mirror of
https://github.com/Unidata/netcdf-c.git
synced 2024-11-27 07:30:33 +08:00
a2e0f069ec
Primary change is to cleanup code and remove duplicated code. 1. Unify the rc file reading into libdispatch/drc.c. Eventually extend if we need rc file for netcdf itself as opposed to the dap code. 2. Unify the extraction from the rc file of DAP authorization info. 3. Misc. other small unifications: make temp file, read file. 4. Avoid use of libcurl when reading file:// because there is some kind of problem with the Visual Studio version. Might be related to the winpath problem. In any case, do direct read instead. 5. Add new error code NC_ERCFILE for errors in reading RC file. 6. Complete documentation cleanup as indicated in this comment https://github.com/Unidata/netcdf-c/pull/472#issuecomment-325926426 7. Convert some occurrences of #ifdef _WIN32 to #ifdef _MSC_VER
705 lines
17 KiB
C
705 lines
17 KiB
C
/* Copyright 2009, UCAR/Unidata and OPeNDAP, Inc.
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See the COPYRIGHT file for more information. */
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#include "config.h"
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#include <errno.h>
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#ifdef HAVE_UNISTD_H
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#include <unistd.h>
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#endif
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#ifdef HAVE_SYS_STAT_H
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#include <sys/stat.h>
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#endif
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#ifdef HAVE_FCNTL_H
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#include <fcntl.h>
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#endif
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#ifdef _MSC_VER
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#include <io.h>
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#define mode_t int
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#endif
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#include "ocinternal.h"
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#include "ocdebug.h"
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/* Order is important: longest first */
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static char* DDSdatamarks[3] = {"Data:\r\n","Data:\n",(char*)NULL};
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/* Not all systems have strndup, so provide one*/
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char*
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ocstrndup(const char* s, size_t len)
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{
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char* dup;
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if(s == NULL) return NULL;
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dup = (char*)ocmalloc(len+1);
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MEMCHECK(dup,NULL);
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memcpy((void*)dup,s,len);
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dup[len] = '\0';
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return dup;
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}
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/* Do not trust strncmp semantics; this one
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compares upto len chars or to null terminators */
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int
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ocstrncmp(const char* s1, const char* s2, size_t len)
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{
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const char *p,*q;
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if(s1 == s2) return 0;
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if(s1 == NULL) return -1;
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if(s2 == NULL) return +1;
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for(p=s1,q=s2;len > 0;p++,q++,len--) {
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if(*p == 0 && *q == 0) return 0; /* *p == *q == 0 */
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if(*p != *q)
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return (*p - *q);
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}
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/* 1st len chars are same */
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return 0;
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}
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#if 0
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void
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makedimlist(Nclist* path, Nclist* dims)
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{
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unsigned int i,j;
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for(i=0;i<nclistlength(path);i++) {
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OCnode* node = (OCnode*)nclistget(path,i);
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unsigned int rank = node->array.rank;
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for(j=0;j<rank;j++) {
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OCnode* dim = (OCnode*)nclistget(node->array.dimensions,j);
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nclistpush(dims,(void*)dim);
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}
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}
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}
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#endif
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void
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ocfreeprojectionclause(OCprojectionclause* clause)
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{
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if(clause->target != NULL) free(clause->target);
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while(nclistlength(clause->indexsets) > 0) {
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NClist* slices = (NClist*)nclistpop(clause->indexsets);
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while(nclistlength(slices) > 0) {
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OCslice* slice = (OCslice*)nclistpop(slices);
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if(slice != NULL) free(slice);
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}
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nclistfree(slices);
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}
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nclistfree(clause->indexsets);
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free(clause);
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}
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#if 0
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void
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freeAttributes(NClist* attset)
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{
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unsigned int i,j;
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for(i=0;i<nclistlength(attset);i++) {
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OCattribute* att = (OCattribute*)nclistget(attset,i);
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if(att->name != NULL) free(att->name);
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if(att->etype == OC_String || att->etype == OC_URL) {
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for(j=0;j<att->nvalues;j++) {
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char* s = ((char**)att->values)[j];
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if(s != NULL) free(s);
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}
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} else {
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free(att->values);
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}
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}
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}
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#endif
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#if 0
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void
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freeOCnode(OCnode* cdf, int deep)
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{
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unsigned int i;
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if(cdf == NULL) return;
