diff options
author | Quincey Koziol <koziol@hdfgroup.org> | 2017-01-29 07:21:22 (GMT) |
---|---|---|
committer | Quincey Koziol <koziol@hdfgroup.org> | 2017-01-29 07:21:22 (GMT) |
commit | 3ad18072eba378ca1f598d33cc83587e8a76880f (patch) | |
tree | 63f600947a8d56c26a7b850ebb41fb8e688ecab9 /test/cache_image.c | |
parent | 1949d5756d424be0b23fc127fc99140374a7dd13 (diff) | |
download | hdf5-3ad18072eba378ca1f598d33cc83587e8a76880f.zip hdf5-3ad18072eba378ca1f598d33cc83587e8a76880f.tar.gz hdf5-3ad18072eba378ca1f598d33cc83587e8a76880f.tar.bz2 |
Add missing files
Diffstat (limited to 'test/cache_image.c')
-rw-r--r-- | test/cache_image.c | 6490 |
1 files changed, 6490 insertions, 0 deletions
diff --git a/test/cache_image.c b/test/cache_image.c new file mode 100644 index 0000000..c91914d --- /dev/null +++ b/test/cache_image.c @@ -0,0 +1,6490 @@ +/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * + * Copyright by The HDF Group. * + * Copyright by the Board of Trustees of the University of Illinois. * + * All rights reserved. * + * * + * This file is part of HDF5. The full HDF5 copyright notice, including * + * terms governing use, modification, and redistribution, is contained in * + * the files COPYING and Copyright.html. COPYING can be found at the root * + * of the source code distribution tree; Copyright.html can be found at the * + * root level of an installed copy of the electronic HDF5 document set and * + * is linked from the top-level documents page. It can also be found at * + * http://hdfgroup.org/HDF5/doc/Copyright.html. If you do not have * + * access to either file, you may request a copy from help@hdfgroup.org. * + * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ + +/* Programmer: John Mainzer + * 7/13/15 + * + * This file contains tests specific to the cache image + * feature implemented in H5C.c + */ +#include "cache_common.h" +#include "genall5.h" + +/* global variable declarations: */ + + +const char *FILENAMES[] = { + "cache_image_test", + NULL +}; + +/* local utility function declarations */ +static void create_datasets(hid_t file_id, int min_dset, int max_dset); +static void delete_datasets(hid_t file_id, int min_dset, int max_dset); +static void open_hdf5_file(hbool_t create_file, hbool_t mdci_sbem_expected, + hbool_t read_only, hbool_t set_mdci_fapl, hbool_t config_fsm, + const char *hdf_file_name, unsigned cache_image_flags, + hid_t *file_id_ptr, H5F_t **file_ptr_ptr, H5C_t **cache_ptr_ptr); +static void attempt_swmr_open_hdf5_file(hbool_t create_file, + hbool_t set_mdci_fapl, const char *hdf_file_name); +static void verify_datasets(hid_t file_id, int min_dset, int max_dset); + +/* local test function declarations */ +static unsigned check_cache_image_ctl_flow_1(void); +static unsigned check_cache_image_ctl_flow_2(void); +static unsigned check_cache_image_ctl_flow_3(void); +static unsigned check_cache_image_ctl_flow_4(void); +static unsigned check_cache_image_ctl_flow_5(void); +static unsigned check_cache_image_ctl_flow_6(void); + +static unsigned cache_image_smoke_check_1(void); +static unsigned cache_image_smoke_check_2(void); +static unsigned cache_image_smoke_check_3(void); +static unsigned cache_image_smoke_check_4(void); +static unsigned cache_image_smoke_check_5(void); +static unsigned cache_image_smoke_check_6(void); + +static unsigned cache_image_api_error_check_1(void); +static unsigned cache_image_api_error_check_2(void); +static unsigned cache_image_api_error_check_3(void); + + +/****************************************************************************/ +/***************************** Utility Functions ****************************/ +/****************************************************************************/ + +/*------------------------------------------------------------------------- + * Function: create_datasets() + * + * Purpose: If pass is TRUE on entry, create the specified datasets + * in the indicated file. + * + * Datasets and their contents must be well known, as we + * will verify that they contain the expected data later. + * + * On failure, set pass to FALSE, and set failure_mssg + * to point to an appropriate failure message. + * + * Do nothing if pass is FALSE on entry. + * + * Return: void + * + * Programmer: John Mainzer + * 7/15/15 + * + *------------------------------------------------------------------------- + */ + +#define CHUNK_SIZE 10 +#define DSET_SIZE (40 * CHUNK_SIZE) +#define MAX_NUM_DSETS 256 + +static void +create_datasets(hid_t file_id, int min_dset, int max_dset) +{ + const char * fcn_name = "create_datasets()"; + char dset_name[64]; + hbool_t show_progress = FALSE; + hbool_t valid_chunk; + hbool_t verbose = FALSE; + int cp = 0; + int i, j, k, l, m; + int data_chunk[CHUNK_SIZE][CHUNK_SIZE]; + herr_t status; + hid_t dataspace_id = -1; + hid_t filespace_ids[MAX_NUM_DSETS]; + hid_t memspace_id = -1; + hid_t dataset_ids[MAX_NUM_DSETS]; + hid_t properties = -1; + hsize_t dims[2]; + hsize_t a_size[2]; + hsize_t offset[2]; + hsize_t chunk_size[2]; + + if ( show_progress ) HDfprintf(stdout, "%s: cp = %d.\n", fcn_name, cp++); + + HDassert(0 <= min_dset); + HDassert(min_dset <= max_dset); + HDassert(max_dset < MAX_NUM_DSETS); + + /* create the datasets */ + + if ( pass ) { + + i = min_dset; + + while ( ( pass ) && ( i <= max_dset ) ) + { + /* create a dataspace for the chunked dataset */ + dims[0] = DSET_SIZE; + dims[1] = DSET_SIZE; + dataspace_id = H5Screate_simple(2, dims, NULL); + + if ( dataspace_id < 0 ) { + + pass = FALSE; + failure_mssg = "H5Screate_simple() failed."; + } + + /* set the dataset creation plist to specify that the raw data is + * to be partioned into 10X10 element chunks. + */ + + if ( pass ) { + + chunk_size[0] = CHUNK_SIZE; + chunk_size[1] = CHUNK_SIZE; + properties = H5Pcreate(H5P_DATASET_CREATE); + + if ( properties < 0 ) { + + pass = FALSE; + failure_mssg = "H5Pcreate() failed."; + } + } + + if ( pass ) { + + if ( H5Pset_chunk(properties, 2, chunk_size) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Pset_chunk() failed."; + } + } + + /* create the dataset */ + if ( pass ) { + + sprintf(dset_name, "/dset%03d", i); + dataset_ids[i] = H5Dcreate2(file_id, dset_name, H5T_STD_I32BE, + dataspace_id, H5P_DEFAULT, + properties, H5P_DEFAULT); + + if ( dataset_ids[i] < 0 ) { + + pass = FALSE; + failure_mssg = "H5Dcreate() failed."; + } + } + + /* get the file space ID */ + if ( pass ) { + + filespace_ids[i] = H5Dget_space(dataset_ids[i]); + + if ( filespace_ids[i] < 0 ) { + + pass = FALSE; + failure_mssg = "H5Dget_space() failed."; + } + } + + i++; + } + } + + if ( show_progress ) HDfprintf(stdout, "%s: cp = %d.\n", fcn_name, cp++); + + /* create the mem space to be used to read and write chunks */ + if ( pass ) { + + dims[0] = CHUNK_SIZE; + dims[1] = CHUNK_SIZE; + memspace_id = H5Screate_simple(2, dims, NULL); + + if ( memspace_id < 0 ) { + + pass = FALSE; + failure_mssg = "H5Screate_simple() failed."; + } + } + + if ( show_progress ) HDfprintf(stdout, "%s: cp = %d.\n", fcn_name, cp++); + + /* select in memory hyperslab */ + if ( pass ) { + + offset[0] = 0; /*offset of hyperslab in memory*/ + offset[1] = 0; + a_size[0] = CHUNK_SIZE; /*size of hyperslab*/ + a_size[1] = CHUNK_SIZE; + status = H5Sselect_hyperslab(memspace_id, H5S_SELECT_SET, offset, NULL, + a_size, NULL); + + if ( status < 0 ) { + + pass = FALSE; + failure_mssg = "H5Sselect_hyperslab() failed."; + } + } + + if ( show_progress ) HDfprintf(stdout, "%s: cp = %d.\n", fcn_name, cp++); + + /* initialize all datasets on a round robin basis */ + i = 0; + while ( ( pass ) && ( i < DSET_SIZE ) ) + { + j = 0; + while ( ( pass ) && ( j < DSET_SIZE ) ) + { + m = min_dset; + while ( ( pass ) && ( m <= max_dset ) ) + { + /* initialize the slab */ + for ( k = 0; k < CHUNK_SIZE; k++ ) + { + for ( l = 0; l < CHUNK_SIZE; l++ ) + { + data_chunk[k][l] = (DSET_SIZE * DSET_SIZE * m) + + (DSET_SIZE * (i + k)) + j + l; + } + } + + /* select on disk hyperslab */ + offset[0] = (hsize_t)i; /*offset of hyperslab in file*/ + offset[1] = (hsize_t)j; + a_size[0] = CHUNK_SIZE; /*size of hyperslab*/ + a_size[1] = CHUNK_SIZE; + status = H5Sselect_hyperslab(filespace_ids[m], H5S_SELECT_SET, + offset, NULL, a_size, NULL); + + if ( status < 0 ) { + + pass = FALSE; + failure_mssg = "disk H5Sselect_hyperslab() failed."; + } + + /* write the chunk to file */ + status = H5Dwrite(dataset_ids[m], H5T_NATIVE_INT, memspace_id, + filespace_ids[m], H5P_DEFAULT, data_chunk); + + if ( status < 0 ) { + + pass = FALSE; + failure_mssg = "H5Dwrite() failed."; + } + m++; + } + j += CHUNK_SIZE; + } + + i += CHUNK_SIZE; + } + + if ( show_progress ) HDfprintf(stdout, "%s: cp = %d.\n", fcn_name, cp++); + + /* read data from datasets and validate it */ + i = 0; + while ( ( pass ) && ( i < DSET_SIZE ) ) + { + j = 0; + while ( ( pass ) && ( j < DSET_SIZE ) ) + { + m = min_dset; + while ( ( pass ) && ( m <= max_dset ) ) + { + + /* select on disk hyperslab */ + offset[0] = (hsize_t)i; /* offset of hyperslab in file */ + offset[1] = (hsize_t)j; + a_size[0] = CHUNK_SIZE; /* size of hyperslab */ + a_size[1] = CHUNK_SIZE; + status = H5Sselect_hyperslab(filespace_ids[m], H5S_SELECT_SET, + offset, NULL, a_size, NULL); + + if ( status < 0 ) { + + pass = FALSE; + failure_mssg = "disk hyperslab create failed."; + } + + /* read the chunk from file */ + if ( pass ) { + + status = H5Dread(dataset_ids[m], H5T_NATIVE_INT, + memspace_id, filespace_ids[m], + H5P_DEFAULT, data_chunk); + + if ( status < 0 ) { + + pass = FALSE; + failure_mssg = "disk hyperslab create failed."; + } + } + + /* validate the slab */ + if ( pass ) { + + valid_chunk = TRUE; + for ( k = 0; k < CHUNK_SIZE; k++ ) + { + for ( l = 0; l < CHUNK_SIZE; l++ ) + { + if ( data_chunk[k][l] + != + ((DSET_SIZE * DSET_SIZE * m) + + (DSET_SIZE * (i + k)) + j + l) ) { + + valid_chunk = FALSE; + + if ( verbose ) { + + HDfprintf(stdout, + "data_chunk[%0d][%0d] = %0d, expect %0d.\n", + k, l, data_chunk[k][l], + ((DSET_SIZE * DSET_SIZE * m) + + (DSET_SIZE * (i + k)) + j + l)); + HDfprintf(stdout, + "m = %d, i = %d, j = %d, k = %d, l = %d\n", + m, i, j, k, l); + } + } + } + } + + if ( ! valid_chunk ) { + + pass = FALSE; + failure_mssg = "slab validation failed."; + + if ( verbose ) { + + fprintf(stdout, + "Chunk (%0d, %0d) in /dset%03d is invalid.\n", + i, j, m); + } + } + } + m++; + } + j += CHUNK_SIZE; + } + i += CHUNK_SIZE; + } + + if ( show_progress ) HDfprintf(stdout, "%s: cp = %d.\n", fcn_name, cp++); + + /* close the file spaces */ + i = min_dset; + while ( ( pass ) && ( i <= max_dset ) ) + { + if ( H5Sclose(filespace_ids[i]) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Sclose() failed."; + } + i++; + } + + + /* close the datasets */ + i = min_dset; + while ( ( pass ) && ( i <= max_dset ) ) + { + if ( H5Dclose(dataset_ids[i]) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Dclose() failed."; + } + i++; + } + + /* close the mem space */ + if ( pass ) { + + if ( H5Sclose(memspace_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Sclose(memspace_id) failed."; + } + } + + return; + +} /* create_datasets() */ + + +/*------------------------------------------------------------------------- + * Function: delete_datasets() + * + * Purpose: If pass is TRUE on entry, verify and then delete the + * dataset(s) indicated by min_dset and max_dset in the + * indicated file. + * + * Datasets and their contents must be well know, as we + * will verify that they contain the expected data later. + * + * On failure, set pass to FALSE, and set failure_mssg + * to point to an appropriate failure message. + * + * Do nothing if pass is FALSE on entry. + * + * Return: void + * + * Programmer: John Mainzer + * 10/31/16 + * + *------------------------------------------------------------------------- + */ + +static void +delete_datasets(hid_t file_id, int min_dset, int max_dset) +{ + const char * fcn_name = "delete_datasets()"; + char dset_name[64]; + hbool_t show_progress = FALSE; + int cp = 0; + int i; + + if ( show_progress ) HDfprintf(stdout, "%s: cp = %d.\n", fcn_name, cp++); + + HDassert(0 <= min_dset); + HDassert(min_dset <= max_dset); + HDassert(max_dset < MAX_NUM_DSETS); + + if ( show_progress ) HDfprintf(stdout, "%s: cp = %d.\n", fcn_name, cp++); + + /* first, verify the contents of the target dataset(s) */ + verify_datasets(file_id, min_dset, max_dset); + + if ( show_progress ) HDfprintf(stdout, "%s: cp = %d.\n", fcn_name, cp++); + + /* now delete the target datasets */ + if ( pass ) { + + i = min_dset; + + while ( ( pass ) && ( i <= max_dset ) ) + { + sprintf(dset_name, "/dset%03d", i); + + if ( H5Ldelete(file_id, dset_name, H5P_DEFAULT) < 0) { + + pass = FALSE; + failure_mssg = "H5Ldelete() failed."; + } + + i++; + } + } + + if ( show_progress ) HDfprintf(stdout, "%s: cp = %d.\n", fcn_name, cp++); + + return; + +} /* delete_datasets() */ + + +/*------------------------------------------------------------------------- + * Function: open_hdf5_file() + * + * Purpose: If pass is true on entry, create or open the specified HDF5 + * and test to see if it has a metadata cache image superblock + * extension message. + * + * Set pass to FALSE and issue a suitable failure + * message if either the file contains a metadata cache image + * superblock extension and mdci_sbem_expected is TRUE, or + * vise versa. + * + * If mdci_sbem_expected is TRUE, also verify that the metadata + * cache has been advised of this. + * + * If read_only is TRUE, open the file read only. Otherwise + * open the file read/write. + * + * If set_mdci_fapl is TRUE, set the metadata cache image + * FAPL entry when opening the file, and verify that the + * metadata cache is notified. + * + * If config_fsm is TRUE, setup the persistant free space + * manager. Note that this flag may only be set if + * create_file is also TRUE. + * + * Return pointers to the cache data structure and file data + * structures. + * + * On failure, set pass to FALSE, and set failure_mssg + * to point to an appropriate failure message. + * + * Do nothing if pass is FALSE on entry. + * + * Return: void + * + * Programmer: John Mainzer + * 7/14/15 + * + *------------------------------------------------------------------------- + */ + +static void +open_hdf5_file(hbool_t create_file, hbool_t mdci_sbem_expected, + hbool_t read_only, hbool_t set_mdci_fapl, hbool_t config_fsm, + const char *hdf_file_name, unsigned cache_image_flags, + hid_t *file_id_ptr, H5F_t ** file_ptr_ptr, H5C_t ** cache_ptr_ptr) +{ + const char * fcn_name = "open_hdf5_file()"; + hbool_t show_progress = FALSE; + hbool_t verbose = FALSE; + int cp = 0; + hid_t fapl_id = -1; + hid_t fcpl_id = -1; + hid_t file_id = -1; + herr_t result; + H5F_t * file_ptr = NULL; + H5C_t * cache_ptr = NULL; + H5C_cache_image_ctl_t image_ctl; + H5AC_cache_image_config_t cache_image_config = { + H5AC__CURR_CACHE_IMAGE_CONFIG_VERSION, + TRUE, + FALSE, + H5AC__CACHE_IMAGE__ENTRY_AGEOUT__NONE}; + + if ( pass ) + { + /* opening the file both read only and with a cache image + * requested is a contradiction. We resolve it by ignoring + * the cache image request silently. + */ + if ( ( create_file && mdci_sbem_expected ) || + ( create_file && read_only ) || + ( config_fsm && !create_file ) || + ( hdf_file_name == NULL ) || + ( ( set_mdci_fapl ) && ( cache_image_flags == 0 ) ) || + ( ( set_mdci_fapl ) && + ( (cache_image_flags & ~H5C_CI__ALL_FLAGS) != 0 ) ) || + ( file_id_ptr == NULL ) || + ( file_ptr_ptr == NULL ) || + ( cache_ptr_ptr == NULL ) ) { + + failure_mssg = + "Bad param(s) on entry to open_hdf5_file().\n"; + pass = FALSE; + } else if ( verbose ) { + + HDfprintf(stdout, "%s: HDF file name = \"%s\".\n", + fcn_name, hdf_file_name); + } + } + + if ( show_progress ) HDfprintf(stdout, "%s: cp = %d.\n", fcn_name, cp++); + + /* create a file access propertly list. */ + if ( pass ) { + + fapl_id = H5Pcreate(H5P_FILE_ACCESS); + + if ( fapl_id < 0 ) { + + pass = FALSE; + failure_mssg = "H5Pcreate() failed.