netcdf-c/plugins/NCZszip.c

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Enhance/Fix filter support re: Discussion https://github.com/Unidata/netcdf-c/discussions/2214 The primary change is to support so-called "standard filters". A standard filter is one that is defined by the following netcdf-c API: ```` int nc_def_var_XXX(int ncid, int varid, size_t nparams, unsigned* params); int nc_inq_var_XXXX(int ncid, int varid, int* usefilterp, unsigned* params); ```` So for example, zstandard would be a standard filter by defining the functions *nc_def_var_zstandard* and *nc_inq_var_zstandard*. In order to define these functions, we need a new dispatch function: ```` int nc_inq_filter_avail(int ncid, unsigned filterid); ```` This function, combined with the existing filter API can be used to implement arbitrary standard filters using a simple code pattern. Note that I would have preferred that this function return a list of all available filters, but HDF5 does not support that functionality. So this PR implements the dispatch function and implements the following standard functions: + bzip2 + zstandard + blosc Specific test cases are also provided for HDF5 and NCZarr. Over time, other specific standard filters will be defined. ## Primary Changes * Add nc_inq_filter_avail() to netcdf-c API. * Add standard filter implementations to test use of *nc_inq_filter_avail*. * Bump the dispatch table version number and add to all the relevant dispatch tables (libsrc, libsrcp, etc). * Create a program to invoke nc_inq_filter_avail so that it is accessible to shell scripts. * Cleanup szip support to properly support szip when HDF5 is disabled. This involves detecting libsz separately from testing if HDF5 supports szip. * Integrate shuffle and fletcher32 into the existing filter API. This means that, for example, nc_def_var_fletcher32 is now a wrapper around nc_def_var_filter. * Extend the Codec defaulting to allow multiple default shared libraries. ## Misc. Changes * Modify configure.ac/CMakeLists.txt to look for the relevant libraries implementing standard filters. * Modify libnetcdf.settings to list available standard filters (including deflate and szip). * Add CMake test modules to locate libbz2 and libzstd. * Cleanup the HDF5 memory manager function use in the plugins. * remove unused file include//ncfilter.h * remove tests for the HDF5 memory operations e.g. H5allocate_memory. * Add flag to ncdump to force use of _Filter instead of _Deflate or _Shuffle or _Fletcher32. Used for testing.
2022-03-15 02:39:37 +08:00
/* Copyright 2003-2018, University Corporation for Atmospheric
* Research. See the COPYRIGHT file for copying and redistribution
* conditions.
*/
/*
Author: Dennis Heimbigner
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <assert.h>
#include <szlib.h>
#include "H5Zszip.h"
#include "netcdf.h"
#include "netcdf_filter.h"
#include "netcdf_filter_build.h"
#include "netcdf_json.h"
#define H5Z_FILTER_SZIP 4 /*szip compression */
/**************************************************/
/* NCZarr Filter Objects */
static int NCZ_szip_codec_to_hdf5(const char* codec, size_t* nparamsp, unsigned** paramsp);
static int NCZ_szip_hdf5_to_codec(size_t nparams, const unsigned* params, char** codecp);
