/* Copyright 2003-2018, University Corporation for Atmospheric * Research. See COPYRIGHT file for copying and redistribution * conditions. */ /** * @file * @internal This file contains functions that are used in file * opens. * * @author Ed Hartnett */ #include "config.h" #include "hdf5internal.h" #include "ncrc.h" #define NUM_TYPES 12 /**< Number of netCDF atomic types. */ #define CD_NELEMS_ZLIB 1 /**< Number of parameters needed for ZLIB filter. */ /** @internal Native HDF5 constants for atomic types. For performance, * fill this array only the first time, and keep it in global memory * for each further use. */ static hid_t h5_native_type_constant_g[NUM_TYPES]; /** @internal NetCDF atomic type names. */ static const char nc_type_name_g[NUM_TYPES][NC_MAX_NAME + 1] = {"char", "byte", "short", "int", "float", "double", "ubyte", "ushort", "uint", "int64", "uint64", "string"}; /** @internal NetCDF atomic types. */ static const nc_type nc_type_constant_g[NUM_TYPES] = {NC_CHAR, NC_BYTE, NC_SHORT, NC_INT, NC_FLOAT, NC_DOUBLE, NC_UBYTE, NC_USHORT, NC_UINT, NC_INT64, NC_UINT64, NC_STRING}; /** @internal NetCDF atomic type sizes. */ static const int nc_type_size_g[NUM_TYPES] = {sizeof(char), sizeof(char), sizeof(short), sizeof(int), sizeof(float), sizeof(double), sizeof(unsigned char), sizeof(unsigned short), sizeof(unsigned int), sizeof(long long), sizeof(unsigned long long), sizeof(char *)}; /** @internal These flags may not be set for open mode. */ static const int ILLEGAL_OPEN_FLAGS = (NC_MMAP); /* From libsrc4, these are the netcdf-4 cache sizes. */ extern size_t nc4_chunk_cache_size; extern size_t nc4_chunk_cache_nelems; extern float nc4_chunk_cache_preemption; /* From nc4mem.c */ extern int NC4_open_image_file(NC_FILE_INFO_T* h5); /* Defined later in this file. */ static int rec_read_metadata(NC_GRP_INFO_T *grp); /** * @internal Struct to track HDF5 object info, for * rec_read_metadata(). We get this info for every object in the * HDF5 file when we H5Literate() over the file. */ typedef struct hdf5_obj_info { hid_t oid; /* HDF5 object ID */ char oname[NC_MAX_NAME + 1]; /* Name of object */ H5G_stat_t statbuf; /* Information about the object */ struct hdf5_obj_info *next; /* Pointer to next node in list */ } hdf5_obj_info_t; /** * @internal User data struct for call to H5Literate() in * rec_read_metadata(). When iterating through the objects in a * group, if we find child groups, we save their hdf5_obj_info_t * object in a list. Then we processes them after completely * processing the parent group. */ typedef struct user_data { NClist *grps; /* NClist */ NC_GRP_INFO_T *grp; /* Pointer to parent group */ } user_data_t; /* Custom iteration callback data */ typedef struct { NC_GRP_INFO_T *grp; NC_VAR_INFO_T *var; } att_iter_info; /** * @internal Given an HDF5 type, set a pointer to netcdf type_info * struct, either an existing one (for user-defined types) or a newly * created one. * * @param h5 Pointer to HDF5 file info struct. * @param datasetid HDF5 dataset ID. * @param type_info Pointer to pointer that gets type info struct. * * @return ::NC_NOERR No error. * @return ::NC_EBADID Bad ncid. * @return ::NC_EHDFERR HDF5 returned error. * @return ::NC_EBADTYPID Type not found. * @author Ed Hartnett */ static int get_type_info2(NC_FILE_INFO_T *h5, hid_t datasetid, NC_TYPE_INFO_T **type_info) { NC_HDF5_TYPE_INFO_T *hdf5_type; htri_t is_str, equal = 0; H5T_class_t class; hid_t native_typeid, hdf_typeid; H5T_order_t order; int t; assert(h5 && type_info); /* Because these N5T_NATIVE_* constants are actually function calls * (!) in H5Tpublic.h, I can't initialize this array in the usual * way, because at least some C compilers (like Irix) complain * about calling functions when defining constants. So I have to do * it like this. Note that there's no native types for char or * string. Those are handled later. */ if (!h5_native_type_constant_g[1]) { h5_native_type_constant_g[1] = H5T_NATIVE_SCHAR; h5_native_type_constant_g[2] = H5T_NATIVE_SHORT; h5_native_type_constant_g[3] = H5T_NATIVE_INT; h5_native_type_constant_g[4] = H5T_NATIVE_FLOAT; h5_native_type_constant_g[5] = H5T_NATIVE_DOUBLE; h5_native_type_constant_g[6] = H5T_NATIVE_UCHAR; h5_native_type_constant_g[7] = H5T_NATIVE_USHORT; h5_native_type_constant_g[8] = H5T_NATIVE_UINT; h5_native_type_constant_g[9] = H5T_NATIVE_LLONG; h5_native_type_constant_g[10] = H5T_NATIVE_ULLONG; } /* Get the HDF5 typeid - we'll need it later. */ if ((hdf_typeid = H5Dget_type(datasetid)) < 0) return NC_EHDFERR; /* Get the native typeid. Will be equivalent to hdf_typeid when * creating but not necessarily when reading, a variable. */ if ((native_typeid = H5Tget_native_type(hdf_typeid, H5T_DIR_DEFAULT)) < 0) return NC_EHDFERR; /* Is this type an integer, string, compound, or what? */ if ((class = H5Tget_class(native_typeid)) < 0) return NC_EHDFERR; /* Is this an atomic type? */ if (class == H5T_STRING || class == H5T_INTEGER || class == H5T_FLOAT) { /* Allocate a phony NC_TYPE_INFO_T struct to hold type info. */ if (!(*type_info = calloc(1, sizeof(NC_TYPE_INFO_T)))) return NC_ENOMEM; /* Allocate storage for HDF5-specific type info. */ if (!(hdf5_type = calloc(1, sizeof(NC_HDF5_TYPE_INFO_T)))) return NC_ENOMEM; (*type_info)->format_type_info = hdf5_type; /* H5Tequal doesn't work with H5T_C_S1 for some reason. But * H5Tget_class will return H5T_STRING if this is a string. */ if (class == H5T_STRING) { if ((is_str = H5Tis_variable_str(native_typeid)) < 0) return NC_EHDFERR; /* Make sure fixed-len strings will work like variable-len * strings */ if (is_str || H5Tget_size(hdf_typeid) > 1) { /* Set a class for the type */ t = NUM_TYPES - 1; (*type_info)->nc_type_class = NC_STRING; } else { /* Set a class for the type */ t = 0; (*type_info)->nc_type_class = NC_CHAR; } } else { for (t = 1; t < NUM_TYPES - 1; t++) { if ((equal = H5Tequal(native_typeid, h5_native_type_constant_g[t])) < 0) return NC_EHDFERR; if (equal) break; } /* Find out about endianness. As of HDF 1.8.6, this works * with all data types Not just H5T_INTEGER. See * https://www.hdfgroup.org/HDF5/doc/RM/RM_H5T.html#Datatype-GetOrder */ if ((order = H5Tget_order(hdf_typeid)) < 0) return NC_EHDFERR; if (order == H5T_ORDER_LE) (*type_info)->endianness = NC_ENDIAN_LITTLE; else if (order == H5T_ORDER_BE) (*type_info)->endianness = NC_ENDIAN_BIG; else return NC_EBADTYPE; if (class == H5T_INTEGER) (*type_info)->nc_type_class = NC_INT; else (*type_info)->nc_type_class = NC_FLOAT; } (*type_info)->hdr.id = nc_type_constant_g[t]; (*type_info)->size = nc_type_size_g[t]; if (!((*type_info)->hdr.name = strdup(nc_type_name_g[t]))) return NC_ENOMEM; hdf5_type->hdf_typeid = hdf_typeid; hdf5_type->native_hdf_typeid = native_typeid; return NC_NOERR; } else { NC_TYPE_INFO_T *type; /* This is a user-defined type. */ if((type = nc4_rec_find_hdf_type(h5, native_typeid))) *type_info = type; /* The type entry in the array of user-defined types already has * an open data typeid (and native typeid), so close the ones we * opened above. */ if (H5Tclose(native_typeid) < 0) return NC_EHDFERR; if (H5Tclose(hdf_typeid) < 0) return NC_EHDFERR; if (type) return NC_NOERR; } return NC_EBADTYPID; } /** * @internal This function reads the coordinates attribute used for * multi-dimensional coordinates. It then sets var->dimids[], and * attempts to find a pointer to the dims and sets var->dim[] as well. * * @param grp Group info pointer. * @param var Var info pointer. * * @return ::NC_NOERR No error. * @return ::NC_ENOTATT Attribute does not exist. * @return ::NC_EATTMETA Attribute metadata error. * @return ::NC_EHDFERR HDF5 error. * @author Ed Hartnett */ static int read_coord_dimids(NC_GRP_INFO_T *grp, NC_VAR_INFO_T *var) { NC_HDF5_VAR_INFO_T *hdf5_var; hid_t coord_att_typeid = -1, coord_attid = -1, spaceid = -1; hssize_t npoints; htri_t attr_exists; int d; int retval = NC_NOERR; assert(grp && var && var->format_var_info); LOG((3, "%s: var->hdr.name %s", __func__, var->hdr.name)); /* Have we already read the coordinates hidden att for this var? */ if (var->coords_read) return NC_NOERR; /* Get HDF5-sepecific var info. */ hdf5_var = (NC_HDF5_VAR_INFO_T *)var->format_var_info; /* Does the COORDINATES att exist? */ if ((attr_exists = H5Aexists(hdf5_var->hdf_datasetid, COORDINATES)) < 0) return NC_EHDFERR; if (!attr_exists) return NC_ENOTATT; /* There is a hidden attribute telling us the ids of the * dimensions that apply to this multi-dimensional coordinate * variable. Read it. */ if ((coord_attid = H5Aopen_name(hdf5_var->hdf_datasetid, COORDINATES)) < 0) BAIL(NC_EATTMETA); if ((coord_att_typeid = H5Aget_type(coord_attid)) < 0) BAIL(NC_EATTMETA); /* How many dimensions are there? */ if ((spaceid = H5Aget_space(coord_attid)) < 0) BAIL(NC_EATTMETA); if ((npoints = H5Sget_simple_extent_npoints(spaceid)) < 0) BAIL(NC_EATTMETA); /* Check that the number of points is the same as the number of * dimensions for the variable. */ if (npoints != var->ndims) BAIL(NC_EATTMETA); /* Read the dimids for this var. */ if (H5Aread(coord_attid, coord_att_typeid, var->dimids) < 0) BAIL(NC_EATTMETA); LOG((4, "read dimids for this var")); /* Update var->dim field based on the var->dimids. Ok if does not * find a dim at this time, but if found set it. */ for (d = 0; d < var->ndims; d++) nc4_find_dim(grp, var->dimids[d], &var->dim[d], NULL); /* Remember that we have read the coordinates hidden attribute. */ var->coords_read = NC_TRUE; exit: if (spaceid >= 0 && H5Sclose(spaceid) < 0) BAIL2(NC_EHDFERR); if (coord_att_typeid >= 0 && H5Tclose(coord_att_typeid) < 0) BAIL2(NC_EHDFERR); if (coord_attid >= 0 && H5Aclose(coord_attid) < 0) BAIL2(NC_EHDFERR); return retval; } /** * @internal This function is called when reading a file's metadata * for each dimension scale attached to a variable. * * @param did HDF5 ID for dimscale. * @param dim * @param dsid * @param dimscale_hdf5_objids * * @return 0 for success, -1 for error. * @author Ed Hartnett */ static herr_t dimscale_visitor(hid_t did, unsigned dim, hid_t dsid, void *dimscale_hdf5_objids) { H5G_stat_t statbuf; LOG((4, "%s", __func__)); /* Get more info on the dimscale object.