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if(cdf->name != NULL) free(cdf->name);
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if(cdf->fullname != NULL) free(cdf->fullname);
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if(cdf->attributes != NULL) freeAttributes(cdf->attributes);
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if(cdf->subnodes != NULL) {
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if(deep) {
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for(i=0;i<nclistlength(cdf->subnodes);i++) {
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OCnode* node = (OCnode*)nclistget(cdf->subnodes,i);
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freeOCnode(node,deep);
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}
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}
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nclistfree(cdf->subnodes);
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}
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free(cdf);
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}
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#endif
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int
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ocfindbod(NCbytes* buffer, size_t* bodp, size_t* ddslenp)
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{
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unsigned int i;
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char* content;
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size_t len = ncbyteslength(buffer);
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char** marks;
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content = ncbytescontents(buffer);
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for(marks = DDSdatamarks;*marks;marks++) {
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char* mark = *marks;
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size_t tlen = strlen(mark);
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for(i=0;i<len;i++) {
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if((i+tlen) <= len
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&& (ocstrncmp(content+i,mark,tlen)==0)) {
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*ddslenp = i;
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i += tlen;
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*bodp = i;
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return 1;
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}
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}
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}
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*ddslenp = 0;
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*bodp = 0;
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return 0; /* tag not found; not necessarily an error*/
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}
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/* Compute total # of elements if dimensioned*/
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size_t
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octotaldimsize(size_t rank, size_t* sizes)
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{
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unsigned int i;
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size_t count = 1;
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for(i=0;i<rank;i++) {
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count *= sizes[i];
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}
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return count;
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}
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size_t
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octypesize(OCtype etype)
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{
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switch (etype) {
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case OC_Char: return sizeof(char);
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case OC_Byte: return sizeof(signed char);
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case OC_UByte: return sizeof(unsigned char);
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case OC_Int16: return sizeof(short);
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case OC_UInt16: return sizeof(unsigned short);
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case OC_Int32: return sizeof(int);
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case OC_UInt32: return sizeof(unsigned int);
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case OC_Float32: return sizeof(float);
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case OC_Float64: return sizeof(double);
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#ifdef HAVE_LONG_LONG_INT
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case OC_Int64: return sizeof(long long);
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case OC_UInt64: return sizeof(unsigned long long);
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#endif
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case OC_String: return sizeof(char*);
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case OC_URL: return sizeof(char*);
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default: break; /* Ignore all others */
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}
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return 0;
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}
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char*
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octypetostring(OCtype octype)
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{
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switch (octype) {
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case OC_NAT: return "OC_NAT";
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case OC_Char: return "OC_Char";
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case OC_Byte: return "OC_Byte";
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case OC_UByte: return "OC_UByte";
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case OC_Int16: return "OC_Int16";
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case OC_UInt16: return "OC_UInt16";
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case OC_Int32: return "OC_Int32";
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case OC_UInt32: return "OC_UInt32";
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case OC_Int64: return "OC_Int64";
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case OC_UInt64: return "OC_UInt64";
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case OC_Float32: return "OC_Float32";
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case OC_Float64: return "OC_Float64";
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case OC_String: return "OC_String";
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case OC_URL: return "OC_URL";
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/* Non-primitives*/
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case OC_Dataset: return "OC_Dataset";
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case OC_Sequence: return "OC_Sequence";
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case OC_Grid: return "OC_Grid";
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case OC_Structure: return "OC_Structure";
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case OC_Dimension: return "OC_Dimension";
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case OC_Attribute: return "OC_Attribute";
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case OC_Attributeset: return "OC_Attributeset";
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case OC_Atomic: return "OC_Atomic";
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default: break;
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}
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return NULL;
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}
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char*
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octypetoddsstring(OCtype octype)
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{
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switch (octype) {
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case OC_Byte: return "Byte";
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case OC_Int16: return "Int16";
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case OC_UInt16: return "UInt16";
