/********************************************************************* * Copyright 2016, UCAR/Unidata * See netcdf/COPYRIGHT file for copying and redistribution conditions. *********************************************************************/ /* Define various things common to all the t_dmr*.c testers */ #undef DEBUG #undef DUMP #include "d4includes.h" #ifdef DEBUG #include "ezxml.h" #endif typedef int TDMR; #define TDMR_PARSE 1 #define TDMR_META 2 #define TDMR_DATA 4 static NCbytes* input = NULL; static NCbytes* output = NULL; static NCD4meta* metadata = NULL; static NCD4response* resp = NULL; static char* infile = NULL; static char* outfile = NULL; static int ncid = 0; static int translatenc4 = 0; static void fail(int code) { if(code != NC_NOERR) fprintf(stderr,"***Fail: %s\n",nc_strerror(code)); exit((code==NC_NOERR?EXIT_SUCCESS:EXIT_FAILURE)); } static void setup(int tdmr, int argc, char** argv) { int ret = NC_NOERR; argc--; argv++; int expected = 0; NCD4mode mode = 0; NCD4INFO* controller = NULL; switch(tdmr) { case TDMR_PARSE: expected = 1; mode = NCD4_DMR; break; case TDMR_META: expected = 2; mode = NCD4_DMR; break; case TDMR_DATA: fprintf(stderr,"setup is not used for t_dmrdata\n"); mode = NCD4_DAP; exit(1); } if(argc < expected) { fprintf(stderr, "too few arguments\n"); exit(1); } infile = argv[0]; outfile = NULL; input = ncbytesnew(); output = ncbytesnew(); if((ret = NC_readfile(infile,input))) fail(ret); { const char* trans = getenv("translatenc4"); if(trans != NULL) translatenc4 = 1; } #ifdef DUMP NCD4_dumpbytes(ncbyteslength(input),ncbytescontents(input),0); #endif /* Create a fake NCD4INFO */ controller = (NCD4INFO*)calloc(1,sizeof(NCD4INFO)); if(controller == NULL) fail(NC_ENOMEM); controller->controls.translation = NCD4_TRANSNC4; if(translatenc4) controller->controls.translation = NCD4_TRANSNC4; NCD4_applyclientfragmentcontrols(controller); if((ret=NCD4_newMeta(controller,&metadata))) fail(ret); if((ret=NCD4_newResponse(controller,&resp))) fail(ret); resp->raw.size = ncbyteslength(input); resp->raw.memory = ncbytescontents(input); resp->mode = mode; if((ret=NCD4_dechunk(resp))) /* ok for mode == DMR or mode == DAP */ fail(ret); #ifdef DEBUG { int swap = (controller->platform.hostlittleendian != resp->remotelittleendian); void* d = metadata->serial.dap; size_t sz = metadata->serial.dapsize; fprintf(stderr,"====================\n"); fprintf(stderr,"%s\n",metadata->serial.dmr); fprintf(stderr,"----------\n"); NCD4_dumpbytes(sz,d,swap); fprintf(stderr,"====================\n"); fflush(stderr); } #endif if(expected > 1) { outfile = argv[1]; if((ret = nc_create(outfile,NC_CLOBBER|NC_NETCDF4,&ncid))) fail(ret); } #ifdef DEBUG { char* tree; ezxml_t dom = ezxml_parse_str(ncbytescontents(input),ncbyteslength(input)); if(dom == NULL) exit(1); tree = ezxml_toxml(dom); fprintf(stderr,"////////////////////\n"); fprintf(stderr,"%s\n",tree); fprintf(stderr,"////////////////////\n"); } #endif { const char* slevel = getenv("d4loglevel"); int level; if(slevel != NULL && sscanf(slevel,"%d",&level) == 1) { nc_set_log_level(level); } } } int cleanup(int ret) { if(outfile != NULL) { if(ret != NC_NOERR) ret = nc_abort(ncid); else ret = nc_close(ncid); } if(metadata->controller != NULL) free(metadata->controller); NCD4_reclaimMeta(metadata); ncbytesfree(output); if(ret) fail(ret); else exit(EXIT_SUCCESS); return 0; } #if 0 static void printxml(const char* input) { char* tree; ezxml_t dom = ezxml_parse_str(input,strlen(input)); if(dom == NULL) exit(1); tree = ezxml_toxml(dom); fprintf(stderr,"////////////////////\n"); fprintf(stderr,"%s\n",tree); fprintf(stderr,"////////////////////\n"); } #endif