\n"; + } + } + + if ( show_progress ) HDfprintf(stdout, "%s: cp = %d.\n", fcn_name, cp++); + + /* call H5Pset_libver_bounds() on the fapl_id */ + if ( pass ) { + + if ( H5Pset_libver_bounds(fapl_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Pset_libver_bounds() failed.\n"; + } + } + + if ( show_progress ) HDfprintf(stdout, "%s: cp = %d.\n", fcn_name, cp++); + + /* get metadata cache image config -- verify that it is the default */ + if ( pass ) { + + result = H5Pget_mdc_image_config(fapl_id, &cache_image_config); + + if ( result < 0 ) { + + pass = FALSE; + failure_mssg = "H5Pget_mdc_image_config() failed.\n"; + } + + if ( ( cache_image_config.version != + H5AC__CURR_CACHE_IMAGE_CONFIG_VERSION ) || + ( cache_image_config.generate_image != FALSE ) || + ( cache_image_config.save_resize_status != FALSE ) || + ( cache_image_config.entry_ageout != + H5AC__CACHE_IMAGE__ENTRY_AGEOUT__NONE ) ) { + + pass = FALSE; + failure_mssg = "Unexpected default cache image config.\n"; + } + } + + if ( show_progress ) HDfprintf(stdout, "%s: cp = %d.\n", fcn_name, cp++); + + /* set metadata cache image fapl entry if indicated */ + if ( ( pass ) && ( set_mdci_fapl ) ) { + + /* set cache image config fields to taste */ + cache_image_config.generate_image = TRUE; + cache_image_config.save_resize_status = FALSE; + cache_image_config.entry_ageout = H5AC__CACHE_IMAGE__ENTRY_AGEOUT__NONE; + + result = H5Pset_mdc_image_config(fapl_id, &cache_image_config); + + if ( result < 0 ) { + + pass = FALSE; + failure_mssg = "H5Pset_mdc_image_config() failed.\n"; + } + } + + if ( show_progress ) HDfprintf(stdout, "%s: cp = %d.\n", fcn_name, cp++); + + /* setup the persistant free space manager if indicated */ + if ( ( pass ) && ( config_fsm ) ) { + + fcpl_id = H5Pcreate(H5P_FILE_CREATE); + + if ( fcpl_id <= 0 ) { + + pass = FALSE; + failure_mssg = "H5Pcreate(H5P_FILE_CREATE) failed."; + } + } + + if ( ( pass ) && ( config_fsm ) ) { + + if ( H5Pset_file_space(fcpl_id, H5F_FILE_SPACE_ALL_PERSIST, 1) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Pset_file_space() failed."; + } + } + + if ( show_progress ) HDfprintf(stdout, "%s: cp = %d.\n", fcn_name, cp++); + + /* open the file */ + if ( pass ) { + + if ( create_file ) { + + if ( fcpl_id != -1 ) + + file_id = H5Fcreate(hdf_file_name, H5F_ACC_TRUNC, fcpl_id, fapl_id); + else + + file_id = H5Fcreate(hdf_file_name, H5F_ACC_TRUNC, H5P_DEFAULT, fapl_id); + + } else { + + if ( read_only ) + + file_id = H5Fopen(hdf_file_name, H5F_ACC_RDONLY, fapl_id); + + else + + file_id = H5Fopen(hdf_file_name, H5F_ACC_RDWR, fapl_id); + } + + if ( file_id < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fcreate() or H5Fopen() failed.\n"; + + } else { + + file_ptr = (struct H5F_t *)H5I_object_verify(file_id, H5I_FILE); + + if ( file_ptr == NULL ) { + + pass = FALSE; + failure_mssg = "Can't get file_ptr."; + + if ( verbose ) { + HDfprintf(stdout, "%s: Can't get file_ptr.\n", fcn_name); + } + } + } + } + + if ( show_progress ) HDfprintf(stdout, "%s: cp = %d.\n", fcn_name, cp++); + + /* get a pointer to the files internal data structure and then + * to the cache structure + */ + if ( pass ) { + + if ( file_ptr->shared->cache == NULL ) { + + pass = FALSE; + failure_mssg = "can't get cache pointer(1).\n"; + + } else { + + cache_ptr = file_ptr->shared->cache; + } + } + + if ( show_progress ) HDfprintf(stdout, "%s: cp = %d.\n", fcn_name, cp++); + + /* verify expected metadata cache status */ + + /* get the cache image control structure from the cache, and verify + * that it contains the expected values. + * + * Then set the flags in this structure to the specified value. + */ + if ( pass ) { + + if ( H5C_get_cache_image_config(cache_ptr, &image_ctl) < 0 ) { + + pass = FALSE; + failure_mssg = "error returned by H5C_get_cache_image_config()."; + } + } + + if ( show_progress ) HDfprintf(stdout, "%s: cp = %d.\n", fcn_name, cp++); + + if ( pass ) { + + if ( set_mdci_fapl ) { + + if ( read_only ) { + + if ( ( image_ctl.version != + H5AC__CURR_CACHE_IMAGE_CONFIG_VERSION ) || + ( image_ctl.generate_image != FALSE ) || + ( image_ctl.save_resize_status != FALSE ) || + ( image_ctl.entry_ageout != + H5AC__CACHE_IMAGE__ENTRY_AGEOUT__NONE ) || + ( image_ctl.flags != H5C_CI__ALL_FLAGS ) ) { + + pass = FALSE; + failure_mssg = "Unexpected image_ctl values(1).\n"; + } + } else { + + if ( ( image_ctl.version != + H5AC__CURR_CACHE_IMAGE_CONFIG_VERSION ) || + ( image_ctl.generate_image != TRUE ) || + ( image_ctl.save_resize_status != FALSE ) || + ( image_ctl.entry_ageout != + H5AC__CACHE_IMAGE__ENTRY_AGEOUT__NONE ) || + ( image_ctl.flags != H5C_CI__ALL_FLAGS ) ) { + + pass = FALSE; + failure_mssg = "Unexpected image_ctl values(2).\n"; + } + } + } else { + + if ( ( image_ctl.version != + H5AC__CURR_CACHE_IMAGE_CONFIG_VERSION ) || + ( image_ctl.generate_image != FALSE ) || + ( image_ctl.save_resize_status != FALSE ) || + ( image_ctl.entry_ageout != + H5AC__CACHE_IMAGE__ENTRY_AGEOUT__NONE ) || + ( image_ctl.flags != H5C_CI__ALL_FLAGS ) ) { + + pass = FALSE; + failure_mssg = "Unexpected image_ctl values(3).\n"; + } + } + } + + if ( show_progress ) HDfprintf(stdout, "%s: cp = %d.\n", fcn_name, cp++); + + if ( ( pass ) && ( set_mdci_fapl ) ) { + + image_ctl.flags = cache_image_flags; + + if ( H5C_set_cache_image_config(file_ptr, cache_ptr, &image_ctl) < 0 ) { + + pass = FALSE; + failure_mssg = "error returned by H5C_set_cache_image_config()."; + } + } + + if ( show_progress ) HDfprintf(stdout, "%s: cp = %d.\n", fcn_name, cp++); + + if ( pass ) { + + if ( cache_ptr->close_warning_received == TRUE ) { + + pass = FALSE; + failure_mssg = "Unexpected value of close_warning_received.\n"; + } + + if ( mdci_sbem_expected ) { + + if ( read_only ) { + + if ( ( cache_ptr->load_image != TRUE ) || + ( cache_ptr->delete_image != FALSE ) ) { + + pass = FALSE; + failure_mssg = "mdci sb extension message not present?\n"; + } + } else { + + if ( ( cache_ptr->load_image != TRUE ) || + ( cache_ptr->delete_image != TRUE ) ) { + + pass = FALSE; + failure_mssg = "mdci sb extension message not present?\n"; + } + } + } else { + + if ( ( cache_ptr->load_image == TRUE ) || + ( cache_ptr->delete_image == TRUE ) ) { + + pass = FALSE; + failure_mssg = "mdci sb extension message present?\n"; + } + } + } + + if ( show_progress ) HDfprintf(stdout, "%s: cp = %d.\n", fcn_name, cp++); + + if ( pass ) { + + *file_id_ptr = file_id; + *file_ptr_ptr = file_ptr; + *cache_ptr_ptr = cache_ptr; + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d -- exiting.\n", fcn_name, cp++); + + return; + +} /* open_hdf5_file() */ + + +/*------------------------------------------------------------------------- + * Function: attempt_swmr_open_hdf5_file() + * + * Purpose: If pass is true on entry, attempt to create or open the + * specified HDF5 file with SWMR, and also with cache image + * creation if requested. + * + * In all cases, the attempted open or create should fail. + * + * Do nothing if pass is FALSE on entry. + * + * Return: void + * + * Programmer: John Mainzer + * 7/14/15 + * + *------------------------------------------------------------------------- + */ + +static void +attempt_swmr_open_hdf5_file(const hbool_t create_file, + const hbool_t set_mdci_fapl, + const char * hdf_file_name) +{ + const char * fcn_name = "attempt_swmr_open_hdf5_file()"; + hbool_t show_progress = FALSE; + int cp = 0; + hid_t fapl_id = -1; + hid_t file_id = -1; + herr_t result; + H5AC_cache_image_config_t cache_image_config = { + H5AC__CURR_CACHE_IMAGE_CONFIG_VERSION, + TRUE, + FALSE, + H5AC__CACHE_IMAGE__ENTRY_AGEOUT__NONE}; + + /* create a file access propertly list. */ + if ( pass ) { + + fapl_id = H5Pcreate(H5P_FILE_ACCESS); + + if ( fapl_id < 0 ) { + + pass = FALSE; + failure_mssg = "H5Pcreate() failed.\n"; + } + } + + if ( show_progress ) HDfprintf(stdout, "%s: cp = %d.\n", fcn_name, cp++); + + /* call H5Pset_libver_bounds() on the fapl_id */ + if ( pass ) { + + if ( H5Pset_libver_bounds(fapl_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) + < 0 ) { + + pass = FALSE; + failure_mssg = "H5Pset_libver_bounds() failed.\n"; + } + } + + if ( show_progress ) HDfprintf(stdout, "%s: cp = %d.\n", fcn_name, cp++); + + /* set metadata cache image fapl entry if indicated */ + if ( ( pass ) && ( set_mdci_fapl ) ) { + + /* set cache image config fields to taste */ + cache_image_config.generate_image = TRUE; + cache_image_config.save_resize_status = FALSE; + cache_image_config.entry_ageout = H5AC__CACHE_IMAGE__ENTRY_AGEOUT__NONE; + + result = H5Pset_mdc_image_config(fapl_id, &cache_image_config); + + if ( result < 0 ) { + + pass = FALSE; + failure_mssg = "H5Pset_mdc_image_config() failed.\n"; + } + } + + if ( show_progress ) HDfprintf(stdout, "%s: cp = %d.\n", fcn_name, cp++); + + /* open the file */ + if ( pass ) { + + if ( create_file ) { + + H5E_BEGIN_TRY { + file_id = H5Fcreate(hdf_file_name, H5F_ACC_TRUNC | H5F_ACC_SWMR_WRITE, + H5P_DEFAULT, fapl_id); + } H5E_END_TRY; + } else { + + H5E_BEGIN_TRY { + file_id = H5Fopen(hdf_file_name, H5F_ACC_RDWR | H5F_ACC_SWMR_WRITE, fapl_id); + } H5E_END_TRY; + } + + if ( file_id >= 0 ) { + + pass = FALSE; + failure_mssg = "SWMR H5Fcreate() or H5Fopen() succeeded.\n"; + + } + } + + if ( show_progress ) HDfprintf(stdout, "%s: cp = %d.\n", fcn_name, cp++); + + return; + +} /* attempt_swmr_open_hdf5_file() */ + + +/*------------------------------------------------------------------------- + * Function: verify_datasets() + * + * Purpose: If pass is TRUE on entry, verify that the datasets in the + * file exist and contain the expected data. + * + * Note that these datasets were created by + * create_datasets() above. Thus any changes in that + * function must be reflected in this function, and + * vise-versa. + * + * On failure, set pass to FALSE, and set failure_mssg + * to point to an appropriate failure message. + * + * Do nothing if pass is FALSE on entry. + * + * Return: void + * + * Programmer: John Mainzer + * 7/15/15 + * + *------------------------------------------------------------------------- + */ + +static void +verify_datasets(hid_t file_id, int min_dset, int max_dset) +{ + const char * fcn_name = "verify_datasets()"; + char dset_name[64]; + hbool_t show_progress = FALSE; + hbool_t valid_chunk; + hbool_t verbose = FALSE; + int cp = 0; + int i, j, k, l, m; + int data_chunk[CHUNK_SIZE][CHUNK_SIZE]; + herr_t status; + hid_t filespace_ids[MAX_NUM_DSETS]; + hid_t memspace_id = -1; + hid_t dataset_ids[MAX_NUM_DSETS]; + hsize_t dims[2]; + hsize_t a_size[2]; + hsize_t offset[2]; + + if ( show_progress ) HDfprintf(stdout, "%s: cp = %d.\n", fcn_name, cp++); + + HDassert(0 <= min_dset); + HDassert(min_dset <= max_dset); + HDassert(max_dset < MAX_NUM_DSETS); + + /* open the datasets */ + + if ( pass ) { + + i = min_dset; + + while ( ( pass ) && ( i <= max_dset ) ) + { + /* open the dataset */ + if ( pass ) { + + sprintf(dset_name, "/dset%03d", i); + dataset_ids[i] = H5Dopen2(file_id, dset_name, H5P_DEFAULT); + + if ( dataset_ids[i] < 0 ) { + + pass = FALSE; + failure_mssg = "H5Dopen2() failed."; + } + } + + /* get the file space ID */ + if ( pass ) { + + filespace_ids[i] = H5Dget_space(dataset_ids[i]); + + if ( filespace_ids[i] < 0 ) { + + pass = FALSE; + failure_mssg = "H5Dget_space() failed."; + } + } + + i++; + } + } + + if ( show_progress ) HDfprintf(stdout, "%s: cp = %d.\n", fcn_name, cp++); + + /* create the mem space to be used to read and write chunks */ + if ( pass ) { + + dims[0] = CHUNK_SIZE; + dims[1] = CHUNK_SIZE; + memspace_id = H5Screate_simple(2, dims, NULL); + + if ( memspace_id < 0 ) { + + pass = FALSE; + failure_mssg = "H5Screate_simple() failed."; + } + } + + if ( show_progress ) HDfprintf(stdout, "%s: cp = %d.\n", fcn_name, cp++); + + /* select in memory hyperslab */ + if ( pass ) { + + offset[0] = 0; /*offset of hyperslab in memory*/ + offset[1] = 0; + a_size[0] = CHUNK_SIZE; /*size of hyperslab*/ + a_size[1] = CHUNK_SIZE; + status = H5Sselect_hyperslab(memspace_id, H5S_SELECT_SET, offset, NULL, + a_size, NULL); + + if ( status < 0 ) { + + pass = FALSE; + failure_mssg = "H5Sselect_hyperslab() failed."; + } + } + + if ( show_progress ) HDfprintf(stdout, "%s: cp = %d.\n", fcn_name, cp++); + + + /* read data from datasets and validate it */ + i = 0; + while ( ( pass ) && ( i < DSET_SIZE ) ) + { + j = 0; + while ( ( pass ) && ( j < DSET_SIZE ) ) + { + m = min_dset; + while ( ( pass ) && ( m <= max_dset ) ) + { + + /* select on disk hyperslab */ + offset[0] = (hsize_t)i; /* offset of hyperslab in file */ + offset[1] = (hsize_t)j; + a_size[0] = CHUNK_SIZE; /* size of hyperslab */ + a_size[1] = CHUNK_SIZE; + status = H5Sselect_hyperslab(filespace_ids[m], H5S_SELECT_SET, + offset, NULL, a_size, NULL); + + if ( status < 0 ) { + + pass = FALSE; + failure_mssg = "disk hyperslab create failed."; + } + + /* read the chunk from file */ + if ( pass ) { + + status = H5Dread(dataset_ids[m], H5T_NATIVE_INT, + memspace_id, filespace_ids[m], + H5P_DEFAULT, data_chunk); + + if ( status < 0 ) { + + pass = FALSE; + failure_mssg = "disk hyperslab create failed."; + } + } + + /* validate the slab */ + if ( pass ) { + + valid_chunk = TRUE; + for ( k = 0; k < CHUNK_SIZE; k++ ) + { + for ( l = 0; l < CHUNK_SIZE; l++ ) + { + if ( data_chunk[k][l] + != + ((DSET_SIZE * DSET_SIZE * m) + + (DSET_SIZE * (i + k)) + j + l) ) { + + valid_chunk = FALSE; + + if ( verbose ) { + + HDfprintf(stdout, + "data_chunk[%0d][%0d] = %0d, expect %0d.\n", + k, l, data_chunk[k][l], + ((DSET_SIZE * DSET_SIZE * m) + + (DSET_SIZE * (i + k)) + j + l)); + HDfprintf(stdout, + "m = %d, i = %d, j = %d, k = %d, l = %d\n", + m, i, j, k, l); + } + } + } + } + + if ( ! valid_chunk ) { + + pass = FALSE; + failure_mssg = "slab validation failed."; + + if ( verbose ) { + + fprintf(stdout, + "Chunk (%0d, %0d) in /dset%03d is invalid.\n", + i, j, m); + } + } + } + m++; + } + j += CHUNK_SIZE; + } + i += CHUNK_SIZE; + } + + if ( show_progress ) HDfprintf(stdout, "%s: cp = %d.\n", fcn_name, cp++); + + /* close the file spaces */ + i = min_dset; + while ( ( pass ) && ( i <= max_dset ) ) + { + if ( H5Sclose(filespace_ids[i]) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Sclose() failed."; + } + i++; + } + + + /* close the datasets */ + i = min_dset; + while ( ( pass ) && ( i <= max_dset ) ) + { + if ( H5Dclose(dataset_ids[i]) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Dclose() failed."; + } + i++; + } + + /* close the mem space */ + if ( pass ) { + + if ( H5Sclose(memspace_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Sclose(memspace_id) failed."; + } + } + + return; + +} /* verify_datasets() */ + + +/****************************************************************************/ +/******************************* Test Functions *****************************/ +/****************************************************************************/ + +/*------------------------------------------------------------------------- + * Function: check_cache_image_ctl_flow_1() + * + * Purpose: This test is one of a sequence of control flow tests intended + * to verify that control flow for the cache image feature works + * as expected. + * + * This test is an initial smoke check, so the sequence of + * operations is relatively simple. In particular, we are + * testing: + * + * i) Creation of file with cache image FAPL entry set + * and insertion of metadata cache image superblock + * message on file close. + * + * ii) Open of file with metadata cache image superblock + * message, transmission of message to metadata cache, + * and deletion of superblock message prior to close. + * + * Note that in all cases we are performing operations on the + * file. While this is the typical case, we must repeat this + * test without operations on the file. + * + * 1) Create a HDF5 file with the cache image FAPL entry. + * + * Verify that the cache is informed of the cache image + * FAPL entry. + * + * Set flags forcing creation of metadata cache image + * super block extension message only. + * + * 2) Create some datasets in the file. + * + * 3) Close the file. + * + * 4) Open the file. + * + * Verify that the metadata cache is instructed + * to load the metadata cache image, and that the + * supplied address and length are HADDR_UNDEF and + * zero respectively. Note that these values indicate + * that the metadata image block doesn't exist. + * + * 5) Open a dataset. + * + * Verify that the metadata cache image superblock + * extension message has been deleted. + * + * 6) Close the file. + * + * 7) Open the file. + * + * Verify that the file doesn't contain a metadata cache + * image superblock extension message. + * + * 8) Close the file. + * + * 9) Delete the file. + * + * Return: void + * + * Programmer: John Mainzer + * 7/15/15 + * + *------------------------------------------------------------------------- + */ + +static unsigned +check_cache_image_ctl_flow_1(void) +{ + const char * fcn_name = "check_cache_image_ctl_flow_1()"; + char filename[512]; + hbool_t show_progress = FALSE; + hid_t file_id = -1; + H5F_t *file_ptr = NULL; + H5C_t *cache_ptr = NULL; + int cp = 0; + + TESTING("metadata cache image control flow test 1"); + + pass = TRUE; + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* setup the file name */ + if ( pass ) { + + if ( h5_fixname(FILENAMES[0], H5P_DEFAULT, filename, sizeof(filename)) + == NULL ) { + + pass = FALSE; + failure_mssg = "h5_fixname() failed.