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case OC_Int32: return "Int32";
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case OC_UInt32: return "UInt32";
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case OC_Float32: return "Float32";
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case OC_Float64: return "Float64";
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case OC_String: return "String";
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case OC_URL: return "Url";
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/* Non-atomics*/
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case OC_Dataset: return "Dataset";
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case OC_Sequence: return "Sequence";
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case OC_Grid: return "Grid";
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case OC_Structure: return "Structure";
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case OC_Dimension: return "Dimension";
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case OC_Attribute: return "Attribute";
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case OC_Attributeset: return "Attributeset";
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case OC_Atomic: return "Atomic";
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default: break;
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}
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return "<unknown>";
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}
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OCerror
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octypeprint(OCtype etype, void* value, size_t bufsize, char* buf)
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{
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if(buf == NULL || bufsize == 0 || value == NULL) return OC_EINVAL;
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buf[0] = '\0';
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switch (etype) {
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case OC_Char:
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snprintf(buf,bufsize,"'%c'",*(char*)value);
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break;
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case OC_Byte:
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snprintf(buf,bufsize,"%d",*(signed char*)value);
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break;
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case OC_UByte:
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snprintf(buf,bufsize,"%u",*(unsigned char*)value);
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break;
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case OC_Int16:
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snprintf(buf,bufsize,"%d",*(short*)value);
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break;
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case OC_UInt16:
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snprintf(buf,bufsize,"%u",*(unsigned short*)value);
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break;
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case OC_Int32:
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snprintf(buf,bufsize,"%d",*(int*)value);
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break;
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case OC_UInt32:
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snprintf(buf,bufsize,"%u",*(unsigned int*)value);
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break;
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case OC_Float32:
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snprintf(buf,bufsize,"%g",*(float*)value);
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break;
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case OC_Float64:
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snprintf(buf,bufsize,"%g",*(double*)value);
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break;
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#ifdef HAVE_LONG_LONG_INT
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case OC_Int64:
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snprintf(buf,bufsize,"%lld",*(long long*)value);
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break;
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case OC_UInt64:
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snprintf(buf,bufsize,"%llu",*(unsigned long long*)value);
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break;
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#endif
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case OC_String:
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case OC_URL: {
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char* s = *(char**)value;
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snprintf(buf,bufsize,"\"%s\"",s);
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} break;
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default: break;
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}
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return OC_NOERR;
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}
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size_t
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xxdrsize(OCtype etype)
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{
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switch (etype) {
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case OC_Char:
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case OC_Byte:
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case OC_UByte:
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case OC_Int16:
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case OC_UInt16:
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case OC_Int32:
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case OC_UInt32:
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return XDRUNIT;
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case OC_Int64:
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case OC_UInt64:
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return (2*XDRUNIT);
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case OC_Float32:
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return XDRUNIT;
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case OC_Float64:
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return (2*XDRUNIT);
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case OC_String:
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case OC_URL:
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default: break;
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}
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return 0;
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}
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/**************************************/
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char*
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ocerrstring(int err)
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{
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if(err == 0) return "no error";
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if(err > 0) return strerror(err);
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switch (err) {
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case OC_EBADID:
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return "OC_EBADID: Not a valid ID";
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case OC_EINVAL:
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return "OC_EINVAL: Invalid argument";
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case OC_EPERM:
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return "OC_EPERM: Write to read only";
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case OC_EINVALCOORDS:
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return "OC_EINVALCOORDS: Index exceeds dimension bound";
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case OC_ENOTVAR:
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return "OC_ENOTVAR: Variable not found";
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case OC_ECHAR:
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return "OC_ECHAR: Attempt to convert between text & numbers";
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case OC_EEDGE:
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return "OC_EEDGE: Start+count exceeds dimension bound";