*/ if (H5Gget_objinfo(dsid, ".", 1, &statbuf) < 0) return -1; /* Pass this information back to caller. */ (*(HDF5_OBJID_T *)dimscale_hdf5_objids).fileno[0] = statbuf.fileno[0]; (*(HDF5_OBJID_T *)dimscale_hdf5_objids).fileno[1] = statbuf.fileno[1]; (*(HDF5_OBJID_T *)dimscale_hdf5_objids).objno[0] = statbuf.objno[0]; (*(HDF5_OBJID_T *)dimscale_hdf5_objids).objno[1] = statbuf.objno[1]; return 0; } /** * @internal For files without any netCDF-4 dimensions defined, create phony * dimension to match the available datasets. * * @param grp Pointer to the group info. * @param hdf_datasetid HDF5 datsetid for the var's dataset. * @param var Pointer to the var info. * * @returns NC_NOERR No error. * @returns NC_EHDFERR HDF5 returned an error. * @returns NC_ENOMEM Out of memory. * @author Ed Hartnett */ static int create_phony_dims(NC_GRP_INFO_T *grp, hid_t hdf_datasetid, NC_VAR_INFO_T *var) { NC_DIM_INFO_T *dim; hid_t spaceid = 0; hsize_t *h5dimlen = NULL, *h5dimlenmax = NULL; int dataset_ndims; int d; int retval = NC_NOERR; /* Find the space information for this dimension. */ if ((spaceid = H5Dget_space(hdf_datasetid)) < 0) BAIL(NC_EHDFERR); /* Get the len of each dim in the space. */ if (var->ndims) { /* Allocate storage for dim lens and max lens for this var. */ if (!(h5dimlen = malloc(var->ndims * sizeof(hsize_t)))) return NC_ENOMEM; if (!(h5dimlenmax = malloc(var->ndims * sizeof(hsize_t)))) BAIL(NC_ENOMEM); /* Get ndims, also len and mac len of all dims. */ if ((dataset_ndims = H5Sget_simple_extent_dims(spaceid, h5dimlen, h5dimlenmax)) < 0) BAIL(NC_EHDFERR); assert(dataset_ndims == var->ndims); } else { /* Make sure it's scalar. */ assert(H5Sget_simple_extent_type(spaceid) == H5S_SCALAR); } /* Create a phony dimension for each dimension in the dataset, * unless there already is one the correct size. */ for (d = 0; d < var->ndims; d++) { int k; int match; /* Is there already a phony dimension of the correct size? */ for (match=-1, k = 0; k < ncindexsize(grp->dim); k++) { dim = (NC_DIM_INFO_T *)ncindexith(grp->dim, k); assert(dim); if ((dim->len == h5dimlen[d]) && ((h5dimlenmax[d] == H5S_UNLIMITED && dim->unlimited) || (h5dimlenmax[d] != H5S_UNLIMITED && !dim->unlimited))) {match = k; break;} } /* Didn't find a phony dim? Then create one. */ if (match < 0) { char phony_dim_name[NC_MAX_NAME + 1]; sprintf(phony_dim_name, "phony_dim_%d", grp->nc4_info->next_dimid); LOG((3, "%s: creating phony dim for var %s", __func__, var->hdr.name)); /* Add phony dim to metadata list. */ if ((retval = nc4_dim_list_add(grp, phony_dim_name, h5dimlen[d], -1, &dim))) BAIL(retval); /* Create struct for HDF5-specific dim info. */ if (!(dim->format_dim_info = calloc(1, sizeof(NC_HDF5_DIM_INFO_T)))) BAIL(NC_ENOMEM); if (h5dimlenmax[d] == H5S_UNLIMITED) dim->unlimited = NC_TRUE; } /* The variable must remember the dimid. */ var->dimids[d] = dim->hdr.id; var->dim[d] = dim; } /* next dim */ exit: /* Free resources. */ if (spaceid > 0 && H5Sclose(spaceid) < 0) BAIL2(NC_EHDFERR); if (h5dimlenmax) free(h5dimlenmax); if (h5dimlen) free(h5dimlen); return retval; } /** * @internal Iterate through the vars in this file and make sure we've * got a dimid and a pointer to a dim for each dimension. This may * already have been done using the COORDINATES hidden attribute, in * which case this function will not have to do anything. This is * desirable because recurdively matching the dimscales (when * necessary) is very much the slowest part of opening a file. * * @param grp Pointer to group info struct. * * @returns NC_NOERR No error. * @returns NC_EHDFERR HDF5 returned an error. * @returns NC_ENOMEM Out of memory. * @author Ed Hartnett */ static int rec_match_dimscales(NC_GRP_INFO_T *grp) { NC_VAR_INFO_T *var; NC_DIM_INFO_T *dim; int retval = NC_NOERR; int i; assert(grp && grp->hdr.name); LOG((4, "%s: grp->hdr.name %s", __func__, grp->hdr.name)); /* Perform var dimscale match for child groups. */ for (i = 0; i < ncindexsize(grp->children); i++) if ((retval = rec_match_dimscales((NC_GRP_INFO_T *)ncindexith(grp->children, i)))) return retval; /* Check all the vars in this group. If they have dimscale info, * try and find a dimension for them. */ for (i = 0; i < ncindexsize(grp->vars); i++) { NC_HDF5_VAR_INFO_T *hdf5_var; int d; /* Get pointer to var and to the HDF5-specific var info. */ var = (NC_VAR_INFO_T *)ncindexith(grp->vars, i); assert(var && var->format_var_info); hdf5_var = (NC_HDF5_VAR_INFO_T *)var->format_var_info; /* Check all vars and see if dim[i] != NULL if dimids[i] * valid. Recall that dimids were initialized to -1. */ for (d = 0; d < var->ndims; d++) { if (!var->dim[d]) nc4_find_dim(grp, var->dimids[d], &var->dim[d], NULL); } /* Skip dimension scale variables */ if (var->dimscale) continue; /* If we have already read hidden coordinates att, then we don't * have to match dimscales for this var. */ if (var->coords_read) continue; /* Skip dimension scale variables */ if (!var->dimscale) { int d; int j; /* Are there dimscales for this variable? */ if (hdf5_var->dimscale_hdf5_objids) { for (d = 0; d < var->ndims; d++) { NC_GRP_INFO_T *g; nc_bool_t finished = NC_FALSE; LOG((5, "%s: var %s has dimscale info...", __func__, var->hdr.name)); /* If we already have the dimension, we don't need to * match the dimscales. This is better because matching * the dimscales is slow. */ if (var->dim[d]) continue; /* Now we have to try to match dimscales. Check this * and parent groups. */ for (g = grp; g && !finished; g = g->parent) { /* Check all dims in this group. */ for (j = 0; j < ncindexsize(g->dim); j++) { /* Get the HDF5 specific dim info. */ NC_HDF5_DIM_INFO_T *hdf5_dim; dim = (NC_DIM_INFO_T *)ncindexith(g->dim, j); assert(dim && dim->format_dim_info); hdf5_dim = (NC_HDF5_DIM_INFO_T *)dim->format_dim_info; /* Check for exact match of fileno/objid arrays * to find identical objects in HDF5 file. */ if (hdf5_var->dimscale_hdf5_objids[d].fileno[0] == hdf5_dim->hdf5_objid.fileno[0] && hdf5_var->dimscale_hdf5_objids[d].objno[0] == hdf5_dim->hdf5_objid.objno[0] && hdf5_var->dimscale_hdf5_objids[d].fileno[1] == hdf5_dim->hdf5_objid.fileno[1] && hdf5_var->dimscale_hdf5_objids[d].objno[1] == hdf5_dim->hdf5_objid.objno[1]) { LOG((4, "%s: for dimension %d, found dim %s", __func__, d, dim->hdr.name)); var->dimids[d] = dim->hdr.id; var->dim[d] = dim; finished = NC_TRUE; break; } } /* next dim */ } /* next grp */ } /* next var->dim */ } else { /* No dimscales for this var! Invent phony dimensions. */ if ((retval = create_phony_dims(grp, hdf5_var->hdf_datasetid, var))) return retval; } } } return retval; } /** * @internal Check for the attribute that indicates that netcdf * classic model is in use. * * @param root_grp pointer to the group info for the root group of the * @param is_classic store 1 if this is a classic file. * file. * * @return NC_NOERR No error. * @author Ed Hartnett */ static int check_for_classic_model(NC_GRP_INFO_T *root_grp, int *is_classic) { htri_t attr_exists; hid_t grpid; /* Check inputs. */ assert(root_grp && root_grp->format_grp_info && !root_grp->parent && is_classic); /* Get the HDF5 group id. */ grpid = ((NC_HDF5_GRP_INFO_T *)(root_grp->format_grp_info))->hdf_grpid; /* If this attribute exists in the root group, then classic model * is in effect. */ if ((attr_exists = H5Aexists(grpid, NC3_STRICT_ATT_NAME)) < 0) return NC_EHDFERR; *is_classic = attr_exists ? 