/* Copyright 2009, UCAR/Unidata and OPeNDAP, Inc. See the COPYRIGHT file for more information. */ #include "config.h" #include "ocinternal.h" #include "ocdebug.h" #include "ocdump.h" /* Forward*/ static OCerror ocread(OCdata*, XXDR*, char*, size_t, size_t, size_t); #ifdef OCDEBUG static void octrace(char* proc, OCstate* state, OCdata* data) { OCbytes* buffer = ocbytesnew(); ocdumpdatapath(state,data,buffer); fprintf(stderr,"%s: %s\n",proc,ocbytescontents(buffer)); } #else #define octrace(proc,state,data) #endif /*OCDEBUG*/ /* Use this to attach to a data tree for a DATADDS */ OCerror ocdata_getroot(OCstate* state, OCnode* root, OCdata** datap) { OCdata* data; assert(root->tree->dxdclass == OCDATADDS); assert(root->octype == OC_Dataset); if(root->tree->data.data == NULL) return OCTHROW(OC_ENODATA); data = root->tree->data.data; if(datap) *datap = data; octrace("attach",state,data); return OCTHROW(OC_NOERR); } OCerror ocdata_container(OCstate* state, OCdata* data, OCdata** containerp) { OCdata* container; OCnode* template; OCASSERT(state != NULL); template = data->template; if(template->container == NULL) return OCTHROW(OC_EBADTYPE); container = data->container; if(container == NULL) return OCTHROW(OC_EBADTYPE); if(containerp) *containerp = container; octrace("container", state, container); return OC_NOERR; } OCerror ocdata_root(OCstate* state, OCdata* data, OCdata** rootp) { OCdata* root; OCnode* template; OCASSERT(state != NULL); template = data->template; root = template->tree->data.data; if(rootp) *rootp = root; octrace("root", state, root); return OC_NOERR; } OCerror ocdata_ithfield(OCstate* state, OCdata* container, size_t index, OCdata** fieldp) { OCdata* field; OCnode* template; OCASSERT(state != NULL); OCASSERT(container != NULL); template = container->template; if(!iscontainer(template->octype)) return OCTHROW(OC_EBADTYPE); /* Validate index */ if(index >= container->ninstances) return OCTHROW(OC_EINDEX); field = container->instances[index]; if(fieldp) *fieldp = field; octrace("ithfield", state, field); return OC_NOERR; } OCerror ocdata_ithelement(OCstate* state, OCdata* data, size_t* indices, OCdata** elementp) { int stat = OC_NOERR; OCdata* element; OCnode* template; size_t index,rank; OCASSERT(state != NULL); OCASSERT(data != NULL); template = data->template; rank = template->array.rank; /* Must be a dimensioned Structure */ if(template->octype != OC_Structure || rank == 0) return OCTHROW(OC_EBADTYPE); /* Validate indices */ if(!ocvalidateindices(rank,template->array.sizes,indices)) return OCTHROW(OC_EINVALCOORDS); /* compute linearized index */ index = ocarrayoffset(rank,template->array.sizes,indices); if(index >= data->ninstances) return OCTHROW(OC_EINDEX); element = data->instances[index]; if(elementp) *elementp = element; octrace("ithelement", state, element); return OCTHROW(stat); } /* Move to the ith sequence record. */ OCerror ocdata_ithrecord(OCstate* state, OCdata* data, size_t index, /* record number */ OCdata** recordp ) { int stat = OC_NOERR; OCdata* record; OCnode* template; OCASSERT(state != NULL); OCASSERT(data != NULL); template = data->template; /* Must be a Sequence */ if(template->octype != OC_Sequence || !fisset(data->datamode,OCDT_SEQUENCE)) return OCTHROW(OC_EBADTYPE); /* Validate index */ if(index >= data->ninstances) return OCTHROW(OC_EINDEX); record = data->instances[index]; if(recordp) *recordp = record; octrace("ithrecord", state, record); return OCTHROW(stat); } OCerror ocdata_position(OCstate* state, OCdata* data, size_t* indices) { OCnode* template; OCASSERT(state != NULL); OCASSERT(data != NULL); OCASSERT(indices != NULL); template = data->template; if(fisset(data->datamode,OCDT_RECORD)) indices[0] = data->index; else if(fisset(data->datamode,OCDT_ELEMENT)) { /* Transform the linearized array index into a set of indices */ ocarrayindices(data->index,template->array.rank,template->array.sizes,indices); } else return OCTHROW(OC_EBADTYPE); return OCTHROW(OC_NOERR); } OCerror ocdata_recordcount(OCstate* state, OCdata* data, size_t* countp) { OCASSERT(state != NULL); OCASSERT(data != NULL); OCASSERT(countp != NULL); if(data->template->octype != OC_Sequence || !fisset(data->datamode,OCDT_SEQUENCE)) return