline_encoder(int argc, char **argv, opj_cparameters_t *parameters,
/* ------------------------------------------------------ */
case 'v': /* Tile part generation*/
case 'u': /* Tile part generation*/
{
parameters->tp_flag = opj_optarg[0];
parameters->tp_on = 1;

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@ -193,6 +193,8 @@ void encode_help_display(void) {
fprintf(stdout," Indicate multiple modes by adding their values. \n");
fprintf(stdout," ex: RESTART(4) + RESET(2) + SEGMARK(32) = -M 38\n");
fprintf(stdout,"\n");
fprintf(stdout,"-TP : devide packets of every tile into tile-parts (-TP R) [R, L, C]\n");
fprintf(stdout,"\n");
fprintf(stdout,"-x : create an index file *.Idx (-x index_name.Idx) \n");
fprintf(stdout,"\n");
fprintf(stdout,"-ROI : c=%%d,U=%%d : quantization indices upshifted \n");
@ -581,7 +583,7 @@ int parse_cmdline_encoder(int argc, char **argv, opj_cparameters_t *parameters,
{"cinema2K",REQ_ARG, NULL ,'w'},
{"cinema4K",NO_ARG, NULL ,'y'},
{"ImgDir",REQ_ARG, NULL ,'z'},
{"TP",REQ_ARG, NULL ,'v'},
{"TP",REQ_ARG, NULL ,'u'},
{"SOP",NO_ARG, NULL ,'S'},
{"EPH",NO_ARG, NULL ,'E'},
{"OutFor",REQ_ARG, NULL ,'O'},
@ -591,7 +593,7 @@ int parse_cmdline_encoder(int argc, char **argv, opj_cparameters_t *parameters,
};
/* parse the command line */
const char optlist[] = "i:o:r:q:n:b:c:t:p:s:SEM:x:R:d:T:If:P:C:F:v:"
const char optlist[] = "i:o:r:q:n:b:c:t:p:s:SEM:x:R:d:T:If:P:C:F:u:J"
#ifdef USE_JPWL
"W:"
#endif /* USE_JPWL */
@ -1005,7 +1007,7 @@ int parse_cmdline_encoder(int argc, char **argv, opj_cparameters_t *parameters,
/* ------------------------------------------------------ */
case 'v': /* Tile part generation*/
case 'u': /* Tile part generation*/
{
parameters->tp_flag = opj_optarg[0];
parameters->tp_on = 1;

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@ -5,6 +5,15 @@ What's New for OpenJPIP
! : changed
+ : added
October 14, 2011
! [kaori] rearranged opj_server, opj_dec_server directory
October 14, 2011
+ [kaori] enable all progression orders
October 12, 2011
+ [kaori] enable layers requests; restricting the number of codesream quality layers
October 11, 2011
+ [antonin] enable JPT-stream request from client viewer option (credit to kaori)

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@ -126,11 +126,11 @@ Client:
----------
An example to encode a TIF image "copenhague1.tif" at resolution 4780x4050, 8bit/pixel, grayscale.
% ./image_to_j2k -i copenhague1.tif -o copenhague1.jp2 -p RPCL -c [64,64] -t 640,480 -jpip -v R
% ./image_to_j2k -i copenhague1.tif -o copenhague1.jp2 -p RPCL -c [64,64] -t 640,480 -jpip -TP R
options
-jpip : embed index table box into the output JP2 file (obligation for JPIP)
-v R : partition a tile into tile parts of different resolution levels (obligation for JPT-stream)
-TP R : partition a tile into tile parts of different resolution levels (obligation for JPT-stream)
<Option>
3. Embed metadata into JP2 file

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@ -162,8 +162,7 @@ bool modify_mainheader( Byte_t *j2kstream, int numOfdecomp, SIZmarker_param_t SI
if( !(newLcod = modify_CODmkrstream( COD, numOfdecomp, j2kstream)))
return false;
// memmove( j2kstream+2+newLcod, j2kstream+2+COD.Lcod, (*j2klen)-(SIZ.Lsiz+newLcod+6));// new->oldLcod
memmove( j2kstream+2+newLcod, j2kstream+2+COD.Lcod, (*j2klen)-(SIZ.Lsiz+COD.Lcod+6));
memmove( j2kstream+2+newLcod, j2kstream+2+COD.Lcod, (*j2klen)-(SIZ.Lsiz+COD.Lcod+6));
*j2klen -= ( COD.Lcod - newLcod);
return true;
@ -222,6 +221,7 @@ Byte2_t modify_CODmkrstream( CODmarker_param_t COD, int numOfdecomp, Byte_t *COD
newLcod = COD.Lcod;
CODstream += 2;
}
CODstream += 5; // skip Scod & SGcod
// SPcod