1 : 0; return NC_NOERR; } /** * @internal Open a netcdf-4 file. Things have already been kicked off * in ncfunc.c in nc_open, but here the netCDF-4 part of opening a * file is handled. * * @param path The file name of the new file. * @param mode The open mode flag. * @param parameters File parameters. * @param nc Pointer to NC file info. * * @return ::NC_NOERR No error. * @return ::NC_ENOMEM Out of memory. * @return ::NC_EINTERNAL Internal list error. * @return ::NC_EHDFERR HDF error. * @return ::NC_EMPI MPI error for parallel. * @return ::NC_EPARINIT Parallel I/O initialization error. * @return ::NC_EINMEMMORY Memory file error. * @author Ed Hartnett, Dennis Heimbigner */ static int nc4_open_file(const char *path, int mode, void* parameters, NC *nc) { hid_t fapl_id = H5P_DEFAULT; int retval; unsigned flags; NC_FILE_INFO_T *nc4_info = NULL; int is_classic; #ifdef USE_PARALLEL4 NC_MPI_INFO* mpiinfo = NULL; int comm_duped = 0; /* Whether the MPI Communicator was duplicated */ int info_duped = 0; /* Whether the MPI Info object was duplicated */ #endif LOG((3, "%s: path %s mode %d", __func__, path, mode)); assert(path && nc); flags = (mode & NC_WRITE) ? H5F_ACC_RDWR : H5F_ACC_RDONLY; /* Add necessary structs to hold netcdf-4 file data. */ if ((retval = nc4_nc4f_list_add(nc, path, mode))) BAIL(retval); nc4_info = NC4_DATA(nc); assert(nc4_info && nc4_info->root_grp); /* Add struct to hold HDF5-specific file metadata. */ if (!(nc4_info->format_file_info = calloc(1, sizeof(NC_HDF5_FILE_INFO_T)))) BAIL(NC_ENOMEM); /* Add struct to hold HDF5-specific group info. */ if (!(nc4_info->root_grp->format_grp_info = calloc(1, sizeof(NC_HDF5_GRP_INFO_T)))) BAIL(NC_ENOMEM); nc4_info->mem.inmemory = ((mode & NC_INMEMORY) == NC_INMEMORY); nc4_info->mem.diskless = ((mode & NC_DISKLESS) == NC_DISKLESS); nc4_info->mem.persist = ((mode & NC_PERSIST) == NC_PERSIST); /* Does the mode specify that this file is read-only? */ if ((mode & NC_WRITE) == 0) nc4_info->no_write = NC_TRUE; if(nc4_info->mem.inmemory && nc4_info->mem.diskless) BAIL(NC_EINTERNAL); #ifdef USE_PARALLEL4 mpiinfo = (NC_MPI_INFO*)parameters; /* assume, may be changed if inmemory is true */ #endif /* !USE_PARALLEL4 */ /* Need this access plist to control how HDF5 handles open objects * on file close. (Setting H5F_CLOSE_SEMI will cause H5Fclose to * fail if there are any open objects in the file). */ if ((fapl_id = H5Pcreate(H5P_FILE_ACCESS)) < 0) BAIL(NC_EHDFERR); if (H5Pset_fclose_degree(fapl_id, H5F_CLOSE_SEMI) < 0) BAIL(NC_EHDFERR); #ifdef USE_PARALLEL4 if (!(mode & (NC_INMEMORY | NC_DISKLESS)) && mpiinfo != NULL) { /* If this is a parallel file create, set up the file creation * property list. */ nc4_info->parallel = NC_TRUE; LOG((4, "opening parallel file with MPI/IO")); if (H5Pset_fapl_mpio(fapl_id, mpiinfo->comm, mpiinfo->info) < 0) BAIL(NC_EPARINIT); /* Keep copies of the MPI Comm & Info objects */ if (MPI_SUCCESS != MPI_Comm_dup(mpiinfo->comm, &nc4_info->comm)) BAIL(NC_EMPI); comm_duped++; if (MPI_INFO_NULL != mpiinfo->info) { if (MPI_SUCCESS != MPI_Info_dup(mpiinfo->info, &nc4_info->info)) BAIL(NC_EMPI); info_duped++; } else { /* No dup, just copy it. */ nc4_info->info = mpiinfo->info; } } #ifdef HDF5_HAS_COLL_METADATA_OPS if (H5Pset_all_coll_metadata_ops(fapl_id, 1) < 0) BAIL(NC_EPARINIT); #endif #else /* only set cache for non-parallel. */ if (H5Pset_cache(fapl_id, 0, nc4_chunk_cache_nelems, nc4_chunk_cache_size, nc4_chunk_cache_preemption) < 0) BAIL(NC_EHDFERR); LOG((4, "%s: set HDF raw chunk cache to size %d nelems %d preemption %f", __func__, nc4_chunk_cache_size, nc4_chunk_cache_nelems, nc4_chunk_cache_preemption)); #endif /* USE_PARALLEL4 */ /* Process NC_INMEMORY */ if(nc4_info->mem.inmemory) { NC_memio* memio; /* validate */ if(parameters == NULL) BAIL(NC_EINMEMORY); memio = (NC_memio*)parameters; if(memio->memory == NULL || memio->size == 0) BAIL(NC_EINMEMORY); /* initialize h5->mem */ nc4_info->mem.memio = *memio; /* Is the incoming memory locked? */ nc4_info->mem.locked = (nc4_info->mem.memio.flags & NC_MEMIO_LOCKED) == NC_MEMIO_LOCKED; /* As a safeguard, if not locked and not read-only, then we must take control of the incoming memory */ if(!nc4_info->mem.locked && !nc4_info->no_write) { memio->memory = NULL; /* take control */ memio->size = 0; } retval = NC4_open_image_file(nc4_info); if(retval) BAIL(NC_EHDFERR); } else if(nc4_info->mem.diskless) { /* Process NC_DISKLESS */ NC_HDF5_FILE_INFO_T *hdf5_info; size_t min_incr = 65536; /* Minimum buffer increment */ /* Configure FAPL to use the core file driver */ if (H5Pset_fapl_core(fapl_id, min_incr, (nc4_info->mem.persist?1:0)) < 0) BAIL(NC_EHDFERR); hdf5_info = (NC_HDF5_FILE_INFO_T *)nc4_info->format_file_info; /* Open the HDF5 file. */ if ((hdf5_info->hdfid = H5Fopen(path, flags, fapl_id)) < 0) BAIL(NC_EHDFERR); } else { NC_HDF5_FILE_INFO_T *hdf5_info; hdf5_info = (NC_HDF5_FILE_INFO_T *)nc4_info->format_file_info; /* Open the HDF5 file. */ if ((hdf5_info->hdfid = H5Fopen(path, flags, fapl_id)) < 0) BAIL(NC_EHDFERR); } /* Now read in all the metadata. Some types and dimscale * information may be difficult to resolve here, if, for example, a * dataset of user-defined type is encountered before the * definition of that type. */ if ((retval = rec_read_metadata(nc4_info->root_grp))) BAIL(retval); /* Check for classic model attribute. */ if ((retval = check_for_classic_model(nc4_info->root_grp, &is_classic))) BAIL(retval); if (is_classic) nc4_info->cmode |= NC_CLASSIC_MODEL; /* See if this file contained _NCPROPERTIES, and if yes, process * it, if no, then fake it. */ if ((retval = NC4_read_ncproperties(nc4_info))) BAIL(retval); /* Now figure out which netCDF dims are indicated by the dimscale * information. */ if ((retval = rec_match_dimscales(nc4_info->root_grp))) BAIL(retval); #ifdef LOGGING /* This will print out the names, types, lens, etc of the vars and atts in the file, if the logging level is 2 or greater. */ log_metadata_nc(nc4_info); #endif /* Close the property list. */ if (H5Pclose(fapl_id) < 0) BAIL(NC_EHDFERR); return NC_NOERR; exit: #ifdef USE_PARALLEL4 if (comm_duped) MPI_Comm_free(&nc4_info->comm); if (info_duped) MPI_Info_free(&nc4_info->info); #endif if (fapl_id > 0 && fapl_id != H5P_DEFAULT) H5Pclose(fapl_id); if (nc4_info) nc4_close_hdf5_file(nc4_info, 1, 0); /* treat like abort*/ return retval; } /** * @internal Open a netCDF-4 file. * * @param path The file name of the new file. * @param mode The open mode flag. * @param basepe Ignored by this function. * @param chunksizehintp Ignored by this function. * @param parameters pointer to struct holding extra data (e.g. for parallel I/O) * layer. Ignored if NULL. * @param dispatch Pointer to the dispatch table for this file. * @param nc_file Pointer to an instance of NC. * * @return ::NC_NOERR No error. * @return ::NC_EINVAL Invalid inputs. * @author Ed Hartnett */ int NC4_open(const char *path, int mode, int basepe, size_t *chunksizehintp, void *parameters, NC_Dispatch *dispatch, NC *nc_file) { assert(nc_file && path && dispatch && nc_file && nc_file->model == NC_FORMATX_NC4); LOG((1, "%s: path %s mode %d params %x", __func__, path, mode, parameters)); /* Check the mode for validity */ if (mode & ILLEGAL_OPEN_FLAGS) return NC_EINVAL; if((mode & NC_DISKLESS) && (mode & NC_INMEMORY)) return NC_EINVAL; /* If this is our first file, initialize HDF5. */ if (!nc4_hdf5_initialized) nc4_hdf5_initialize(); #ifdef LOGGING /* If nc logging level has changed, see if we need to turn on * HDF5's error messages. */ hdf5_set_log_level(); #endif /* LOGGING */ nc_file->int_ncid = nc_file->ext_ncid; /* Open the file. */ return nc4_open_file(path, mode, parameters, nc_file); } /** * @internal Find out what filters are applied to this HDF5 dataset, * fletcher32, deflate, and/or shuffle. All other filters are just * dumped The possible values of * * @param propid ID of HDF5 var creation properties list. * @param var Pointer to NC_VAR_INFO_T for this variable. * * @return ::NC_NOERR No error. * @return ::NC_ENOMEM Out of memory. * @return ::NC_EHDFERR HDF5 returned error. * @author Dennis Heimbigner, Ed Hartnett */ static int get_filter_info(hid_t propid, NC_VAR_INFO_T *var) { H5Z_filter_t filter; int num_filters; unsigned int cd_values_zip[CD_NELEMS_ZLIB]; size_t cd_nelems = CD_NELEMS_ZLIB; int f; assert(var); if ((num_filters = H5Pget_nfilters(propid)) < 0) return NC_EHDFERR; for (f = 0; f < num_filters; f++) { if ((filter = H5Pget_filter2(propid, f, NULL, &cd_nelems, cd_values_zip, 0, NULL, NULL)) < 0) return NC_EHDFERR; switch (filter) { case H5Z_FILTER_SHUFFLE: var->shuffle = NC_TRUE; break; case H5Z_FILTER_FLETCHER32: var->fletcher32 = NC_TRUE; break; case H5Z_FILTER_DEFLATE: var->deflate = NC_TRUE; if (cd_nelems != CD_NELEMS_ZLIB || cd_values_zip[0] > NC_MAX_DEFLATE_LEVEL) return NC_EHDFERR; var->deflate_level = cd_values_zip[0]; break; case H5Z_FILTER_SZIP: /* Szip is tricky because the filter code expands the set of parameters from 2 to 4 and changes some of the parameter values */ var->filterid = filter; if(cd_nelems == 0) var->params = NULL; else { /* We have to re-read the parameters based on actual nparams, which in the case of szip, differs