/* * $Id$ * * 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 #include #include #include #include #include "jp2k_encoder.h" #include "j2kheader_manager.h" #include "imgreg_manager.h" #include "opj_inttypes.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*/ /** * search a message by class_id * * @param[in] class_id class identifiers * @param[in] in_class_id in-class identifiers, -1 means any * @param[in] csn codestream number * @param[in] msg first message pointer of the searching list * @return found message pointer */ message_param_t * search_message(Byte8_t class_id, Byte8_t in_class_id, Byte8_t csn, message_param_t *msg); /** * reconstruct j2k codestream from JPT- (in future, JPP-) stream * * @param[in] msgqueue message queue pointer * @param[in] jpipstream original JPT- JPP- stream * @param[in] csn codestream number * @param[in] fw reconstructing image frame width * @param[in] fh reconstructing image frame height * @param[out] codelen codestream length * @return generated reconstructed j2k codestream */ Byte_t * recons_codestream(msgqueue_param_t *msgqueue, Byte_t *jpipstream, Byte8_t csn, int fw, int fh, Byte8_t *codelen); Byte_t * recons_j2k(msgqueue_param_t *msgqueue, Byte_t *jpipstream, Byte8_t csn, int fw, int fh, Byte8_t *j2klen) { Byte_t *j2kstream = NULL; if (!msgqueue) { return NULL; } j2kstream = recons_codestream(msgqueue, jpipstream, csn, fw, fh, j2klen); return j2kstream; } Byte_t * add_emptyboxstream(placeholder_param_t *phld, Byte_t *jp2stream, Byte8_t *jp2len); Byte_t * add_msgstream(message_param_t *message, Byte_t *origstream, Byte_t *j2kstream, Byte8_t *j2klen); Byte_t * recons_jp2(msgqueue_param_t *msgqueue, Byte_t *jpipstream, Byte8_t csn, Byte8_t *jp2len) { message_param_t *ptr; Byte_t *jp2stream = NULL; Byte_t *codestream = NULL; Byte8_t codelen; Byte8_t jp2cDBoxOffset = 0, jp2cDBoxlen = 0; *jp2len = 0; if (!msgqueue) { return NULL; } ptr = msgqueue->first; while ((ptr = search_message(METADATA_MSG, (Byte8_t) - 1, csn, ptr)) != NULL) { if (ptr->phld) { if (strncmp((char *)ptr->phld->OrigBH + 4, "jp2c", 4) == 0) { jp2cDBoxOffset = *jp2len + ptr->phld->OrigBHlen; jp2stream = add_emptyboxstream(ptr->phld, jp2stream, jp2len); /* header only */ jp2cDBoxlen = *jp2len - jp2cDBoxOffset; } else { jp2stream = add_emptyboxstream(ptr->phld, jp2stream, jp2len); /* header only */ } } jp2stream = add_msgstream(ptr, jpipstream, jp2stream, jp2len); ptr = ptr->next; } codestream = recons_codestream(msgqueue, jpipstream, csn, 0, 0, &codelen); if (jp2cDBoxOffset != 0 && codelen <= jp2cDBoxlen) { memcpy(jp2stream + jp2cDBoxOffset, codestream, codelen); } opj_free(codestream); return jp2stream; } OPJ_BOOL isJPPstream(Byte8_t csn, msgqueue_param_t *msgqueue); Byte_t * recons_codestream_from_JPTstream(msgqueue_param_t *msgqueue, Byte_t *jpipstream, Byte8_t csn, int fw, int fh, 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); Byte_t * add_EOC(Byte_t *j2kstream, Byte8_t *j2klen); Byte_t * recons_codestream(msgqueue_param_t *msgqueue, Byte_t *jpipstream, Byte8_t csn, int fw, int fh, Byte8_t *codelen) { if (isJPPstream(csn, msgqueue)) { return recons_codestream_from_JPPstream(msgqueue, jpipstream, csn, fw, fh, codelen); } else { return recons_codestream_from_JPTstream(msgqueue, jpipstream, csn, fw, fh, codelen); } } OPJ_BOOL isJPPstream(Byte8_t csn, msgqueue_param_t *msgqueue) { message_param_t *msg; msg = msgqueue->first; while (msg) { if (msg->csn == csn) { if (msg->class_id <= 2) { return OPJ_TRUE; } else if (msg->class_id == 4 || msg->class_id == 5) { return OPJ_FALSE; } } msg = msg->next; } fprintf(FCGI_stderr, "Error, message of csn %" PRId64 " not found\n", csn); return OPJ_FALSE; } Byte_t * add_mainhead_msgstream(msgqueue_param_t *msgqueue, Byte_t *origstream, Byte_t *j2kstream, Byte8_t csn, Byte8_t *j2klen); Byte8_t get_last_tileID(msgqueue_param_t *msgqueue, Byte8_t csn, OPJ_BOOL isJPPstream); Byte_t * add_emptytilestream(const Byte8_t tileID, Byte_t *j2kstream, Byte8_t *j2klen); Byte_t * recons_codestream_from_JPTstream(msgqueue_param_t *msgqueue, Byte_t *jpipstream, Byte8_t csn, int fw, int fh, Byte8_t *j2klen) { Byte_t *j2kstream = NULL; Byte8_t last_tileID, tileID; OPJ_BOOL found; Byte8_t binOffset; message_param_t *ptr; SIZmarker_param_t SIZ; OPJ_SIZE_T mindeclev; *j2klen = 0; j2kstream = add_mainhead_msgstream(msgqueue, jpipstream, j2kstream, csn, j2klen); if (!get_mainheader_from_j2kstream(j2kstream, &SIZ, NULL)) { return j2kstream; } if (fw <= 0 || fh <= 0) { mindeclev = 0; } else { mindeclev = (OPJ_SIZE_T)comp_decomplev(fw, fh, (int)SIZ.Xsiz, (int)SIZ.Ysiz); } last_tileID = get_last_tileID(msgqueue, csn, OPJ_FALSE); for (tileID = 0; tileID <= last_tileID; tileID++) { found = OPJ_FALSE; binOffset = 0; ptr = msgqueue->first; while ((ptr = search_message(TILE_MSG, tileID, csn, ptr)) != NULL) { if (ptr->bin_offset == binOffset) { found = OPJ_TRUE; j2kstream = add_msgstream(ptr, jpipstream, j2kstream, j2klen); binOffset += ptr->length; } ptr = ptr->next; } ptr = msgqueue->first; while ((ptr = search_message(EXT_TILE_MSG, tileID, csn, ptr)) != NULL) { if (ptr->aux > mindeclev) { /* FIXME: pointer comparison ? */ if (ptr->bin_offset == binOffset) { found = OPJ_TRUE; j2kstream = add_msgstream(ptr, jpipstream, j2kstream, j2klen); binOffset += ptr->length; } } ptr = ptr->next; } if (!found) { j2kstream = add_emptytilestream(tileID, j2kstream, j2klen); } } j2kstream = add_EOC(j2kstream, j2klen); return j2kstream; } 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) { Byte_t *j2kstream = NULL; Byte8_t tileID, last_tileID; Byte8_t SOToffset; OPJ_BOOL foundTH; Byte8_t binOffset; message_param_t *ptr; SIZmarker_param_t SIZ; CODmarker_param_t COD; int max_reslev, mindeclev; *j2klen = 0; j2kstream = add_mainhead_msgstream(msgqueue, jpipstream, j2kstream, csn, j2klen); if (!get_mainheader_from_j2kstream(j2kstream, &SIZ, &COD)) { return j2kstream; } if (fw == 0 || fh == 0) { mindeclev = 0; } else { mindeclev = comp_decomplev(fw, fh, (int)SIZ.Xsiz, (int)SIZ.Ysiz); } max_reslev = -1; last_tileID = get_last_tileID(msgqueue, csn, OPJ_TRUE); for (tileID = 0; tileID <= last_tileID; tileID++) { ptr = msgqueue->first; binOffset = 0; foundTH = OPJ_FALSE; 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 = OPJ_TRUE; binOffset += ptr->length; } ptr = ptr->next; } if (foundTH) { 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)) { delete_COD(COD); return j2kstream; } j2kstream = add_EOC(j2kstream, j2klen); delete_COD(COD); return j2kstream; } Byte_t * add_mainhead_msgstream(msgqueue_param_t *msgqueue, Byte_t *origstream, Byte_t *j2kstream, Byte8_t csn, Byte8_t *j2klen) { message_param_t *ptr; Byte8_t binOffset; ptr = msgqueue->first; binOffset = 0; while ((ptr = search_message(MAINHEADER_MSG, (Byte8_t) - 1, csn, ptr)) != NULL) { if (ptr->bin_offset == binOffset) { j2kstream = add_msgstream(ptr, origstream, j2kstream, j2klen); binOffset += ptr->length; } ptr = ptr->next; } return j2kstream; } Byte_t * add_SOTmkr(Byte_t *j2kstream, Byte8_t *j2klen) { Byte_t *buf; const Byte2_t SOT = 0x90ff; buf = (Byte_t *)opj_malloc((*j2klen) + 2); memcpy(buf, j2kstream, *j2klen); memcpy(buf + (*j2klen), &SOT, 2); *j2klen += 2; if (j2kstream) { opj_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 OPJ_LRCP: return recons_LRCPbitstream(msgqueue, jpipstream, j2kstream, csn, tileID, SIZ, COD, mindeclev, max_reslev, j2klen); case OPJ_RLCP: return recons_RLCPbitstream(msgqueue, jpipstream, j2kstream, csn, tileID, SIZ, COD, mindeclev, max_reslev, j2klen); case OPJ_RPCL: return recons_RPCLbitstream(msgqueue, jpipstream, j2kstream, csn, tileID, SIZ, COD, mindeclev, max_reslev, j2klen); case OPJ_PCRL: return recons_PCRLbitstream(msgqueue, jpipstream, j2kstream, csn, tileID, SIZ, COD, mindeclev, max_reslev, j2klen); case OPJ_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; Byte8_t seqID; for (r = 0, seqID = 0; r <= (COD.numOfdecomp - mindeclev); 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++) { j2kstream = recons_precinct(msgqueue, jpipstream, j2kstream, csn, tileID, SIZ, COD, max_reslev, c, r, seqID, j2klen); } } return j2kstream; } 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; 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) { int ret; Byte4_t XTsiz, YTsiz; XTsiz = get_tile_XSiz(SIZ, (Byte4_t)tileID, COD.numOfdecomp - r); YTsiz = get_tile_YSiz(SIZ, (Byte4_t)tileID, COD.numOfdecomp - r); ret = (int)(ceil((double)XTsiz / (double)COD.XPsiz[r]) * ceil((double)YTsiz / (double)COD.YPsiz[r])); assert(ret >= 0); return ret; } 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; OPJ_BOOL foundPrec; int l; seqID = comp_seqID(tileID, SIZ, COD, res_idx, prct_idx); precID = comp_precinct_id((int)tileID, comp_idx, (int)seqID, (int)SIZ.Csiz, (int)SIZ.XTnum * (int)SIZ.YTnum); ptr = msgqueue->first; binOffset = 0; foundPrec = OPJ_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 = OPJ_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; OPJ_BOOL foundPrec; precID = comp_precinct_id((int)tileID, comp_idx, (int)seqID, (int)SIZ.Csiz, (int)SIZ.XTnum * (int)SIZ.YTnum); ptr = msgqueue->first; binOffset = 0; foundPrec = OPJ_FALSE; while ((ptr = search_message(PRECINCT_MSG, precID, csn, ptr)) != NULL) { if (ptr->bin_offset == binOffset) { j2kstream = add_msgstream(ptr, jpipstream, j2kstream, j2klen); foundPrec = OPJ_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; assert(p >= 0); assert(r >= 0); for (rr = 0; rr < r; rr++) { seqID += (Byte8_t)comp_numOfprcts(tileID, SIZ, COD, rr); } seqID += (Byte8_t)p; return seqID; } Byte8_t get_last_tileID(msgqueue_param_t *msgqueue, Byte8_t csn, OPJ_BOOL isjppstream) { Byte8_t last_tileID = 0; message_param_t *msg; msg = msgqueue->first; while (msg) { if (isjppstream) { if ((msg->class_id == TILE_HEADER_MSG) && msg->csn == csn && last_tileID < msg->in_class_id) { last_tileID = msg->in_class_id; } } else { if ((msg->class_id == TILE_MSG || msg->class_id == EXT_TILE_MSG) && msg->csn == csn && last_tileID < msg->in_class_id) { last_tileID = msg->in_class_id; } } msg = msg->next; } return last_tileID; } message_param_t * search_message(Byte8_t class_id, Byte8_t in_class_id, Byte8_t csn, message_param_t *msg) { while (msg != NULL) { if (in_class_id == (Byte8_t) - 1) { if (msg->class_id == class_id && msg->csn == csn) { return msg; } } else { if (msg->class_id == class_id && msg->in_class_id == in_class_id && msg->csn == csn) { return msg; } } msg = msg->next; } return NULL; } Byte_t * gene_msgstream(message_param_t *message, Byte_t *stream, Byte8_t *length); Byte_t * gene_emptytilestream(const Byte8_t tileID, Byte8_t *length); Byte_t * add_msgstream(message_param_t *message, Byte_t *origstream, Byte_t *j2kstream, Byte8_t *j2klen) { Byte_t *newstream; Byte8_t newlen; Byte_t *buf; if (!message) { return NULL; } newstream = gene_msgstream(message, origstream, &newlen); buf = (Byte_t *)opj_malloc((*j2klen) + newlen); memcpy(buf, j2kstream, *j2klen); memcpy(buf + (*j2klen), newstream, newlen); *j2klen += newlen; opj_free(newstream); if (j2kstream) { opj_free(j2kstream); } return buf; } Byte_t * add_emptyboxstream(placeholder_param_t *phld, Byte_t *jp2stream, Byte8_t *jp2len) { Byte_t *newstream; Byte8_t newlen; Byte_t *buf; if (phld->OrigBHlen == 8) { newlen = big4(phld->OrigBH); } else { newlen = big8(phld->OrigBH + 8); } newstream = (Byte_t *)opj_malloc(newlen); memset(newstream, 0, newlen); memcpy(newstream, phld->OrigBH, phld->OrigBHlen); buf = (Byte_t *)opj_malloc((*jp2len) + newlen); memcpy(buf, jp2stream, *jp2len); memcpy(buf + (*jp2len), newstream, newlen); *jp2len += newlen; opj_free(newstream); if (jp2stream) { opj_free(jp2stream); } return buf; } Byte_t * add_emptytilestream(const Byte8_t tileID, Byte_t *j2kstream, Byte8_t *j2klen) { Byte_t *newstream; Byte8_t newlen; Byte_t *buf; newstream = gene_emptytilestream(tileID, &newlen); buf = (Byte_t *)opj_malloc((*j2klen) + newlen); memcpy(buf, j2kstream, *j2klen); memcpy(buf + (*j2klen), newstream, newlen); *j2klen += newlen; opj_free(newstream); if (j2kstream) { opj_free(j2kstream); } return buf; } Byte_t * add_padding(Byte8_t padding, Byte_t *j2kstream, Byte8_t *j2klen) { Byte_t *buf; buf = (Byte_t *)opj_malloc((*j2klen) + padding); memcpy(buf, j2kstream, *j2klen); memset(buf + (*j2klen), 0, padding); *j2klen += padding; if (j2kstream) { opj_free(j2kstream); } return buf; } Byte_t * add_EOC(Byte_t *j2kstream, Byte8_t *j2klen) { Byte2_t EOC = 0xd9ff; Byte_t *buf; buf = (Byte_t *)opj_malloc((*j2klen) + 2); memcpy(buf, j2kstream, *j2klen); memcpy(buf + (*j2klen), &EOC, 2); *j2klen += 2; if (j2kstream) { opj_free(j2kstream); } return buf; } Byte_t * gene_msgstream(message_param_t *message, Byte_t *stream, Byte8_t *length) { Byte_t *buf; if (!message) { return NULL; } *length = message->length; buf = (Byte_t *)opj_malloc(*length); memcpy(buf, stream + message->res_offset, *length); return buf; } Byte_t * gene_emptytilestream(const Byte8_t tileID, Byte8_t *length) { Byte_t *buf; const Byte2_t SOT = 0x90ff; const Byte2_t Lsot = 0xa << 8; Byte2_t Isot; const Byte4_t Psot = 0xe << 24; const Byte_t TPsot = 0, TNsot = 1; const Byte2_t SOD = 0x93ff; *length = 14; buf = (Byte_t *)opj_malloc(*length); Isot = (Byte2_t)((((Byte2_t)tileID) << 8) | ((((Byte2_t)tileID) & 0xf0) >> 8)); memcpy(buf, &SOT, 2); memcpy(buf + 2, &Lsot, 2); memcpy(buf + 4, &Isot, 2); memcpy(buf + 6, &Psot, 4); memcpy(buf + 10, &TPsot, 1); memcpy(buf + 11, &TNsot, 1); memcpy(buf + 12, &SOD, 2); return buf; } Byte_t * recons_j2kmainhead(msgqueue_param_t *msgqueue, Byte_t *jpipstream, Byte8_t csn, Byte8_t *j2klen) { *j2klen = 0; return add_mainhead_msgstream(msgqueue, jpipstream, NULL, csn, j2klen); }