\n"; + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 1) Create a HDF5 file with the cache image FAPL entry. + * + * Verify that the cache is informed of the cache image FAPL entry. + * + * Set flags forcing creation of metadata cache image super block + * extension message only. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ TRUE, + /* mdci_sbem_expected */ FALSE, + /* read_only */ FALSE, + /* set_mdci_fapl */ TRUE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ H5C_CI__GEN_MDCI_SBE_MESG, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 2) Create some datasets in the file. */ + + if ( pass ) { + + create_datasets(file_id, 0, 5); + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 3) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 4) Open the file. + * + * Verify that the metadata cache is instructed to load the + * metadata cache image, and that the supplied address and length + * are HADDR_UNDEF and zero respectively. Note that these values + * indicate that the metadata image block doesn't exist. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ FALSE, + /* mdci_sbem_expected */ TRUE, + /* read_only */ FALSE, + /* set_mdci_fapl */ FALSE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ 0, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 5) Open and close a dataset. + * + * Verify that the metadata cache image superblock + * extension message has been deleted. + */ + + if ( pass ) { + + verify_datasets(file_id, 0, 5); + } + + if ( pass ) { + + /* think on how to verify that the superblock extension has been + * deleted, and if it is necessary to verify this directly. + */ + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 6) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 7) Open the file. + * + * Verify that the file doesn't contain a metadata cache image + * superblock extension message. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ FALSE, + /* mdci_sbem_expected */ FALSE, + /* read_only */ FALSE, + /* set_mdci_fapl */ FALSE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ 0, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 8) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 9) Delete the file */ + + if ( pass ) { + + if ( HDremove(filename) < 0 ) { + + pass = FALSE; + failure_mssg = "HDremove() failed.\n"; + } + } + + if ( pass ) { PASSED(); } else { H5_FAILED(); } + + if ( ! pass ) + HDfprintf(stdout, "%s: failure_mssg = \"%s\".\n", + FUNC, failure_mssg); + + return !pass; + +} /* check_cache_image_ctl_flow_1() */ + + +/*------------------------------------------------------------------------- + * Function: check_cache_image_ctl_flow_2() + * + * Purpose: This test is one of a sequence of control flow tests intended + * to verify that control flow for the cache image feature works + * as expected. + * + * This test is an initial smoke check, so the sequence of + * operations is relatively simple. In particular, we are + * testing: + * + * i) Creation of file with cache image FAPL entry set + * and insertion of metadata cache image superblock + * message on file close. + * + * ii) Open of file with metadata cache image superblock + * message, transmission of message to metadata cache, + * and deletion of superblock message prior to close. + * + * Note that unlike the previous test, no operations are performed + * on the file. As a result of this, the metadata cache image + * message is not processed until the metadata cache receives + * the file close warning. (Under normal circumstances, it is + * processed as part of the first protect operation after the + * superblock is loaded.) + * + * In this particular test, we preform the following operations: + * + * 1) Create a HDF5 file with the cache image FAPL entry. + * + * Verify that the cache is informed of the cache image + * FAPL entry. + * + * Set flags forcing creation of metadata cache image + * super block extension message only. + * + * 2) Close the file. + * + * 3) Open the file. + * + * Verify that the metadata cache is instructed + * to load the metadata cache image, and that the + * supplied address and length are HADDR_UNDEF and + * zero respectively. Note that these values indicate + * that the metadata image block doesn't exist. + * + * 6) Close the file. + * + * 7) Open the file. + * + * Verify that the file doesn't contain a metadata cache + * image superblock extension message. + * + * 8) Close the file. + * + * 9) Delete the file. + * + * Return: void + * + * Programmer: John Mainzer + * 7/15/15 + * + *------------------------------------------------------------------------- + */ + +static unsigned +check_cache_image_ctl_flow_2(void) +{ + const char * fcn_name = "check_cache_image_ctl_flow_2()"; + char filename[512]; + hbool_t show_progress = FALSE; + hid_t file_id = -1; + H5F_t *file_ptr = NULL; + H5C_t *cache_ptr = NULL; + int cp = 0; + + TESTING("metadata cache image control flow test 2"); + + pass = TRUE; + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + /* setup the file name */ + if ( pass ) { + + if ( h5_fixname(FILENAMES[0], H5P_DEFAULT, filename, sizeof(filename)) + == NULL ) { + + pass = FALSE; + failure_mssg = "h5_fixname() failed.\n"; + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 1) Create a HDF5 file with the cache image FAPL entry. + * + * Verify that the cache is informed of the cache image FAPL entry. + * + * Set flags forcing creation of metadata cache image super block + * extension message only. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ TRUE, + /* mdci_sbem_expected */ FALSE, + /* read_only */ FALSE, + /* set_mdci_fapl */ TRUE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ H5C_CI__GEN_MDCI_SBE_MESG, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 2) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 3) Open the file. + * + * Verify that the metadata cache is instructed to load the + * metadata cache image, and that the supplied address and length + * are HADDR_UNDEF and zero respectively. Note that these values + * indicate that the metadata image block doesn't exist. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ FALSE, + /* mdci_sbem_expected */ TRUE, + /* read_only */ FALSE, + /* set_mdci_fapl */ FALSE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ 0, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 4) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 5) Open the file. + * + * Verify that the file doesn't contain a metadata cache image + * superblock extension message. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ FALSE, + /* mdci_sbem_expected */ FALSE, + /* read_only */ FALSE, + /* set_mdci_fapl */ FALSE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ 0, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 6) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 7) Delete the file */ + + if ( pass ) { + + if ( HDremove(filename) < 0 ) { + + pass = FALSE; + failure_mssg = "HDremove() failed.\n"; + } + } + + if ( pass ) { PASSED(); } else { H5_FAILED(); } + + if ( ! pass ) + HDfprintf(stdout, "%s: failure_mssg = \"%s\".\n", + FUNC, failure_mssg); + + return !pass; + +} /* check_cache_image_ctl_flow_2() */ + + +/*------------------------------------------------------------------------- + * Function: check_cache_image_ctl_flow_3() + * + * Purpose: This test is one of a sequence of control flow tests intended + * to verify that control flow for the cache image feature works + * as expected. + * + * The objectives of this test are to: + * + * i) Test operation of the metadata cache image FAPL + * entry set on open of an existing file. This + * should result in the insertion of a metadata + * cache image superblock message on file close. + * + * ii) Test operation of the metadata cache image super + * block extension message when it appears in a file + * that is opened READ ONLY. + * + * Note that in all cases we are performing operations on the + * file between file open and close. While this is the + * typical case, we must repeat this test without operations + * on the file. + * + * 1) Create a HDF5 file WITHOUT the cache image FAPL entry. + * + * Verify that the cache is NOT informed of the cache image + * FAPL entry. + * + * 2) Close the file. + * + * 3) Open the file WITH the cache image FAPL entry. + * + * Verify that the cache is informed of the cache image + * FAPL entry. + * + * Set flags forcing creation of metadata cache image + * super block extension message only. + * + * 4) Create some datasets. + * + * 5) Close the file. + * + * 6) Open the file READ ONLY. + * + * Verify that the metadata cache is instructed + * to load the metadata cache image, and that the + * supplied address and length are HADDR_UNDEF and + * zero respectively. Note that these values indicate + * that the metadata image block doesn't exist. + * + * 7) Verify the contents of the datasets. + * + * 8) Close the file. + * + * 9) Open the file READ/WRITE. + * + * Verify that the metadata cache is instructed + * to load the metadata cache image, and that the + * supplied address and length are HADDR_UNDEF and + * zero respectively. Note that these values indicate + * that the metadata image block doesn't exist. + * + * 10) Verify the contents of the datasets. + * + * 11) Close the file. + * + * 12) Open the file + * + * Verify that the file doesn't contain a metadata cache + * image superblock extension message. + * + * 13) Close the file. + * + * 14) Delete the file. + * + * Return: void + * + * Programmer: John Mainzer + * 7/16/15 + * + *------------------------------------------------------------------------- + */ + +static unsigned +check_cache_image_ctl_flow_3(void) +{ + const char * fcn_name = "check_cache_image_ctl_flow_3()"; + char filename[512]; + hbool_t show_progress = FALSE; + hid_t file_id = -1; + H5F_t *file_ptr = NULL; + H5C_t *cache_ptr = NULL; + int cp = 0; + + TESTING("metadata cache image control flow test 3"); + + pass = TRUE; + + if ( show_progress ) /* 0 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + /* setup the file name */ + if ( pass ) { + + if ( h5_fixname(FILENAMES[0], H5P_DEFAULT, filename, sizeof(filename)) + == NULL ) { + + pass = FALSE; + failure_mssg = "h5_fixname() failed.\n"; + } + } + + if ( show_progress ) /* 1 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + /* 1) Create a HDF5 file WITHOUT the cache image FAPL entry. + * + * Verify that the cache is NOT informed of the cache image + * FAPL entry. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ TRUE, + /* mdci_sbem_expected */ FALSE, + /* read_only */ FALSE, + /* set_mdci_fapl */ FALSE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ 0, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) /* 2 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 2) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + } + } + + if ( show_progress ) /* 3 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 3) Open the file WITH the cache image FAPL entry. + * + * Verify that the cache is informed of the cache image FAPL entry. + * + * Set flags forcing creation of metadata cache image super block + * extension message only. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ FALSE, + /* mdci_sbem_expected */ FALSE, + /* read_only */ FALSE, + /* set_mdci_fapl */ TRUE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ H5C_CI__GEN_MDCI_SBE_MESG, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) /* 4 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 4) Create some datasets. */ + + if ( pass ) { + + create_datasets(file_id, 0, 5); + } + + if ( show_progress ) /* 5 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 5) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + } + } + + if ( show_progress ) /* 6 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 6) Open the file READ ONLY. + * + * Verify that the metadata cache is instructed + * to load the metadata cache image, and that the + * supplied address and length are HADDR_UNDEF and + * zero respectively. Note that these values indicate + * that the metadata image block doesn't exist. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ FALSE, + /* mdci_sbem_expected */ TRUE, + /* read_only */ TRUE, + /* set_mdci_fapl */ FALSE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ 0, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) /* 7 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 7) Verify the contents of the datasets. */ + + if ( pass ) { + + verify_datasets(file_id, 0, 5); + } + + if ( show_progress ) /* 8 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 8) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + } + } + + if ( show_progress ) /* 9 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 9) Open the file READ/WRITE. + * + * Verify that the metadata cache is instructed + * to load the metadata cache image, and that the + * supplied address and length are HADDR_UNDEF and + * zero respectively. Note that these values indicate + * that the metadata image block doesn't exist. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ FALSE, + /* mdci_sbem_expected */ TRUE, + /* read_only */ FALSE, + /* set_mdci_fapl */ FALSE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ 0, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) /* 10 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 10) Verify the contents of the datasets. */ + + if ( pass ) { + + verify_datasets(file_id, 0, 5); + } + + if ( show_progress ) /* 11 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 11) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + } + } + + if ( show_progress ) /* 12 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 12) Open the file + * + * Verify that the file doesn't contain a metadata cache + * image superblock extension message. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ FALSE, + /* mdci_sbem_expected */ FALSE, + /* read_only */ FALSE, + /* set_mdci_fapl */ FALSE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ 0, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) /* 13 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 13) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + } + } + + if ( show_progress ) /* 14 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 14) Delete the file. */ + + if ( pass ) { + + if ( HDremove(filename) < 0 ) { + + pass = FALSE; + failure_mssg = "HDremove() failed.