from users original nparams */ var->params = (unsigned int*)calloc(1,sizeof(unsigned int)*cd_nelems); if(var->params == NULL) return NC_ENOMEM; if((filter = H5Pget_filter2(propid, f, NULL, &cd_nelems, var->params, 0, NULL, NULL)) < 0) return NC_EHDFERR; /* fix up the parameters and the #params */ var->nparams = cd_nelems; } break; default: var->filterid = filter; var->nparams = cd_nelems; if(cd_nelems == 0) var->params = NULL; else { /* We have to re-read the parameters based on actual nparams */ var->params = (unsigned int*)calloc(1,sizeof(unsigned int)*var->nparams); if(var->params == NULL) return NC_ENOMEM; if((filter = H5Pget_filter2(propid, f, NULL, &cd_nelems, var->params, 0, NULL, NULL)) < 0) return NC_EHDFERR; } break; } } return NC_NOERR; } /** * @internal Learn if there is a fill value defined for a variable, * and, if so, its value. * * @param propid ID of HDF5 var creation properties list. * @param var Pointer to NC_VAR_INFO_T for this variable. * * @return ::NC_NOERR No error. * @return ::NC_ENOMEM Out of memory. * @return ::NC_EHDFERR HDF5 returned error. * @author Dennis Heimbigner, Ed Hartnett */ static int get_fill_info(hid_t propid, NC_VAR_INFO_T *var) { H5D_fill_value_t fill_status; /* Is there a fill value associated with this dataset? */ if (H5Pfill_value_defined(propid, &fill_status) < 0) return NC_EHDFERR; /* Get the fill value, if there is one defined. */ if (fill_status == H5D_FILL_VALUE_USER_DEFINED) { /* Allocate space to hold the fill value. */ if (!var->fill_value) { if (var->type_info->nc_type_class == NC_VLEN) { if (!(var->fill_value = malloc(sizeof(nc_vlen_t)))) return NC_ENOMEM; } else if (var->type_info->nc_type_class == NC_STRING) { if (!(var->fill_value = malloc(sizeof(char *)))) return NC_ENOMEM; } else { assert(var->type_info->size); if (!(var->fill_value = malloc(var->type_info->size))) return NC_ENOMEM; } } /* Get the fill value from the HDF5 property lust. */ if (H5Pget_fill_value(propid, ((NC_HDF5_TYPE_INFO_T *)var->type_info->format_type_info)->native_hdf_typeid, var->fill_value) < 0) return NC_EHDFERR; } else var->no_fill = NC_TRUE; return NC_NOERR; } /** * @internal Learn the chunking settings of a var. * * @param propid ID of HDF5 var creation properties list. * @param var Pointer to NC_VAR_INFO_T for this variable. * * @return ::NC_NOERR No error. * @return ::NC_ENOMEM Out of memory. * @return ::NC_EHDFERR HDF5 returned error. * @author Dennis Heimbigner, Ed Hartnett */ static int get_chunking_info(hid_t propid, NC_VAR_INFO_T *var) { H5D_layout_t layout; hsize_t chunksize[H5S_MAX_RANK] = {0}; int d; /* Get the chunking info the var. */ if ((layout = H5Pget_layout(propid)) < -1) return NC_EHDFERR; /* Remember the layout and, if chunked, the chunksizes. */ if (layout == H5D_CHUNKED) { if (H5Pget_chunk(propid, H5S_MAX_RANK, chunksize) < 0) return NC_EHDFERR; if (!(var->chunksizes = malloc(var->ndims * sizeof(size_t)))) return NC_ENOMEM; for (d = 0; d < var->ndims; d++) var->chunksizes[d] = chunksize[d]; } else if (layout == H5D_CONTIGUOUS || layout == H5D_COMPACT) var->contiguous = NC_TRUE; return NC_NOERR; } /** * @internal This function gets info about the dimscales attached to a * dataset. The info is used later for dimscale matching. * * @param var Pointer to var info struct. * @param hdf5_var Pointer to HDF5 var info struct. * @param ndims Number of dims for this var. * @param datasetid HDF5 datasetid. * * @return ::NC_NOERR No error. * @return ::NC_EBADID Bad ncid. * @return ::NC_ENOMEM Out of memory. * @return ::NC_EHDFERR HDF5 returned error. * @return ::NC_EVARMETA Error with var metadata. * @author Ed Hartnett, Dennis Heimbigner */ static int get_attached_info(NC_VAR_INFO_T *var, NC_HDF5_VAR_INFO_T *hdf5_var, int ndims, hid_t datasetid) { int d; int num_scales = 0; LOG((4, "%s ndims %d datasetid %ld", __func__, ndims, datasetid)); /* Find out how many scales are attached to this * dataset. H5DSget_num_scales returns an error if there are no * scales, so convert a negative return value to zero. */ num_scales = H5DSget_num_scales(datasetid, 0); if (num_scales < 0) num_scales = 0; LOG((4, "num_scales %d", num_scales)); /* If an enddef has already been called, the dimscales will already * be taken care of. */ if (num_scales && ndims && !var->dimscale_attached) { /* Allocate space to remember whether the dimscale has been * attached for each dimension, and the HDF5 object IDs of the * scale(s). */ assert(!hdf5_var->dimscale_hdf5_objids); if (!(var->dimscale_attached = calloc(ndims, sizeof(nc_bool_t)))) return NC_ENOMEM; if (!(hdf5_var->dimscale_hdf5_objids = malloc(ndims * sizeof(struct hdf5_objid)))) return NC_ENOMEM; /* Store id information allowing us to match hdf5 dimscales to * netcdf dimensions. */ for (d = 0; d < var->ndims; d++) { LOG((4, "about to iterate scales for dim %d", d)); if (H5DSiterate_scales(hdf5_var->hdf_datasetid, d, NULL, dimscale_visitor, &(hdf5_var->dimscale_hdf5_objids[d])) < 0) return NC_EHDFERR; var->dimscale_attached[d] = NC_TRUE; LOG((4, "dimscale attached")); } } return NC_NOERR; } /** * @internal This function reads scale info for vars, whether they * are scales or not. * * @param grp Pointer to group info struct. * @param dim Pointer to dim info struct if this is a scale, NULL * otherwise. * @param var Pointer to var info struct. * @param hdf5_var Pointer to HDF5 var info struct. * @param ndims Number of dims for this var. * @param datasetid HDF5 datasetid. * * @return ::NC_NOERR No error. * @return ::NC_EBADID Bad ncid. * @return ::NC_ENOMEM Out of memory. * @return ::NC_EHDFERR HDF5 returned error. * @return ::NC_EVARMETA Error with var metadata. * @author Ed Hartnett, Dennis Heimbigner */ static int get_scale_info(NC_GRP_INFO_T *grp, NC_DIM_INFO_T *dim, NC_VAR_INFO_T *var, NC_HDF5_VAR_INFO_T *hdf5_var, int ndims, hid_t datasetid) { int retval; /* If it's a scale, mark it as such. */ if (dim) { assert(ndims); var->dimscale = NC_TRUE; /* If this is a multi-dimensional coordinate var, then the * dimids must be stored in the hidden coordinates attribute. */ if (var->ndims > 1) { if ((retval = read_coord_dimids(grp, var))) return retval; } else { /* This is a 1-dimensional coordinate var. */ assert(!strcmp(var->hdr.name, dim->hdr.name)); var->dimids[0] = dim->hdr.id; var->dim[0] = dim; } dim->coord_var = var; } else /* Not a scale. */ { if (!var->coords_read) if ((retval = get_attached_info(var, hdf5_var, ndims, datasetid))) return retval; } return NC_NOERR; } /** * @internal Get the metadata for a variable. * * @param var Pointer to var info struct. * * @return ::NC_NOERR No error. * @return ::NC_EBADID Bad ncid. * @return ::NC_ENOMEM Out of memory. * @return ::NC_EHDFERR HDF5 returned error. * @return ::NC_EVARMETA Error with var metadata. * @author Ed Hartnett */ int nc4_get_var_meta(NC_VAR_INFO_T *var) { NC_HDF5_VAR_INFO_T *hdf5_var; hid_t access_pid = 0; hid_t propid = 0; double rdcc_w0; int retval = NC_NOERR; assert(var && var->format_var_info); LOG((3, "%s: var %s", __func__, var->hdr.name)); /* Have we already read the var metadata? */ if (var->meta_read) return NC_NOERR; /* Get pointer to the HDF5-specific var info struct. */ hdf5_var = (NC_HDF5_VAR_INFO_T *)var->format_var_info; /* Get the current chunk cache settings. */ if ((access_pid = H5Dget_access_plist(hdf5_var->hdf_datasetid)) < 0) BAIL(NC_EVARMETA); /* Learn about current chunk cache settings. */ if ((H5Pget_chunk_cache(access_pid, &(var->chunk_cache_nelems), &(var->chunk_cache_size), &rdcc_w0)) < 0) BAIL(NC_EHDFERR); var->chunk_cache_preemption = rdcc_w0; /* Get the dataset creation properties. */ if ((propid = H5Dget_create_plist(hdf5_var->hdf_datasetid)) < 0) BAIL(NC_EHDFERR); /* Get var chunking info. */ if ((retval = get_chunking_info(propid, var))) BAIL(retval); /* Get filter info for a var. */ if ((retval = get_filter_info(propid, var))) BAIL(retval); /* Get fill value, if defined. */ if ((retval = get_fill_info(propid, var))) BAIL(retval); /* Is this a deflated variable with a chunksize greater than the * current cache size? */ if ((retval = nc4_adjust_var_cache(var->container, var))) BAIL(retval); if (var->coords_read && !var->dimscale) if ((retval = get_attached_info(var, hdf5_var, var->ndims, hdf5_var->hdf_datasetid))) return retval; /* Remember that we have read the metadata for this var. */ var->meta_read = NC_TRUE; exit: if (access_pid && H5Pclose(access_pid) < 0) BAIL2(NC_EHDFERR); if (propid > 0 && H5Pclose(propid) < 0) BAIL2(NC_EHDFERR); return retval; } /** * @internal This function is called by read_dataset(), (which is * called by rec_read_metadata()) when a netCDF variable is found in * the file. This function reads in all the metadata about the * var. Attributes are not read until the user asks for information * about one of them. * * @param grp Pointer to group info struct. * @param datasetid HDF5 dataset ID. * @param obj_name Name of the HDF5 object to read. * @param ndims Number of dimensions. * @param dim If non-NULL, then this var is a coordinate var for a * dimension, and this points to the info for that dimension. * * @return ::NC_NOERR No error. * @return ::NC_EBADID Bad ncid. * @return ::NC_ENOMEM Out of memory. * @return ::NC_EHDFERR HDF5 returned error. * @return ::NC_EVARMETA Error with var metadata. * @author Ed Hartnett, Dennis Heimbigner */ static int read_var(NC_GRP_INFO_T *grp, hid_t datasetid, const char *obj_name, size_t ndims, NC_DIM_INFO_T *dim) { NC_VAR_INFO_T *var = NULL; NC_HDF5_VAR_INFO_T *hdf5_var; int incr_id_rc = 0; /* Whether dataset ID's ref count has been incremented */ char *finalname = NULL; int retval = NC_NOERR; assert(obj_name && grp); LOG((4, "%s: obj_name %s", __func__, obj_name)); /* Check for a weird case: a non-coordinate variable that has the * same name as a dimension. It's legal in netcdf, and requires * that the HDF5 dataset name be changed. */ if (strlen(obj_name) > strlen(NON_COORD_PREPEND) && !strncmp(obj_name, NON_COORD_PREPEND, strlen(NON_COORD_PREPEND))) { /* Allocate space for the name. */ if (!