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@ -221,10 +221,11 @@ Byte_t * recons_codestream_from_JPTstream( msgqueue_param_t *msgqueue, Byte_t *j
return j2kstream;
}
Byte_t * recons_RPCLbitstream( msgqueue_param_t *msgqueue, Byte_t *jpipstream, Byte_t *j2kstream, Byte8_t csn,
Byte8_t tileID, SIZmarker_param_t SIZ, CODmarker_param_t COD, int mindeclev,
int *max_reslev, Byte8_t *j2klen);
Byte_t * add_SOTmkr( Byte_t *j2kstream, Byte8_t *j2klen);
Byte_t * recons_bitstream( msgqueue_param_t *msgqueue, Byte_t *jpipstream, Byte_t *j2kstream, Byte8_t csn,
Byte8_t tileID, SIZmarker_param_t SIZ, CODmarker_param_t COD, int mindeclev,
int *max_reslev, Byte8_t *j2klen);
Byte_t * recons_codestream_from_JPPstream( msgqueue_param_t *msgqueue, Byte_t *jpipstream, Byte8_t csn, int fw, int fh, Byte8_t *j2klen)
{
@ -244,11 +245,6 @@ Byte_t * recons_codestream_from_JPPstream( msgqueue_param_t *msgqueue, Byte_t *j
if( !get_mainheader_from_j2kstream( j2kstream, &SIZ, &COD))
return j2kstream;
if( COD.prog_order != RPCL){
fprintf( FCGI_stderr, "Error, Only RPCL order supported\n");
return j2kstream;
}
if( fw == 0 || fh == 0)
mindeclev = 0;
else
@ -265,6 +261,7 @@ Byte_t * recons_codestream_from_JPPstream( msgqueue_param_t *msgqueue, Byte_t *j
SOToffset = *j2klen;
while(( ptr = search_message( TILE_HEADER_MSG, tileID, csn, ptr))!=NULL){
if( ptr->bin_offset == binOffset){
j2kstream = add_SOTmkr( j2kstream, j2klen);
j2kstream = add_msgstream( ptr, jpipstream, j2kstream, j2klen);
foundTH = true;
binOffset += ptr->length;
@ -273,17 +270,17 @@ Byte_t * recons_codestream_from_JPPstream( msgqueue_param_t *msgqueue, Byte_t *j
}
if( foundTH){
j2kstream = recons_RPCLbitstream( msgqueue, jpipstream, j2kstream, csn, tileID, SIZ, COD, mindeclev, &max_reslev, j2klen);
j2kstream = recons_bitstream( msgqueue, jpipstream, j2kstream, csn, tileID, SIZ, COD, mindeclev, &max_reslev, j2klen);
modify_tileheader( j2kstream, SOToffset, (max_reslev<COD.numOfdecomp ? max_reslev : -1), SIZ.Csiz, j2klen);
}
else
j2kstream = add_emptytilestream( tileID, j2kstream, j2klen);
}
if( max_reslev < COD.numOfdecomp)
if( !modify_mainheader( j2kstream, max_reslev, SIZ, COD, j2klen))
return j2kstream;
j2kstream = add_EOC( j2kstream, j2klen);
return j2kstream;
}
@ -306,55 +303,300 @@ Byte_t * add_mainhead_msgstream( msgqueue_param_t *msgqueue, Byte_t *origstream,
return j2kstream;
}
Byte_t * add_padding( Byte8_t padding, Byte_t *j2kstream, Byte8_t *j2klen);
Byte_t * add_SOTmkr( Byte_t *j2kstream, Byte8_t *j2klen)
{
Byte_t *buf;
const Byte2_t SOT = 0x90ff;
buf = (Byte_t *)malloc(( *j2klen)+2);
memcpy( buf, j2kstream, *j2klen);
memcpy( buf+(*j2klen), &SOT, 2);
*j2klen += 2;
if(j2kstream) free(j2kstream);
return buf;
}
Byte_t * recons_LRCPbitstream( msgqueue_param_t *msgqueue, Byte_t *jpipstream, Byte_t *j2kstream, Byte8_t csn,
Byte8_t tileID, SIZmarker_param_t SIZ, CODmarker_param_t COD, int mindeclev,
int *max_reslev, Byte8_t *j2klen);
Byte_t * recons_RLCPbitstream( msgqueue_param_t *msgqueue, Byte_t *jpipstream, Byte_t *j2kstream, Byte8_t csn,
Byte8_t tileID, SIZmarker_param_t SIZ, CODmarker_param_t COD, int mindeclev,
int *max_reslev, Byte8_t *j2klen);
Byte_t * recons_RPCLbitstream( msgqueue_param_t *msgqueue, Byte_t *jpipstream, Byte_t *j2kstream, Byte8_t csn,
Byte8_t tileID, SIZmarker_param_t SIZ, CODmarker_param_t COD, int mindeclev,
int *max_reslev, Byte8_t *j2klen);
Byte_t * recons_PCRLbitstream( msgqueue_param_t *msgqueue, Byte_t *jpipstream, Byte_t *j2kstream, Byte8_t csn,
Byte8_t tileID, SIZmarker_param_t SIZ, CODmarker_param_t COD, int mindeclev,
int *max_reslev, Byte8_t *j2klen);
Byte_t * recons_CPRLbitstream( msgqueue_param_t *msgqueue, Byte_t *jpipstream, Byte_t *j2kstream, Byte8_t csn,
Byte8_t tileID, SIZmarker_param_t SIZ, CODmarker_param_t COD, int mindeclev,
int *max_reslev, Byte8_t *j2klen);
Byte_t * recons_bitstream( msgqueue_param_t *msgqueue, Byte_t *jpipstream, Byte_t *j2kstream, Byte8_t csn,
Byte8_t tileID, SIZmarker_param_t SIZ, CODmarker_param_t COD, int mindeclev,
int *max_reslev, Byte8_t *j2klen)
{
switch( COD.prog_order){
case LRCP:
return recons_LRCPbitstream( msgqueue, jpipstream, j2kstream, csn, tileID, SIZ, COD, mindeclev, max_reslev, j2klen);
case RLCP:
return recons_RLCPbitstream( msgqueue, jpipstream, j2kstream, csn, tileID, SIZ, COD, mindeclev, max_reslev, j2klen);
case RPCL:
return recons_RPCLbitstream( msgqueue, jpipstream, j2kstream, csn, tileID, SIZ, COD, mindeclev, max_reslev, j2klen);
case PCRL:
return recons_PCRLbitstream( msgqueue, jpipstream, j2kstream, csn, tileID, SIZ, COD, mindeclev, max_reslev, j2klen);
case CPRL:
return recons_CPRLbitstream( msgqueue, jpipstream, j2kstream, csn, tileID, SIZ, COD, mindeclev, max_reslev, j2klen);
default:
fprintf( FCGI_stderr, "Error, progression order not supported\n");
}
return j2kstream;
}
int comp_numOfprcts( Byte8_t tileID, SIZmarker_param_t SIZ, CODmarker_param_t COD, int r);
Byte8_t comp_seqID( Byte8_t tileID, SIZmarker_param_t SIZ, CODmarker_param_t COD, int r, int p);
Byte_t * recons_packet( msgqueue_param_t *msgqueue, Byte_t *jpipstream, Byte_t *j2kstream, Byte8_t csn,
Byte8_t tileID, SIZmarker_param_t SIZ, CODmarker_param_t COD, int *max_reslev,
int comp_idx, int res_idx, int prct_idx, int lay_idx, Byte8_t *j2klen);
Byte_t * recons_LRCPbitstream( msgqueue_param_t *msgqueue, Byte_t *jpipstream, Byte_t *j2kstream, Byte8_t csn,
Byte8_t tileID, SIZmarker_param_t SIZ, CODmarker_param_t COD, int mindeclev,
int *max_reslev, Byte8_t *j2klen)
{
int r, p, c, l, numOfprcts;
for( l=0; l<COD.numOflayers; l++)
for( r=0; r<=(COD.numOfdecomp-mindeclev); r++){
if( COD.Scod & 0x01)
numOfprcts = comp_numOfprcts( tileID, SIZ, COD, r);
else
numOfprcts = 1;
for( c=0; c<SIZ.Csiz; c++)
for( p=0; p<numOfprcts; p++)
j2kstream = recons_packet( msgqueue, jpipstream, j2kstream, csn, tileID, SIZ, COD, max_reslev, c, r, p, l, j2klen);
}
return j2kstream;
}
Byte_t * recons_RLCPbitstream( msgqueue_param_t *msgqueue, Byte_t *jpipstream, Byte_t *j2kstream, Byte8_t csn,
Byte8_t tileID, SIZmarker_param_t SIZ, CODmarker_param_t COD, int mindeclev,
int *max_reslev, Byte8_t *j2klen)
{
int r, p, c, l, numOfprcts;
for( r=0; r<=(COD.numOfdecomp-mindeclev); r++){
if( COD.Scod & 0x01)
numOfprcts = comp_numOfprcts( tileID, SIZ, COD, r);
else
numOfprcts = 1;