\n"; + } + } + + + if ( pass ) { PASSED(); } else { H5_FAILED(); } + + if ( ! pass ) + HDfprintf(stdout, "%s: failure_mssg = \"%s\".\n", + FUNC, failure_mssg); + + return !pass; + +} /* check_cache_image_ctl_flow_3() */ + + +/*------------------------------------------------------------------------- + * Function: check_cache_image_ctl_flow_4() + * + * Purpose: This test is one of a sequence of control flow tests intended + * to verify that control flow for the cache image feature works + * as expected. + * + * The objectives of this test are to: + * + * i) Test operation of the metadata cache image FAPL + * entry set on open of an existing file. This + * should result in the insertion of a metadata + * cache image superblock message on file close. + * + * ii) Test operation of the metadata cache image super + * block extension message when it appears in a file + * that is opened READ ONLY. + * + * In this test we avoid all file access beyond file open + * and close. + * + * 1) Create a HDF5 file WITHOUT the cache image FAPL entry. + * + * Verify that the cache is NOT informed of the cache image + * FAPL entry. + * + * 2) Close the file. + * + * 3) Open the file WITH the cache image FAPL entry. + * + * Verify that the cache is informed of the cache image + * FAPL entry. + * + * Set flags forcing creation of metadata cache image + * super block extension message only. + * + * 4) Close the file. + * + * 5) Open the file READ ONLY. + * + * Verify that the metadata cache is instructed + * to load the metadata cache image, and that the + * supplied address and length are HADDR_UNDEF and + * zero respectively. Note that these values indicate + * that the metadata image block doesn't exist. + * + * 6) Close the file. + * + * 7) Open the file READ/WRITE. + * + * Verify that the metadata cache is instructed + * to load the metadata cache image, and that the + * supplied address and length are HADDR_UNDEF and + * zero respectively. Note that these values indicate + * that the metadata image block doesn't exist. + * + * 8) Close the file. + * + * 9) Open the file + * + * Verify that the file doesn't contain a metadata cache + * image superblock extension message. + * + * 10) Close the file. + * + * 11) Delete the file. + * + * Return: void + * + * Programmer: John Mainzer + * 7/16/15 + * + *------------------------------------------------------------------------- + */ + +static unsigned +check_cache_image_ctl_flow_4(void) +{ + const char * fcn_name = "check_cache_image_ctl_flow_4()"; + char filename[512]; + hbool_t show_progress = FALSE; + hid_t file_id = -1; + H5F_t *file_ptr = NULL; + H5C_t *cache_ptr = NULL; + int cp = 0; + + TESTING("metadata cache image control flow test 4"); + + pass = TRUE; + + if ( show_progress ) /* 0 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + /* setup the file name */ + if ( pass ) { + + if ( h5_fixname(FILENAMES[0], H5P_DEFAULT, filename, sizeof(filename)) + == NULL ) { + + pass = FALSE; + failure_mssg = "h5_fixname() failed.\n"; + } + } + + if ( show_progress ) /* 1 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + /* 1) Create a HDF5 file WITHOUT the cache image FAPL entry. + * + * Verify that the cache is NOT informed of the cache image + * FAPL entry. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ TRUE, + /* mdci_sbem_expected */ FALSE, + /* read_only */ FALSE, + /* set_mdci_fapl */ FALSE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ 0, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) /* 2 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 2) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + } + } + + if ( show_progress ) /* 3 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 3) Open the file WITH the cache image FAPL entry. + * + * Verify that the cache is informed of the cache image FAPL entry. + * + * Set flags forcing creation of metadata cache image super block + * extension message only. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ FALSE, + /* mdci_sbem_expected */ FALSE, + /* read_only */ FALSE, + /* set_mdci_fapl */ TRUE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ H5C_CI__GEN_MDCI_SBE_MESG, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) /* 4 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 4) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + } + } + + if ( show_progress ) /* 5 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 5) Open the file READ ONLY. + * + * Verify that the metadata cache is instructed + * to load the metadata cache image, and that the + * supplied address and length are HADDR_UNDEF and + * zero respectively. Note that these values indicate + * that the metadata image block doesn't exist. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ FALSE, + /* mdci_sbem_expected */ TRUE, + /* read_only */ TRUE, + /* set_mdci_fapl */ FALSE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ 0, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) /* 6 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 6) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + } + } + + if ( show_progress ) /* 7 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 7) Open the file READ/WRITE. + * + * Verify that the metadata cache is instructed + * to load the metadata cache image, and that the + * supplied address and length are HADDR_UNDEF and + * zero respectively. Note that these values indicate + * that the metadata image block doesn't exist. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ FALSE, + /* mdci_sbem_expected */ TRUE, + /* read_only */ FALSE, + /* set_mdci_fapl */ FALSE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ 0, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) /* 8 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 8) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + } + } + + if ( show_progress ) /* 9 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 9) Open the file + * + * Verify that the file doesn't contain a metadata cache + * image superblock extension message. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ FALSE, + /* mdci_sbem_expected */ FALSE, + /* read_only */ FALSE, + /* set_mdci_fapl */ FALSE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ 0, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) /* 10 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 10) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + } + } + + if ( show_progress ) /* 11 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 11) Delete the file. */ + + if ( pass ) { + + if ( HDremove(filename) < 0 ) { + + pass = FALSE; + failure_mssg = "HDremove() failed.\n"; + } + } + + + if ( pass ) { PASSED(); } else { H5_FAILED(); } + + if ( ! pass ) + HDfprintf(stdout, "%s: failure_mssg = \"%s\".\n", + FUNC, failure_mssg); + + return !pass; + +} /* check_cache_image_ctl_flow_4() */ + + +/*------------------------------------------------------------------------- + * Function: check_cache_image_ctl_flow_5() + * + * Purpose: This test is one of a sequence of control flow tests intended + * to verify that control flow for the cache image feature works + * as expected. + * + * The objective of this test is verify correct control flow + * when a file with a metadata cache image superblock extension + * message is opened with the metadata cache image FAPL entry. + * + * Note that in all cases we are performing operations on the + * file between file open and close. While this is the + * typical case, we must repeat this test without operations + * on the file. + * + * 1) Create a HDF5 file with the cache image FAPL entry. + * + * Verify that the cache is informed of the cache image + * FAPL entry. + * + * Set flags forcing creation of metadata cache image + * super block extension message only. + * + * 2) Create some datasets. + * + * 3) Close the file. + * + * 4) Open the file WITH the cache image FAPL entry. + * + * Verify that the metadata cache is instructed + * to load the metadata cache image, and that the + * supplied address and length are HADDR_UNDEF and + * zero respectively. Note that these values indicate + * that the metadata image block doesn't exist. + * + * Verify that the cache is informed of the cache image + * FAPL entry. + * + * Set flags forcing creation of metadata cache image + * super block extension message only. + * + * 5) Verify the contents of the datasets. + * + * 6) Close the file. + * + * 7) Open the file. + * + * Verify that the metadata cache is instructed + * to load the metadata cache image, and that the + * supplied address and length are HADDR_UNDEF and + * zero respectively. Note that these values indicate + * that the metadata image block doesn't exist. + * + * 8) Verify the contents of the datasets. + * + * 9) Close the file. + * + * 10) Delete the file. + * + * Return: void + * + * Programmer: John Mainzer + * 7/17/15 + * + *------------------------------------------------------------------------- + */ + +static unsigned +check_cache_image_ctl_flow_5(void) +{ + const char * fcn_name = "check_cache_image_ctl_flow_5()"; + char filename[512]; + hbool_t show_progress = FALSE; + hid_t file_id = -1; + H5F_t *file_ptr = NULL; + H5C_t *cache_ptr = NULL; + int cp = 0; + + TESTING("metadata cache image control flow test 5"); + + pass = TRUE; + + if ( show_progress ) /* 0 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + /* setup the file name */ + if ( pass ) { + + if ( h5_fixname(FILENAMES[0], H5P_DEFAULT, filename, sizeof(filename)) + == NULL ) { + + pass = FALSE; + failure_mssg = "h5_fixname() failed.\n"; + } + } + + if ( show_progress ) /* 1 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 1) Create a HDF5 file with the cache image FAPL entry. + * + * Verify that the cache is informed of the cache image FAPL entry. + * + * Set flags forcing creation of metadata cache image + * super block extension message only. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ TRUE, + /* mdci_sbem_expected */ FALSE, + /* read_only */ FALSE, + /* set_mdci_fapl */ TRUE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ H5C_CI__GEN_MDCI_SBE_MESG, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) /* 2 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 2) Create some datasets. */ + + if ( pass ) { + + create_datasets(file_id, 0, 5); + } + + if ( show_progress ) /* 3 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 3) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + } + } + + if ( show_progress ) /* 4 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 4) Open the file WITH the cache image FAPL entry. + * + * Verify that the metadata cache is instructed + * to load the metadata cache image, and that the + * supplied address and length are HADDR_UNDEF and + * zero respectively. Note that these values indicate + * that the metadata image block doesn't exist. + * + * Verify that the cache is informed of the cache image + * FAPL entry. + * + * Set flags forcing creation of metadata cache image + * super block extension message only. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ FALSE, + /* mdci_sbem_expected */ TRUE, + /* read_only */ FALSE, + /* set_mdci_fapl */ TRUE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ H5C_CI__GEN_MDCI_SBE_MESG, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) /* 5 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + /* 5) Verify the contents of the datasets. */ + + if ( pass ) { + + verify_datasets(file_id, 0, 5); + } + + if ( show_progress ) /* 6 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 6) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + } + } + + if ( show_progress ) /* 7 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 7) Open the file. + * + * Verify that the metadata cache is instructed + * to load the metadata cache image, and that the + * supplied address and length are HADDR_UNDEF and + * zero respectively. Note that these values indicate + * that the metadata image block doesn't exist. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ FALSE, + /* mdci_sbem_expected */ TRUE, + /* read_only */ FALSE, + /* set_mdci_fapl */ FALSE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ 0, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) /* 8 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + /* 8) Verify the contents of the datasets. */ + + if ( pass ) { + + verify_datasets(file_id, 0, 5); + } + + if ( show_progress ) /* 9 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 9) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + } + } + + if ( show_progress ) /* 10 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 10) Delete the file. */ + + if ( pass ) { + + if ( HDremove(filename) < 0 ) { + + pass = FALSE; + failure_mssg = "HDremove() failed.\n"; + } + } + + + if ( pass ) { PASSED(); } else { H5_FAILED(); } + + if ( ! pass ) + HDfprintf(stdout, "%s: failure_mssg = \"%s\".\n", + FUNC, failure_mssg); + + return !pass; + +} /* check_cache_image_ctl_flow_5() */ + + +/*------------------------------------------------------------------------- + * Function: check_cache_image_ctl_flow_6() + * + * Purpose: This test is one of a sequence of control flow tests intended + * to verify that control flow for the cache image feature works + * as expected. + * + * The objective of this test is verify correct control flow + * when a file with a metadata cache image superblock extension + * message is opened with the metadata cache image FAPL entry. + * + * In this test we avoid all file activity other than open + * and close. + * + * 1) Create a HDF5 file with the cache image FAPL entry. + * + * Verify that the cache is informed of the cache image + * FAPL entry. + * + * Set flags forcing creation of metadata cache image + * super block extension message only. + * + * 2) Close the file. + * + * 3) Open the file WITH the cache image FAPL entry. + * + * Verify that the metadata cache is instructed + * to load the metadata cache image, and that the + * supplied address and length are HADDR_UNDEF and + * zero respectively. Note that these values indicate + * that the metadata image block doesn't exist. + * + * Verify that the cache is informed of the cache image + * FAPL entry. + * + * Set flags forcing creation of metadata cache image + * super block extension message only. + * + * 4) Close the file. + * + * 5) Open the file. + * + * Verify that the metadata cache is instructed + * to load the metadata cache image, and that the + * supplied address and length are HADDR_UNDEF and + * zero respectively. Note that these values indicate + * that the metadata image block doesn't exist. + * + * 6) Close the file. + * + * 7) Delete the file. + * + * Return: void + * + * Programmer: John Mainzer + * 7/17/15 + * + *------------------------------------------------------------------------- + */ + +static unsigned +check_cache_image_ctl_flow_6(void) +{ + const char * fcn_name = "check_cache_image_ctl_flow_6()"; + char filename[512]; + hbool_t show_progress = FALSE; + hid_t file_id = -1; + H5F_t *file_ptr = NULL; + H5C_t *cache_ptr = NULL; + int cp = 0; + + TESTING("metadata cache image control flow test 6"); + + pass = TRUE; + + if ( show_progress ) /* 0 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + /* setup the file name */ + if ( pass ) { + + if ( h5_fixname(FILENAMES[0], H5P_DEFAULT, filename, sizeof(filename)) + == NULL ) { + + pass = FALSE; + failure_mssg = "h5_fixname() failed.\n"; + } + } + + if ( show_progress ) /* 1 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 1) Create a HDF5 file with the cache image FAPL entry. + * + * Verify that the cache is informed of the cache image FAPL entry. + * + * Set flags forcing creation of metadata cache image + * super block extension message only. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ TRUE, + /* mdci_sbem_expected */ FALSE, + /* read_only */ FALSE, + /* set_mdci_fapl */ TRUE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ H5C_CI__GEN_MDCI_SBE_MESG, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) /* 2 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 2) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + } + } + + if ( show_progress ) /* 3 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 4) Open the file WITH the cache image FAPL entry. + * + * Verify that the metadata cache is instructed + * to load the metadata cache image, and that the + * supplied address and length are HADDR_UNDEF and + * zero respectively. Note that these values indicate + * that the metadata image block doesn't exist. + * + * Verify that the cache is informed of the cache image + * FAPL entry. + * + * Set flags forcing creation of metadata cache image + * super block extension message only. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ FALSE, + /* mdci_sbem_expected */ TRUE, + /* read_only */ FALSE, + /* set_mdci_fapl */ TRUE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ H5C_CI__GEN_MDCI_SBE_MESG, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) /* 4 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 5) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + } + } + + if ( show_progress ) /* 5 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 5) Open the file. + * + * Verify that the metadata cache is instructed + * to load the metadata cache image, and that the + * supplied address and length are HADDR_UNDEF and + * zero respectively. Note that these values indicate + * that the metadata image block doesn't exist. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ FALSE, + /* mdci_sbem_expected */ TRUE, + /* read_only */ FALSE, + /* set_mdci_fapl */ FALSE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ 0, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) /* 6 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 6) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + } + } + + if ( show_progress ) /* 7 */ + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 7) Delete the file. */ + + if ( pass ) { + + if ( HDremove(filename) < 0 ) { + + pass = FALSE; + failure_mssg = "HDremove() failed.\n"; + } + } + + + if ( pass ) { PASSED(); } else { H5_FAILED(); } + + if ( ! pass ) + HDfprintf(stdout, "%s: failure_mssg = \"%s\".\n", + FUNC, failure_mssg); + + return !pass; + +} /* check_cache_image_ctl_flow_6() */ + + +/*------------------------------------------------------------------------- + * Function: cache_image_smoke_check_1() + * + * Purpose: This test is one of a sequence of tests intended + * to exercise the cache image feature verifying that it + * works more or less correctly in common cases. + * + * This test is an initial smoke check, so the sequence of + * operations is relatively simple. In particular, we are + * testing: + * + * i) Creation of file with metadata cache image + * superblock extension message and cache image + * block. + * + * ii) Open of file with metadata cache image superblock + * extension message and cache image block. + * Deserialization and removal of both, insertion + * of prefetched cache entries, and deserialization + * of prefetched cache entries as they are protected. + * + * iii) Subsequent write of file without metadata cache + * image. + * + * iv) Open and close of file with metadata cache image + * image requested, but with no operations on the + * file. + * + * To do this: + * + * 1) Create a HDF5 file with the cache image FAPL entry. + * + * Verify that the cache is informed of the cache image + * FAPL entry. + * + * Set all cache image flags, forcing full functionality. + * + * 2) Create some datasets in the file. + * + * 3) Close the file. + * + * 4) Open the file. + * + * Verify that the metadata cache is instructed + * to load the metadata cache image. + * + * 5) Open a dataset. + * + * Verify that it contains the expected data + * + * 6) Close the file. + * + * 7) Open the file. + * + * Verify that the file doesn't contain a metadata cache + * image superblock extension message. + * + * 8) Open a dataset. + * + * Verify that it contains the expected data. + * + * 9) Close the file. + * + * 10) Open the file with the cache image FAPL entry. + * + * Verify that the cache is informed of the cache image + * FAPL entry. + * + * Set all cache image flags, forcing full functionality. + * + * 11) Close the file. Since there has been no access to + * any entries that would be included in the cache image, + * there should be no cache image. + * + * 12) Open the file. + * + * Verify that the file doesn't contain a metadata cache + * image superblock extension message. + * + * 13) Open a dataset. + * + * Verify that it contains the expected data. + * + * 14) Close the file. + * + * 15) Delete the file. + * + * Return: void + * + * Programmer: John Mainzer + * 8/17/15 + * + *------------------------------------------------------------------------- + */ + +static unsigned +cache_image_smoke_check_1(void) +{ + const char * fcn_name = "cache_image_smoke_check_1()"; + char filename[512]; + hbool_t show_progress = FALSE; + hid_t file_id = -1; + H5F_t *file_ptr = NULL; + H5C_t *cache_ptr = NULL; + int cp = 0; + + TESTING("metadata cache image smoke check 1"); + + pass = TRUE; + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* setup the file name */ + if ( pass ) { + + if ( h5_fixname(FILENAMES[0], H5P_DEFAULT, filename, sizeof(filename)) + == NULL ) { + + pass = FALSE; + failure_mssg = "h5_fixname() failed.\n"; + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 1) Create a HDF5 file with the cache image FAPL entry. + * + * Verify that the cache is informed of the cache image FAPL entry. + * + * Set flags forcing full function of the cache image feature. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ TRUE, + /* mdci_sbem_expected */ FALSE, + /* read_only */ FALSE, + /* set_mdci_fapl */ TRUE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ H5C_CI__ALL_FLAGS, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 2) Create some datasets in the file. */ + + if ( pass ) { + + create_datasets(file_id, 0, 5); + } + +#if H5C_COLLECT_CACHE_STATS + if ( pass ) { + + if ( cache_ptr->images_loaded != 0 ) { + + pass = FALSE; + failure_mssg = "metadata cache image block loaded(1)."; + } + } +#endif /* H5C_COLLECT_CACHE_STATS */ + + + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 3) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 4) Open the file. + * + * Verify that the metadata cache is instructed to load the + * metadata cache image, and that the supplied address and length + * are HADDR_UNDEF and zero respectively. Note that these values + * indicate that the metadata image block doesn't exist. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ FALSE, + /* mdci_sbem_expected */ TRUE, + /* read_only */ FALSE, + /* set_mdci_fapl */ FALSE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ 0, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 5) Open and close a dataset. + * + * Verify that the metadata cache image superblock + * extension message has been deleted. + */ + + if ( pass ) { + + verify_datasets(file_id, 0, 5); + } + +#if H5C_COLLECT_CACHE_STATS + if ( pass ) { + + if ( cache_ptr->images_loaded != 1 ) { + + pass = FALSE; + failure_mssg = "metadata cache image block not loaded(1)."; + } + } +#endif /* H5C_COLLECT_CACHE_STATS */ + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 6) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 7) Open the file. + * + * Verify that the file doesn't contain a metadata cache image + * superblock extension message. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ FALSE, + /* mdci_sbem_expected */ FALSE, + /* read_only */ FALSE, + /* set_mdci_fapl */ FALSE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ 0, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 8) Open and close a dataset. + * + * Verify that the metadata cache image superblock + * extension message has been deleted. + */ + + if ( pass ) { + + verify_datasets(file_id, 0, 5); + } + +#if H5C_COLLECT_CACHE_STATS + if ( pass ) { + + if ( cache_ptr->images_loaded != 0 ) { + + pass = FALSE; + failure_mssg = "metadata cache image block loaded(2)."; + } + } +#endif /* H5C_COLLECT_CACHE_STATS */ + + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 9) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 10) Open the file with the cache image FAPL entry. + * + * Verify that the cache is informed of the cache image + * FAPL entry. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ FALSE, + /* mdci_sbem_expected */ FALSE, + /* read_only */ FALSE, + /* set_mdci_fapl */ TRUE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ H5C_CI__ALL_FLAGS, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 11) Close the file. Since there has been no access to + * any entries that would be included in the cache image, + * there should be no cache image. + */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 12) Open the file. + * + * Verify that the file doesn't contain a metadata cache + * image superblock extension message. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ FALSE, + /* mdci_sbem_expected */ FALSE, + /* read_only */ FALSE, + /* set_mdci_fapl */ FALSE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ 0, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 13) Open a dataset. + * + * Verify that it contains the expected data. + */ + + if ( pass ) { + + verify_datasets(file_id, 0, 5); + } + +#if H5C_COLLECT_CACHE_STATS + if ( pass ) { + + if ( cache_ptr->images_loaded != 0 ) { + + pass = FALSE; + failure_mssg = "metadata cache image block loaded(3)."; + } + } +#endif /* H5C_COLLECT_CACHE_STATS */ + + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 14) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 15) Delete the file */ + + if ( pass ) { + + if ( HDremove(filename) < 0 ) { + + pass = FALSE; + failure_mssg = "HDremove() failed.\n"; + } + } + + if ( pass ) { PASSED(); } else { H5_FAILED(); } + + if ( ! pass ) + HDfprintf(stdout, "%s: failure_mssg = \"%s\".\n", + FUNC, failure_mssg); + + return !pass; + +} /* cache_image_smoke_check_1() */ + + +/*------------------------------------------------------------------------- + * Function: cache_image_smoke_check_2() + * + * Purpose: This test is one of a sequence of tests intended + * to exercise the cache image feature verifying that it + * works more or less correctly in common cases. + * + * This test is an initial smoke check, so the sequence of + * operations is relatively simple. In particular, we are + * testing: + * + * i) Creation of file with metadata cache image + * superblock extension message and cache image + * block. + * + * ii) Open of file with metadata cache image superblock + * extension message and cache image block. Write + * of prefetched entries to file on file close. + * + * To do this: + * + * 1) Create a HDF5 file with the cache image FAPL entry. + * + * Verify that the cache is informed of the cache image + * FAPL entry. + * + * Set all cache image flags, forcing full functionality. + * + * 2) Create some datasets in the file. + * + * 3) Close the file. + * + * 4) Open the file. + * + * 5) Close the file. + * + * 6) Open the file. + * + * Verify that the file doesn't contain a metadata cache + * image superblock extension message. + * + * 7) Open a dataset. + * + * Verify that it contains the expected data. + * + * 8) Close the file. + * + * 9) Delete the file. + * + * Return: void + * + * Programmer: John Mainzer + * 8/18/15 + * + *------------------------------------------------------------------------- + */ + +static unsigned +cache_image_smoke_check_2(void) +{ + const char * fcn_name = "cache_image_smoke_check_2()"; + char filename[512]; + hbool_t show_progress = FALSE; + hid_t file_id = -1; + H5F_t *file_ptr = NULL; + H5C_t *cache_ptr = NULL; + int cp = 0; + + TESTING("metadata cache image smoke check 2"); + + pass = TRUE; + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* setup the file name */ + if ( pass ) { + + if ( h5_fixname(FILENAMES[0], H5P_DEFAULT, filename, sizeof(filename)) + == NULL ) { + + pass = FALSE; + failure_mssg = "h5_fixname() failed.\n"; + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 1) Create a HDF5 file with the cache image FAPL entry. + * + * Verify that the cache is informed of the cache image FAPL entry. + * + * Set flags forcing full function of the cache image feature. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ TRUE, + /* mdci_sbem_expected */ FALSE, + /* read_only */ FALSE, + /* set_mdci_fapl */ TRUE, + /* config_fsm */ TRUE, + /* hdf_file_name */ filename, + /* cache_image_flags */ H5C_CI__ALL_FLAGS, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 2) Create some datasets in the file. */ + + if ( pass ) { + + create_datasets(file_id, 0, 5); + } + +#if H5C_COLLECT_CACHE_STATS + if ( pass ) { + + if ( cache_ptr->images_loaded != 0 ) { + + pass = FALSE; + failure_mssg = "metadata cache image block loaded(1)."; + } + } +#endif /* H5C_COLLECT_CACHE_STATS */ + + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 3) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 4) Open the file. + * + * Verify that the metadata cache is instructed to load the + * metadata cache image. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ FALSE, + /* mdci_sbem_expected */ TRUE, + /* read_only */ FALSE, + /* set_mdci_fapl */ FALSE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ 0, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + /* can't verify that metadata cache image has been loaded directly, + * as in this cache, the load will not happen until close, and thus + * the images_created stat will not be readily available as it is + * incremented just before the cache is shut down. + */ + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 5) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 6) Open the file. + * + * Verify that the file doesn't contain a metadata cache image + * superblock extension message. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ FALSE, + /* mdci_sbem_expected */ FALSE, + /* read_only */ FALSE, + /* set_mdci_fapl */ FALSE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ 0, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 7) Open and close a dataset. + * + * Verify that the metadata cache image superblock + * extension message has been deleted. + */ + + if ( pass ) { + + verify_datasets(file_id, 0, 5); + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 8) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 9) Delete the file */ + + if ( pass ) { + + if ( HDremove(filename) < 0 ) { + + pass = FALSE; + failure_mssg = "HDremove() failed.\n"; + } + } + + if ( pass ) { PASSED(); } else { H5_FAILED(); } + + if ( ! pass ) + HDfprintf(stdout, "%s: failure_mssg = \"%s\".