static int NCZ_szip_modify_parameters(int ncid, int varid, size_t* vnparamsp, unsigned** vparamsp, size_t* wnparamsp, unsigned** wparamsp);
static NCZ_codec_t NCZ_szip_codec = {
NCZ_CODEC_CLASS_VER, /* Struct version number */
NCZ_CODEC_HDF5, /* Struct sort */
"szip", /* Standard name/id of the codec */
H5Z_FILTER_SZIP, /* HDF5 alias for szip */
NULL, /*NCZ_szip_codec_initialize*/
NULL, /*NCZ_szip_codec_finalize*/
NCZ_szip_codec_to_hdf5,
NCZ_szip_hdf5_to_codec,
NCZ_szip_modify_parameters,
};
static int
NCZ_szip_codec_to_hdf5(const char* codec_json, size_t* nparamsp, unsigned** paramsp)
{
int stat = NC_NOERR;
unsigned* params = NULL;
size_t nparams = 2; /* No. of visible parameters */
NCjson* json = NULL;
NCjson* jtmp = NULL;
struct NCJconst jc = {0,0,0,NULL};
if(nparamsp == NULL || paramsp == NULL)
{stat = NC_EINTERNAL; goto done;}
if((params = (unsigned*)calloc(nparams,sizeof(unsigned)))== NULL)
{stat = NC_ENOMEM; goto done;}
if(NCJparse(codec_json,0,&json))
{stat = NC_EFILTER; goto done;}
if(NCJdictget(json,"mask",&jtmp) || jtmp == NULL)
{stat = NC_EFILTER; goto done;}
if(NCJcvt(jtmp,NCJ_INT,&jc))
{stat = NC_EFILTER; goto done;}
params[H5Z_SZIP_PARM_MASK] = (unsigned)jc.ival;
jtmp = NULL;
if(NCJdictget(json,"pixels-per-block",&jtmp) || jtmp == NULL)
{stat = NC_EFILTER; goto done;}
if(NCJcvt(jtmp,NCJ_INT,&jc))
{stat = NC_EFILTER; goto done;}
params[H5Z_SZIP_PARM_PPB] = (unsigned)jc.ival;
*nparamsp = nparams;
*paramsp = params; params = NULL;
done:
NCJreclaim(json);
nullfree(params);
return stat;
}
static int
NCZ_szip_hdf5_to_codec(size_t nparams, const unsigned* params, char** codecp)
{
int stat = NC_NOERR;
char json[2048];
snprintf(json,sizeof(json),"{\"id\": \"%s\", \"mask\": %u, \"pixels-per-block\": %u}",
NCZ_szip_codec.codecid,
params[H5Z_SZIP_PARM_MASK],
params[H5Z_SZIP_PARM_PPB]);
if(codecp) {
if((*codecp = strdup(json))==NULL) {stat = NC_ENOMEM; goto done;}
}
done:
return stat;
}
static int
NCZ_szip_modify_parameters(int ncid, int varid, size_t* vnparamsp, unsigned** vparamsp, size_t* wnparamsp, unsigned** wparamsp)
{
int i,ret_value = NC_NOERR;
nc_type vtype;
size_t typesize, scanline, dtype_precision, npoints;
int ndims, storage, dtype_order;
int dimids[NC_MAX_VAR_DIMS];
char vname[NC_MAX_NAME+1];
size_t chunklens[NC_MAX_VAR_DIMS];
unsigned* params = NULL;
unsigned* vparams = NULL;
size_t wnparams = 4;
if(wnparamsp == NULL || wparamsp == NULL)
{ret_value = NC_EFILTER; goto done;}
if(vnparamsp == NULL || vparamsp == NULL)
{ret_value = NC_EFILTER; goto done;}
if(*vnparamsp > 0 && *vparamsp == NULL)
{ret_value = NC_EFILTER; goto done;}
vparams = *vparamsp;
/* Get variable info */
if((ret_value = nc_inq_var(ncid,varid,vname,&vtype,&ndims,dimids,NULL))) goto done;
/* Get the typesize */
if((ret_value = nc_inq_type(ncid,vtype,NULL,&typesize))) goto done;
/* Get datatype's precision, in case is less than full bits */
dtype_precision = typesize*8;
if(dtype_precision > 24) {
if(dtype_precision <= 32)
dtype_precision = 32;
else if(dtype_precision <= 64)
dtype_precision = 64;
} /* end if */
if(ndims == 0) {ret_value = NC_EFILTER; goto done;}
/* Set "local" parameter for this dataset's "pixels-per-scanline" */
if((ret_value = nc_inq_dimlen(ncid,dimids[ndims-1],&scanline))) goto done;
/* Get number of elements for the dataspace; use