for( l=0; l<COD.numOflayers; l++)
for( c=0; c<SIZ.Csiz; c++)
for( p=0; p<numOfprcts; p++)
j2kstream = recons_packet( msgqueue, jpipstream, j2kstream, csn, tileID, SIZ, COD, max_reslev, c, r, p, l, j2klen);
}
return j2kstream;
}
Byte_t * recons_precinct( msgqueue_param_t *msgqueue, Byte_t *jpipstream, Byte_t *j2kstream, Byte8_t csn,
Byte8_t tileID, SIZmarker_param_t SIZ, CODmarker_param_t COD, int *max_reslev,
int comp_idx, int res_idx, Byte8_t seqID, Byte8_t *j2klen);
Byte_t * recons_RPCLbitstream( msgqueue_param_t *msgqueue, Byte_t *jpipstream, Byte_t *j2kstream, Byte8_t csn,
Byte8_t tileID, SIZmarker_param_t SIZ, CODmarker_param_t COD, int mindeclev,
int *max_reslev, Byte8_t *j2klen)
{
int r, p, c, numOfprcts;
bool foundPrec;
Byte8_t binOffset, precID, seqID;
Byte4_t XTsiz, YTsiz;
message_param_t *ptr;
Byte8_t seqID;
for( r=0, seqID=0; r<=(COD.numOfdecomp-mindeclev); r++){
if( COD.Scod & 0x01){
XTsiz = get_tile_XSiz( SIZ, tileID, COD.numOfdecomp-r);
YTsiz = get_tile_YSiz( SIZ, tileID, COD.numOfdecomp-r);
numOfprcts = ceil((double)XTsiz/(double)COD.XPsiz[r])*ceil((double)YTsiz/(double)COD.YPsiz[r]);
}
if( COD.Scod & 0x01)
numOfprcts = comp_numOfprcts( tileID, SIZ, COD, r);
else
numOfprcts = 1;
for( p=0; p<numOfprcts; p++, seqID++){
for( c=0; c<SIZ.Csiz; c++){
for( p=0; p<numOfprcts; p++, seqID++)
for( c=0; c<SIZ.Csiz; c++)
j2kstream = recons_precinct( msgqueue, jpipstream, j2kstream, csn, tileID, SIZ, COD, max_reslev, c, r, seqID, j2klen);
}
return j2kstream;
}
precID = comp_precinct_id( tileID, c, seqID, SIZ.Csiz, SIZ.XTnum*SIZ.YTnum);
Byte_t * recons_PCRLbitstream( msgqueue_param_t *msgqueue, Byte_t *jpipstream, Byte_t *j2kstream, Byte8_t csn,
Byte8_t tileID, SIZmarker_param_t SIZ, CODmarker_param_t COD, int mindeclev,
int *max_reslev, Byte8_t *j2klen)
{
int r, p, c, min_numOfprcts, numOfprcts, min_numOfres;
Byte8_t seqID;
min_numOfres = COD.numOfdecomp-mindeclev + 1;
ptr = msgqueue->first;
binOffset = 0;
foundPrec = false;
while(( ptr = search_message( PRECINCT_MSG, precID, csn, ptr))!=NULL){
if( ptr->bin_offset == binOffset){
j2kstream = add_msgstream( ptr, jpipstream, j2kstream, j2klen);
foundPrec = true;
binOffset += ptr->length;
if( *max_reslev < r)
*max_reslev = r;
}
ptr = ptr->next;
}
if(!foundPrec && COD.Scod & 0x01)
j2kstream = add_padding( 1, j2kstream, j2klen);
}
if( COD.Scod & 0x01){
min_numOfprcts = 0;
for( r=0; r<min_numOfres; r++){
numOfprcts = comp_numOfprcts( tileID, SIZ, COD, r);
if( numOfprcts < min_numOfprcts || min_numOfprcts == 0)
min_numOfprcts = numOfprcts;
}
}
else
min_numOfprcts = 1;
for( p=0; p<min_numOfprcts; p++)
for( c=0; c<SIZ.Csiz; c++)
for( r=0; r<min_numOfres; r++){
seqID = comp_seqID( tileID, SIZ, COD, r, p);
j2kstream = recons_precinct( msgqueue, jpipstream, j2kstream, csn, tileID, SIZ, COD, max_reslev, c, r, seqID, j2klen);
}
return j2kstream;
}
Byte_t * recons_CPRLbitstream( msgqueue_param_t *msgqueue, Byte_t *jpipstream, Byte_t *j2kstream, Byte8_t csn,
Byte8_t tileID, SIZmarker_param_t SIZ, CODmarker_param_t COD, int mindeclev,
int *max_reslev, Byte8_t *j2klen)
{
int r, p, c, min_numOfprcts, numOfprcts, min_numOfres;
Byte8_t seqID;
min_numOfres = COD.numOfdecomp-mindeclev + 1;
if( COD.Scod & 0x01){
min_numOfprcts = 0;
for( r=0; r<min_numOfres; r++){
numOfprcts = comp_numOfprcts( tileID, SIZ, COD, r);
if( numOfprcts < min_numOfprcts || min_numOfprcts == 0)
min_numOfprcts = numOfprcts;
}
}
else
min_numOfprcts = 1;
for( c=0; c<SIZ.Csiz; c++)
for( p=0; p<min_numOfprcts; p++)
for( r=0; r<min_numOfres; r++){
seqID = comp_seqID( tileID, SIZ, COD, r, p);
j2kstream = recons_precinct( msgqueue, jpipstream, j2kstream, csn, tileID, SIZ, COD, max_reslev, c, r, seqID, j2klen);
}
return j2kstream;
}
int comp_numOfprcts( Byte8_t tileID, SIZmarker_param_t SIZ, CODmarker_param_t COD, int r)
{
Byte4_t XTsiz, YTsiz;
XTsiz = get_tile_XSiz( SIZ, tileID, COD.numOfdecomp-r);
YTsiz = get_tile_YSiz( SIZ, tileID, COD.numOfdecomp-r);
return ceil((double)XTsiz/(double)COD.XPsiz[r])*ceil((double)YTsiz/(double)COD.YPsiz[r]);
}
Byte_t * add_padding( Byte8_t padding, Byte_t *j2kstream, Byte8_t *j2klen);
Byte_t * recons_packet( msgqueue_param_t *msgqueue, Byte_t *jpipstream, Byte_t *j2kstream, Byte8_t csn,
Byte8_t tileID, SIZmarker_param_t SIZ, CODmarker_param_t COD, int *max_reslev,
int comp_idx, int res_idx, int prct_idx, int lay_idx, Byte8_t *j2klen)
{
Byte8_t seqID, precID, binOffset;
message_param_t *ptr;
bool foundPrec;
int l;
seqID = comp_seqID( tileID, SIZ, COD, res_idx, prct_idx);
precID = comp_precinct_id( tileID, comp_idx, seqID, SIZ.Csiz, SIZ.XTnum*SIZ.YTnum);
ptr = msgqueue->first;
binOffset = 0;
foundPrec = false;
l = 0;
while(( ptr = search_message( PRECINCT_MSG, precID, csn, ptr))!=NULL){
if( ptr->bin_offset == binOffset){
if( lay_idx == l){
j2kstream = add_msgstream( ptr, jpipstream, j2kstream, j2klen);
foundPrec = true;
if( *max_reslev < res_idx)
*max_reslev = res_idx;
break;
}
binOffset += ptr->length;
l++;
}
ptr = ptr->next;
}
if( !foundPrec && COD.Scod & 0x01)
j2kstream = add_padding( 1, j2kstream, j2klen);
return j2kstream;
}
Byte_t * recons_precinct( msgqueue_param_t *msgqueue, Byte_t *jpipstream, Byte_t *j2kstream, Byte8_t csn,
Byte8_t tileID, SIZmarker_param_t SIZ, CODmarker_param_t COD, int *max_reslev,
int comp_idx, int res_idx, Byte8_t seqID, Byte8_t *j2klen)
{
Byte8_t precID, binOffset;
message_param_t *ptr;
bool foundPrec;
precID = comp_precinct_id( tileID, comp_idx, seqID, SIZ.Csiz, SIZ.XTnum*SIZ.YTnum);
ptr = msgqueue->first;
binOffset = 0;
foundPrec = false;
while(( ptr = search_message( PRECINCT_MSG, precID, csn, ptr))!=NULL){
if( ptr->bin_offset == binOffset){
j2kstream = add_msgstream( ptr, jpipstream, j2kstream, j2klen);
foundPrec = true;
binOffset += ptr->length;
if( *max_reslev < res_idx)
*max_reslev = res_idx;
if( ptr->last_byte)
break;
}
ptr = ptr->next;
}
if(!foundPrec && COD.Scod & 0x01)
j2kstream = add_padding( COD.numOflayers, j2kstream, j2klen);
return j2kstream;
}
Byte8_t comp_seqID( Byte8_t tileID, SIZmarker_param_t SIZ, CODmarker_param_t COD, int r, int p)
{
Byte8_t seqID = 0;
int rr;
for( rr=0; rr<r; rr++)
seqID += comp_numOfprcts( tileID, SIZ, COD, rr);
seqID += p;
return seqID;
}
Byte8_t get_last_tileID( msgqueue_param_t *msgqueue, Byte8_t csn, bool isJPPstream)
{
Byte8_t last_tileID = 0;