OCTHROW(OC_EBADTYPE); *countp = data->ninstances; return OC_NOERR; } /**************************************************/ /* In order to actually extract data, one must move to the specific primitive typed field containing the data of interest by using ocdata_fieldith(). Then this procedure is invoked to extract some subsequence of items from the field. For scalars, the start and count are ignored. Note that start and count are linearized from the oc_data_read arguments. */ int ocdata_read(OCstate* state, OCdata* data, size_t start, size_t count, void* memory, size_t memsize) { int stat = OC_NOERR; XXDR* xdrs; OCtype etype, octype; int isscalar; size_t elemsize, totalsize, countsize; OCnode* template; octrace("read", state, data); assert(state != NULL); assert(data != NULL); assert(memory != NULL); assert(memsize > 0); data = data; template = data->template; octype = template->octype; assert(octype == OC_Atomic); etype = template->etype; isscalar = (template->array.rank == 0 ? 1 : 0); /* validate memory space*/ elemsize = octypesize(etype); totalsize = elemsize*data->ninstances; countsize = elemsize*count; if(totalsize < countsize || memsize < countsize) return OCTHROW(OC_EINVAL); /* Get XXDR* */ xdrs = template->root->tree->data.xdrs; if(isscalar) { /* Extract the data */ stat = ocread(data,xdrs,(char*)memory,memsize,0,1); } else { /* Validate the start and count */ if(start >= data->ninstances || (start+count) > data->ninstances) return OCTHROW(OC_EINVALCOORDS); /* Extract the data */ stat = ocread(data,xdrs,(char*)memory,memsize,start,count); } return OCTHROW(stat); } /**************************************************/ /* Extract data from a leaf into memory. */ static OCerror ocread(OCdata* data, XXDR* xdrs, char* memory, size_t memsize, size_t start, size_t count) { int i; OCnode* template; OCtype etype; off_t elemsize, totalsize, xdrtotal, xdrstart; int scalar; OCASSERT(data != NULL); OCASSERT(memory != NULL); OCASSERT(memsize > 0); OCASSERT(count > 0); OCASSERT((start+count) <= data->ninstances); template = data->template; etype = template->etype; scalar = (template->array.rank == 0); /* Note that for strings, xdrsize == 0 */ xdrtotal = count*data->xdrsize; /* amount (in xdr sizes) to read */ xdrstart = start*data->xdrsize; /* offset from the start of the data */ elemsize = octypesize(etype); /* wrt memory, not xdrsize */ totalsize = elemsize*count; /* validate memory space*/ if(memsize < totalsize) return OCTHROW(OC_EINVAL); /* copy out with appropriate byte-order conversions */ switch (etype) { case OC_Int32: case OC_UInt32: case OC_Float32: xxdr_setpos(xdrs,data->xdroffset+xdrstart); if(!xxdr_getbytes(xdrs,memory,xdrtotal)) {OCTHROW(OC_EDATADDS); goto xdrfail;} if(!xxdr_network_order) { unsigned int* p; for(p=(unsigned int*)memory,i=0;ixdroffset+xdrstart); if(!xxdr_getbytes(xdrs,memory,xdrtotal)) {OCTHROW(OC_EDATADDS); goto xdrfail;} if(!xxdr_network_order) { unsigned long long* llp; for(llp=(unsigned long long*)memory,i=0;ixdroffset+xdrstart); if(!xxdr_getbytes(xdrs,memory,xdrtotal)) {OCTHROW(OC_EDATADDS); goto xdrfail;} { double* dp; for(dp=(double*)memory,i=0;ixdroffset+xdrstart); if(scalar) { if(!xxdr_ushort(xdrs,(unsigned short*)memory)) {OCTHROW(OC_EDATADDS); goto xdrfail;} } else { unsigned short* sp = (unsigned short*)memory; for(i=0;ixdroffset+xdrstart); if(!xxdr_uchar(xdrs,(unsigned char*)memory)) {OCTHROW(OC_EDATADDS); goto xdrfail;} } else { /* the xdroffset will always be at the start of the packed data, so we need to add the start count to it */ xxdr_setpos(xdrs,data->xdroffset+xdrstart); if(!xxdr_getbytes(xdrs,memory,xdrtotal)) {OCTHROW(OC_EDATADDS); goto xdrfail;} } break; /* Hard case, because strings are variable length */ case OC_String: case OC_URL: { /* use the data->nstrings data->string fields */ char** sp = (char**)memory; if(count > data->nstrings) return OCTHROW(OC_EDATADDS); for(i=0;istrings[start+i]; xxdr_setpos(xdrs,offset); /* get the string */ if(!xxdr_string(xdrs,sp,&len)) {OCTHROW(OC_EDATADDS); goto xdrfail;} } } break; default: OCPANIC("unexpected etype"); break; } return OC_NOERR; xdrfail: oclog(OCLOGERR,"DAP DATADDS packet is apparently too short"); return OCTHROW(OC_EDATADDS); }