(finalname = malloc(((strlen(obj_name) - strlen(NON_COORD_PREPEND))+ 1) * sizeof(char)))) BAIL(NC_ENOMEM); strcpy(finalname, &obj_name[strlen(NON_COORD_PREPEND)]); } else finalname = strdup(obj_name); /* Add a variable to the end of the group's var list. */ if ((retval = nc4_var_list_add(grp, finalname, ndims, &var))) BAIL(retval); /* Add storage for HDF5-specific var info. */ if (!(var->format_var_info = calloc(1, sizeof(NC_HDF5_VAR_INFO_T)))) BAIL(NC_ENOMEM); hdf5_var = (NC_HDF5_VAR_INFO_T *)var->format_var_info; /* Fill in what we already know. */ hdf5_var->hdf_datasetid = datasetid; H5Iinc_ref(hdf5_var->hdf_datasetid); /* Increment number of objects using ID */ incr_id_rc++; /* Indicate that we've incremented the ref. count (for errors) */ var->created = NC_TRUE; var->atts_read = 0; /* Try and read the dimids from the COORDINATES attribute. If it's * not present, we will have to do dimsscale matching to locate the * dims for this var. */ retval = read_coord_dimids(grp, var); if (retval && retval != NC_ENOTATT) BAIL(retval); retval = NC_NOERR; /* Handle scale info. */ if ((retval = get_scale_info(grp, dim, var, hdf5_var, ndims, datasetid))) BAIL(retval); /* Learn all about the type of this variable. This will fail for * HDF5 reference types, and then the var we just created will be * deleted, thus ignoring HDF5 reference type objects. */ if ((retval = get_type_info2(var->container->nc4_info, hdf5_var->hdf_datasetid, &var->type_info))) BAIL(retval); /* Indicate that the variable has a pointer to the type */ var->type_info->rc++; exit: if (finalname) free(finalname); if (retval) { /* If there was an error, decrement the dataset ref counter, and * delete the var info struct we just created. */ if (incr_id_rc && H5Idec_ref(datasetid) < 0) BAIL2(NC_EHDFERR); if (var) nc4_var_list_del(grp, var); } return retval; } /** * @internal Given an HDF5 type, set a pointer to netcdf type. * * @param h5 Pointer to HDF5 file info struct. * @param native_typeid HDF5 type ID. * @param xtype Pointer that gets netCDF type. * * @return ::NC_NOERR No error. * @return ::NC_EBADID Bad ncid. * @return ::NC_EHDFERR HDF5 returned error. * @return ::NC_EBADTYPID Type not found. * @author Ed Hartnett */ static int get_netcdf_type(NC_FILE_INFO_T *h5, hid_t native_typeid, nc_type *xtype) { NC_TYPE_INFO_T *type; H5T_class_t class; htri_t is_str, equal = 0; assert(h5 && xtype); if ((class = H5Tget_class(native_typeid)) < 0) return NC_EHDFERR; /* H5Tequal doesn't work with H5T_C_S1 for some reason. But * H5Tget_class will return H5T_STRING if this is a string. */ if (class == H5T_STRING) { if ((is_str = H5Tis_variable_str(native_typeid)) < 0) return NC_EHDFERR; if (is_str) *xtype = NC_STRING; else *xtype = NC_CHAR; return NC_NOERR; } else if (class == H5T_INTEGER || class == H5T_FLOAT) { /* For integers and floats, we don't have to worry about * endianness if we compare native types. */ if ((equal = H5Tequal(native_typeid, H5T_NATIVE_SCHAR)) < 0) return NC_EHDFERR; if (equal) { *xtype = NC_BYTE; return NC_NOERR; } if ((equal = H5Tequal(native_typeid, H5T_NATIVE_SHORT)) < 0) return NC_EHDFERR; if (equal) { *xtype = NC_SHORT; return NC_NOERR; } if ((equal = H5Tequal(native_typeid, H5T_NATIVE_INT)) < 0) return NC_EHDFERR; if (equal) { *xtype = NC_INT; return NC_NOERR; } if ((equal = H5Tequal(native_typeid, H5T_NATIVE_FLOAT)) < 0) return NC_EHDFERR; if (equal) { *xtype = NC_FLOAT; return NC_NOERR; } if ((equal = H5Tequal(native_typeid, H5T_NATIVE_DOUBLE)) < 0) return NC_EHDFERR; if (equal) { *xtype = NC_DOUBLE; return NC_NOERR; } if ((equal = H5Tequal(native_typeid, H5T_NATIVE_UCHAR)) < 0) return NC_EHDFERR; if (equal) { *xtype = NC_UBYTE; return NC_NOERR; } if ((equal = H5Tequal(native_typeid, H5T_NATIVE_USHORT)) < 0) return NC_EHDFERR; if (equal) { *xtype = NC_USHORT; return NC_NOERR; } if ((equal = H5Tequal(native_typeid, H5T_NATIVE_UINT)) < 0) return NC_EHDFERR; if (equal) { *xtype = NC_UINT; return NC_NOERR; } if ((equal = H5Tequal(native_typeid, H5T_NATIVE_LLONG)) < 0) return NC_EHDFERR; if (equal) { *xtype = NC_INT64; return NC_NOERR; } if ((equal = H5Tequal(native_typeid, H5T_NATIVE_ULLONG)) < 0) return NC_EHDFERR; if (equal) { *xtype = NC_UINT64; return NC_NOERR; } } /* Maybe we already know about this type. */ if (!equal) if((type = nc4_rec_find_hdf_type(h5, native_typeid))) { *xtype = type->hdr.id; return NC_NOERR; } *xtype = NC_NAT; return NC_EBADTYPID; } /** * @internal Read an attribute. This is called by * att_read_callbk(). * * @param grp Pointer to group info struct. * @param attid Attribute ID. * @param att Pointer that gets att info struct. * * @return ::NC_NOERR No error. * @return ::NC_EHDFERR HDF5 returned error. * @return ::NC_EATTMETA Att metadata error. * @return ::NC_ENOMEM Out of memory. * @author Ed Hartnett */ static int read_hdf5_att(NC_GRP_INFO_T *grp, hid_t attid, NC_ATT_INFO_T *att) { NC_HDF5_ATT_INFO_T *hdf5_att; hid_t spaceid = 0, file_typeid = 0; hsize_t dims[1] = {0}; /* netcdf attributes always 1-D. */ size_t type_size; int att_ndims; hssize_t att_npoints; H5T_class_t att_class; int fixed_len_string = 0; size_t fixed_size = 0; int retval = NC_NOERR; assert(att && att->hdr.name && att->format_att_info); LOG((5, "%s: att->hdr.id %d att->hdr.name %s att->nc_typeid %d att->len %d", __func__, att->hdr.id, att->hdr.name, (int)att->nc_typeid, att->len)); /* Get HDF5-sepecific info stuct for this attribute. */ hdf5_att = (NC_HDF5_ATT_INFO_T *)att->format_att_info; /* Get type of attribute in file. */ if ((file_typeid = H5Aget_type(attid)) < 0) return NC_EATTMETA; if ((hdf5_att->native_hdf_typeid = H5Tget_native_type(file_typeid, H5T_DIR_DEFAULT)) < 0) BAIL(NC_EHDFERR); if ((att_class = H5Tget_class(hdf5_att->native_hdf_typeid)) < 0) BAIL(NC_EATTMETA); if (att_class == H5T_STRING && !H5Tis_variable_str(hdf5_att->native_hdf_typeid)) { fixed_len_string++; if (!(fixed_size = H5Tget_size(hdf5_att->native_hdf_typeid))) BAIL(NC_EATTMETA); } if ((retval = get_netcdf_type(grp->nc4_info, hdf5_att->native_hdf_typeid, &(att->nc_typeid)))) BAIL(retval); /* Get len. */ if ((spaceid = H5Aget_space(attid)) < 0) BAIL(NC_EATTMETA); if ((att_ndims = H5Sget_simple_extent_ndims(spaceid)) < 0) BAIL(NC_EATTMETA); if ((att_npoints = H5Sget_simple_extent_npoints(spaceid)) < 0) BAIL(NC_EATTMETA); /* If both att_ndims and att_npoints are zero, then this is a * zero length att. */ if (att_ndims == 0 && att_npoints == 0) dims[0] = 0; else if (att->nc_typeid == NC_STRING) dims[0] = att_npoints; else if (att->nc_typeid == NC_CHAR) { /* NC_CHAR attributes are written as a scalar in HDF5, of type * H5T_C_S1, of variable length. */ if (att_ndims == 0) { if (!(dims[0] = H5Tget_size(file_typeid))) BAIL(NC_EATTMETA); } else { /* This is really a string type! */ att->nc_typeid = NC_STRING; dims[0] = att_npoints; } } else { H5S_class_t space_class; /* All netcdf attributes are scalar or 1-D only. */ if (att_ndims > 1) BAIL(NC_EATTMETA); /* Check class of HDF5 dataspace */ if ((space_class = H5Sget_simple_extent_type(spaceid)) < 0) BAIL(NC_EATTMETA); /* Check for NULL HDF5 dataspace class (should be weeded out * earlier) */ if (H5S_NULL == space_class) BAIL(NC_EATTMETA); /* check for SCALAR HDF5 dataspace class */ if (H5S_SCALAR == space_class) dims[0] = 1; else /* Must be "simple" dataspace */ { /* Read the size of this attribute. */ if (H5Sget_simple_extent_dims(spaceid, dims, NULL) < 0) BAIL(NC_EATTMETA); } } /* Tell the user what the length if this attribute is. */ att->len = dims[0]; /* Allocate some memory if the len is not zero, and read the attribute. */ if (dims[0]) { if ((retval = nc4_get_typelen_mem(grp->nc4_info, att->nc_typeid, &type_size))) return retval; if (att_class == H5T_VLEN) { if (!