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case OC_ESTRIDE:
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return "OC_ESTRIDE: Illegal stride";
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case OC_ENOMEM:
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return "OC_ENOMEM: Memory allocation (malloc) failure";
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case OC_EDIMSIZE:
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return "OC_EDIMSIZE: Invalid dimension size";
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case OC_EDAP:
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return "OC_EDAP: unspecified DAP failure";
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case OC_EXDR:
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return "OC_EXDR: XDR failure";
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case OC_ECURL:
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return "OC_ECURL: unspecified libcurl failure";
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case OC_EBADURL:
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return "OC_EBADURL: malformed url";
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case OC_EBADVAR:
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return "OC_EBADVAR: no such variable";
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case OC_EOPEN:
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return "OC_EOPEN: temporary file open failed";
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case OC_EIO:
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return "OC_EIO: I/O failure";
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case OC_ENODATA:
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return "OC_ENODATA: Variable has no data in DAP request";
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case OC_EDAPSVC:
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return "OC_EDAPSVC: DAP Server error";
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case OC_ENAMEINUSE:
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return "OC_ENAMEINUSE: Duplicate name in DDS";
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case OC_EDAS:
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return "OC_EDAS: Malformed or unreadable DAS";
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case OC_EDDS:
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return "OC_EDDS: Malformed or unreadable DDS";
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case OC_EDATADDS:
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return "OC_EDATADDS: Malformed or unreadable DATADDS";
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case OC_ERCFILE:
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return "OC_ERCFILE: Malformed, unreadable, or bad value in the run-time configuration file";
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case OC_ENOFILE:
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return "OC_ENOFILE: cannot read content of URL";
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/* oc_data related errors */
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case OC_EINDEX:
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return "OC_EINDEX: index argument too large";
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case OC_EBADTYPE:
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return "OC_EBADTYPE: argument of wrong OCtype";
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/* String concatenation overrun */
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case OC_EOVERRUN:
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return "OC_EOVERRUN: internal concatenation failed";
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/* Authorization Error */
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case OC_EAUTH:
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return "OC_EAUTH: authorization failure";
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default: break;
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}
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return "<unknown error code>";
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}
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OCerror
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ocsvcerrordata(OCstate* state, char** codep, char** msgp, long* httpp)
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{
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if(codep) *codep = state->error.code;
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if(msgp) *msgp = state->error.message;
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if(httpp) *httpp = state->error.httpcode;
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return OC_NOERR;
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}
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/* if we get OC_EDATADDS error, then try to capture any
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error message and log it; assumes that in this case,
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the datadds is not big.
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*/
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void
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ocdataddsmsg(OCstate* state, OCtree* tree)
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{
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#define ERRCHUNK 1024
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#define ERRFILL ' '
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#define ERRTAG "Error {"
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int i,j;
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size_t len;
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XXDR* xdrs;
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char* contents;
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off_t ckp;
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if(tree == NULL) return;
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/* get available space */
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xdrs = tree->data.xdrs;
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len = xxdr_length(xdrs);
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if(len < strlen(ERRTAG))
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return; /* no room */
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ckp = xxdr_getpos(xdrs);
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xxdr_setpos(xdrs,(off_t)0);
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/* read the whole thing */
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contents = (char*)malloc(len+1);
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(void)xxdr_getbytes(xdrs,contents,(off_t)len);
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contents[len] = '\0';
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/* Look for error tag */
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for(i=0;i<len;i++) {
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if(ocstrncmp(contents+i,ERRTAG,strlen(ERRTAG))==0) {
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/* log the error message */
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/* Do a quick and dirty escape */
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for(j=i;j<len;j++) {
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int c = contents[i+j];
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if(c > 0 && (c < ' ' || c >= '\177'))
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contents[i+j] = ERRFILL;
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}
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nclog(NCLOGERR,"DATADDS failure, possible message: '%s'\n",
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contents+i);
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goto done;
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}
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}
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xxdr_setpos(xdrs,ckp);
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done:
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return;
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}
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/* Given some set of indices [i0][i1]...[in] (where n == rank-1)
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and the maximum sizes, compute the linear offset
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for set of dimension indices.
