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netcdf-c/libdap4/d4swap.c
Dennis Heimbigner 53464e8963 Allow optional use of libxml2 
re: https://github.com/Unidata/netcdf-c/issues/2119

H/T to [Egbert Eich](https://github.com/e4t) and [Bas Couwenberg](https://github.com/sebastic) for this PR.

It is undesirable to make netcdf be dependent on the availability
of libxml2, but it is desirable to allow its use if available.

In order to do this, a wrapper API (include/ncxml.h) was constructed
that supports either ezxml or libxml2 as the implementation.
Additionally, the xml support code was moved to a new directory
netcdf-c/libncxml.

Primary changes:
* Create a new sub-directory named netcdf-c/libncxml to hold all the xml implementation code.
* Move ezxml.c and ezxml.h to libncxml
* Create a wrapper API -- include/ncxml.h
* Create an implementation, ncxml_ezxml.c to support use of ezxml.
* Create an implementation, ncxml_xml2.c to support use of libxml2.
* Add a check for libxml2 in configure.ac and CMakeLists.txt
* Modify libdap to use the wrapper API instead of ezxml directly.

Misc. Other Changes:
* Change include/netcdf_json.h from built source to be part of the distribution.
2021-11-01 22:37:05 -06:00

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/*********************************************************************
* Copyright 2018, UCAR/Unidata
* See netcdf/COPYRIGHT file for copying and redistribution conditions.
*********************************************************************/
#include "d4includes.h"
#include <stdarg.h>
#include "d4includes.h"
/*
The primary purpose of this code is to recursively traverse
the incoming data to get the endianness correct.
*/
/* Forward */
static int walkAtomicVar(NCD4meta*, NCD4node*, NCD4node*, void** offsetp);
static int walkOpaqueVar(NCD4meta*,NCD4node*, NCD4node*, void** offsetp);
static int walkStructArray(NCD4meta*,NCD4node*, NCD4node*, void** offsetp);
static int walkStruct(NCD4meta*, NCD4node*, NCD4node*, void** offsetp);
static int walkSeqArray(NCD4meta*, NCD4node*, NCD4node*, void** offsetp);
static int walkSeq(NCD4meta*,NCD4node*, NCD4node*, void** offsetp);
/**************************************************/
/*
Assumes that compiler->swap is true; does necessary
byte swapping.
*/
int
NCD4_swapdata(NCD4meta* compiler, NClist* topvars)
{
int ret = NC_NOERR;
int i;
void* offset;
offset = compiler->serial.dap;
for(i=0;i<nclistlength(topvars);i++) {
NCD4node* var = (NCD4node*)nclistget(topvars,i);
var->data.dap4data.memory = offset;
switch (var->subsort) {
default:
if((ret=walkAtomicVar(compiler,var,var,&offset))) goto done;
break;
case NC_OPAQUE:
/* The only thing we need to do is swap the counts */
if((ret=walkOpaqueVar(compiler,var,var,&offset))) goto done;
break;
case NC_STRUCT:
if((ret=walkStructArray(compiler,var,var,&offset))) goto done;
break;
case NC_SEQ:
if((ret=walkSeqArray(compiler,var,var,&offset))) goto done;
break;
}
var->data.dap4data.size = DELTA(offset,var->data.dap4data.memory);
/* skip checksum, if there is one */
if(var->data.remotechecksummed)
offset = INCR(offset,CHECKSUMSIZE);
}
done:
return THROW(ret);
}
static int
walkAtomicVar(NCD4meta* compiler, NCD4node* topvar, NCD4node* var, void** offsetp)
{
int ret = NC_NOERR;
void* offset;
d4size_t i;
nc_type subsort;
d4size_t dimproduct;
NCD4node* basetype;
basetype = (var->sort == NCD4_TYPE ? var : var->basetype);
subsort = basetype->subsort;
dimproduct = (var->sort == NCD4_TYPE ? 1 : NCD4_dimproduct(var));
offset = *offsetp;
if(subsort == NC_ENUM)
subsort = var->basetype->basetype->subsort;
/* Only need to swap multi-byte integers and floats */
if(subsort != NC_STRING) {
int typesize = NCD4_typesize(subsort);
d4size_t totalsize = typesize*dimproduct;
if(typesize == 1) {
offset = INCR(offset,totalsize);
} else { /*(typesize > 1)*/
for(i=0;i<dimproduct;i++) {
char* sp = (char*)offset;