View File

@ -101,7 +101,8 @@ void print_msgqueue( msgqueue_param_t *msgqueue)
fprintf( logstream, "\t csn: %lld\n", ptr->csn );
fprintf( logstream, "\t bin_offset: %#llx\n", ptr->bin_offset );
fprintf( logstream, "\t length: %#llx\n", ptr->length );
fprintf( logstream, "\t aux: %lld\n", ptr->aux );
if( ptr->class_id%2)
fprintf( logstream, "\t aux: %lld\n", ptr->aux );
fprintf( logstream, "\t last_byte: %d\n", ptr->last_byte );
if( ptr->phld)
print_placeholder( ptr->phld);
@ -162,9 +163,9 @@ void enqueue_tileheader( int tile_id, msgqueue_param_t *msgqueue)
msg->class_id = TILE_HEADER_MSG;
msg->csn = target->csn;
msg->bin_offset = 0;
msg->length = codeidx->tileheader[tile_id]->tlen;
msg->length = codeidx->tileheader[tile_id]->tlen-2; // SOT marker segment is removed
msg->aux = 0; // non exist
msg->res_offset = codeidx->offset + get_elemOff( codeidx->tilepart, 0, tile_id);
msg->res_offset = codeidx->offset + get_elemOff( codeidx->tilepart, 0, tile_id) + 2; // skip SOT marker seg
msg->phld = NULL;
msg->next = NULL;
@ -210,7 +211,7 @@ void enqueue_tile( int tile_id, int level, msgqueue_param_t *msgqueue)
if( !tp_model[i]){
msg = (message_param_t *)malloc( sizeof(message_param_t));
msg->last_byte = i==numOftparts-1? true : false;
msg->last_byte = (i==numOftparts-1);
msg->in_class_id = tile_id;
msg->class_id = class_id;
msg->csn = target->csn;
@ -229,35 +230,48 @@ void enqueue_tile( int tile_id, int level, msgqueue_param_t *msgqueue)
}
}
void enqueue_precinct( int seq_id, int tile_id, int comp_id, msgqueue_param_t *msgqueue)
void enqueue_precinct( int seq_id, int tile_id, int comp_id, int layers, msgqueue_param_t *msgqueue)
{
cachemodel_param_t *cachemodel;
index_param_t *codeidx;
faixbox_param_t *precpacket;
message_param_t *msg;
Byte8_t nmax;
Byte8_t nmax, binOffset, binLength;
int layer_id, numOflayers;
cachemodel = msgqueue->cachemodel;
codeidx = cachemodel->target->codeidx;
precpacket = codeidx->precpacket[ comp_id];
numOflayers = codeidx->COD.numOflayers;
nmax = get_nmax(precpacket);
if( !cachemodel->pp_model[comp_id][ tile_id*nmax+seq_id]){
msg = (message_param_t *)malloc( sizeof(message_param_t));
msg->last_byte = true;
msg->in_class_id = comp_precinct_id( tile_id, comp_id, seq_id, codeidx->SIZ.Csiz, codeidx->SIZ.XTnum * codeidx->SIZ.YTnum);
msg->class_id = PRECINCT_MSG;
msg->csn = cachemodel->target->csn;
msg->bin_offset = 0;
msg->length = get_elemLen( precpacket, seq_id, tile_id);
msg->aux = 0;
msg->res_offset = codeidx->offset+get_elemOff( precpacket, seq_id, tile_id);
msg->phld = NULL;
msg->next = NULL;
if( layers < 0)
layers = numOflayers;
binOffset = 0;
for( layer_id = 0; layer_id < layers; layer_id++){
enqueue_message( msg, msgqueue);
cachemodel->pp_model[comp_id][ tile_id*nmax+seq_id] = true;
binLength = get_elemLen( precpacket, seq_id*numOflayers+layer_id, tile_id);
if( !cachemodel->pp_model[comp_id][ tile_id*nmax+seq_id*numOflayers+layer_id]){
msg = (message_param_t *)malloc( sizeof(message_param_t));
msg->last_byte = (layer_id == (numOflayers-1));
msg->in_class_id = comp_precinct_id( tile_id, comp_id, seq_id, codeidx->SIZ.Csiz, codeidx->SIZ.XTnum * codeidx->SIZ.YTnum);
msg->class_id = PRECINCT_MSG;
msg->csn = cachemodel->target->csn;
msg->bin_offset = binOffset;
msg->length = binLength;
msg->aux = 0;
msg->res_offset = codeidx->offset+get_elemOff( precpacket, seq_id*numOflayers+layer_id, tile_id);
msg->phld = NULL;
msg->next = NULL;
enqueue_message( msg, msgqueue);
cachemodel->pp_model[comp_id][ tile_id*nmax+seq_id*numOflayers+layer_id] = true;
}
binOffset += binLength;
}
}

View File

@ -129,9 +129,10 @@ void enqueue_tile( int tile_id, int level, msgqueue_param_t *msgqueue);
* @param[in] seq_id precinct sequence number within its tile
* @param[in] tile_id tile index
* @param[in] comp_id component number
* @param[in] layers num of layers
* @param[in,out] msgqueue message queue
*/
void enqueue_precinct( int seq_id, int tile_id, int comp_id, msgqueue_param_t *msgqueue);
void enqueue_precinct( int seq_id, int tile_id, int comp_id, int layers, msgqueue_param_t *msgqueue);
/**

View File

@ -5,6 +5,7 @@ ${CMAKE_CURRENT_SOURCE_DIR}/opj_dec_server.c
${CMAKE_CURRENT_SOURCE_DIR}/jp2k_decoder.c
${CMAKE_CURRENT_SOURCE_DIR}/imgsock_manager.c
${CMAKE_CURRENT_SOURCE_DIR}/jpipstream_manager.c
${CMAKE_CURRENT_SOURCE_DIR}/dec_clientmsg_handler.c
)
INCLUDE_DIRECTORIES(

View File

@ -20,10 +20,12 @@ cache_manager.h \
imgsock_manager.c \
imgsock_manager.h \
jp2k_decoder.c \
dec_clientmsg_handler.c \
dec_clientmsg_handler.h \
jp2k_decoder.h \
jpipstream_manager.c \
jpipstream_manager.h \
opj_dec_server.c
opj_dec_server.c
install-data-hook:

View File

@ -10,7 +10,8 @@ ALL = opj_dec_server
all: $(ALL)
opj_dec_server: opj_dec_server.o jp2k_decoder.o imgsock_manager.o jpipstream_manager.o cache_manager.o $(LIBFNAME)
$(CC) $(CFLAGS) $< jp2k_decoder.o imgsock_manager.o jpipstream_manager.o cache_manager.o $(LDFLAGS) $(LIBFNAME) -o $@
opj_dec_server: opj_dec_server.o jp2k_decoder.o imgsock_manager.o jpipstream_manager.o cache_manager.o dec_clientmsg_handler.o $(LIBFNAME)
$(CC) $(CFLAGS) $< jp2k_decoder.o imgsock_manager.o jpipstream_manager.o cache_manager.o dec_clientmsg_handler.o $(LDFLAGS) $(LIBFNAME) -o $@
clean:
rm -f $(ALL) *.o *~