\n", + FUNC, failure_mssg); + + return !pass; + +} /* cache_image_smoke_check_2() */ + + +/*------------------------------------------------------------------------- + * Function: cache_image_smoke_check_3() + * + * Purpose: This test is one of a sequence of tests intended + * to exercise the cache image feature verifying that it + * works more or less correctly in common cases. + * + * This test is an initial smoke check, so the sequence of + * operations is relatively simple. In particular, we are + * testing: + * + * i) Creation of file with metadata cache image + * superblock extension message and cache image + * block. + * + * ii) Read only open and close of file with metadata + * cache image superblock extension message and + * cache image block. + * + * iii) Subsequent R/W open and close of file with metadata + * cache image superblock extension message and + * cache image block. + * + * To do this: + * + * 1) Create a HDF5 file with the cache image FAPL entry. + * + * Verify that the cache is informed of the cache image + * FAPL entry. + * + * Set all cache image flags, forcing full functionality. + * + * 2) Create some datasets in the file. + * + * 3) Close the file. + * + * 4) Open the file read only. + * + * Verify that the file contains a metadata cache + * image superblock extension message. + * + * 5 Open a dataset. + * + * Verify that it contains the expected data. + * + * 6) Close the file. + * + * 7) Open the file. + * + * Verify that the file contains a metadata cache + * image superblock extension message. + * + * 8 Open a dataset. + * + * Verify that it contains the expected data. + * + * 9) Close the file. + * + * 10) Open the file. + * + * Verify that the file doesn't contain a metadata cache + * image superblock extension message. + * + * 11) Open a dataset. + * + * Verify that it contains the expected data. + * + * 12) Close the file. + * + * 13) Delete the file. + * + * Return: void + * + * Programmer: John Mainzer + * 8/18/15 + * + *------------------------------------------------------------------------- + */ + +static unsigned +cache_image_smoke_check_3(void) +{ + const char * fcn_name = "cache_image_smoke_check_3()"; + char filename[512]; + hbool_t show_progress = FALSE; + hid_t file_id = -1; + H5F_t *file_ptr = NULL; + H5C_t *cache_ptr = NULL; + int cp = 0; + + TESTING("metadata cache image smoke check 3"); + + pass = TRUE; + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* setup the file name */ + if ( pass ) { + + if ( h5_fixname(FILENAMES[0], H5P_DEFAULT, filename, sizeof(filename)) + == NULL ) { + + pass = FALSE; + failure_mssg = "h5_fixname() failed.\n"; + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 1) Create a HDF5 file with the cache image FAPL entry. + * + * Verify that the cache is informed of the cache image FAPL entry. + * + * Set flags forcing full function of the cache image feature. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ TRUE, + /* mdci_sbem_expected */ FALSE, + /* read_only */ FALSE, + /* set_mdci_fapl */ TRUE, + /* config_fsm */ TRUE, + /* hdf_file_name */ filename, + /* cache_image_flags */ H5C_CI__ALL_FLAGS, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 2) Create some datasets in the file. */ + + if ( pass ) { + + create_datasets(file_id, 0, 5); + } + +#if H5C_COLLECT_CACHE_STATS + if ( pass ) { + + if ( cache_ptr->images_loaded != 0 ) { + + pass = FALSE; + failure_mssg = "metadata cache image block loaded(1)."; + } + } +#endif /* H5C_COLLECT_CACHE_STATS */ + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 3) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 4) Open the file read only. + * + * Verify that the metadata cache is instructed to load the + * metadata cache image. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ FALSE, + /* mdci_sbem_expected */ TRUE, + /* read_only */ TRUE, + /* set_mdci_fapl */ FALSE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ 0, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 5) Open and close a dataset. + * + * Verify that the metadata cache image superblock + * extension message has been deleted. + */ + + if ( pass ) { + + verify_datasets(file_id, 0, 5); + } + +#if H5C_COLLECT_CACHE_STATS + if ( pass ) { + + if ( cache_ptr->images_loaded == 0 ) { + + pass = FALSE; + failure_mssg = "metadata cache image block not loaded(1)."; + } + } +#endif /* H5C_COLLECT_CACHE_STATS */ + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 6) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 7) Open the file. + * + * Verify that the file contains a metadata cache image + * superblock extension message. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ FALSE, + /* mdci_sbem_expected */ TRUE, + /* read_only */ FALSE, + /* set_mdci_fapl */ FALSE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ 0, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 8) Open and close a dataset. + * + * Verify that the metadata cache image superblock + * extension message has been deleted. + */ + + if ( pass ) { + + verify_datasets(file_id, 0, 5); + } + +#if H5C_COLLECT_CACHE_STATS + if ( pass ) { + + if ( cache_ptr->images_loaded == 0 ) { + + pass = FALSE; + failure_mssg = "metadata cache image block not loaded(2)."; + } + } +#endif /* H5C_COLLECT_CACHE_STATS */ + + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 9) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + } + } + + + /* 10) Open the file. + * + * Verify that the file doesn't contain a metadata cache image + * superblock extension message. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ FALSE, + /* mdci_sbem_expected */ FALSE, + /* read_only */ FALSE, + /* set_mdci_fapl */ FALSE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ 0, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 11) Open and close a dataset. + * + * Verify that the metadata cache image superblock + * extension message has been deleted. + */ + + if ( pass ) { + + verify_datasets(file_id, 0, 5); + } + +#if H5C_COLLECT_CACHE_STATS + if ( pass ) { + + if ( cache_ptr->images_loaded != 0 ) { + + pass = FALSE; + failure_mssg = "metadata cache image block loaded(2)."; + } + } +#endif /* H5C_COLLECT_CACHE_STATS */ + + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 12) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 13) Delete the file */ + + if ( pass ) { + + if ( HDremove(filename) < 0 ) { + + pass = FALSE; + failure_mssg = "HDremove() failed.\n"; + } + } + + if ( pass ) { PASSED(); } else { H5_FAILED(); } + + if ( ! pass ) + HDfprintf(stdout, "%s: failure_mssg = \"%s\".\n", + FUNC, failure_mssg); + + return !pass; + +} /* cache_image_smoke_check_3() */ + + +/*------------------------------------------------------------------------- + * Function: cache_image_smoke_check_4() + * + * Purpose: This test attempts to mimic the typical "poor man's + * parallel use case in which the file is passed between + * processes, each of which open the file, write some data, + * close the file, and then pass control on to the next + * process. + * + * In this case, we only write one dataset per process. + * + * Cycle of operation + * + * 1) Create a HDF5 file with the cache image FAPL entry. + * + * Verify that the cache is informed of the cache image + * FAPL entry. + * + * Set all cache image flags, forcing full functionality. + * + * 2) Create and write a dataset in the file. + * + * 3) Close the file. + * + * 4) Open the file with the cache image FAPL entry. + * + * Verify that the file contains a metadata cache + * image superblock extension message. + * + * 5 Create and write a new dataset + * + * 6) Close the file. + * + * If sufficient datasets have been created, continue to + * 7). Otherwise goto 4) + * + * 7) Open the file. + * + * Verify that the file contains a metadata cache + * image superblock extension message. + * + * 8) Open all datasets that have been created, and + * verify that they contain the expected data. + * + * 9) Close the file. + * + * 10) Open the file. + * + * Verify that the file doesn't contain a metadata cache + * image superblock extension message. + * + * 11) Open all datasets that have been created, and + * verify that they contain the expected data. + * + * Verify that it contains the expected data. + * + * 12) Close the file. + * + * 13) Delete the file. + * + * Return: void + * + * Programmer: John Mainzer + * 8/18/15 + * + *------------------------------------------------------------------------- + */ + +static unsigned +cache_image_smoke_check_4(void) +{ + const char * fcn_name = "cache_image_smoke_check_4()"; + char filename[512]; + hbool_t show_progress = FALSE; + hid_t file_id = -1; + H5F_t *file_ptr = NULL; + H5C_t *cache_ptr = NULL; + int cp = 0; + int min_dset = 0; + int max_dset = 0; + + TESTING("metadata cache image smoke check 4"); + + pass = TRUE; + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* setup the file name */ + if ( pass ) { + + if ( h5_fixname(FILENAMES[0], H5P_DEFAULT, filename, sizeof(filename)) + == NULL ) { + + pass = FALSE; + failure_mssg = "h5_fixname() failed.\n"; + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 1) Create a HDF5 file with the cache image FAPL entry. + * + * Verify that the cache is informed of the cache image FAPL entry. + * + * Set flags forcing full function of the cache image feature. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ TRUE, + /* mdci_sbem_expected */ FALSE, + /* read_only */ FALSE, + /* set_mdci_fapl */ TRUE, + /* config_fsm */ TRUE, + /* hdf_file_name */ filename, + /* cache_image_flags */ H5C_CI__ALL_FLAGS, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 2) Create a dataset in the file. */ + + if ( pass ) { + + create_datasets(file_id, min_dset++, max_dset++); + } + +#if H5C_COLLECT_CACHE_STATS + if ( pass ) { + + if ( cache_ptr->images_loaded != 0 ) { + + pass = FALSE; + failure_mssg = "metadata cache image block loaded(1)."; + } + } +#endif /* H5C_COLLECT_CACHE_STATS */ + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 3) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + while ( ( pass ) && ( max_dset < MAX_NUM_DSETS ) ) + { + + /* 4) Open the file. + * + * Verify that the metadata cache is instructed to load the + * metadata cache image. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ FALSE, + /* mdci_sbem_expected */ TRUE, + /* read_only */ FALSE, + /* set_mdci_fapl */ TRUE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ H5C_CI__ALL_FLAGS, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) + HDfprintf(stdout, "%s:L1 cp = %d, max_dset = %d, pass = %d.\n", + fcn_name, cp, max_dset, pass); + + + /* 5) Create a dataset in the file. */ + + if ( pass ) { + + create_datasets(file_id, min_dset++, max_dset++); + } + +#if H5C_COLLECT_CACHE_STATS + if ( pass ) { + + if ( cache_ptr->images_loaded == 0 ) { + + pass = FALSE; + failure_mssg = "metadata cache image block not loaded(1)."; + } + } +#endif /* H5C_COLLECT_CACHE_STATS */ + + if ( show_progress ) + HDfprintf(stdout, "%s:L2 cp = %d, max_dset = %d, pass = %d.\n", + fcn_name, cp + 1, max_dset, pass); + + + /* 6) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s:L3 cp = %d, max_dset = %d, pass = %d.\n", + fcn_name, cp + 2, max_dset, pass); + } /* end while */ + cp += 3; + + + /* 7) Open the file. + * + * Verify that the file contains a metadata cache image + * superblock extension message. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ FALSE, + /* mdci_sbem_expected */ TRUE, + /* read_only */ FALSE, + /* set_mdci_fapl */ FALSE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ 0, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 8) Open and close all datasets. + * + * Verify that the metadata cache image superblock + * extension message has been deleted. + */ + + if ( pass ) { + + verify_datasets(file_id, 0, max_dset - 1); + } + +#if H5C_COLLECT_CACHE_STATS + if ( pass ) { + + if ( cache_ptr->images_loaded == 0 ) { + + pass = FALSE; + failure_mssg = "metadata cache image block not loaded(2)."; + } + } +#endif /* H5C_COLLECT_CACHE_STATS */ + + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 9) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + } + } + + + /* 10) Open the file. + * + * Verify that the file doesn't contain a metadata cache image + * superblock extension message. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ FALSE, + /* mdci_sbem_expected */ FALSE, + /* read_only */ FALSE, + /* set_mdci_fapl */ FALSE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ 0, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 11) Open and close all datasets. + * + * Verify that the metadata cache image superblock + * extension message has been deleted. + */ + + if ( pass ) { + + verify_datasets(file_id, 0, max_dset - 1); + } + +#if H5C_COLLECT_CACHE_STATS + if ( pass ) { + + if ( cache_ptr->images_loaded != 0 ) { + + pass = FALSE; + failure_mssg = "metadata cache image block loaded(2)."; + } + } +#endif /* H5C_COLLECT_CACHE_STATS */ + + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 12) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 13) Delete the file */ + + if ( pass ) { + + if ( HDremove(filename) < 0 ) { + + pass = FALSE; + failure_mssg = "HDremove() failed.\n"; + } + } + + if ( pass ) { PASSED(); } else { H5_FAILED(); } + + if ( ! pass ) + HDfprintf(stdout, "%s: failure_mssg = \"%s\".\n", + FUNC, failure_mssg); + + return !pass; + +} /* cache_image_smoke_check_4() */ + + +/*------------------------------------------------------------------------- + * Function: cache_image_smoke_check_5() + * + * Purpose: This test attempts to mimic the typical "poor man's + * parallel use case in which the file is passed between + * processes, each of which open the file, write some data, + * close the file, and then pass control on to the next + * process. + * + * In this case, we create one group for each process, and + * populate it with a "zoo" of HDF5 objects selected to + * (ideally) exercise all HDF5 on disk data structures. + * + * Cycle of operation + * + * 1) Create a HDF5 file with the cache image FAPL entry. + * + * Verify that the cache is informed of the cache image + * FAPL entry. + * + * Set all cache image flags, forcing full functionality. + * + * 2) Create a process specific group. + * + * 3) Construct a "zoo" in the above group, and validate it. + * + * 4) Close the file. + * + * 5) Open the file with the cache image FAPL entry. + * + * Verify that the file contains a metadata cache + * image superblock extension message. + * + * 6) Validate the "zoo" created in the previous file open. + * + * 7) Create a process specific group for this file open + * + * 8) Construct a "zoo" in the above group, and validate it. + * + * 9) Close the file. + * + * If sufficient zoos have been created, continue to + * 10). Otherwise goto 5) + * + * 10) Open the file. + * + * Verify that the file contains a metadata cache + * image superblock extension message. + * + * 11) Validate all the zoos. + * + * 12) Close the file. + * + * 13) Open the file. + * + * Verify that the file doesn't contain a metadata cache + * image superblock extension message. + * + * 14) Validate all the zoos. + * + * 15) Close the file. + * + * 16) Delete the file. + * + * Return: void + * + * Programmer: John Mainzer + * 9/15/15 + * + *------------------------------------------------------------------------- + */ + +#define MAX_NUM_GROUPS 128 + +static unsigned +cache_image_smoke_check_5(void) +{ + const char * fcn_name = "cache_image_smoke_check_5()"; + char filename[512]; + char process_group_name[512]; + hbool_t show_progress = FALSE; + hid_t file_id = -1; + hid_t proc_gid = -1; + H5F_t *file_ptr = NULL; + H5C_t *cache_ptr = NULL; + int cp = 0; + int i; + int min_group = 0; + int max_group = 0; + + TESTING("metadata cache image smoke check 5"); + + pass = TRUE; + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* setup the file name */ + if ( pass ) { + + if ( h5_fixname(FILENAMES[0], H5P_DEFAULT, filename, sizeof(filename)) + == NULL ) { + + pass = FALSE; + failure_mssg = "h5_fixname() failed.\n"; + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 1) Create a HDF5 file with the cache image FAPL entry. + * + * Verify that the cache is informed of the cache image FAPL entry. + * + * Set flags forcing full function of the cache image feature. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ TRUE, + /* mdci_sbem_expected */ FALSE, + /* read_only */ FALSE, + /* set_mdci_fapl */ TRUE, + /* config_fsm */ TRUE, + /* hdf_file_name */ filename, + /* cache_image_flags */ H5C_CI__ALL_FLAGS, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 2) Create a process specific group. */ + if ( pass ) { + + sprintf(process_group_name, "/process_%d", min_group); + + proc_gid = H5Gcreate2(file_id, process_group_name, H5P_DEFAULT, + H5P_DEFAULT, H5P_DEFAULT); + + if ( proc_gid < 0 ) { + + pass = FALSE; + failure_mssg = "H5Gcreate2() failed (1).