(att->vldata = malloc((unsigned int)(att->len * sizeof(hvl_t))))) BAIL(NC_ENOMEM); if (H5Aread(attid, hdf5_att->native_hdf_typeid, att->vldata) < 0) BAIL(NC_EATTMETA); } else if (att->nc_typeid == NC_STRING) { if (!(att->stdata = calloc(att->len, sizeof(char *)))) BAIL(NC_ENOMEM); /* For a fixed length HDF5 string, the read requires * contiguous memory. Meanwhile, the netCDF API requires that * nc_free_string be called on string arrays, which would not * work if one contiguous memory block were used. So here I * convert the contiguous block of strings into an array of * malloced strings (each string with its own malloc). Then I * copy the data and free the contiguous memory. This * involves copying the data, which is bad, but this only * occurs for fixed length string attributes, and presumably * these are small. (And netCDF-4 does not create them - it * always uses variable length strings. */ if (fixed_len_string) { int i; char *contig_buf, *cur; /* Alloc space for the contiguous memory read. */ if (!(contig_buf = malloc(att->len * fixed_size * sizeof(char)))) BAIL(NC_ENOMEM); /* Read the fixed-len strings as one big block. */ if (H5Aread(attid, hdf5_att->native_hdf_typeid, contig_buf) < 0) { free(contig_buf); BAIL(NC_EATTMETA); } /* Copy strings, one at a time, into their new home. Alloc space for each string. The user will later free this space with nc_free_string. */ cur = contig_buf; for (i = 0; i < att->len; i++) { if (!(att->stdata[i] = malloc(fixed_size))) { free(contig_buf); BAIL(NC_ENOMEM); } strncpy(att->stdata[i], cur, fixed_size); cur += fixed_size; } /* Free contiguous memory buffer. */ free(contig_buf); } else { /* Read variable-length string atts. */ if (H5Aread(attid, hdf5_att->native_hdf_typeid, att->stdata) < 0) BAIL(NC_EATTMETA); } } else { if (!(att->data = malloc((unsigned int)(att->len * type_size)))) BAIL(NC_ENOMEM); if (H5Aread(attid, hdf5_att->native_hdf_typeid, att->data) < 0) BAIL(NC_EATTMETA); } } if (H5Tclose(file_typeid) < 0) BAIL(NC_EHDFERR); if (H5Sclose(spaceid) < 0) return NC_EHDFERR; return NC_NOERR; exit: if (H5Tclose(file_typeid) < 0) BAIL2(NC_EHDFERR); if (spaceid > 0 && H5Sclose(spaceid) < 0) BAIL2(NC_EHDFERR); return retval; } /** * @internal Wrap HDF5 allocated memory free operations * * @param memory Pointer to memory to be freed. * * @return ::NC_NOERR No error. * @author Dennis Heimbigner */ static void hdf5free(void* memory) { #ifndef JNA /* On Windows using the microsoft runtime, it is an error for one library to free memory allocated by a different library.*/ #ifdef HDF5_HAS_H5FREE if(memory != NULL) H5free_memory(memory); #else #ifndef _MSC_VER if(memory != NULL) free(memory); #endif #endif #endif } /** * @internal Read information about a user defined type from the HDF5 * file, and stash it in the group's list of types. * * @param grp Pointer to group info struct. * @param hdf_typeid HDF5 type ID. * @param type_name Pointer that gets the type name. * * @return ::NC_NOERR No error. * @return ::NC_EBADID Bad ncid. * @return ::NC_EHDFERR HDF5 returned error. * @return ::NC_EBADTYPID Type not found. * @return ::NC_ENOMEM Out of memory. * @author Ed Hartnett */ static int read_type(NC_GRP_INFO_T *grp, hid_t hdf_typeid, char *type_name) { NC_TYPE_INFO_T *type; NC_HDF5_TYPE_INFO_T *hdf5_type; H5T_class_t class; hid_t native_typeid; size_t type_size; int nmembers; int retval; assert(grp && type_name); LOG((4, "%s: type_name %s grp->hdr.name %s", __func__, type_name, grp->hdr.name)); /* What is the native type for this platform? */ if ((native_typeid = H5Tget_native_type(hdf_typeid, H5T_DIR_DEFAULT)) < 0) return NC_EHDFERR; /* What is the size of this type on this platform. */ if (!(type_size = H5Tget_size(native_typeid))) return NC_EHDFERR; LOG((5, "type_size %d", type_size)); /* Add to the list for this new type, and get a local pointer to it. */ if ((retval = nc4_type_list_add(grp, type_size, type_name, &type))) return retval; /* Allocate storage for HDF5-specific type info. */ if (!(hdf5_type = calloc(1, sizeof(NC_HDF5_TYPE_INFO_T)))) return NC_ENOMEM; type->format_type_info = hdf5_type; /* Remember HDF5-specific type info. */ hdf5_type->hdf_typeid = hdf_typeid; hdf5_type->native_hdf_typeid = native_typeid; /* Remember we have committed this type. */ type->committed = NC_TRUE; /* Increment number of objects using ID. */ if (H5Iinc_ref(hdf5_type->hdf_typeid) < 0) return NC_EHDFERR; /* What is the class of this type, compound, vlen, etc. */ if ((class = H5Tget_class(hdf_typeid)) < 0) return NC_EHDFERR; switch (class) { case H5T_STRING: type->nc_type_class = NC_STRING; break; case H5T_COMPOUND: { int nmembers; unsigned int m; char* member_name = NULL; #ifdef JNA char jna[1001]; #endif type->nc_type_class = NC_COMPOUND; if ((nmembers = H5Tget_nmembers(hdf_typeid)) < 0) return NC_EHDFERR; LOG((5, "compound type has %d members", nmembers)); type->u.c.field = nclistnew(); nclistsetalloc(type->u.c.field,nmembers); for (m = 0; m < nmembers; m++) { hid_t member_hdf_typeid; hid_t member_native_typeid; size_t member_offset; H5T_class_t mem_class; nc_type member_xtype; /* Get the typeid and native typeid of this member of the * compound type. */ if ((member_hdf_typeid = H5Tget_member_type(native_typeid, m)) < 0) return NC_EHDFERR; if ((member_native_typeid = H5Tget_native_type(member_hdf_typeid, H5T_DIR_DEFAULT)) < 0) return NC_EHDFERR; /* Get the name of the member.*/ member_name = H5Tget_member_name(native_typeid, m); if (!member_name || strlen(member_name) > NC_MAX_NAME) { retval = NC_EBADNAME; break; } #ifdef JNA else { strncpy(jna,member_name,1000); member_name = jna; } #endif /* Offset in bytes on *this* platform. */ member_offset = H5Tget_member_offset(native_typeid, m); /* Get dimensional data if this member is an array of something. */ if ((mem_class = H5Tget_class(member_hdf_typeid)) < 0) return NC_EHDFERR; if (mem_class == H5T_ARRAY) { int ndims, dim_size[NC_MAX_VAR_DIMS]; hsize_t dims[NC_MAX_VAR_DIMS]; int d; if ((ndims = H5Tget_array_ndims(member_hdf_typeid)) < 0) return NC_EHDFERR; if (H5Tget_array_dims(member_hdf_typeid, dims, NULL) != ndims) return NC_EHDFERR; for (d = 0; d < ndims; d++) dim_size[d] = dims[d]; /* What is the netCDF typeid of this member? */ if ((retval = get_netcdf_type(grp->nc4_info, H5Tget_super(member_hdf_typeid), &member_xtype))) return retval; /* Add this member to our list of fields in this compound type. */ if ((retval = nc4_field_list_add(type, member_name, member_offset, member_xtype, ndims, dim_size))) return retval; } else { /* What is the netCDF typeid of this member? */ if ((retval = get_netcdf_type(grp->nc4_info, member_native_typeid, &member_xtype))) return retval; /* Add this member to our list of fields in this compound type. */ if ((retval = nc4_field_list_add(type, member_name, member_offset, member_xtype, 0, NULL))) return retval; } hdf5free(member_name); } } break; case H5T_VLEN: { htri_t ret; /* For conveninence we allow user to pass vlens of strings * with null terminated strings. This means strings are * treated slightly differently by the API, although they are * really just VLENs of characters. */ if ((ret = H5Tis_variable_str(hdf_typeid)) < 0) return NC_EHDFERR; if (ret) type->nc_type_class = NC_STRING; else { hid_t base_hdf_typeid; nc_type base_nc_type = NC_NAT; type->nc_type_class = NC_VLEN; /* Find the base type of this vlen (i.e. what is this a * vlen of?) */ if (!(base_hdf_typeid = H5Tget_super(native_typeid))) return NC_EHDFERR; /* What size is this type? */ if (!(type_size = H5Tget_size(base_hdf_typeid))) return NC_EHDFERR; /* What is the netcdf corresponding type. */ if ((retval = get_netcdf_type(grp->nc4_info, base_hdf_typeid, &base_nc_type))) return retval; LOG((5, "base_hdf_typeid 0x%x type_size %d base_nc_type %d", base_hdf_typeid, type_size, base_nc_type)); /* Remember the base type for this vlen. */ type->u.v.base_nc_typeid = base_nc_type; } } break; case H5T_OPAQUE: type->nc_type_class = NC_OPAQUE; break; case H5T_ENUM: { hid_t base_hdf_typeid; nc_type base_nc_type = NC_NAT; void *value; int i; char *member_name = NULL; #ifdef JNA char jna[1001]; #endif type->nc_type_class = NC_ENUM; /* Find the base type of this enum (i.e. what is this a * enum of?) */ if (!(base_hdf_typeid = H5Tget_super(hdf_typeid))) return NC_EHDFERR; /* What size is this type? */ if (!(type_size = H5Tget_size(base_hdf_typeid))) return NC_EHDFERR; /* What is the netcdf corresponding type. */ if ((retval = get_netcdf_type(grp->nc4_info, base_hdf_typeid, &base_nc_type))) return retval; LOG((5, "base_hdf_typeid 0x%x type_size %d base_nc_type %d", base_hdf_typeid, type_size, base_nc_type)); /* Remember the base type for this enum. */ type->u.e.base_nc_typeid = base_nc_type; /* Find out how many member are in the enum. */ if ((nmembers = H5Tget_nmembers(hdf_typeid)) < 0) return NC_EHDFERR; type->u.e.enum_member = nclistnew(); nclistsetalloc(type->u.e.enum_member,nmembers); /* Allocate space for one value. */ if (!