View File

@ -0,0 +1,307 @@
/*
* $Id$
*
* Copyright (c) 2002-2011, Communications and Remote Sensing Laboratory, Universite catholique de Louvain (UCL), Belgium
* Copyright (c) 2002-2011, Professor Benoit Macq
* Copyright (c) 2010-2011, Kaori Hagihara
* 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 <stdlib.h>
#include <string.h>
#include <unistd.h>
#include "dec_clientmsg_handler.h"
#include "ihdrbox_manager.h"
#include "jpipstream_manager.h"
#include "jp2k_encoder.h"
//! maximum length of channel identifier
#define MAX_LENOFCID 30
/**
* handle JPT- JPP- stream message
*
* @param[in] connected_socket socket descriptor
* @param[in] cachelist cache list pointer
* @param[in,out] jpipstream address of JPT- JPP- stream pointer
* @param[in,out] streamlen address of stream length
* @param[in,out] msgqueue message queue pointer
*/
void handle_JPIPstreamMSG( SOCKET connected_socket, cachelist_param_t *cachelist, Byte_t **jpipstream, int *streamlen, msgqueue_param_t *msgqueue);
/**
* handle PNM request message
*
* @param[in] connected_socket socket descriptor
* @param[in] jpipstream jpipstream pointer
* @param[in] msgqueue message queue pointer
* @param[in] cachelist cache list pointer
*/
void handle_PNMreqMSG( SOCKET connected_socket, Byte_t *jpipstream, msgqueue_param_t *msgqueue, cachelist_param_t *cachelist);
/**
* handle XML request message
*
* @param[in] connected_socket socket descriptor
* @param[in] jpipstream address of caching jpipstream pointer
* @param[in] cachelist cache list pointer
*/
void handle_XMLreqMSG( SOCKET connected_socket, Byte_t *jpipstream, cachelist_param_t *cachelist);
/**
* handle TargetID request message
*
* @param[in] connected_socket socket descriptor
* @param[in] cachelist cache list pointer
*/
void handle_TIDreqMSG( SOCKET connected_socket, cachelist_param_t *cachelist);
/**
* handle ChannelID request message
*
* @param[in] connected_socket socket descriptor
* @param[in] cachelist cache list pointer
*/
void handle_CIDreqMSG( SOCKET connected_socket, cachelist_param_t *cachelist);
/**
* handle distroy ChannelID message
*
* @param[in] connected_socket socket descriptor
* @param[in,out] cachelist cache list pointer
*/
void handle_dstCIDreqMSG( SOCKET connected_socket, cachelist_param_t *cachelist);
/**
* handle saving JP2 file request message
*
* @param[in] connected_socket socket descriptor
* @param[in] cachelist cache list pointer
* @param[in] msgqueue message queue pointer
* @param[in] jpipstream address of caching jpipstream pointer
*/
void handle_JP2saveMSG( SOCKET connected_socket, cachelist_param_t *cachelist, msgqueue_param_t *msgqueue, Byte_t *jpipstream);
bool handle_clientmsg( SOCKET connected_socket, cachelist_param_t *cachelist, Byte_t **jpipstream, int *streamlen, msgqueue_param_t *msgqueue)
{
bool quit = false;
msgtype_t msgtype = identify_clientmsg( connected_socket);
switch( msgtype){
case JPIPSTREAM:
handle_JPIPstreamMSG( connected_socket, cachelist, jpipstream, streamlen, msgqueue);
break;
case PNMREQ:
handle_PNMreqMSG( connected_socket, *jpipstream, msgqueue, cachelist);
break;
case XMLREQ:
handle_XMLreqMSG( connected_socket, *jpipstream, cachelist);
break;
case TIDREQ:
handle_TIDreqMSG( connected_socket, cachelist);
break;
case CIDREQ:
handle_CIDreqMSG( connected_socket, cachelist);
break;
case CIDDST:
handle_dstCIDreqMSG( connected_socket, cachelist);
break;
case JP2SAVE:
handle_JP2saveMSG( connected_socket, cachelist, msgqueue, *jpipstream);
break;
case QUIT:
quit = true;
save_codestream( *jpipstream, *streamlen, "jpt");
break;
case MSGERROR:
break;
}
printf("\t end of the connection\n\n");
if( close_socket(connected_socket) != 0){
perror("close");
return false;
}
if( quit)
return false;
return true;
}
void handle_JPIPstreamMSG( SOCKET connected_socket, cachelist_param_t *cachelist,
Byte_t **jpipstream, int *streamlen, msgqueue_param_t *msgqueue)
{
Byte_t *newjpipstream;
int newstreamlen = 0;
cache_param_t *cache;
char target[MAX_LENOFTARGET], tid[MAX_LENOFTID], cid[MAX_LENOFCID];
metadatalist_param_t *metadatalist;
newjpipstream = receive_JPIPstream( connected_socket, target, tid, cid, &newstreamlen);
parse_JPIPstream( newjpipstream, newstreamlen, *streamlen, msgqueue);
*jpipstream = update_JPIPstream( newjpipstream, newstreamlen, *jpipstream, streamlen);
free( newjpipstream);
metadatalist = gene_metadatalist();
parse_metamsg( msgqueue, *jpipstream, *streamlen, metadatalist);
// cid registration
if( target[0] != 0){
if((cache = search_cache( target, cachelist))){
if( tid[0] != 0)
update_cachetid( tid, cache);
if( cid[0] != 0)
add_cachecid( cid, cache);
}
else{
cache = gene_cache( target, msgqueue->last->csn, tid, cid);
insert_cache_into_list( cache, cachelist);
}
}
else
cache = search_cacheBycsn( msgqueue->last->csn, cachelist);
if( cache->metadatalist)
delete_metadatalist( &cache->metadatalist);
cache->metadatalist = metadatalist;
response_signal( connected_socket, true);
}
void handle_PNMreqMSG( SOCKET connected_socket, Byte_t *jpipstream, msgqueue_param_t *msgqueue, cachelist_param_t *cachelist)
{
Byte_t *pnmstream;
ihdrbox_param_t *ihdrbox;
char cid[MAX_LENOFCID], tmp[10];
cache_param_t *cache;
int fw, fh;
receive_line( connected_socket, cid);
if(!(cache = search_cacheBycid( cid, cachelist)))
if(!(cache = search_cacheBytid( cid, cachelist)))
return;
receive_line( connected_socket, tmp);
fw = atoi( tmp);
receive_line( connected_socket, tmp);
fh = atoi( tmp);
pnmstream = jpipstream_to_pnm( jpipstream, msgqueue, cache->csn, fw, fh, &cache->ihdrbox);
ihdrbox = cache->ihdrbox;
send_PNMstream( connected_socket, pnmstream, ihdrbox->width, ihdrbox->height, ihdrbox->nc, ihdrbox->bpc > 8 ? 255 : (1 << ihdrbox->bpc) - 1);
free( pnmstream);
}
void handle_XMLreqMSG( SOCKET connected_socket, Byte_t *jpipstream, cachelist_param_t *cachelist)
{
char cid[MAX_LENOFCID];
cache_param_t *cache;
receive_line( connected_socket, cid);
if(!(cache = search_cacheBycid( cid, cachelist)))
return;
boxcontents_param_t *boxcontents = cache->metadatalist->last->boxcontents;
Byte_t *xmlstream = (Byte_t *)malloc( boxcontents->length);
memcpy( xmlstream, jpipstream+boxcontents->offset, boxcontents->length);
send_XMLstream( connected_socket, xmlstream, boxcontents->length);
free( xmlstream);
}
void handle_TIDreqMSG( SOCKET connected_socket, cachelist_param_t *cachelist)
{
char target[MAX_LENOFTARGET], *tid = NULL;
cache_param_t *cache;
int tidlen = 0;
receive_line( connected_socket, target);
cache = search_cache( target, cachelist);
if( cache){
tid = cache->tid;
tidlen = strlen(tid);
}
send_TIDstream( connected_socket, tid, tidlen);
}
void handle_CIDreqMSG( SOCKET connected_socket, cachelist_param_t *cachelist)
{
char target[MAX_LENOFTARGET], *cid = NULL;
cache_param_t *cache;
int cidlen = 0;
receive_line( connected_socket, target);
cache = search_cache( target, cachelist);
if( cache){
if( cache->numOfcid > 0){
cid = cache->cid[ cache->numOfcid-1];
cidlen = strlen(cid);
}
}
send_CIDstream( connected_socket, cid, cidlen);
}
void handle_dstCIDreqMSG( SOCKET connected_socket, cachelist_param_t *cachelist)
{
char cid[MAX_LENOFCID];
receive_line( connected_socket, cid);
remove_cachecid( cid, cachelist);
response_signal( connected_socket, true);
}
void handle_JP2saveMSG( SOCKET connected_socket, cachelist_param_t *cachelist, msgqueue_param_t *msgqueue, Byte_t *jpipstream)
{
char cid[MAX_LENOFCID];
cache_param_t *cache;
Byte_t *jp2stream;
Byte8_t jp2len;
receive_line( connected_socket, cid);
if(!(cache = search_cacheBycid( cid, cachelist)))
return;
jp2stream = recons_jp2( msgqueue, jpipstream, cache->csn, &jp2len);
if( jp2stream){
save_codestream( jp2stream, jp2len, "jp2");
free( jp2stream);
}
}

View File

@ -0,0 +1,53 @@
/*
* $Id$
*
* Copyright (c) 2002-2011, Communications and Remote Sensing Laboratory, Universite catholique de Louvain (UCL), Belgium
* Copyright (c) 2002-2011, 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.
*/
#ifndef DEC_CLIENTMSG_HANDLER_H_
# define DEC_CLIENTMSG_HANDLER_H_
#include "bool.h"
#include "imgsock_manager.h"
#include "cache_manager.h"
#include "byte_manager.h"
#include "msgqueue_manager.h"
/**
* handle client message
*
* @param[in] connected_socket socket descriptor
* @param[in] cachelist cache list pointer
* @param[in,out] jpipstream address of JPT- JPP- stream pointer
* @param[in,out] streamlen address of stream length
* @param[in,out] msgqueue message queue pointer
*/
bool handle_clientmsg( SOCKET connected_socket, cachelist_param_t *cachelist, Byte_t **jpipstream, int *streamlen, msgqueue_param_t *msgqueue);
#endif /* !DEC_CLIENTMSG_HANDLER_H_ */