\n"; + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 3) Construct a "zoo" in the above group, and validate it. */ + if ( pass ) + create_zoo(file_id, process_group_name, min_group); + +#if H5C_COLLECT_CACHE_STATS + if ( pass ) { + + if ( cache_ptr->images_loaded != 0 ) { + + pass = FALSE; + failure_mssg = "metadata cache image block loaded(1)."; + } + } +#endif /* H5C_COLLECT_CACHE_STATS */ + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 4) Close the file. */ + + if ( pass ) { + + if ( H5Gclose(proc_gid) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Gclose(proc_gid) failed. (1)"; + } + } + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + while ( ( pass ) && ( max_group < MAX_NUM_GROUPS ) ) + { + + /* 5) Open the file. + * + * Verify that the metadata cache is instructed to load the + * metadata cache image. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ FALSE, + /* mdci_sbem_expected */ TRUE, + /* read_only */ FALSE, + /* set_mdci_fapl */ TRUE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ H5C_CI__ALL_FLAGS, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) + HDfprintf(stdout, "%s:L1 cp = %d, max_group = %d, pass = %d.\n", + fcn_name, cp, max_group, pass); + + + /* 6) Validate the "zoo" created in the previous file open. */ + if ( pass ) + validate_zoo(file_id, process_group_name, max_group); + +#if H5C_COLLECT_CACHE_STATS + if ( pass ) { + + if ( cache_ptr->images_loaded == 0 ) { + + pass = FALSE; + failure_mssg = "metadata cache image block not loaded(1)."; + } + } +#endif /* H5C_COLLECT_CACHE_STATS */ + + if ( show_progress ) + HDfprintf(stdout, "%s:L2 cp = %d, max_group = %d, pass = %d.\n", + fcn_name, cp + 1, max_group, pass); + + + /* 7) Create a process specific group for this file open */ + if ( pass ) { + + max_group++; + sprintf(process_group_name, "/process_%d", max_group); + + proc_gid = H5Gcreate2(file_id, process_group_name, H5P_DEFAULT, + H5P_DEFAULT, H5P_DEFAULT); + + if ( proc_gid < 0 ) { + + pass = FALSE; + failure_mssg = "H5Gcreate2() failed (2).\n"; + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s:L3 cp = %d, max_group = %d, pass = %d.\n", + fcn_name, cp + 2, max_group, pass); + + + /* 8) Construct a "zoo" in the above group, and validate it. */ + if ( pass ) + create_zoo(file_id, process_group_name, max_group); + + if ( show_progress ) + HDfprintf(stdout, "%s:L4 cp = %d, max_group = %d, pass = %d.\n", + fcn_name, cp + 3, max_group, pass); + + + /* 9) Close the file. */ + + if ( pass ) { + + if ( H5Gclose(proc_gid) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Gclose(process_gid) failed. (2)"; + } + } + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s:L5 cp = %d, max_group = %d, pass = %d.\n", + fcn_name, cp + 4, max_group, pass); + } /* end while */ + cp += 5; + + + + /* 10) Open the file. + * + * Verify that the file contains a metadata cache image + * superblock extension message. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ FALSE, + /* mdci_sbem_expected */ TRUE, + /* read_only */ FALSE, + /* set_mdci_fapl */ FALSE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ 0, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 11) Validate all the zoos. */ + i = min_group; + while ( ( pass ) && ( i <= max_group ) ) { + + sprintf(process_group_name, "/process_%d", i); + validate_zoo(file_id, process_group_name, i++); + } + +#if H5C_COLLECT_CACHE_STATS + if ( pass ) { + + if ( cache_ptr->images_loaded == 0 ) { + + pass = FALSE; + failure_mssg = "metadata cache image block not loaded(2)."; + } + } +#endif /* H5C_COLLECT_CACHE_STATS */ + + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 12) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + } + } + + + /* 13) Open the file. + * + * Verify that the file doesn't contain a metadata cache image + * superblock extension message. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ FALSE, + /* mdci_sbem_expected */ FALSE, + /* read_only */ FALSE, + /* set_mdci_fapl */ FALSE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ 0, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 14) Validate all the zoos. + * + * Verify that the metadata cache image superblock + * extension message has been deleted. + */ + i = min_group; + while ( ( pass ) && ( i <= max_group ) ) { + + sprintf(process_group_name, "/process_%d", i); + validate_zoo(file_id, process_group_name, i++); + } + +#if H5C_COLLECT_CACHE_STATS + if ( pass ) { + + if ( cache_ptr->images_loaded != 0 ) { + + pass = FALSE; + failure_mssg = "metadata cache image block loaded(2)."; + } + } +#endif /* H5C_COLLECT_CACHE_STATS */ + + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 15) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 16) Delete the file */ + + if ( pass ) { + + if ( HDremove(filename) < 0 ) { + + pass = FALSE; + failure_mssg = "HDremove() failed.\n"; + } + } + + + if ( pass ) { PASSED(); } else { H5_FAILED(); } + + if ( ! pass ) + HDfprintf(stdout, "%s: failure_mssg = \"%s\".\n", + FUNC, failure_mssg); + + return !pass; + +} /* cache_image_smoke_check_5() */ + + +/*------------------------------------------------------------------------- + * Function: cache_image_smoke_check_6() + * + * Purpose: As the free space manager metadata is now included in the + * cache image, a smoke check to verify generally correct + * behaviour of the persistent free space managers seems + * prudent. + * + * The basic idea of this test is to construct a long + * sequence of dataset creations and deletions, all separated + * by file open/close cycles with cache image enabled. If the + * perisistant free space managers are performing as expected, + * the size of the file should stabilize. + * + * To implement this, proceed as outlined in the cycle of + * operation below: + * + * Cycle of operation + * + * 1) Create a HDF5 file with the cache image FAPL entry. + * + * Verify that the cache is informed of the cache image + * FAPL entry. + * + * Set all cache image flags, forcing full functionality. + * + * 2) Create and write a dataset in the file. + * + * 3) Close the file. + * + * 4) Open the file with the cache image FAPL entry. + * + * Verify that the file contains a metadata cache + * image superblock extension message. + * + * 5) Create and write a new dataset. + * + * 6) Verify and delete the old dataset. + * + * 7) Close the file. + * + * If sufficient datasets have been created, and then + * deleteded continue to 8). Otherwise goto 4) + * + * 8) Open the file. + * + * Verify that the file contains a metadata cache + * image superblock extension message. + * + * 9) Verify the last dataset created. + * + * 10) Close the file. + * + * 11) Open the file. + * + * 12) Verify and delete the last dataset. + * + * Verify that a metadata cache image is not loaded. + * + * 13) Close the file. + * + * 14) Get the size of the file. Verify that it is less + * than 1 KB. Without deletions and persistant free + * space managers, size size is about 167 MB, so this + * is sufficient to verify that the persistant free + * space managers are more or less doing their job. + * + * 15) Delete the file. + * + * Return: void + * + * Programmer: John Mainzer + * 10/31/16 + * + *------------------------------------------------------------------------- + */ + +static unsigned +cache_image_smoke_check_6(void) +{ + const char * fcn_name = "cache_image_smoke_check_6()"; + char filename[512]; + hbool_t show_progress = FALSE; + hid_t file_id = -1; + H5F_t *file_ptr = NULL; + H5C_t *cache_ptr = NULL; + h5_stat_size_t file_size; + int cp = 0; + int min_dset = 0; + int max_dset = 0; + + TESTING("metadata cache image smoke check 6"); + + pass = TRUE; + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* setup the file name */ + if ( pass ) { + + if ( h5_fixname(FILENAMES[0], H5P_DEFAULT, filename, sizeof(filename)) + == NULL ) { + + pass = FALSE; + failure_mssg = "h5_fixname() failed.\n"; + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 1) Create a HDF5 file with the cache image FAPL entry. + * + * Verify that the cache is informed of the cache image FAPL entry. + * + * Set flags forcing full function of the cache image feature. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ TRUE, + /* mdci_sbem_expected */ FALSE, + /* read_only */ FALSE, + /* set_mdci_fapl */ TRUE, + /* config_fsm */ TRUE, + /* hdf_file_name */ filename, + /* cache_image_flags */ H5C_CI__ALL_FLAGS, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 2) Create a dataset in the file. */ + + if ( pass ) { + + create_datasets(file_id, min_dset++, max_dset++); + } + +#if H5C_COLLECT_CACHE_STATS + if ( pass ) { + + if ( cache_ptr->images_loaded != 0 ) { + + pass = FALSE; + failure_mssg = "metadata cache image block loaded(1)."; + } + } +#endif /* H5C_COLLECT_CACHE_STATS */ + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 3) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + while ( ( pass ) && ( max_dset < MAX_NUM_DSETS ) ) + { + + /* 4) Open the file. + * + * Verify that the metadata cache is instructed to load the + * metadata cache image. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ FALSE, + /* mdci_sbem_expected */ TRUE, + /* read_only */ FALSE, + /* set_mdci_fapl */ TRUE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ H5C_CI__ALL_FLAGS, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) + HDfprintf(stdout, "%s:L1 cp = %d, max_dset = %d, pass = %d.\n", + fcn_name, cp, max_dset, pass); + + + /* 5) Create a dataset in the file. */ + + if ( pass ) { + + create_datasets(file_id, min_dset++, max_dset++); + } + +#if H5C_COLLECT_CACHE_STATS + if ( pass ) { + + if ( cache_ptr->images_loaded == 0 ) { + + pass = FALSE; + failure_mssg = "metadata cache image block not loaded(1)."; + } + } +#endif /* H5C_COLLECT_CACHE_STATS */ + + if ( show_progress ) + HDfprintf(stdout, "%s:L2 cp = %d, max_dset = %d, pass = %d.\n", + fcn_name, cp + 1, max_dset, pass); + + + /* 6) Verify and delete the old dataset. */ + if ( pass ) { + + delete_datasets(file_id, min_dset - 2, max_dset - 2); + } + + if ( show_progress ) + HDfprintf(stdout, "%s:L3 cp = %d, max_dset = %d, pass = %d.\n", + fcn_name, cp + 2, max_dset, pass); + + + /* 7) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s:L4 cp = %d, max_dset = %d, pass = %d.\n", + fcn_name, cp + 3, max_dset, pass); + } /* end while */ + cp += 4; + + + /* 8) Open the file. + * + * Verify that the file contains a metadata cache image + * superblock extension message. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ FALSE, + /* mdci_sbem_expected */ TRUE, + /* read_only */ FALSE, + /* set_mdci_fapl */ FALSE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ 0, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 9) Verify the last dataset created. */ + + if ( pass ) { + + verify_datasets(file_id, min_dset - 1, max_dset - 1); + } + +#if H5C_COLLECT_CACHE_STATS + if ( pass ) { + + if ( cache_ptr->images_loaded == 0 ) { + + pass = FALSE; + failure_mssg = "metadata cache image block not loaded(2)."; + } + } +#endif /* H5C_COLLECT_CACHE_STATS */ + + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 10) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + } + } + + + /* 11) Open the file. + * + * Verify that the file doesn't contain a metadata cache image + * superblock extension message. + */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ FALSE, + /* mdci_sbem_expected */ FALSE, + /* read_only */ FALSE, + /* set_mdci_fapl */ FALSE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ 0, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 12) Verify and delete the last dataset. + * + * Verify that a metadata cache image is not loaded. + */ + + if ( pass ) { + + delete_datasets(file_id, min_dset - 1, max_dset - 1); + } + +#if H5C_COLLECT_CACHE_STATS + if ( pass ) { + + if ( cache_ptr->images_loaded != 0 ) { + + pass = FALSE; + failure_mssg = "metadata cache image block loaded(2)."; + } + } +#endif /* H5C_COLLECT_CACHE_STATS */ + + + + /* 13) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 14) Get the size of the file. Verify that it is less + * than 1 KB. Without deletions and persistant free + * space managers, size size is about 167 MB, so this + * is sufficient to verify that the persistant free + * space managers are more or less doing their job. + */ + if((file_size = h5_get_file_size(filename, H5P_DEFAULT)) < 0) { + + pass = FALSE; + failure_mssg = "h5_get_file_size() failed.\n"; + + } else if ( file_size > 1024 ) { + + pass = FALSE; + failure_mssg = "unexpectedly large file size.\n"; + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 15) Delete the file */ + if ( pass ) { + + if ( HDremove(filename) < 0 ) { + + pass = FALSE; + failure_mssg = "HDremove() failed.\n"; + } + } + + + if ( pass ) { PASSED(); } else { H5_FAILED(); } + + if ( ! pass ) + HDfprintf(stdout, "%s: failure_mssg = \"%s\".\n", + FUNC, failure_mssg); + + return !pass; + +} /* cache_image_smoke_check_6() */ + + +/*------------------------------------------------------------------------- + * Function: cache_image_api_error_check_1() + * + * Purpose: This test is one of a sequence of tests intended + * to verify correct management of API errors. + * + * The object of this test is to verify that a file without + * a pre-existing cache image that is opened both read only + * and with a cache image requested is handle correctly + * (the cache image request should be ignored silently). + * + * The test is set up as follows: + * + * 1) Create a HDF5 file. + * + * 2) Create some datasets in the file. + * + * 3) Close the file. + * + * 4) Open the file read only with a cache image FAPL entry + * requested. + * + * 5) Open a dataset. + * + * Verify that it contains the expected data + * + * Verify that the cache image was not loaded. + * + * 6) Close the file. + * + * 7) Open the file read only. + * + * 8) Open a dataset. + * + * Verify that it contains the expected data. + * + * Verify that the cache image was not loaded. + * + * 9) Close the file. + * + * 10) Open the file read write. + * + * 11) Open a dataset. + * + * Verify that it contains the expected data. + * + * 12) Close the file. + * + * 13) Delete the file. + * + * Return: void + * + * Programmer: John Mainzer + * 9/25/15 + * + *------------------------------------------------------------------------- + */ + +static unsigned +cache_image_api_error_check_1(void) +{ + const char * fcn_name = "cache_image_api_error_check_1()"; + char filename[512]; + hbool_t show_progress = FALSE; + hid_t file_id = -1; + H5F_t *file_ptr = NULL; + H5C_t *cache_ptr = NULL; + int cp = 0; + + TESTING("metadata cache image api error check 1"); + + pass = TRUE; + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* setup the file name */ + if ( pass ) { + + if ( h5_fixname(FILENAMES[0], H5P_DEFAULT, filename, sizeof(filename)) + == NULL ) { + + pass = FALSE; + failure_mssg = "h5_fixname() failed.