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*/
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size_t
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ocarrayoffset(size_t rank, size_t* sizes, size_t* indices)
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{
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unsigned int i;
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size_t count = 0;
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for(i=0;i<rank;i++) {
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count *= sizes[i];
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count += indices[i];
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}
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return count;
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}
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/* Inverse of ocarrayoffset: convert linear index to a set of indices */
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void
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ocarrayindices(size_t index, size_t rank, size_t* sizes, size_t* indices)
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{
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int i;
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for(i=rank-1;i>=0;i--) {
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indices[i] = index % sizes[i];
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index = (index - indices[i]) / sizes[i];
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}
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}
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/* Given some set of edge counts [i0][i1]...[in] (where n == rank-1)
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and the maximum sizes, compute the linear offset
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for the last edge position
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*/
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size_t
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ocedgeoffset(size_t rank, size_t* sizes, size_t* edges)
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{
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unsigned int i;
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size_t count = 0;
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for(i=0;i<rank;i++) {
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count *= sizes[i];
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count += (edges[i]-1);
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}
|
|
return count;
|
|
}
|
|
|
|
int
|
|
ocvalidateindices(size_t rank, size_t* sizes, size_t* indices)
|
|
{
|
|
int i;
|
|
for(i=0;i<rank;i++) {
|
|
if(indices[i] >= sizes[i]) return 0;
|
|
}
|
|
return 1;
|
|
}
|
|
|
|
int
|
|
oc_ispacked(OCnode* node)
|
|
{
|
|
OCtype octype = node->octype;
|
|
OCtype etype = node->etype;
|
|
int isscalar = (node->array.rank == 0);
|
|
int packed;
|
|
|
|
if(isscalar || octype != OC_Atomic)
|
|
return 0; /* is not packed */
|
|
packed = (etype == OC_Byte
|
|
|| etype == OC_UByte
|
|
|| etype == OC_Char) ? 1 : 0;
|
|
return packed;
|
|
}
|
|
|
|
/* Must be consistent with ocx.h.OCDT */
|
|
#define NMODES 6
|
|
#define MAXMODENAME 8 /*max (strlen(modestrings[i])) */
|
|
static char* modestrings[NMODES+1] = {
|
|
"FIELD", /* ((OCDT)(1<<0)) field of a container */
|
|
"ELEMENT", /* ((OCDT)(1<<1)) element of a structure array */
|
|
"RECORD", /* ((OCDT)(1<<2)) record of a sequence */
|
|
"ARRAY", /* ((OCDT)(1<<3)) is structure array */
|
|
"SEQUENCE", /* ((OCDT)(1<<4)) is sequence */
|
|
"ATOMIC", /* ((OCDT)(1<<5)) is atomic leaf */
|
|
NULL,
|
|
};
|
|
|
|
const char*
|
|
ocdtmodestring(OCDT mode,int compact)
|
|
{
|
|
static char result[1+(NMODES*(MAXMODENAME+1))]; /* hack to avoid malloc */
|
|
int i;
|
|
char* p = result;
|
|
result[0] = '\0';
|
|
if(mode == 0) {
|
|
if(compact) *p++ = '-';
|
|
else if(!occoncat(result,sizeof(result),1,"NONE"))
|
|
return NULL;
|
|
} else for(i=0;;i++) {
|
|
char* ms = modestrings[i];
|
|
if(ms == NULL) break;
|
|
if(!compact && i > 0)
|
|
if(!occoncat(result,sizeof(result),1,","))
|
|
return NULL;
|
|
if(fisset(mode,(1<<i))) {
|
|
if(compact) *p++ = ms[0];
|
|
else if(!occoncat(result,sizeof(result),1,ms))
|
|
return NULL;
|
|
}
|
|
}
|
|
/* pad compact list out to NMODES in length (+1 for null terminator) */
|
|
if(compact) {
|
|
while((p-result) < NMODES) *p++ = ' ';
|
|
*p = '\0';
|
|
}
|
|
return result;
|
|
}
|
|
|
|
|
|
/*
|
|
Instead of using snprintf to concatenate
|
|
multiple strings into a given target,
|
|
provide a direct concatenator.