View File

@ -56,7 +56,7 @@ SOCKET open_listeningsocket()
struct sockaddr_in sin;
int sock_optval = 1;
int port = 5000;
listening_socket = socket(AF_INET, SOCK_STREAM, 0);
if ( listening_socket == -1 ){
perror("socket");
@ -76,13 +76,13 @@ SOCKET open_listeningsocket()
if ( bind(listening_socket, (struct sockaddr *)&sin, sizeof(sin)) < 0 ){
perror("bind");
closesocket(listening_socket);
close_socket(listening_socket);
exit(1);
}
if( listen(listening_socket, SOMAXCONN) == -1){
perror("listen");
closesocket(listening_socket);
close_socket(listening_socket);
exit(1);
}
printf("port %d is listened\n", port);
@ -90,6 +90,14 @@ SOCKET open_listeningsocket()
return listening_socket;
}
SOCKET accept_socket( SOCKET listening_socket)
{
struct sockaddr_in peer_sin;
unsigned int addrlen = sizeof(peer_sin);
return accept( listening_socket, (struct sockaddr *)&peer_sin, &addrlen);
}
msgtype_t identify_clientmsg( SOCKET connected_socket)
{
int receive_size;
@ -285,3 +293,12 @@ void response_signal( SOCKET connected_socket, bool succeed)
if( send( connected_socket, &code, 1, 0) != 1)
fprintf( stderr, "Response signalling error\n");
}
int close_socket( SOCKET sock)
{
#ifdef _WIN32
return closesocket( sock);
#else
return close( sock);
#endif
}

View File

@ -38,7 +38,6 @@
#include <winsock2.h>
#else
typedef int SOCKET;
#define closesocket close
#endif //_WIN32
/**
@ -48,6 +47,15 @@ typedef int SOCKET;
*/
SOCKET open_listeningsocket();
/**
* accept a new connection to the listenning socket
*
* @param listening_socket listenning socket
* @return connected socket (-1 if error occurs)
*/
SOCKET accept_socket( SOCKET listening_socket);
#define NUM_OF_MSGTYPES 8
typedef enum eMSGTYPE{ JPIPSTREAM, PNMREQ, XMLREQ, TIDREQ, CIDREQ, CIDDST, JP2SAVE, QUIT, MSGERROR} msgtype_t;
@ -125,8 +133,16 @@ void response_signal( SOCKET connected_socket, bool succeed);
* @param [out] buf string to be stored
* @return red size
*/
int receive_line(SOCKET connected_socket, char *buf);
/**
* close socket
*
* @param [in] sock closing socket
* @return 0 if succeed, -1 if failed
*/
int close_socket( SOCKET sock);
#endif /* !IMGSOCK_MANAGER_H_ */
/*! \file

View File

@ -46,102 +46,23 @@
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include "dec_clientmsg_handler.h"
#include "imgsock_manager.h"
#include "byte_manager.h"
#include "msgqueue_manager.h"
#include "ihdrbox_manager.h"
#include "imgsock_manager.h"
#include "jpipstream_manager.h"
#include "cache_manager.h"
#include "jp2k_encoder.h"
#ifdef _WIN32
WSADATA initialisation_win32;
#else
#include <sys/socket.h>
#include <sys/types.h>
#include <netinet/in.h>
#endif //_WIN32
//! maximum length of target name
#define MAX_LENOFTARGET 128
//! maximum length of channel identifier
#define MAX_LENOFCID 30
/**
* handle JPT- JPP- stream message
*
* @param[in] connected_socket socket descriptor
* @param[in] cachelist cache list pointer
* @param[in,out] jpipstream address of JPT- JPP- stream pointer
* @param[in,out] streamlen address of stream length
* @param[in,out] msgqueue message queue pointer
*/
void handle_JPIPstreamMSG( SOCKET connected_socket, cachelist_param_t *cachelist, Byte_t **jpipstream, int *streamlen, msgqueue_param_t *msgqueue);
/**
* handle PNM request message
*
* @param[in] connected_socket socket descriptor
* @param[in] jpipstream jpipstream pointer
* @param[in] msgqueue message queue pointer
* @param[in] cachelist cache list pointer
*/
void handle_PNMreqMSG( SOCKET connected_socket, Byte_t *jpipstream, msgqueue_param_t *msgqueue, cachelist_param_t *cachelist);
/**
* handle XML request message
*
* @param[in] connected_socket socket descriptor
* @param[in] jpipstream address of caching jpipstream pointer
* @param[in] cachelist cache list pointer
*/
void handle_XMLreqMSG( SOCKET connected_socket, Byte_t *jpipstream, cachelist_param_t *cachelist);
/**
* handle TargetID request message
*
* @param[in] connected_socket socket descriptor
* @param[in] cachelist cache list pointer
*/
void handle_TIDreqMSG( SOCKET connected_socket, cachelist_param_t *cachelist);
/**
* handle ChannelID request message
*
* @param[in] connected_socket socket descriptor
* @param[in] cachelist cache list pointer
*/
void handle_CIDreqMSG( SOCKET connected_socket, cachelist_param_t *cachelist);
/**
* handle distroy ChannelID message
*
* @param[in] connected_socket socket descriptor
* @param[in,out] cachelist cache list pointer
*/
void handle_dstCIDreqMSG( SOCKET connected_socket, cachelist_param_t *cachelist);
/**
* handle saving JP2 file request message
*
* @param[in] connected_socket socket descriptor
* @param[in] cachelist cache list pointer
* @param[in] msgqueue message queue pointer
* @param[in] jpipstream address of caching jpipstream pointer
*/
void handle_JP2saveMSG( SOCKET connected_socket, cachelist_param_t *cachelist, msgqueue_param_t *msgqueue, Byte_t *jpipstream);
#endif
int main(int argc, char *argv[]){
SOCKET connected_socket;
struct sockaddr_in peer_sin;
Byte_t *jpipstream = NULL;
int jpipstreamlen = 0;
msgqueue_param_t *msgqueue = gene_msgqueue( true, NULL);
bool quit = false;
#ifdef _WIN32
int erreur = WSAStartup(MAKEWORD(2,2),&initialisation_win32);
@ -151,60 +72,15 @@ int main(int argc, char *argv[]){
printf( "Initialisation Winsock\n");
#endif //_WIN32
int listening_socket = open_listeningsocket();
SOCKET listening_socket = open_listeningsocket();
unsigned int addrlen = sizeof(peer_sin);
cachelist_param_t *cachelist = gene_cachelist();
while(( connected_socket = accept(listening_socket, (struct sockaddr *)&peer_sin, &addrlen))!=-1 ){
msgtype_t msgtype = identify_clientmsg( connected_socket);
switch( msgtype){
case JPIPSTREAM:
handle_JPIPstreamMSG( connected_socket, cachelist, &jpipstream, &jpipstreamlen, msgqueue);
while(( connected_socket = accept_socket( listening_socket)) != -1 )
if(!(handle_clientmsg( connected_socket, cachelist, &jpipstream, &jpipstreamlen, msgqueue)))
break;
case PNMREQ:
handle_PNMreqMSG( connected_socket, jpipstream, msgqueue, cachelist);
break;
case XMLREQ:
handle_XMLreqMSG( connected_socket, jpipstream, cachelist);
break;
case TIDREQ:
handle_TIDreqMSG( connected_socket, cachelist);
break;
case CIDREQ:
handle_CIDreqMSG( connected_socket, cachelist);
break;
case CIDDST:
handle_dstCIDreqMSG( connected_socket, cachelist);
break;
case JP2SAVE:
handle_JP2saveMSG( connected_socket, cachelist, msgqueue, jpipstream);
break;
case QUIT:
quit = true;
break;
case MSGERROR:
break;
}
printf("\t end of the connection\n\n");
if( closesocket(connected_socket) != 0){
perror("close");
return -1;
}
if( quit)
break;
}
if( closesocket(listening_socket) != 0){
if( close_socket(listening_socket) != 0){
perror("close");
return -1;
}
@ -214,7 +90,6 @@ int main(int argc, char *argv[]){
if( msgqueue)
delete_msgqueue( &msgqueue);
//save_codestream( jpipstream, jpipstreamlen, "jpt");
free( jpipstream);
#ifdef _WIN32
@ -227,150 +102,3 @@ int main(int argc, char *argv[]){
return 0;
}
void handle_JPIPstreamMSG( SOCKET connected_socket, cachelist_param_t *cachelist,
Byte_t **jpipstream, int *streamlen, msgqueue_param_t *msgqueue)
{
Byte_t *newjpipstream;
int newstreamlen = 0;
cache_param_t *cache;
char target[MAX_LENOFTARGET], tid[MAX_LENOFTID], cid[MAX_LENOFCID];
metadatalist_param_t *metadatalist;
newjpipstream = receive_JPIPstream( connected_socket, target, tid, cid, &newstreamlen);
parse_JPIPstream( newjpipstream, newstreamlen, *streamlen, msgqueue);
*jpipstream = update_JPIPstream( newjpipstream, newstreamlen, *jpipstream, streamlen);
free( newjpipstream);
metadatalist = gene_metadatalist();
parse_metamsg( msgqueue, *jpipstream, *streamlen, metadatalist);
// cid registration
if( target[0] != 0){
if((cache = search_cache( target, cachelist))){
if( tid[0] != 0)
update_cachetid( tid, cache);
if( cid[0] != 0)
add_cachecid( cid, cache);
}
else{
cache = gene_cache( target, msgqueue->last->csn, tid, cid);
insert_cache_into_list( cache, cachelist);
}
}
else
cache = search_cacheBycsn( msgqueue->last->csn, cachelist);
if( cache->metadatalist)
delete_metadatalist( &cache->metadatalist);
cache->metadatalist = metadatalist;
response_signal( connected_socket, true);
}
void handle_PNMreqMSG( SOCKET connected_socket, Byte_t *jpipstream, msgqueue_param_t *msgqueue, cachelist_param_t *cachelist)
{
Byte_t *pnmstream;
ihdrbox_param_t *ihdrbox;
char cid[MAX_LENOFCID], tmp[10];
cache_param_t *cache;
int fw, fh;
receive_line( connected_socket, cid);
if(!(cache = search_cacheBycid( cid, cachelist)))
if(!(cache = search_cacheBytid( cid, cachelist)))
return;
receive_line( connected_socket, tmp);
fw = atoi( tmp);
receive_line( connected_socket, tmp);
fh = atoi( tmp);
pnmstream = jpipstream_to_pnm( jpipstream, msgqueue, cache->csn, fw, fh, &cache->ihdrbox);
ihdrbox = cache->ihdrbox;
send_PNMstream( connected_socket, pnmstream, ihdrbox->width, ihdrbox->height, ihdrbox->nc, ihdrbox->bpc > 8 ? 255 : (1 << ihdrbox->bpc) - 1);
free( pnmstream);
}
void handle_XMLreqMSG( SOCKET connected_socket, Byte_t *jpipstream, cachelist_param_t *cachelist)
{
char cid[MAX_LENOFCID];
cache_param_t *cache;
receive_line( connected_socket, cid);
if(!(cache = search_cacheBycid( cid, cachelist)))
return;
boxcontents_param_t *boxcontents = cache->metadatalist->last->boxcontents;
Byte_t *xmlstream = (Byte_t *)malloc( boxcontents->length);
memcpy( xmlstream, jpipstream+boxcontents->offset, boxcontents->length);
send_XMLstream( connected_socket, xmlstream, boxcontents->length);
free( xmlstream);
}
void handle_TIDreqMSG( SOCKET connected_socket, cachelist_param_t *cachelist)
{
char target[MAX_LENOFTARGET], *tid = NULL;
cache_param_t *cache;
int tidlen = 0;
receive_line( connected_socket, target);
cache = search_cache( target, cachelist);
if( cache){
tid = cache->tid;
tidlen = strlen(tid);
}
send_TIDstream( connected_socket, tid, tidlen);
}
void handle_CIDreqMSG( SOCKET connected_socket, cachelist_param_t *cachelist)
{
char target[MAX_LENOFTARGET], *cid = NULL;
cache_param_t *cache;
int cidlen = 0;
receive_line( connected_socket, target);
cache = search_cache( target, cachelist);
if( cache){
if( cache->numOfcid > 0){
cid = cache->cid[ cache->numOfcid-1];
cidlen = strlen(cid);
}
}
send_CIDstream( connected_socket, cid, cidlen);
}
void handle_dstCIDreqMSG( SOCKET connected_socket, cachelist_param_t *cachelist)
{
char cid[MAX_LENOFCID];
receive_line( connected_socket, cid);
remove_cachecid( cid, cachelist);
response_signal( connected_socket, true);
}
void handle_JP2saveMSG( SOCKET connected_socket, cachelist_param_t *cachelist, msgqueue_param_t *msgqueue, Byte_t *jpipstream)
{
char cid[MAX_LENOFCID];
cache_param_t *cache;
Byte_t *jp2stream;
Byte8_t jp2len;
receive_line( connected_socket, cid);
if(!(cache = search_cacheBycid( cid, cachelist)))
return;
jp2stream = recons_jp2( msgqueue, jpipstream, cache->csn, &jp2len);
if( jp2stream){
save_codestream( jp2stream, jp2len, "jp2");
free( jp2stream);
}
}