total number of elements in the chunk to define the new 'scanline' size */
/* Compute chunksize */
if((ret_value = nc_inq_var_chunking(ncid,varid,&storage,chunklens))) goto done;
if(storage != NC_CHUNKED) {ret_value = NC_EFILTER; goto done;}
npoints = 1;
for(i=0;i<ndims;i++) npoints *= chunklens[i];
/* Get datatype's endianness order */
if((ret_value = nc_inq_var_endian(ncid,varid,&dtype_order))) goto done;
if((params = (unsigned*)malloc(wnparams*sizeof(unsigned)))==NULL)
{ret_value = NC_ENOMEM; goto done;}
params[H5Z_SZIP_PARM_MASK] = vparams[H5Z_SZIP_PARM_MASK];
params[H5Z_SZIP_PARM_PPB] = vparams[H5Z_SZIP_PARM_PPB];
/* Set "local" parameter for this dataset's "bits-per-pixel" */
params[H5Z_SZIP_PARM_BPP] = dtype_precision;
/* Adjust scanline if it is smaller than number of pixels per block or
if it is bigger than maximum pixels per scanline, or there are more than
SZ_MAX_BLOCKS_PER_SCANLINE blocks per scanline */
if(scanline < vparams[H5Z_SZIP_PARM_PPB]) {
if(npoints < vparams[H5Z_SZIP_PARM_PPB])
HGOTO_ERROR(H5E_ARGS, H5E_BADVALUE, FAIL, "pixels per block greater than total number of elements in the chunk")
scanline = MIN((vparams[H5Z_SZIP_PARM_PPB] * SZ_MAX_BLOCKS_PER_SCANLINE), npoints);
} else {
if(scanline <= SZ_MAX_PIXELS_PER_SCANLINE)
scanline = MIN((vparams[H5Z_SZIP_PARM_PPB] * SZ_MAX_BLOCKS_PER_SCANLINE), scanline);
else
scanline = vparams[H5Z_SZIP_PARM_PPB] * SZ_MAX_BLOCKS_PER_SCANLINE;
} /* end else */
/* Assign the final value to the scanline */
params[H5Z_SZIP_PARM_PPS] = (unsigned)scanline;
/* Set the correct mask flags */
/* From H5Pdcpl.c#H5Pset_szip */
params[H5Z_SZIP_PARM_MASK] &= (unsigned)(~H5_SZIP_CHIP_OPTION_MASK);
params[H5Z_SZIP_PARM_MASK] |= H5_SZIP_ALLOW_K13_OPTION_MASK;
params[H5Z_SZIP_PARM_MASK] |= H5_SZIP_RAW_OPTION_MASK;
params[H5Z_SZIP_PARM_MASK] &= (unsigned)(~(H5_SZIP_LSB_OPTION_MASK | H5_SZIP_MSB_OPTION_MASK));
/* From H5Zszip.c#H5Z__set_local_szip */
params[H5Z_SZIP_PARM_MASK] &= (unsigned)(~(H5_SZIP_LSB_OPTION_MASK | H5_SZIP_MSB_OPTION_MASK));
switch(dtype_order) {
case NC_ENDIAN_LITTLE: /* Little-endian byte order */
params[H5Z_SZIP_PARM_MASK] |= H5_SZIP_LSB_OPTION_MASK;
break;
case NC_ENDIAN_BIG: /* Big-endian byte order */
params[H5Z_SZIP_PARM_MASK] |= H5_SZIP_MSB_OPTION_MASK;
break;
default:
HGOTO_ERROR(H5E_PLINE, H5E_BADTYPE, FAIL, "bad datatype endianness order")
} /* end switch */
*wnparamsp = wnparams;
nullfree(*wparamsp);
*wparamsp = params; params = NULL;
done:
nullfree(params);
FUNC_LEAVE_NOAPI(ret_value)
}
#if 0
static int
NCZ_szip_visible_parameters(int ncid, int varid, size_t nparamsin, const unsigned int* paramsin, size_t* nparamsp, unsigned** paramsp)
{
int stat = NC_NOERR;
unsigned* params = NULL;
if(nparamsp == NULL || paramsp == NULL)
{stat = NC_EFILTER; goto done;}
if((params = (unsigned*)malloc(2*sizeof(unsigned)))==NULL)
{stat = NC_ENOMEM; goto done;}
params[H5Z_SZIP_PARM_MASK] = paramsin[H5Z_SZIP_PARM_MASK];
params[H5Z_SZIP_PARM_PPB] = paramsin[H5Z_SZIP_PARM_PPB];
nullfree(*paramsp);
*paramsp = params; params = NULL;
done:
nullfree(params);
return stat;
}
#endif
/**************************************************/
NCZ_codec_t* NCZ_szip_codecs[] = {
&NCZ_szip_codec,
NULL
};
/* External Export API */
DLLEXPORT
const void*
NCZ_codec_info_defaults(void)
{
return (void*)&NCZ_szip_codecs;
}