|
|
So, this function concats the n argument strings
|
|
and overwrites the contents of dst.
|
|
Care is taken to never overrun the available
|
|
space (the size parameter).
|
|
Note that size is assumed to include the null
|
|
terminator and that in the event of overrun,
|
|
the string will have a null at dst[size-1].
|
|
Return 0 if overrun, 1 otherwise.
|
|
*/
|
|
int
|
|
occopycat(char* dst, size_t size, size_t n, ...)
|
|
{
|
|
va_list args;
|
|
size_t avail = size - 1;
|
|
int i;
|
|
int status = 1; /* assume ok */
|
|
char* p = dst;
|
|
|
|
if(n == 0) {
|
|
if(size > 0)
|
|
dst[0] = '\0';
|
|
return (size > 0 ? 1: 0);
|
|
}
|
|
|
|
va_start(args,n);
|
|
for(i=0;i<n;i++) {
|
|
char* q = va_arg(args, char*);
|
|
for(;;) {
|
|
int c = *q++;
|
|
if(c == '\0') break;
|
|
if(avail == 0) {status = 0; goto done;}
|
|
*p++ = c;
|
|
avail--;
|
|
}
|
|
}
|
|
/* make sure we null terminate;
|
|
note that since avail was size-1, there
|
|
will always be room
|
|
*/
|
|
*p = '\0';
|
|
|
|
done:
|
|
va_end(args);
|
|
return status;
|
|
}
|
|
|
|
/*
|
|
Similar to occopycat, but
|
|
the n strings are, in effect,
|
|
concatenated and appended to the
|
|
current contents of dst.
|
|
The size parameter is the total size of dst,
|
|
including room for null terminator.
|
|
Return 0 if overrun, 1 otherwise.
|
|
*/
|
|
int
|
|
occoncat(char* dst, size_t size, size_t n, ...)
|
|
{
|
|
va_list args;
|
|
int status = 1; /* assume ok */
|
|
size_t avail = 0;
|
|
int i;
|
|
char* p;
|
|
size_t dstused;
|
|
dstused = strlen(dst);
|
|
if(dstused >= size)
|
|
return 0; /* There is no room to append */
|
|
/* move to the end of the current contents of dst
|
|
and act like we are doing copycat
|
|
*/
|
|
p = dst + dstused;
|
|
size -= dstused;
|
|
avail = size - 1;
|
|
if(n == 0) {
|
|
if(size > 0)
|
|
p[0] = '\0';
|
|
return (size > 0 ? 1: 0);
|
|
}
|
|
|
|
va_start(args,n);
|
|
for(i=0;i<n;i++) {
|
|
char* q = va_arg(args, char*);
|
|
for(;;) {
|
|
int c = *q++;
|
|
if(c == '\0') break;
|
|
if(avail == 0) {status = 0; goto done;}
|
|
*p++ = c;
|
|
avail--;
|
|
}
|
|
}
|
|
/* make sure we null terminate;
|
|
note that since avail was size-1, there
|
|
will always be room
|
|
*/
|
|
*p = '\0';
|
|
|
|
done:
|
|
va_end(args);
|
|
return status;
|
|
}
|
|
|
|
/* merge two envv style lists */
|
|
char**
|
|
ocmerge(const char** list1, const char** list2)
|
|
{
|
|
int l1, l2;
|
|
char** merge;
|
|
const char** p;
|
|
for(l1=0,p=list1;*p;p++) {l1++;}
|
|
for(l2=0,p=list2;*p;p++) {l2++;}
|
|
merge = (char**)malloc(sizeof(char*)*(l1+l2+1));
|
|
if(merge == NULL)
|
|
return NULL;
|
|
memcpy(merge,list1,sizeof(char*)*l1);
|
|
memcpy(merge+l1,list2,sizeof(char*)*l2);
|
|
merge[l1+l2] = NULL;
|
|
return merge;
|
|
}
|