\n"; + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 1) Create a HDF5 file. */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ TRUE, + /* mdci_sbem_expected */ FALSE, + /* read_only */ FALSE, + /* set_mdci_fapl */ FALSE, + /* config_fsm */ TRUE, + /* hdf_file_name */ filename, + /* cache_image_flags */ 0, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 2) Create some datasets in the file. */ + + if ( pass ) { + + create_datasets(file_id, 0, 5); + } + +#if H5C_COLLECT_CACHE_STATS + if ( pass ) { + + if ( cache_ptr->images_loaded != 0 ) { + + pass = FALSE; + failure_mssg = "metadata cache image block loaded(1)."; + } + } +#endif /* H5C_COLLECT_CACHE_STATS */ + + + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 3) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 4) Open the file read only with a cache image FAPL entry requested. */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ FALSE, + /* mdci_sbem_expected */ FALSE, + /* read_only */ TRUE, + /* set_mdci_fapl */ TRUE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ H5C_CI__ALL_FLAGS, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 5) Open and close a dataset. + * + * Verify that it contains the expected data. + * + * Verify that the cache image was not loaded. + */ + + if ( pass ) { + + verify_datasets(file_id, 0, 5); + } + +#if H5C_COLLECT_CACHE_STATS + if ( pass ) { + + if ( cache_ptr->images_loaded != 0 ) { + + pass = FALSE; + failure_mssg = "metadata cache image block loaded(2)."; + } + } +#endif /* H5C_COLLECT_CACHE_STATS */ + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 6) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 7) Open the file read only. */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ FALSE, + /* mdci_sbem_expected */ FALSE, + /* read_only */ TRUE, + /* set_mdci_fapl */ FALSE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ 0, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 8) Open and close a dataset. + * + * Verify that it contains the expected data. + * + * Verify that the cache image was not loaded. + */ + + if ( pass ) { + + verify_datasets(file_id, 0, 5); + } + +#if H5C_COLLECT_CACHE_STATS + if ( pass ) { + + if ( cache_ptr->images_loaded != 0 ) { + + pass = FALSE; + failure_mssg = "metadata cache image block loaded(3)."; + } + } +#endif /* H5C_COLLECT_CACHE_STATS */ + + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 9) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 10) Open the file read / write. */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ FALSE, + /* mdci_sbem_expected */ FALSE, + /* read_only */ FALSE, + /* set_mdci_fapl */ FALSE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ H5C_CI__ALL_FLAGS, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + /* 11) Open and close a dataset. + * + * Verify that it contains the expected data. + * + * Verify that the cache image was not loaded. + */ + + if ( pass ) { + + verify_datasets(file_id, 0, 5); + } + +#if H5C_COLLECT_CACHE_STATS + if ( pass ) { + + if ( cache_ptr->images_loaded != 0 ) { + + pass = FALSE; + failure_mssg = "metadata cache image block loaded(4)."; + } + } +#endif /* H5C_COLLECT_CACHE_STATS */ + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 12) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 13) Delete the file */ + + if ( pass ) { + + if ( HDremove(filename) < 0 ) { + + pass = FALSE; + failure_mssg = "HDremove() failed.\n"; + } + } + + if ( pass ) { PASSED(); } else { H5_FAILED(); } + + if ( ! pass ) + HDfprintf(stdout, "%s: failure_mssg = \"%s\".\n", + FUNC, failure_mssg); + + return !pass; + +} /* cache_image_api_error_check_1() */ + + +/*------------------------------------------------------------------------- + * Function: cache_image_api_error_check_2() + * + * Purpose: This test is one of a sequence of tests intended + * to verify correct management of API errors. + * + * The object of this test is to verify that a file with + * a pre-existing cache image that is opened both read only + * and with a cache image requested is handled correctly + * (the cache image request should be ignored silently). + * + * The test is set up as follows: + * + * 1) Create a HDF5 file with a cache image requested.. + * + * 2) Create some datasets in the file. + * + * 3) Close the file. + * + * 4) Open the file read only with a cache image FAPL entry + * requested. + * + * 5) Open a dataset. + * + * Verify that it contains the expected data + * + * Verify that the cache image was loaded. + * + * 6) Close the file. + * + * 7) Open the file read only. + * + * 8) Open a dataset. + * + * Verify that it contains the expected data. + * + * Verify that the cache image was loaded. + * + * 9) Close the file. + * + * 10) Open the file read write. + * + * 11) Open a dataset. + * + * Verify that it contains the expected data. + * + * Verify that the cache image was loaded. + * + * 12) Close the file. + * + * 13) Open the file read write. + * + * 14) Open a dataset. + * + * Verify that it contains the expected data. + * + * Verify that the cache image was NOT loaded. + * + * 15) Close the file. + * + * 16) Delete the file. + * + * Return: void + * + * Programmer: John Mainzer + * 9/25/15 + * + *------------------------------------------------------------------------- + */ + +static unsigned +cache_image_api_error_check_2(void) +{ + const char * fcn_name = "cache_image_api_error_check_2()"; + char filename[512]; + hbool_t show_progress = FALSE; + hid_t file_id = -1; + H5F_t *file_ptr = NULL; + H5C_t *cache_ptr = NULL; + int cp = 0; + + TESTING("metadata cache image api error check 2"); + + pass = TRUE; + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* setup the file name */ + if ( pass ) { + + if ( h5_fixname(FILENAMES[0], H5P_DEFAULT, filename, sizeof(filename)) + == NULL ) { + + pass = FALSE; + failure_mssg = "h5_fixname() failed.\n"; + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 1) Create a HDF5 file with a cache image requested. */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ TRUE, + /* mdci_sbem_expected */ FALSE, + /* read_only */ FALSE, + /* set_mdci_fapl */ TRUE, + /* config_fsm */ TRUE, + /* hdf_file_name */ filename, + /* cache_image_flags */ H5C_CI__ALL_FLAGS, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 2) Create some datasets in the file. */ + + if ( pass ) { + + create_datasets(file_id, 0, 5); + } + +#if H5C_COLLECT_CACHE_STATS + if ( pass ) { + + if ( cache_ptr->images_loaded != 0 ) { + + pass = FALSE; + failure_mssg = "metadata cache image block loaded(1)."; + } + } +#endif /* H5C_COLLECT_CACHE_STATS */ + + + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 3) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 4) Open the file read only with a cache image FAPL entry requested. */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ FALSE, + /* mdci_sbem_expected */ TRUE, + /* read_only */ TRUE, + /* set_mdci_fapl */ TRUE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ H5C_CI__ALL_FLAGS, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 5) Open and close a dataset. + * + * Verify that it contains the expected data. + * + * Verify that the cache image was loaded. + */ + + if ( pass ) { + + verify_datasets(file_id, 0, 5); + } + +#if H5C_COLLECT_CACHE_STATS + if ( pass ) { + + if ( cache_ptr->images_loaded != 1 ) { + + pass = FALSE; + failure_mssg = "metadata cache image block was not loaded(1)."; + } + } +#endif /* H5C_COLLECT_CACHE_STATS */ + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 6) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 7) Open the file read only. */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ FALSE, + /* mdci_sbem_expected */ TRUE, + /* read_only */ TRUE, + /* set_mdci_fapl */ FALSE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ 0, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 8) Open and close a dataset. + * + * Verify that it contains the expected data. + * + * Verify that the cache image was loaded. + */ + + if ( pass ) { + + verify_datasets(file_id, 0, 5); + } + +#if H5C_COLLECT_CACHE_STATS + if ( pass ) { + + if ( cache_ptr->images_loaded != 1 ) { + + pass = FALSE; + failure_mssg = "metadata cache image block was not loaded(2)."; + } + } +#endif /* H5C_COLLECT_CACHE_STATS */ + + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 9) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 10) Open the file read / write. */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ FALSE, + /* mdci_sbem_expected */ TRUE, + /* read_only */ FALSE, + /* set_mdci_fapl */ FALSE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ H5C_CI__ALL_FLAGS, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + /* 11) Open and close a dataset. + * + * Verify that it contains the expected data. + * + * Verify that the cache image was loaded. + */ + + if ( pass ) { + + verify_datasets(file_id, 0, 5); + } + +#if H5C_COLLECT_CACHE_STATS + if ( pass ) { + + if ( cache_ptr->images_loaded != 1 ) { + + pass = FALSE; + failure_mssg = "metadata cache image block was not loaded(3)."; + } + } +#endif /* H5C_COLLECT_CACHE_STATS */ + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 12) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 13) Open the file read / write. */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ FALSE, + /* mdci_sbem_expected */ FALSE, + /* read_only */ FALSE, + /* set_mdci_fapl */ FALSE, + /* config_fsm */ FALSE, + /* hdf_file_name */ filename, + /* cache_image_flags */ H5C_CI__ALL_FLAGS, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + /* 14) Open and close a dataset. + * + * Verify that it contains the expected data. + * + * Verify that the cache image was not loaded. + */ + + if ( pass ) { + + verify_datasets(file_id, 0, 5); + } + +#if H5C_COLLECT_CACHE_STATS + if ( pass ) { + + if ( cache_ptr->images_loaded != 0 ) { + + pass = FALSE; + failure_mssg = "metadata cache image block was loaded(2)."; + } + } +#endif /* H5C_COLLECT_CACHE_STATS */ + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 15) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 13) Delete the file */ + + if ( pass ) { + + if ( HDremove(filename) < 0 ) { + + pass = FALSE; + failure_mssg = "HDremove() failed.\n"; + } + } + + if ( pass ) { PASSED(); } else { H5_FAILED(); } + + if ( ! pass ) + HDfprintf(stdout, "%s: failure_mssg = \"%s\".\n", + FUNC, failure_mssg); + + return !pass; + +} /* cache_image_api_error_check_2() */ + + +/*------------------------------------------------------------------------- + * Function: cache_image_api_error_check_3() + * + * Purpose: This test is one of a sequence of tests intended + * to verify correct management of API errors. + * + * At present, SWMR and cache image may not be active + * at the same time. The purpose of this test is to + * verify that attempts to run SWMR and cache image + * at the same time will fail. + * + * The test is set up as follows: + * + * 1) Create a HDF5 file with a cache image requested.. + * + * 2) Try to start SWMR write -- should fail. + * + * 3) Discard the file if necessary + * + * 4) Attempt to create a HDF5 file with SWMR write + * access and cache image requested -- should fail. + * + * 5) Discard the file if necessary + * + * 6) Create a HDF5 file with a cache image requested. + * + * 7) Create some datasets in the file. + * + * 8) Close the file. + * + * 9) Attempt to open the file with SWMR write access -- + * should fail. + * + * 10) Discard the file if necessary. + * + * Return: void + * + * Programmer: John Mainzer + * 12/29/16 + * + *------------------------------------------------------------------------- + */ + +static unsigned +cache_image_api_error_check_3(void) +{ + const char * fcn_name = "cache_image_api_error_check_3()"; + char filename[512]; + hbool_t show_progress = FALSE; + hid_t file_id = -1; + H5F_t *file_ptr = NULL; + H5C_t *cache_ptr = NULL; + int cp = 0; + + TESTING("metadata cache image api error check 3"); + + pass = TRUE; + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* setup the file name */ + if ( pass ) { + + if ( h5_fixname(FILENAMES[0], H5P_DEFAULT, filename, sizeof(filename)) + == NULL ) { + + pass = FALSE; + failure_mssg = "h5_fixname() failed.\n"; + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 1) Create a HDF5 file with a cache image requested. */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ TRUE, + /* mdci_sbem_expected */ FALSE, + /* read_only */ FALSE, + /* set_mdci_fapl */ TRUE, + /* config_fsm */ TRUE, + /* hdf_file_name */ filename, + /* cache_image_flags */ H5C_CI__ALL_FLAGS, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 2) Try to start SWMR write -- should fail. */ + + if ( pass ) { + + H5E_BEGIN_TRY { + if ( H5Fstart_swmr_write(file_id) == SUCCEED ) { + + pass = FALSE; + failure_mssg = "metadata cache image block loaded(1)."; + } + } H5E_END_TRY; + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 3) Discard the file if necessary */ + + if ( pass ) { + + if ( HDremove(filename) < 0 ) { + + pass = FALSE; + failure_mssg = "HDremove() failed.\n"; + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 4) Attempt to create a HDF5 file with SWMR write + * access and cache image requested -- should fail. + */ + + attempt_swmr_open_hdf5_file(/* create_file */ TRUE, + /* set_mdci_fapl */ TRUE, + /* hdf_file_name */ filename); + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 5) Discard the file if necessary */ + + if ( pass ) { + + /* file probably doesn't exist, so don't + * error check the remove call. + */ + HDremove(filename); + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 6) Create a HDF5 file with a cache image requested. */ + + if ( pass ) { + + open_hdf5_file(/* create_file */ TRUE, + /* mdci_sbem_expected */ FALSE, + /* read_only */ FALSE, + /* set_mdci_fapl */ TRUE, + /* config_fsm */ TRUE, + /* hdf_file_name */ filename, + /* cache_image_flags */ H5C_CI__ALL_FLAGS, + /* file_id_ptr */ &file_id, + /* file_ptr_ptr */ &file_ptr, + /* cache_ptr_ptr */ &cache_ptr); + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 7) Create some datasets in the file. */ + + if ( pass ) { + + create_datasets(file_id, 0, 5); + } + +#if H5C_COLLECT_CACHE_STATS + if ( pass ) { + + if ( cache_ptr->images_loaded != 0 ) { + + pass = FALSE; + failure_mssg = "metadata cache image block loaded(1)."; + } + } +#endif /* H5C_COLLECT_CACHE_STATS */ + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 8) Close the file. */ + + if ( pass ) { + + if ( H5Fclose(file_id) < 0 ) { + + pass = FALSE; + failure_mssg = "H5Fclose() failed.\n"; + + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 9) Attempt to open the file with SWMR write access -- should fail. */ + + attempt_swmr_open_hdf5_file(/* create_file */ FALSE, + /* set_mdci_fapl */ TRUE, + /* hdf_file_name */ filename); + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + /* 10) Discard the file if necessary. */ + + if ( pass ) { + + if ( HDremove(filename) < 0 ) { + + pass = FALSE; + failure_mssg = "HDremove() failed.\n"; + } + } + + if ( show_progress ) + HDfprintf(stdout, "%s: cp = %d, pass = %d.\n", fcn_name, cp++, pass); + + + if ( pass ) { PASSED(); } else { H5_FAILED(); } + + if ( ! pass ) + HDfprintf(stdout, "%s: failure_mssg = \"%s\".\n", + FUNC, failure_mssg); + + return !pass; + +} /* cache_image_api_error_check_3() */ + + +/*------------------------------------------------------------------------- + * Function: main + * + * Purpose: Run tests on the cache code contained in H5C.c + * + * Return: Success: + * + * Failure: + * + * Programmer: John Mainzer + * 6/24/04 + * + *------------------------------------------------------------------------- + */ +int +main(void) +{ + unsigned nerrs = 0; + int express_test; + + H5open(); + + express_test = GetTestExpress(); + + printf("=========================================\n"); + printf("Cache image tests\n"); + printf(" express_test = %d\n", express_test); + printf("=========================================\n"); + + nerrs += check_cache_image_ctl_flow_1(); + nerrs += check_cache_image_ctl_flow_2(); + nerrs += check_cache_image_ctl_flow_3(); + nerrs += check_cache_image_ctl_flow_4(); + nerrs += check_cache_image_ctl_flow_5(); + nerrs += check_cache_image_ctl_flow_6(); + + nerrs += cache_image_smoke_check_1(); + nerrs += cache_image_smoke_check_2(); + nerrs += cache_image_smoke_check_3(); + nerrs += cache_image_smoke_check_4(); + nerrs += cache_image_smoke_check_5(); + nerrs += cache_image_smoke_check_6(); + + nerrs += cache_image_api_error_check_1(); + nerrs += cache_image_api_error_check_2(); + nerrs += cache_image_api_error_check_3(); + + return(nerrs > 0); + +} /* main() */ + + |