(value = calloc(1, type_size))) return NC_ENOMEM; /* Read each name and value defined in the enum. */ for (i = 0; i < nmembers; i++) { /* Get the name and value from HDF5. */ if (!(member_name = H5Tget_member_name(hdf_typeid, i))) return NC_EHDFERR; #ifdef JNA strncpy(jna,member_name,1000); member_name = jna; #endif if (strlen(member_name) > NC_MAX_NAME) return NC_EBADNAME; if (H5Tget_member_value(hdf_typeid, i, value) < 0) return NC_EHDFERR; /* Insert new field into this type's list of fields. */ if ((retval = nc4_enum_member_add(type, type->size, member_name, value))) return retval; hdf5free(member_name); } free(value); } break; default: LOG((0, "unknown class")); return NC_EBADCLASS; } return retval; } /** * @internal Callback function for reading attributes. This is used * for both global and variable attributes. * * @param loc_id HDF5 attribute ID. * @param att_name Name of the attrigute. * @param ainfo HDF5 info struct for attribute. * @param att_data Pointer to an att_iter_info struct, which contains * pointers to the NC_GRP_INFO_T and (for variable attributes) the * NC_VAR_INFO_T. For global atts the var pointer is NULL. * * @return ::NC_NOERR No error. Iteration continues. * @return ::-1 Error. Stop iteration. * @author Ed Hartnett */ static herr_t att_read_callbk(hid_t loc_id, const char *att_name, const H5A_info_t *ainfo, void *att_data) { hid_t attid = 0; NC_ATT_INFO_T *att; NCindex *list; att_iter_info *att_info = (att_iter_info *)att_data; int retval = NC_NOERR; /* Determin what list is being added to. */ list = att_info->var ? att_info->var->att : att_info->grp->att; /* This may be an attribute telling us that strict netcdf-3 rules * are in effect. If so, we will make note of the fact, but not add * this attribute to the metadata. It's not a user attribute, but * an internal netcdf-4 one. */ if (!strcmp(att_name, NC3_STRICT_ATT_NAME)) { /* Only relevant for groups, not vars. */ if (!att_info->var) att_info->grp->nc4_info->cmode |= NC_CLASSIC_MODEL; return NC_NOERR; } /* Should we ignore this attribute? */ if (NC_findreserved(att_name)) return NC_NOERR; /* Add to the end of the list of atts for this var. */ if ((retval = nc4_att_list_add(list, att_name, &att))) BAIL(-1); /* Allocate storage for the HDF5 specific att info. */ if (!(att->format_att_info = calloc(1, sizeof(NC_HDF5_ATT_INFO_T)))) BAIL(-1); /* Open the att by name. */ if ((attid = H5Aopen(loc_id, att_name, H5P_DEFAULT)) < 0) BAIL(-1); LOG((4, "%s:: att_name %s", __func__, att_name)); /* Read the rest of the info about the att, * including its values. */ if ((retval = read_hdf5_att(att_info->grp, attid, att))) BAIL(retval); if (att) att->created = NC_TRUE; exit: if (retval == NC_EBADTYPID) { /* NC_EBADTYPID will be normally converted to NC_NOERR so that the parent iterator does not fail. */ retval = nc4_att_list_del(list, att); att = NULL; } if (attid > 0 && H5Aclose(attid) < 0) retval = -1; /* Since this is a HDF5 iterator callback, return -1 for any error * to stop iteration. */ if (retval) retval = -1; return retval; } /** * @internal This function reads all the attributes of a variable or * the global attributes of a group. * * @param grp Pointer to the group info. * @param var Pointer to the var info. NULL for global att reads. * * @return ::NC_NOERR No error. * @return ::NC_EATTMETA Some error occured reading attributes. * @author Ed Hartnett */ int nc4_read_atts(NC_GRP_INFO_T *grp, NC_VAR_INFO_T *var) { att_iter_info att_info; /* Custom iteration information */ hid_t locid; /* HDF5 location to read atts from. */ /* Check inputs. */ assert(grp); /* Assign var and grp in struct. (var may be NULL). */ att_info.var = var; att_info.grp = grp; /* Determine where to read from in the HDF5 file. */ locid = var ? ((NC_HDF5_VAR_INFO_T *)(var->format_var_info))->hdf_datasetid : ((NC_HDF5_GRP_INFO_T *)(grp->format_grp_info))->hdf_grpid; /* Now read all the attributes at this location, ignoring special * netCDF hidden attributes. */ if ((H5Aiterate2(locid, H5_INDEX_CRT_ORDER, H5_ITER_INC, NULL, att_read_callbk, &att_info)) < 0) return NC_EATTMETA; /* Remember that we have read the atts for this var or group. */ if (var) var->atts_read = 1; else grp->atts_read = 1; return NC_NOERR; } /** * @internal This function is called by read_dataset() when a * dimension scale dataset is encountered. It reads in the dimension * data (creating a new NC_DIM_INFO_T object), and also checks to see * if this is a dimension without a variable - that is, a coordinate * dimension which does not have any coordinate data. * * @param grp Pointer to group info struct. * @param datasetid The HDF5 dataset ID. * @param obj_name The HDF5 object name. * @param statbuf HDF5 status buffer. * @param scale_size Size of dimension scale. * @param max_scale_size Maximum size of dim scale. * @param dim Pointer to pointer that gets new dim info struct. * * @returns ::NC_NOERR No error. * @return ::NC_EHDFERR HDF5 returned error. * @author Ed Hartnett */ static int read_scale(NC_GRP_INFO_T *grp, hid_t datasetid, const char *obj_name, const H5G_stat_t *statbuf, hsize_t scale_size, hsize_t max_scale_size, NC_DIM_INFO_T **dim) { NC_DIM_INFO_T *new_dim; /* Dimension added to group */ NC_HDF5_DIM_INFO_T *new_hdf5_dim; /* HDF5-specific dim info. */ char dimscale_name_att[NC_MAX_NAME + 1] = ""; /* Dimscale name, for checking if dim without var */ htri_t attr_exists = -1; /* Flag indicating hidden attribute exists */ hid_t attid = -1; /* ID of hidden attribute (to store dim ID) */ int dimscale_created = 0; /* Remember if a dimension was created (for error recovery) */ short initial_next_dimid = grp->nc4_info->next_dimid;/* Retain for error recovery */ size_t len = 0; int too_long = NC_FALSE; int assigned_id = -1; int retval = NC_NOERR; assert(grp && dim); /* Does this dataset have a hidden attribute that tells us its * dimid? If so, read it. */ if ((attr_exists = H5Aexists(datasetid, NC_DIMID_ATT_NAME)) < 0) BAIL(NC_EHDFERR); if (attr_exists) { if ((attid = H5Aopen_name(datasetid, NC_DIMID_ATT_NAME)) < 0) BAIL(NC_EHDFERR); if (H5Aread(attid, H5T_NATIVE_INT, &assigned_id) < 0) BAIL(NC_EHDFERR); /* Check if scale's dimid should impact the group's next dimid */ if (assigned_id >= grp->nc4_info->next_dimid) grp->nc4_info->next_dimid = assigned_id + 1; } /* Get dim size. On machines with a size_t of less than 8 bytes, it * is possible for a dimension to be too long. */ if (SIZEOF_SIZE_T < 8 && scale_size > NC_MAX_UINT) { len = NC_MAX_UINT; too_long = NC_TRUE; } else len = scale_size; /* Create the dimension for this scale. */ if ((retval = nc4_dim_list_add(grp, obj_name, len, assigned_id, &new_dim))) BAIL(retval); new_dim->too_long = too_long; /* Create struct for HDF5-specific dim info. */ if (!(new_dim->format_dim_info = calloc(1, sizeof(NC_HDF5_DIM_INFO_T)))) BAIL(NC_ENOMEM); new_hdf5_dim = (NC_HDF5_DIM_INFO_T *)new_dim->format_dim_info; dimscale_created++; /* Remember these 4 values to uniquely identify this dataset in the * HDF5 file. */ new_hdf5_dim->hdf5_objid.fileno[0] = statbuf->fileno[0]; new_hdf5_dim->hdf5_objid.fileno[1] = statbuf->fileno[1]; new_hdf5_dim->hdf5_objid.objno[0] = statbuf->objno[0]; new_hdf5_dim->hdf5_objid.objno[1] = statbuf->objno[1]; /* If the dimscale has an unlimited dimension, then this dimension * is unlimited. */ if (max_scale_size == H5S_UNLIMITED) new_dim->unlimited = NC_TRUE; /* If the scale name is set to DIM_WITHOUT_VARIABLE, then this is a * dimension, but not a variable. (If get_scale_name returns an * error, just move on, there's no NAME.) */ if (H5DSget_scale_name(datasetid, dimscale_name_att, NC_MAX_NAME) >= 0) { if (!strncmp(dimscale_name_att, DIM_WITHOUT_VARIABLE, strlen(DIM_WITHOUT_VARIABLE))) { if (new_dim->unlimited) { size_t len = 0, *lenp = &len; /* Find actual length by checking all datasets that use * this dim. */ if ((retval = nc4_find_dim_len(grp, new_dim->hdr.id, &lenp))) BAIL(retval); new_dim->len = *lenp; } /* Hold open the dataset, since the dimension doesn't have a * coordinate variable */ new_hdf5_dim->hdf_dimscaleid = datasetid; H5Iinc_ref(new_hdf5_dim->hdf_dimscaleid); /* Increment number of objects using ID */ } } /* Set the dimension created. */ *dim = new_dim; exit: /* Close the hidden attribute, if it was opened. */ if (attid > 0 && H5Aclose(attid) < 0) BAIL2(NC_EHDFERR); /* On error, undo any dimscale creation */ if (retval && dimscale_created) { /* free the dimension */ if ((retval = nc4_dim_list_del(grp, new_dim))) BAIL2(retval); /* Reset the group's information */ grp->nc4_info->next_dimid = initial_next_dimid; } return retval; } /** * @internal Read a HDF5 dataset. This function is called when * read_hdf5_obj() encounters an HDF5 dataset when opening a file. * * @param grp Pointer to group info struct. * @param datasetid HDF5 dataset ID. * @param obj_name Object name. * @param statbuf HDF5 status buffer. * * @return ::NC_NOERR