View File

@ -1 +1 @@
opj_viewer-20111007.jar
opj_viewer-20111018.jar

View File

@ -10,6 +10,7 @@ ${CMAKE_CURRENT_SOURCE_DIR}/opj_server.c
${CMAKE_CURRENT_SOURCE_DIR}/query_parser.c
${CMAKE_CURRENT_SOURCE_DIR}/channel_manager.c
${CMAKE_CURRENT_SOURCE_DIR}/session_manager.c
${CMAKE_CURRENT_SOURCE_DIR}/jpip_parser.c
)
# Build executable

View File

@ -18,9 +18,11 @@ channel_manager.c \
opj_server.c \
query_parser.c \
session_manager.c \
jpip_parser.c \
channel_manager.h \
query_parser.h \
session_manager.h
session_manager.h \
jpip_parser.h
install-data-hook:
@echo -e " (B)\t$(bindir)/opj_server$(EXEEXT)" >> $(top_builddir)/report.txt

View File

@ -8,8 +8,8 @@ ALL = opj_server
all: $(ALL)
opj_server: opj_server.o query_parser.o channel_manager.o session_manager.o $(LIBFNAME)
$(CC) $(CFLAGS) $< query_parser.o channel_manager.o session_manager.o $(LDFLAGS) -o $@
opj_server: opj_server.o query_parser.o channel_manager.o session_manager.o jpip_parser.o $(LIBFNAME)
$(CC) $(CFLAGS) $< query_parser.o channel_manager.o session_manager.o jpip_parser.o $(LDFLAGS) -o $@
clean:
rm -f $(ALL) *.o *~

View File

@ -0,0 +1,536 @@
/*
* $Id$
*
* Copyright (c) 2002-2011, Communications and Remote Sensing Laboratory, Universite catholique de Louvain (UCL), Belgium
* Copyright (c) 2002-2011, 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
/**
* REQUEST: target identification by target or tid request
*
* @param[in] query_param structured query
* @param[in] targetlist target list pointer
* @param[out] target address of target pointer
* @return if succeeded (true) or failed (false)
*/
bool identify_target( query_param_t query_param, targetlist_param_t *targetlist, target_param_t **target);
/**
* REQUEST: channel association
* this must be processed before any process
*
* @param[in] query_param structured query
* @param[in] sessionlist session list pointer
* @param[out] cursession address of the associated session pointer
* @param[out] curchannel address of the associated channel pointer
* @return if succeeded (true) or failed (false)
*/
bool associate_channel( query_param_t query_param,
sessionlist_param_t *sessionlist,
session_param_t **cursession,
channel_param_t **curchannel);
/**
* REQUEST: new channel (cnew) assignment
*
* @param[in] query_param structured query
* @param[in] sessionlist session list pointer
* @param[in] target requested target pointer
* @param[in,out] cursession address of the associated/opened session pointer
* @param[in,out] curchannel address of the associated/opened channel pointer
* @return if succeeded (true) or failed (false)
*/
bool open_channel( query_param_t query_param,
sessionlist_param_t *sessionlist,
target_param_t *target,
session_param_t **cursession,
channel_param_t **curchannel);
/**
* REQUEST: channel close (cclose)
*
* @param[in] query_param structured query
* @param[in] sessionlist session list pointer
* @param[in,out] cursession address of the session pointer of deleting channel
* @param[in,out] curchannel address of the deleting channel pointer
* @return if succeeded (true) or failed (false)
*/
bool close_channel( query_param_t query_param,
sessionlist_param_t *sessionlist,
session_param_t **cursession,
channel_param_t **curchannel);
/**
* REQUEST: view-window (fsiz)
*
* @param[in] query_param structured query
* @param[in] target requested target pointer
* @param[in,out] cursession associated session pointer
* @param[in,out] curchannel associated channel pointer
* @param[out] msgqueue address of the message queue pointer
* @return if succeeded (true) or failed (false)
*/
bool gene_JPIPstream( query_param_t query_param,
target_param_t *target,
session_param_t *cursession,
channel_param_t *curchannel,
msgqueue_param_t **msgqueue);
bool parse_JPIPrequest( query_param_t query_param,
sessionlist_param_t *sessionlist,
targetlist_param_t *targetlist,
msgqueue_param_t **msgqueue)
{
target_param_t *target = NULL;
session_param_t *cursession = NULL;
channel_param_t *curchannel = NULL;
if( query_param.target[0] != '\0' || query_param.tid[0] != '\0'){
if( !identify_target( query_param, targetlist, &target))
return false;
}
if( query_param.cid[0] != '\0'){
if( !associate_channel( query_param, sessionlist, &cursession, &curchannel))
return false;
}
if( query_param.cnew){
if( !open_channel( query_param, sessionlist, target, &cursession, &curchannel))
return false;
}
if( query_param.cclose[0][0] != '\0')
if( !close_channel( query_param, sessionlist, &cursession, &curchannel))
return false;
if( (query_param.fx > 0 && query_param.fy > 0) || query_param.box_type[0][0] != 0)
if( !gene_JPIPstream( query_param, target, cursession, curchannel, msgqueue))
return false;
return true;
}
bool identify_target( query_param_t query_param, targetlist_param_t *targetlist, target_param_t **target)
{
if( query_param.tid[0] !='\0' && 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 false;
}
if( ( *target = search_targetBytid( query_param.tid, targetlist)))
return true;
}
if( query_param.target[0] !='\0')
if( !( *target = search_target( query_param.target, targetlist)))
if(!( *target = gene_target( targetlist, query_param.target)))
return false;
if( *target){
fprintf( FCGI_stdout, "JPIP-tid: %s\r\n", (*target)->tid);
return true;
}
else{
fprintf( FCGI_stdout, "Reason: target not found\r\n");
fprintf( FCGI_stdout, "Status: 400\r\n");
return false;
}
}
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 false;
}
return true;
}
bool open_channel( query_param_t query_param,
sessionlist_param_t *sessionlist,
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 false;
}
else
if( *curchannel)
cachemodel = (*curchannel)->cachemodel;
*curchannel = gene_channel( query_param, cachemodel, (*cursession)->channellist);
if( *curchannel == NULL)
return false;
return true;
}
bool close_channel( query_param_t query_param,
sessionlist_param_t *sessionlist,
session_param_t **cursession,
channel_param_t **curchannel)
{
if( query_param.cclose[0][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 false;
}
else{
// check if all entry belonging to the same session
int i=0;
while( query_param.cclose[i][0] !='\0'){
// In case of the first entry of close cid
if( *cursession == NULL){
if( !search_session_and_channel( query_param.cclose[i], sessionlist, cursession, curchannel))
return false;
}
else // second or more entry of close cid
if( !(*curchannel=search_channel( query_param.cclose[i], (*cursession)->channellist))){
fprintf( FCGI_stdout, "Reason: Cclose id %s is from another session\r\n", query_param.cclose[i]);
return false;
}
i++;
}
// delete channels
i=0;
while( query_param.cclose[i][0] !='\0'){
*curchannel = search_channel( query_param.cclose[i], (*cursession)->channellist);
delete_channel( curchannel, (*cursession)->channellist);
i++;
}
if( (*cursession)->channellist->first == NULL || (*cursession)->channellist->last == NULL)
// In case of empty session
delete_session( cursession, sessionlist);
}
return 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
*/
void enqueue_metabins( query_param_t query_param, metadatalist_param_t *metadatalist, msgqueue_param_t *msgqueue);
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 false;
if( !(cachemodel = gene_cachemodel( NULL, target, query_param.return_type==JPPstream)))
return false;
*msgqueue = gene_msgqueue( true, cachemodel);
}
else{ // session
cachemodel = curchannel->cachemodel;
target = cachemodel->target;
*msgqueue = gene_msgqueue( 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)
enqueue_metabins( query_param, codeidx->metadatalist, *msgqueue);
// image codestream
if( query_param.fx > 0 && query_param.fy > 0){
if( !cachemodel->mhead_model && query_param.len != 0)
enqueue_mainheader( *msgqueue);
enqueue_imagedata( query_param, *msgqueue);
}
return 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, 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, 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;
int 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,
codeidx->SIZ.XOsiz, codeidx->SIZ.YOsiz, codeidx->SIZ.Xsiz, 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 <= imgreg.xosiz + imgreg.ox ||
tile_Xrange.minvalue >= imgreg.xosiz + imgreg.ox + imgreg.sx ||
tile_Yrange.maxvalue <= imgreg.yosiz + imgreg.oy ||
tile_Yrange.minvalue >= 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 >= imgreg.xosiz + imgreg.ox &&
tile_Xrange.maxvalue <= imgreg.xosiz + imgreg.ox + imgreg.sx &&
tile_Yrange.minvalue >= imgreg.yosiz + imgreg.oy &&
tile_Yrange.maxvalue <= 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( tile_id, msgqueue);
enqueue_allprecincts( 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( tile_id, msgqueue);
xmin = tile_Xrange.minvalue >= imgreg.xosiz + imgreg.ox ? 0 : imgreg.xosiz + imgreg.ox - tile_Xrange.minvalue;
xmax = tile_Xrange.maxvalue <= imgreg.xosiz + imgreg.ox + imgreg.sx ? tile_Xrange.maxvalue - tile_Xrange.minvalue -1 : imgreg.xosiz + imgreg.ox + imgreg.sx - tile_Xrange.minvalue -1;
ymin = tile_Yrange.minvalue >= imgreg.yosiz + imgreg.oy ? 0 : imgreg.yosiz + imgreg.oy - tile_Yrange.minvalue;
ymax = tile_Yrange.maxvalue <= imgreg.yosiz + imgreg.oy + imgreg.sy ? tile_Yrange.maxvalue - tile_Yrange.minvalue -1 : imgreg.yosiz + imgreg.oy + imgreg.sy - tile_Yrange.minvalue -1;
enqueue_precincts( xmin, xmax, ymin, ymax, 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, 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;
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, tile_id, dec_lev);
YTsiz = get_tile_YSiz( codeidx->SIZ, 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 = u*YPsiz;
ymaxP = (u+1)*YPsiz-1;
if( YTsiz <= ymaxP)
ymaxP = YTsiz-1;
for( v=0; v<ceil((double)XTsiz/(double)XPsiz); v++, seq_id++){
xminP = v*XPsiz;
xmaxP = (v+1)*XPsiz-1;
if( XTsiz <= xmaxP)
xmaxP = XTsiz-1;
if( xmaxP < xmin || xminP > xmax || ymaxP < ymin || yminP > ymax){
// Precinct completely excluded from view-window
}
else if( xminP >= xmin && xmaxP <= xmax && yminP >= ymin && ymaxP <= 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, 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;
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, tile_id, dec_lev);
YTsiz = get_tile_YSiz( codeidx->SIZ, 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);
}
}
}
void enqueue_metabins( query_param_t query_param, metadatalist_param_t *metadatalist, msgqueue_param_t *msgqueue)
{
int i;
for( i=0; query_param.box_type[i][0]!=0 && i<MAX_NUMOFBOX; i++){
if( query_param.box_type[i][0] == '*'){
// not implemented
}
else{
int idx = search_metadataidx( query_param.box_type[i], metadatalist);
if( idx != -1)
enqueue_metadata( idx, msgqueue);
}
}
}