if(compiler->swap) {
switch (typesize) {
case 2: swapinline16(sp); break;
case 4: swapinline32(sp); break;
case 8: swapinline64(sp); break;
default: break;
}
}
offset = INCR(offset,typesize);
}
}
} else if(subsort == NC_STRING) { /* remaining case; just convert the counts */
COUNTERTYPE count;
for(i=0;i<dimproduct;i++) {
/* Get string count */
if(compiler->swap)
swapinline64(offset);
count = GETCOUNTER(offset);
SKIPCOUNTER(offset);
/* skip count bytes */
offset = INCR(offset,count);
}
}
*offsetp = offset;
return THROW(ret);
}
static int
walkOpaqueVar(NCD4meta* compiler, NCD4node* topvar, NCD4node* var, void** offsetp)
{
int ret = NC_NOERR;
void* offset;
d4size_t i;
unsigned long long count;
d4size_t dimproduct = NCD4_dimproduct(var);
dimproduct = (var->sort == NCD4_TYPE ? 1 : NCD4_dimproduct(var));
offset = *offsetp;
for(i=0;i<dimproduct;i++) {
/* Get and swap opaque count */
if(compiler->swap)
swapinline64(offset);
count = GETCOUNTER(offset);
SKIPCOUNTER(offset);
offset = INCR(offset,count);
}
*offsetp = offset;
return THROW(ret);
}
static int
walkStructArray(NCD4meta* compiler, NCD4node* topvar, NCD4node* var, void** offsetp)
{
int ret = NC_NOERR;
void* offset;
d4size_t i;
d4size_t dimproduct = NCD4_dimproduct(var);
NCD4node* basetype = var->basetype;
offset = *offsetp;
for(i=0;i<dimproduct;i++) {
/* Swap, possibly recursively, the single struct pointed to by offset*/
if((ret=walkStruct(compiler,topvar,basetype,&offset))) goto done;
}
*offsetp = offset;
done:
return THROW(ret);
}
static int
walkStruct(NCD4meta* compiler, NCD4node* topvar, NCD4node* structtype, void** offsetp)
{
int ret = NC_NOERR;
int i;
void* offset;
offset = *offsetp;
for(i=0;i<nclistlength(structtype->vars);i++) {
NCD4node* field = (NCD4node*)nclistget(structtype->vars,i);
NCD4node* fieldbase = field->basetype;
switch (fieldbase->subsort) {
default:
if((ret=walkAtomicVar(compiler,topvar,field,&offset))) goto done;
break;
case NC_OPAQUE:
/* The only thing we need to do is swap the counts */
if((ret=walkOpaqueVar(compiler,topvar,field,&offset))) goto done;
break;
case NC_STRUCT:
if((ret=walkStructArray(compiler,topvar,field,&offset))) goto done;
break;
case NC_SEQ:
if((ret=walkSeqArray(compiler,topvar,field,&offset))) goto done;
break;
}
}
*offsetp = offset;
done:
return THROW(ret);
}
static int
walkSeqArray(NCD4meta* compiler, NCD4node* topvar, NCD4node* var, void** offsetp)
{
int ret = NC_NOERR;
void* offset;
d4size_t i;
d4size_t dimproduct;
NCD4node* seqtype;
assert(var->sort == NCD4_VAR);
dimproduct = NCD4_dimproduct(var);
seqtype = var->basetype;
offset = *offsetp;
for(i=0;i<dimproduct;i++) {
/* Swap, possibly recursively, the single seq pointed to by offset*/
if((ret=walkSeq(compiler,topvar,seqtype,&offset))) goto done;
}
*offsetp = offset;
done:
return THROW(ret);
}
/*
Remember that the base type of var is a vlen.
*/
static int
walkSeq(NCD4meta* compiler, NCD4node* topvar, NCD4node* vlentype, void** offsetp)
{
int ret = NC_NOERR;
int i;
void* offset;
d4size_t recordcount;
NCD4node* basetype;
offset = *offsetp;
/* process the record count */
if(compiler->swap)
swapinline64(offset);
recordcount = GETCOUNTER(offset);
SKIPCOUNTER(offset);
basetype = vlentype->basetype; /* This may be of any type potentially */
assert(basetype->sort == NCD4_TYPE);
for(i=0;i<recordcount;i++) {
switch(basetype->subsort) {
default: /* atomic basetype */
if((ret=walkAtomicVar(compiler,topvar,basetype,&offset))) goto done;
break;
case NC_OPAQUE:
if((ret=walkOpaqueVar(compiler,topvar,basetype,&offset))) goto done;
break;
case NC_STRUCT:
/* We can treat each record like a structure instance */
if((ret=walkStruct(compiler,topvar,basetype,&offset))) goto done;
break;
case NC_SEQ:
if((ret=walkSeq(compiler,topvar,basetype,&offset))) goto done;
break;
}
}
*offsetp = offset;
done:
return THROW(ret);
}
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