No error. * @return ::NC_EBADID Bad ncid. * @return ::NC_EHDFERR HDF5 returned error. * @author Ed Hartnett */ static int read_dataset(NC_GRP_INFO_T *grp, hid_t datasetid, const char *obj_name, const H5G_stat_t *statbuf) { NC_DIM_INFO_T *dim = NULL; /* Dimension created for scales */ NC_HDF5_DIM_INFO_T *hdf5_dim; hid_t spaceid = 0; int ndims; htri_t is_scale; int retval = NC_NOERR; /* Get the dimension information for this dataset. */ if ((spaceid = H5Dget_space(datasetid)) < 0) BAIL(NC_EHDFERR); if ((ndims = H5Sget_simple_extent_ndims(spaceid)) < 0) BAIL(NC_EHDFERR); /* Is this a dimscale? */ if ((is_scale = H5DSis_scale(datasetid)) < 0) BAIL(NC_EHDFERR); if (is_scale) { hsize_t dims[H5S_MAX_RANK]; hsize_t max_dims[H5S_MAX_RANK]; /* Query the scale's size & max. size */ if (H5Sget_simple_extent_dims(spaceid, dims, max_dims) < 0) BAIL(NC_EHDFERR); /* Read the scale information. */ if ((retval = read_scale(grp, datasetid, obj_name, statbuf, dims[0], max_dims[0], &dim))) BAIL(retval); hdf5_dim = (NC_HDF5_DIM_INFO_T *)dim->format_dim_info; } /* Add a var to the linked list, and get its metadata, * unless this is one of those funny dimscales that are a * dimension in netCDF but not a variable. (Spooky!) */ if (!dim || (dim && !hdf5_dim->hdf_dimscaleid)) if ((retval = read_var(grp, datasetid, obj_name, ndims, dim))) BAIL(retval); exit: if (spaceid && H5Sclose(spaceid) <0) BAIL2(retval); return retval; } /** * @internal Add HDF5 object info for a group to a list for later * processing. We do this when we encounter groups, so that the parent * group can be fully processed before the child groups. * * @param udata Pointer to the user data, in this case a * user_data_t. * @param oinfo The HDF5 object info. * * @return ::NC_NOERR No error. * @return ::NC_ENOMEM Out of memory. * @author Ed Hartnett, Dennis Heimbigner */ static int oinfo_list_add(user_data_t *udata, const hdf5_obj_info_t *oinfo) { hdf5_obj_info_t *new_oinfo; /* Pointer to info for object */ /* Allocate memory for the object's info. */ if (!(new_oinfo = calloc(1, sizeof(hdf5_obj_info_t)))) return NC_ENOMEM; /* Make a copy of the object's info. */ memcpy(new_oinfo, oinfo, sizeof(hdf5_obj_info_t)); /* Add it to the list for future processing. */ nclistpush(udata->grps, new_oinfo); return NC_NOERR; } /** * @internal Callback function called by H5Literate() for every HDF5 * object in the file. * * @note This function is called by HDF5 so does not return a netCDF * error code. * * @param grpid HDF5 group ID. * @param name Name of object. * @param info Info struct for object. * @param _op_data Pointer to user data, a user_data_t. It will * contain a pointer to the current group and a list of * hdf5_obj_info_t. Any child groups will get their hdf5_obj_info * added to this list. * * @return H5_ITER_CONT No error, continue iteration. * @return H5_ITER_ERROR HDF5 error, stop iteration. * @author Ed Hartnett */ static int read_hdf5_obj(hid_t grpid, const char *name, const H5L_info_t *info, void *_op_data) { /* Pointer to user data for callback */ user_data_t *udata = (user_data_t *)_op_data; hdf5_obj_info_t oinfo; /* Pointer to info for object */ int retval = H5_ITER_CONT; /* Open this critter. */ if ((oinfo.oid = H5Oopen(grpid, name, H5P_DEFAULT)) < 0) BAIL(H5_ITER_ERROR); /* Get info about the object.*/ if (H5Gget_objinfo(oinfo.oid, ".", 1, &oinfo.statbuf) < 0) BAIL(H5_ITER_ERROR); strncpy(oinfo.oname, name, NC_MAX_NAME); /* Add object to list, for later */ switch(oinfo.statbuf.type) { case H5G_GROUP: LOG((3, "found group %s", oinfo.oname)); /* Defer descending into child group immediately, so that the * types in the current group can be processed and be ready for * use by vars in the child group(s). */ if (oinfo_list_add(udata, &oinfo)) BAIL(H5_ITER_ERROR); break; case H5G_DATASET: LOG((3, "found dataset %s", oinfo.oname)); /* Learn all about this dataset, which may be a dimscale * (i.e. dimension metadata), or real data. */ if ((retval = read_dataset(udata->grp, oinfo.oid, oinfo.oname, &oinfo.statbuf))) { /* Allow NC_EBADTYPID to transparently skip over datasets * which have a datatype that netCDF-4 doesn't undertand * (currently), but break out of iteration for other * errors. */ if (retval != NC_EBADTYPID) BAIL(H5_ITER_ERROR); else retval = H5_ITER_CONT; } /* Close the object */ if (H5Oclose(oinfo.oid) < 0) BAIL(H5_ITER_ERROR); break; case H5G_TYPE: LOG((3, "found datatype %s", oinfo.oname)); /* Process the named datatype */ if (read_type(udata->grp, oinfo.oid, oinfo.oname)) BAIL(H5_ITER_ERROR); /* Close the object */ if (H5Oclose(oinfo.oid) < 0) BAIL(H5_ITER_ERROR); break; default: LOG((0, "Unknown object class %d in %s!", oinfo.statbuf.type, __func__)); BAIL(H5_ITER_ERROR); } exit: if (retval) { if (oinfo.oid > 0 && H5Oclose(oinfo.oid) < 0) BAIL2(H5_ITER_ERROR); } return (retval); } /** * @internal This is the main function to recursively read all the * metadata for the file. The links in the 'grp' are iterated over and * added to the file's metadata information. Note that child groups * are not immediately processed, but are deferred until all the other * links in the group are handled (so that vars in the child groups * are guaranteed to have types that they use in a parent group in * place). * * @param grp Pointer to a group. * * @return ::NC_NOERR No error. * @return ::NC_EHDFERR HDF5 error. * @return ::NC_ENOMEM Out of memory. * @return ::NC_ECANTWRITE File must be opened read-only. * @author Ed Hartnett, Dennis Heimbigner */ static int rec_read_metadata(NC_GRP_INFO_T *grp) { NC_HDF5_GRP_INFO_T *hdf5_grp; user_data_t udata; /* User data for iteration */ hdf5_obj_info_t *oinfo; /* Pointer to info for object */ hsize_t idx = 0; hid_t pid = -1; unsigned crt_order_flags = 0; H5_index_t iter_index; int i, retval = NC_NOERR; assert(grp && grp->hdr.name && grp->format_grp_info); LOG((3, "%s: grp->hdr.name %s", __func__, grp->hdr.name)); /* Get HDF5-specific group info. */ hdf5_grp = (NC_HDF5_GRP_INFO_T *)grp->format_grp_info; /* Open this HDF5 group and retain its grpid. It will remain open * with HDF5 until this file is nc_closed. */ if (!hdf5_grp->hdf_grpid) { if (grp->parent) { /* This is a child group. */ NC_HDF5_GRP_INFO_T *parent_hdf5_grp; parent_hdf5_grp = (NC_HDF5_GRP_INFO_T *)grp->parent->format_grp_info; if ((hdf5_grp->hdf_grpid = H5Gopen2(parent_hdf5_grp->hdf_grpid, grp->hdr.name, H5P_DEFAULT)) < 0) BAIL(NC_EHDFERR); } else { /* This is the root group. */ NC_HDF5_FILE_INFO_T *hdf5_info; hdf5_info = (NC_HDF5_FILE_INFO_T *)grp->nc4_info->format_file_info; if ((hdf5_grp->hdf_grpid = H5Gopen2(hdf5_info->hdfid, "/", H5P_DEFAULT)) < 0) BAIL(NC_EHDFERR); } } assert(hdf5_grp->hdf_grpid > 0); /* Get the group creation flags, to check for creation ordering. */ if ((pid = H5Gget_create_plist(hdf5_grp->hdf_grpid)) < 0) BAIL(NC_EHDFERR); if (H5Pget_link_creation_order(pid, &crt_order_flags) < 0) BAIL(NC_EHDFERR); /* Set the iteration index to use. */ if (crt_order_flags & H5P_CRT_ORDER_TRACKED) iter_index = H5_INDEX_CRT_ORDER; else { NC_FILE_INFO_T *h5 = grp->nc4_info; /* Without creation ordering, file must be read-only. */ if (!h5->no_write) BAIL(NC_ECANTWRITE); iter_index = H5_INDEX_NAME; } /* Set user data for iteration over any child groups. */ udata.grp = grp; udata.grps = nclistnew(); /* Iterate over links in this group, building lists for the types, * datasets and groups encountered. A pointer to udata will be * passed as a parameter to the callback function * read_hdf5_obj(). (I have also tried H5Oiterate(), but it is much * slower iterating over the same file - Ed.) */ if (H5Literate(hdf5_grp->hdf_grpid, iter_index, H5_ITER_INC, &idx, read_hdf5_obj, (void *)&udata) < 0) BAIL(NC_EHDFERR); /* Process the child groups found. (Deferred until now, so that the * types in the current group get processed and are available for * vars in the child group(s).) */ for (i = 0; i < nclistlength(udata.grps); i++) { NC_GRP_INFO_T *child_grp; oinfo = (hdf5_obj_info_t*)nclistget(udata.grps, i); /* Add group to file's hierarchy. */ if ((retval = nc4_grp_list_add(grp->nc4_info, grp, oinfo->oname, &child_grp))) BAIL(retval); /* Allocate storage for HDF5-specific group info. */ if (!(child_grp->format_grp_info = calloc(1, sizeof(NC_HDF5_GRP_INFO_T)))) return NC_ENOMEM; /* Recursively read the child group's metadata. */ if ((retval = rec_read_metadata(child_grp))) BAIL(retval); } /* When reading existing file, mark all variables as written. */ for (i = 0; i < ncindexsize(grp->vars); i++) ((NC_VAR_INFO_T *)ncindexith(grp->vars, i))->written_to = NC_TRUE; exit: if (pid > 0 && H5Pclose(pid) < 0) BAIL2(NC_EHDFERR); /* Clean up list of child groups. */ for (i = 0; i < nclistlength(udata.grps); i++) { oinfo = (hdf5_obj_info_t *)nclistget(udata.grps, i); /* Close the open HDF5 object. */ if (H5Oclose(oinfo->oid) < 0) BAIL2(NC_EHDFERR); free(oinfo); } nclistfree(udata.grps); return retval; }