View File

@ -0,0 +1,56 @@
/*
* $Id$
*
* Copyright (c) 2002-2011, Communications and Remote Sensing Laboratory, Universite catholique de Louvain (UCL), Belgium
* Copyright (c) 2002-2011, 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.
*/
#ifndef JPIP_PARSER_H_
# define JPIP_PARSER_H_
#include "bool.h"
#include "query_parser.h"
#include "session_manager.h"
#include "target_manager.h"
#include "msgqueue_manager.h"
/**
* parse JPIP request
*
* @param[in] query_param structured query
* @param[in] sessionlist session list pointer
* @param[in] targetlist target list pointer
* @param[in,out] msgqueue address of the message queue pointer
* @return if succeeded (true) or failed (false)
*/
bool parse_JPIPrequest( query_param_t query_param,
sessionlist_param_t *sessionlist,
targetlist_param_t *targetlist,
msgqueue_param_t **msgqueue);
#endif /* !JPIP_PARSER_H_ */

View File

@ -51,10 +51,9 @@
#include <math.h>
#include "query_parser.h"
#include "channel_manager.h"
#include "jpip_parser.h"
#include "session_manager.h"
#include "target_manager.h"
#include "imgreg_manager.h"
#include "msgqueue_manager.h"
#ifndef QUIT_SIGNAL
@ -70,20 +69,6 @@
#define logstream stderr
#endif //SERVER
/**
* parse JPIP request
*
* @param[in] query_param structured query
* @param[in] sessionlist session list pointer
* @param[in] targetlist target list pointer
* @param[in,out] msgqueue address of the message queue pointer
* @return if succeeded (true) or failed (false)
*/
bool parse_JPIPrequest( query_param_t query_param,
sessionlist_param_t *sessionlist,
targetlist_param_t *targetlist,
msgqueue_param_t **msgqueue);
int main(void)
{
sessionlist_param_t *sessionlist;
@ -144,481 +129,3 @@ int main(void)
return 0;
}
/**
* REQUEST: target identification by target or tid request
*
* @param[in] query_param structured query
* @param[in] targetlist target list pointer
* @param[out] target address of target pointer
* @return if succeeded (true) or failed (false)
*/
bool identify_target( query_param_t query_param, targetlist_param_t *targetlist, target_param_t **target);
/**
* REQUEST: channel association
* this must be processed before any process
*
* @param[in] query_param structured query
* @param[in] sessionlist session list pointer
* @param[out] cursession address of the associated session pointer
* @param[out] curchannel address of the associated channel pointer
* @return if succeeded (true) or failed (false)
*/
bool associate_channel( query_param_t query_param,
sessionlist_param_t *sessionlist,
session_param_t **cursession,
channel_param_t **curchannel);
/**
* REQUEST: new channel (cnew) assignment
*
* @param[in] query_param structured query
* @param[in] sessionlist session list pointer
* @param[in] target requested target pointer
* @param[in,out] cursession address of the associated/opened session pointer
* @param[in,out] curchannel address of the associated/opened channel pointer
* @return if succeeded (true) or failed (false)
*/
bool open_channel( query_param_t query_param,
sessionlist_param_t *sessionlist,
target_param_t *target,
session_param_t **cursession,
channel_param_t **curchannel);
/**
* REQUEST: channel close (cclose)
*
* @param[in] query_param structured query
* @param[in] sessionlist session list pointer
* @param[in,out] cursession address of the session pointer of deleting channel
* @param[in,out] curchannel address of the deleting channel pointer
* @return if succeeded (true) or failed (false)
*/
bool close_channel( query_param_t query_param,
sessionlist_param_t *sessionlist,
session_param_t **cursession,
channel_param_t **curchannel);
/**
* REQUEST: view-window (fsiz)
*
* @param[in] query_param structured query
* @param[in] target requested target pointer
* @param[in,out] cursession associated session pointer
* @param[in,out] curchannel associated channel pointer
* @param[out] msgqueue address of the message queue pointer
* @return if succeeded (true) or failed (false)
*/
bool gene_JPIPstream( query_param_t query_param,
target_param_t *target,
session_param_t *cursession,
channel_param_t *curchannel,
msgqueue_param_t **msgqueue);
bool parse_JPIPrequest( query_param_t query_param,
sessionlist_param_t *sessionlist,
targetlist_param_t *targetlist,
msgqueue_param_t **msgqueue)
{
target_param_t *target = NULL;
session_param_t *cursession = NULL;
channel_param_t *curchannel = NULL;
if( query_param.target[0] != '\0' || query_param.tid[0] != '\0'){
if( !identify_target( query_param, targetlist, &target))
return false;
}
if( query_param.cid[0] != '\0'){
if( !associate_channel( query_param, sessionlist, &cursession, &curchannel))
return false;
}
if( query_param.cnew){
if( !open_channel( query_param, sessionlist, target, &cursession, &curchannel))
return false;
}
if( query_param.cclose[0][0] != '\0')
if( !close_channel( query_param, sessionlist, &cursession, &curchannel))
return false;
if( (query_param.fx > 0 && query_param.fy > 0) || query_param.box_type[0][0] != 0)
if( !gene_JPIPstream( query_param, target, cursession, curchannel, msgqueue))
return false;
return true;
}
bool identify_target( query_param_t query_param, targetlist_param_t *targetlist, target_param_t **target)
{
if( query_param.tid[0] !='\0' && 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 false;
}
if( ( *target = search_targetBytid( query_param.tid, targetlist)))
return true;
}
if( query_param.target[0] !='\0')
if( !( *target = search_target( query_param.target, targetlist)))
if(!( *target = gene_target( targetlist, query_param.target)))
return false;
if( *target){
fprintf( FCGI_stdout, "JPIP-tid: %s\r\n", (*target)->tid);
return true;
}
else{
fprintf( FCGI_stdout, "Reason: target not found\r\n");
fprintf( FCGI_stdout, "Status: 400\r\n");
return false;
}
}
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 false;
}
return true;
}
bool open_channel( query_param_t query_param,
sessionlist_param_t *sessionlist,
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 false;
}
else
if( *curchannel)
cachemodel = (*curchannel)->cachemodel;
*curchannel = gene_channel( query_param, cachemodel, (*cursession)->channellist);
if( *curchannel == NULL)
return false;
return true;
}
bool close_channel( query_param_t query_param,
sessionlist_param_t *sessionlist,
session_param_t **cursession,
channel_param_t **curchannel)
{
if( query_param.cclose[0][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 false;
}
else{
// check if all entry belonging to the same session
int i=0;
while( query_param.cclose[i][0] !='\0'){
// In case of the first entry of close cid
if( *cursession == NULL){
if( !search_session_and_channel( query_param.cclose[i], sessionlist, cursession, curchannel))
return false;
}
else // second or more entry of close cid
if( !(*curchannel=search_channel( query_param.cclose[i], (*cursession)->channellist))){
fprintf( FCGI_stdout, "Reason: Cclose id %s is from another session\r\n", query_param.cclose[i]);
return false;
}
i++;
}
// delete channels
i=0;
while( query_param.cclose[i][0] !='\0'){
*curchannel = search_channel( query_param.cclose[i], (*cursession)->channellist);
delete_channel( curchannel, (*cursession)->channellist);
i++;
}
if( (*cursession)->channellist->first == NULL || (*cursession)->channellist->last == NULL)
// In case of empty session
delete_session( cursession, sessionlist);
}
return 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
*/
void enqueue_metabins( query_param_t query_param, metadatalist_param_t *metadatalist, msgqueue_param_t *msgqueue);
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 false;
if( !(cachemodel = gene_cachemodel( NULL, target, query_param.return_type==JPPstream)))
return false;
*msgqueue = gene_msgqueue( true, cachemodel);
}
else{ // session
cachemodel = curchannel->cachemodel;
target = cachemodel->target;
*msgqueue = gene_msgqueue( false, cachemodel);
}
if( cachemodel->jppstream)
fprintf( FCGI_stdout, "Content-type: image/jpp-stream\r\n");
else
fprintf( FCGI_stdout, "Content-type: image/jpt-stream\r\n");
codeidx = target->codeidx;
//meta
if( query_param.box_type[0][0] != 0)
enqueue_metabins( query_param, codeidx->metadatalist, *msgqueue);
// image codestream
if( query_param.fx > 0 && query_param.fy > 0){
if( !cachemodel->mhead_model)
enqueue_mainheader( *msgqueue);
enqueue_imagedata( query_param, *msgqueue);
}
return 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] msgqueue message queue
* @return
*/
void enqueue_precincts( int xmin, int xmax, int ymin, int ymax, int tile_id, int level, int lastcomp, bool *comps, 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] msgqueue message queue
* @return
*/
void enqueue_allprecincts( int tile_id, int level, int lastcomp, bool *comps, 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;
int 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,
codeidx->SIZ.XOsiz, codeidx->SIZ.YOsiz, codeidx->SIZ.Xsiz, codeidx->SIZ.Ysiz,
numOfreslev );
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 <= imgreg.xosiz + imgreg.ox ||
tile_Xrange.minvalue >= imgreg.xosiz + imgreg.ox + imgreg.sx ||
tile_Yrange.maxvalue <= imgreg.yosiz + imgreg.oy ||
tile_Yrange.minvalue >= 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 >= imgreg.xosiz + imgreg.ox &&
tile_Xrange.maxvalue <= imgreg.xosiz + imgreg.ox + imgreg.sx &&
tile_Yrange.minvalue >= imgreg.yosiz + imgreg.oy &&
tile_Yrange.maxvalue <= 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( tile_id, msgqueue);
enqueue_allprecincts( tile_id, imgreg.level, query_param.lastcomp, query_param.comps, 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( tile_id, msgqueue);
xmin = tile_Xrange.minvalue >= imgreg.xosiz + imgreg.ox ? 0 : imgreg.xosiz + imgreg.ox - tile_Xrange.minvalue;
xmax = tile_Xrange.maxvalue <= imgreg.xosiz + imgreg.ox + imgreg.sx ? tile_Xrange.maxvalue - tile_Xrange.minvalue -1 : imgreg.xosiz + imgreg.ox + imgreg.sx - tile_Xrange.minvalue -1;
ymin = tile_Yrange.minvalue >= imgreg.yosiz + imgreg.oy ? 0 : imgreg.yosiz + imgreg.oy - tile_Yrange.minvalue;
ymax = tile_Yrange.maxvalue <= imgreg.yosiz + imgreg.oy + imgreg.sy ? tile_Yrange.maxvalue - tile_Yrange.minvalue -1 : imgreg.yosiz + imgreg.oy + imgreg.sy - tile_Yrange.minvalue -1;
enqueue_precincts( xmin, xmax, ymin, ymax, tile_id, imgreg.level, query_param.lastcomp, query_param.comps, 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, bool *comps, 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;
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, tile_id, dec_lev);
YTsiz = get_tile_YSiz( codeidx->SIZ, 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 = u*YPsiz;
ymaxP = (u+1)*YPsiz-1;
if( YTsiz <= ymaxP)
ymaxP = YTsiz-1;
for( v=0; v<ceil((double)XTsiz/(double)XPsiz); v++, seq_id++){
xminP = v*XPsiz;
xmaxP = (v+1)*XPsiz-1;
if( XTsiz <= xmaxP)
xmaxP = XTsiz-1;
if( xmaxP < xmin || xminP > xmax || ymaxP < ymin || yminP > ymax){
// Precinct completely excluded from view-window
}
else if( xminP >= xmin && xmaxP <= xmax && yminP >= ymin && ymaxP <= ymax){
// Precinct completely contained within view-window
// high priority
enqueue_precinct( seq_id, tile_id, c, msgqueue);
}
else{
// Precinct partially overlaps view-window
// low priority
enqueue_precinct( seq_id, tile_id, c, msgqueue);
}
}
}
}
}
}
void enqueue_allprecincts( int tile_id, int level, int lastcomp, bool *comps, 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;
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, tile_id, dec_lev);
YTsiz = get_tile_YSiz( codeidx->SIZ, 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, msgqueue);
}
}
}
void enqueue_metabins( query_param_t query_param, metadatalist_param_t *metadatalist, msgqueue_param_t *msgqueue)
{
int i;
for( i=0; query_param.box_type[i][0]!=0 && i<MAX_NUMOFBOX; i++){
if( query_param.box_type[i][0] == '*'){
// not implemented
}
else{
int idx = search_metadataidx( query_param.box_type[i], metadatalist);
if( idx != -1)
enqueue_metadata( idx, msgqueue);
}
}
}

View File

@ -39,6 +39,7 @@
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#include "query_parser.h"
#ifdef SERVER
@ -116,6 +117,9 @@ void parse_query( char *query_string, query_param_t *query_param)
else if( strcasecmp( fieldname, "rsiz") == 0)
sscanf( fieldval, "%d,%d", &query_param->rw, &query_param->rh);
else if( strcasecmp( fieldname, "layers") == 0)
sscanf( fieldval, "%d", &query_param->layers);
else if( strcasecmp( fieldname, "cid") == 0)
strcpy( query_param->cid, fieldval);
@ -137,6 +141,9 @@ void parse_query( char *query_string, query_param_t *query_param)
else if( strncasecmp( fieldval, "jpt-stream", 10) == 0)
query_param->return_type = JPTstream;
}
else if( strcasecmp( fieldname, "len") == 0)
sscanf( fieldval, "%d", &query_param->len);
}
}
}
@ -145,18 +152,19 @@ void init_queryparam( query_param_t *query_param)
{
int i;
query_param->target[0]='\0';
query_param->tid[0]='\0';
query_param->fx=-1;
query_param->fy=-1;
query_param->rx=-1;
query_param->ry=-1;
query_param->rw=-1;
query_param->rh=-1;
query_param->target[0] = '\0';
query_param->tid[0] = '\0';
query_param->fx = -1;
query_param->fy = -1;
query_param->rx = -1;
query_param->ry = -1;
query_param->rw = -1;
query_param->rh = -1;
query_param->layers = -1;
query_param->lastcomp = -1;
query_param->comps = NULL;
query_param->cid[0]='\0';
query_param->cnew=false;
query_param->cid[0] = '\0';
query_param->cnew = false;
memset( query_param->cclose, 0, MAX_NUMOFCCLOSE*MAX_LENOFCID);
memset( query_param->box_type, 0, MAX_NUMOFBOX*4);
memset( query_param->limit, 0, MAX_NUMOFBOX*sizeof(int));
@ -171,6 +179,7 @@ void init_queryparam( query_param_t *query_param)
query_param->max_depth = -1;
query_param->metadata_only = false;
query_param->return_type = UNKNOWN;
query_param->len = -1;
}
@ -208,6 +217,7 @@ void print_queryparam( query_param_t query_param)
fprintf( logstream, "\t tid: %s\n", query_param.tid);
fprintf( logstream, "\t fx,fy: %d, %d\n", query_param.fx, query_param.fy);
fprintf( logstream, "\t rx,ry: %d, %d \t rw,rh: %d, %d\n", query_param.rx, query_param.ry, query_param.rw, query_param.rh);
fprintf( logstream, "\t layers: %d\n", query_param.layers);
fprintf( logstream, "\t components: ");
if( query_param.lastcomp == -1)
fprintf( logstream, "ALL\n");
@ -234,6 +244,7 @@ void print_queryparam( query_param_t query_param)
fprintf( logstream, "\t max-depth: %d\n", query_param.max_depth);
fprintf( logstream, "\t metadata-only: %d\n", query_param.metadata_only);
fprintf( logstream, "\t image return type: %d, [JPP-stream=0, JPT-stream=1, UNKNOWN=-1]\n", query_param.return_type);
fprintf( logstream, "\t len: %d\n", query_param.len);
}
void str2cclose( char *src, char cclose[][MAX_LENOFCID])

View File

@ -58,6 +58,7 @@ typedef struct query_param{
char tid[MAX_LENOFTID]; //!< target identifier
int fx, fy; //!< frame size (fx,fy)
int rx, ry, rw, rh; //!< roi region
int layers; //!< quality layers
int lastcomp; //!< last component number
bool *comps; //!< components for jpp-stream, null means all components
char cid[MAX_LENOFCID]; //!< channel identifier
@ -74,6 +75,7 @@ typedef struct query_param{
int max_depth; //!< max-depth
bool metadata_only; //!< metadata-only request
image_return_t return_type; //!< image return type
int len; //!< maximum response length
} query_param_t;

View File

@ -89,6 +89,7 @@ int main(int argc,char *argv[])
//print_msgqueue( msgqueue);
// arguments fw, fh need to be set for LRCP, PCRL, CPRL
j2kstream = recons_j2k( msgqueue, jpipstream, msgqueue->first->csn, 0, 0, &j2klen);
delete_msgqueue( &msgqueue);